Revised Project Implementation Plan KWDP-II (Sujala III ...
Transcript of Revised Project Implementation Plan KWDP-II (Sujala III ...
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Revised Project Implementation Plan
KWDP-II (Sujala III) Project
Third Revision
17.04.2017
Karnataka Watershed Development Project II (Sujala-III) Watershed Development Department
(IDA Credit No. 5087-IN)
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ACRONYMS
AET : Actual Evapo-transpirtation AHO : Assistant Horticultural Officer AIR : All India Radio ANTRIX : Antariksha AO : Agricultural Officer APD : Additional Project Director ATMA : Agricultural Technology Management Agency AWS : Automatic Weather Station BMP : Best Management Practices BPL : Below Poverty Line CAS : Country Assistance Strategy CB : Capacity Building CBO : Community Based Organization CEO : Chief Executive Officer CGWB : Central Groundwater Board CN : Concept Note DAHVS : Department of Animal Husbandry and Veterinary Sciences DEM : Digital Elevation Model DL : Digital Library DLC : District Level committee DLRC : District Level Review Committee DMG : Department of Mines and Geology DOA : Department of Agriculture DOAH : Department of Animal Husbandry DOH : Department of Horticulture DPR : Detail Project Report DSS : Decision Support System DWDO : District Watershed Development officer DWDT : District Watershed Development Team EC : Executive committee ED : Executive Director EOI : Expression of Interest ESMF : Environmental Social Management Framework FM : Finance Management FMPC : Finance Management and Procurement Cell FYP : Five Year Plan GIS : Geographic Information System
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GOI : Government of India GOK : Government of Karnataka GP : Grama Panchayat HD : Horticulture Department HOPCOMS : Horticulture Producers Cooperative Marketing Society ICAR : Indian Council of Agricultural Research ICRISAT : International Crops Research Institute for Semi-Arid Tropics ICT : Information Communication Tools IDA : International Development Association IIHR : Indian Institute of Horticultural Research IISc : Indian Institute of Science INM : Integrated Nutrient Management IPM : Integrated Pest Management ISO : International Organization for Standardization ISRO : Indian Space Research Organization IT : Information Technology IUFR : Interim Unaudited Financial Report IWMP : Integrated Watershed Management Project KSNDMC : Karnataka State Natural Disaster Monitoring centre KSRSAC : Karnataka State Remote Sensing Application Centre KVA&FSW : Karnataka Veterinary, Animal and Fisheries Sciences University KVK : Krishi Vigyan Kendra KWDP : Karnataka Watershed Development Project LCC : Land Capability Class LR : Land Resource LRI : Land Resource Inventory LU : Land Use M&E : Monitoring and Evaluation MEL&D : Monitoring, Evaluation, Learning and Documentation MIS : Management Information System MNREGS : Mahatma Gandhi National Rural Employment Guarantee Scheme MOA : Ministry of Agriculture MOU : Memorandum of Understanding MWs : Micro Watersheds NABARD : National Bank for Agriculture and Rural Development NBSS&LUP : National Bureau of Soil Survey and Land Use Planning NGO : Non-Governmental Organization NHM : National Horticulture Mission
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NRAA : National Rainfed Area Authority NRM : Natural Resource Management OGC : Open Geo Consortium PDO : Project Development Objective PEC : Project Empowered Committee PET : Potential Evapo-transpiration PIA PMKSY
: Project Implementation Agency Prime Minister Krishi Sinchayee Yojana
PMSC : Project Management Support Cell PPA : Pre Project Activity PPMU : Project Planning and Management Unit PRA : Participatory Rural Appraisal PTC : Project Technical Cell R&D : Research and Development RDPR : Rural Development and Panchayat Raj RFO : Range Forest Officer RIDF : Rural Infrastructure Development Fund RRSSC : Regional Remote Sensing Service Centre RSK : Raitha Samparka Kendra SATCOM : Satellite Communication SAUs : State Agricultural Universities SC : Scheduled Caste SDLC : Software Development Life Cycle SHG : Self Help Group SLNA : State Level Nodal Agency SLUSI : Soil and Land Use Survey of India SRS : System Requirement Specifications ST : Scheduled Tribe SWS : Sub-Watershed TGA : Total Geographical Area TSP : Total Solution Provider TWDO : Taluk watershed Development officer TWDT : Taluk Watershed Development Team UG : User Group UHS : University of Horticultural Science UK : United Kingdom WA : Watershed Assistant WAP : Watershed Action Plan WB : World Bank
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WC : Watershed Committee WCDC : Watershed Cell cum Data Centre WDD : Watershed Development Department WMDSS : Watershed Management Decision Support System ZP : Zilla Panchayat ZREAC : Zonal Research and Extension Advisory Council
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CONTENTS
Particulars Page No
Chapter-I 1 Introduction 1
1.1 Lessons learnt in KWDP -I Sujala-I 2 1.2 Project Districts 4 1.3 Project Location and Beneficiaries 4 1.4 Project Approach 4 1.5 Implementation support 5 1.6 Key Focus Areas of the Project 5 1.7 Project Development Objective (PDO) 5 1.8 The project phasing and links with PMKSY-IWMP and M NREGS 6
Chapter-II 2 Pre Project Studies under taken under the KWDP-II (SUJALA-III)
2.1 Comprehensive Base line Survey of the project districts 9 2.2 Social Assessment Study 12 2.3 Environmental Assessment 14
Chapter-III 3 Implementation Arrangements
3.1 Project Implementing Agency 23 3.2 Institution / Project Partners with Roles 23 3.3 Collaboration with other Agencies 27 3.4 Project Empowered Committee (PEC) 28 3.5 Project Planning and Management Unit (PPMU) 28 3.6 Project Technical Cell (PTC) 29 3.7 Finance Management and Procurement Cell (FMPC) 29 3.8 Research and Extension Cell (REC) 29 3.9 Research Advisory Group 29
3.10 Partners, District, Taluk and Watershed level institutions 29 Chapter-IV 4 Project Components and its implementation
4.1 Component 1: Support for Improved Programme Integration in Rainfed Areas
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4.1.1 Development of Digital Spatial-Data Library 31 4.1.2 Land Resource Inventory and GIS Database 32 4.1.3 Restructuring 36 4.1.4 Expansion of LRI 36 4.1.5 Action plan for covering 1931 micro watersheds 39 4.1.6 Community Inter-phasing 40
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Particulars Page No
4.1.7 Roles & Responsibilities 42 4.1.8 Relevance and utility of the database 44 4.1.9 Establishment and Maintenance of Digital Library 45
4.1.10 Establishment of Land Resources Portal (LR Portal) 48 4.1.11 Developing and piloting new Decision Support System (DSS) 50 4.1.12 Thematic outputs needed 54
4.2 Component 2: Research, Development and Innovation 4.2.1 Research for integrated land management and agricultural intensification 58 4.2.2 Integrated Hydrological Assessment and Monitoring 65 4.2.3 Technology transfer 72 4.2.4 Pilot demonstrations on watershed treatments (Saturation) 73 4.2.5 Pilot Demonstration of Water Harvesting and Production technologies 82
4.3 Component – 3: Institutional Strengthening-Capacity Building
4.3.1 Responsibilities of the partners in Capacity Building activities 84 4.3.2 Training Material and Tools for CB Activities 86 4.3.3 Infrastructure development 103
4.4 Component 4: Strengthening Horticulture in Rainfed Areas 104
4.4.1 Extension and Demonstration for Productivity improvement 105 4.4.2 Soil and Crop Monitoring 109 4.4.3 Post Harvest Management 100 4.4.4 Strengthening of Market Linkages 112
4.5 Component 5: Project Management and Coordination
4.5.1 Sub-component 5.1 Project management and coordination 114 4.5.2 Sub-component 5.2 Financial management and procurement 117 4.5.3 Sub-component 5.3 Project monitoring and evaluation 122 4.5.4 Sub-component 5.4 Intensive monitoring and documentation at local level 126
Chapter V
5 Right to Information Act (RTI) 5.1 Grievances Redressal 130
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LIST OF ANNEXURE
Particulars PageNo.
Annexure – I : Agro Climate Zone Characteristics of Project Districts 132
Annexure – II : Need for Land Resource Inventory 132
Annexure - III : Model Cost Table 135
Annexure – IV : Prime Minister Krishi Sinchayee Yojana 137
Annexure – V : Decision Support System 140
Annexure – VI : Detailed Project Report and Preparation of Net Plan in IWMP 142
Annexure – VII: Restructured - Result Framework and Monitoring indicators 144
Annexure – VIII: Socio economic studies 150
Annexure – IX: DPR format 166
Annexure – X: List of NGO’s 167
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LIST OF FIGURES
Particulars Page No
1 Sujala-III Project districts. 3
2 Organogram - Overall Project Management 27
3 Operational area (districts) for LRI project partners 41
4 Schematic diagram indicating flow of datasets from different sources to the DL 46
5 Configuration of Digital Library 47
6 Deliverables from Land Resources Portal 49
7 From Land Resource Inventory to Land Use Planning 50
8 Typical Workflow of WMDSS 53
9 Integrated participatory approach in establishing the hydrological monitoring network
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10 New Planning Process 81
11 Schematic Diagram of RTI Structure 128
12 RTI Process Diagram 129
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Chapter-I
1.0 Introduction Based on the lessons learnt from the implementation of various watershed development programmes in the State, particularly of Sujala - I and Sujala - II series, and to provide tools and techniques that can strengthen site-specific planning and implementation of targeted soil and water conservation, crop selection and livelihood interventions at farm level, Watershed Development Department with the support from the World Bank has formulated the Karnataka Watershed Development Project-II (KWDP-II), popularly known as Sujala-III project (Su: is Good, Jala: is water) in the state. The earlier World Bank assisted Sujala I was implemented in 6 Districts (Chitradurga, Kolara, Tumkur, Dharwad, Haveri and Chikkaballapura) during 2002 to 2009, the NABARD (RIDF) assisted Sujala II project was implemented in 6 Districts during 2008 to 2014 and the Sujala III is implemented in 11 project districts in the state from 2013 to 2018.
Sujala- III project will address the following three important areas:
• Integrating watershed development with all other land-based research and developmental programmes. This would help rainfed farmers access a range of information tools, adopt innovations and diversify crop, horticulture and livestock production and improve the value chain through Best Management Practices within their particular farming systems.
• Better understanding of hydrological dynamics for scientific management of water and quantification of upstream and downstream effects of watershed interventions to enable better targeted interventions to address surface and groundwater management issues and minimise negative externalities.
• To develop science-based land and water management practices for effective convergence of the PMKSY-IWMP approach with soil and water conservation programmes. This will enable Gram Panchayats (GP), communities and policy makers to adopt scientific strategies to tackle local problems and livelihood issues through a robust Decision Support System.
Such interventions have so far not been a part of planned watershed development, although some provisions for convergence into Watershed Net Plans exist. The Watershed Development Department in Karnataka is well-positioned to pilot such an approach by building on the success of the earlier Bank-supported Karnataka Watershed Development Project I (KWDP -I) (Sujala-I).
1.1 Lessons learnt in KWDP-I Sujala-I:
Combining watershed and livelihoods interventions to establish quality economic benefits.
Knowledge of the hydrological behaviour of micro and macro-watersheds is essential for effective management of the scarce water-resource.
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The participatory approaches adopted in Sujala-I for conservation and management of natural resources helped to improved productivity and livelihoods.
Concurrent monitoring and evaluation enable improvements in the implementation of the project for success.
Empowerment of lead farmers as local champions for future leadership encourages farmers to adopt improved technologies.
In the backdrop of the range of lessons learnt, the proposed project design has been evolved into a model that complements the ongoing PMKSY-IWMP through technical support and facilitates convergence between PMKSY-IWMP and the activities and programmes of line departments.
The KWDP-II (SUJALA-III) - project’s success depends on development of an effective model for convergent-implementation-plan which would contribute to sustainable improvements in conserving the productivity of natural resources and livelihoods of small farmers in rainfed areas, while improving the effectiveness of public expenditure.
1.2 Project Districts
Karnataka Watershed Development Project II (SUJALA-III) was to be implemented over a period of six years and as a part of the centrally financed PMKSY-IWMP planned for the selected 7 project districts, namely Bidar, Gulbarga, Yadgir, Gadag, Koppal, Davangere and Chamarajanagar, and subsequently 4 CGIAR districts viz Tumkur, Bijapur, Raichur and Chikkamagalur were also added (Fig 1). The Agro Climatic characteristics of Project districts are furnished in Annexure – I * PMKSY-IWMP is an ongoing GOI programme that supports participatory watershed management, preparation of soil and water conservation “net plans”, production systems and micro-enterprises, livelihood development through Self-Help Groups, and monitoring and evaluation of implementation and impacts.
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Fig 1 Sujala-III Project districts
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1.3 Project Location and Beneficiaries:
Project’s Name Karnataka Watershed Development Project - KWDP-II (SUJALA - III)
Project Period April 2013 – Dec 2018 - Six Years
Project Cost Rs in Crores GoK
(30%) World Bank
(70%) Total
As per PAD 141.39 329.91 471.30 Revised on Sept. 14# 154.25 359.19 514.17 Revised on May15* 154.30 360.00 514.35 Revised on Nov 16** 158.29 369.36 527.65
# Due to dollar appreciation * Within project components the amount was re allotted ** Due to slow progress and further dollar appreciation Dec 2016 Aid memoire.
Location Eleven districts: Bidar, Gulbarga. Yadgir, Koppal, Gadag, Davanagere, Chamarajanagar, Tumkur, Bijapur, Raichur and Chikkamagalur.
Average Rainfall Between 595 mm and 890 mm over 35 to 43 rainy days. Total Area 1931 MWS covering 9,65,500 ha
(Originally 931 and additional 1000 added during Nov 2016) Farmers Covered 6.22 lakh farmers (9.65 lakh Ha / 1.55 ha avg. holding) Drought Rainfed agriculture covering about 278,000 ha in the project
area, experiences at least two drought years in a five-year cycle due to prolonged dry spells during crop season and/or delayed onset of the monsoon
The KWDP-II aims to increase the productivity of natural resources through scientific management of 1931 MWS in an area of 9.65 la ha. 1.4 Project Approach
Three key pillars of the World Bank’s Countries Assistance Strategy (CAS) for India are:
• Helping to achieve rapid inclusive growth and poverty reduction in rainfed areas through improved agricultural productivity and rural livelihoods;
• Ensuring sustainable development through improved natural resource management (especially water), with resilience to climate change; and
• Increasing the effectiveness of service delivery, by covering integrated watershed management with other development programmes adopting science-based approaches.
The project targets convergence of scientific knowledge generated through Land Resources Inventory (LRI) and R&D innovations in crop production and watershed
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management and strengthening of institutional capacities to enhance productivity of natural resources. The project involves the landscape-analysis approach for development of knowledge base and design of decision tools to promote watershed participatory planning by integrating programmes related to Agriculture, Horticulture, Forestry, Animal Husbandry and Fisheries and Groundwater activities along with PMKSY-IWMP for land development and NRM under Environment Social Management Framework (ESMF).
1.5 Implementation support Implementation support will focus on the generation of site specific land resources database supported by need based research and development, adoptive trials for demonstration and incorporation of these ideas in watershed operations. Capacity building activities will also be reviewed, especially those designed to strengthen agricultural extension service delivery. Other key areas of focus for implementation support will be integration of sectoral development programmes and broader programme convergence with soil and water conservation operations, resulting in improved PMKSY-IWMP planning through integrated participatory planning.
1.6 Key Focus Areas of the Project
KWDP-II (SUJALA-III) project will address following key areas:
• Improving the integration of watershed development, agricultural programmes, and related research. This will help small farmers to take up innovations and key schemes, have better access to a range of information tools and support mechanisms, improve value addition, and diversify crop, horticulture and livestock productivity within their particular farming systems.
• Better understanding of hydrological dynamics based on good science and integrated into watershed plans. This will help in better targeted interventions.
• Augmenting the capacity of the community as well as local institutions to effectively integrate watershed interventions, to address correct positioning of structures, and to ensure technical quality.
• Shifting the approach of Gram Panchayat (GP) members and communities towards science-based land management, and linking them into planning tools.
1.7 Project Development Objective (PDO): The proposed Project Development Objective (PDO) is to demonstrate more effective watershed management through greater integration of programmes related to rainfed agriculture, innovative and science-based approaches, and strengthened institutions and capacities.
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1.8 The project phasing:
Year 1 : (2013-14) The Project was initiated by obtaining enabling Govt. Orders constituting Project Empowerment Committee (PEC) and Project Planning and Monitoring Unit (PPMU) along with Project Technical Cell (PTC), Research and Extension Cell (REC) and Financial Management and Procurement Cell (FMPC).
The process for selecting appropriate and competent institutional partners began through formation of Terms of reference and selection of various institutes was completed.
NBSS&LUP was selected as a lead partner for carrying out Land resource Inventory works and UAS B, UAS D, UAS R, UHS B and UAHS Shimoga were entrusted with LRI, Socio-economic survey, Hydrology, ATLAS and assist in preparing Micro watershed plans. IISc was selected as Lead partner for guiding the partners in Advance monitoring of Hydrological partners in selected 14 micro model micro watersheds. Bangalore University was selected as a lead agency for undertaking Hydrologeological studies in all the watersheds and guiding the LRI partners in gathering Hydrological data. KVAFSU was entrusted with the responsibility of monitoring the Livestock and assisting in incorporating integrated farming technologies in the DPR. KSDMC is entrusted with responsibility of establishing and managing the weather stations in the project area besides assisting the partners in developing weather advisories and DSS modules. KSRSAC is to supply the toposheets, different types of satellite imageries and assisting the LRI partners in developing digital evaluation model of selected watersheds.
Year 2 : (2014-15) ICRISAT is selected as 12th partner for assisting in developing ICB document for establishment for DL, DSS and portal, capacity building, holistic demonstration of impact of watershed treatments.
After signing the MoUs / Contract, funds were released for initiation of project activities. These institutional partners were sensitised about the project and its objectives and given intensive training at various levels. Micro watersheds of Batch IV, V and VI (931 MCs) were allotted for initiating LRI and related works. By the time the Inventory began, Implementation of IWMP project has also started and hence Batch IV was dropped and Inventory in Batch V and VI (698 MCs) began with training to Field staff of LRI partners by NBSS&LUP. Action was initiated to procure various services and equipment. Land Resource Inventory Field work picked up the momentum after initial hiccups and the KVAFSU has initiated studies on Live stock and integrated farming. IISc procured and installed advanced Hydrological
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monitoring systems at Gundlupet. Similar equipment procured and installed in other 14 model MCs for advanced hydrological studies. Various trainings were conducted by World bank, NBSS&LUP, IISc, WDD etc., for the project partners in LRI, Hydrological studies, Procurement and Financial management etc.,.
Year 3 : (2015-16) IISWC is given the role of technical monitoring and evaluation of the implementation of the project.
Installation of Automatic tele-weather monitoring stations at 179 MCs were completed, Advanced Hydrological monitoring systems were commissioned. The ongoing LRI field and lab works were given maximum thrust to complete the targets within the scheduled time. Data collection on socio economic aspects and livestock was initiated. Initiation of new activities like demonstration of watershed treatments Saturation, Periurban watershed treatment and demonstration of new production technologies were added to accommodate for increased dollar exchange value by the World Bank mission during Oct, 2015 Mission. Various trainings were conducted by World bank, NBSS&LUP, IISc, WDD etc., for the project partners in LRI, Hydrological studies, Procurement and Financial management etc., Farmers and departmental officials were sent on exposure visits to sites of interest identified by World Bank with in the country under capacity building activities.
Year 4 :
(2016-17) Field work on LRI was completed in 698 MCs, generation of atlases, and classification of watershed in to management group was in progress. Different theme maps were developed. Various outputs from LRI, Hydrologyical studies, Socio-economic study Weather parameters and Live stock censes data were pooled to evolve an integrated watershed management plan. Based on the various outputs, steps for preparation of DPRs for saturation of watersheds were initiated in Harve sub watershed in Chamrajnagar district, Hebburu in Tumkur, Raipalli in Bidar and Bedwati in Koppal districts for demonstration of Saturation of watershed treatments. IISWC, Bellary was added as a new partner for Technical monitoring. Expansion of LRI co-terminus with PMKSY covering entire taluk was initiated and 12 taluks were identified and orders issued to take up LRI in 3187 MCs in all. Subsequently, the expansion was toned down to 1931 MCs in selected taluks restricting to the project ending i.e. Dec, 2018. Various trainings were conducted by NBSS&LUP, IISc for the project partners in LRI and
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Year 5 :
Hydrological studies. Farmers and departmental officials were sent on exposure visits to sites of interest identified by World Bank with in the country under capacity building activities. Various trainings were conducted by World bank, NBSS&LUP, IISc, WDD etc., for the project partners in LRI, Hydrological studies, Procurement and Financial management etc., Farmers and departmental officials were sent on exposure visits to sites of interest identified by World Bank with in the country under capacity building activities.. Bangalore University selected as a lead agency for undertaking Hydrologeological studies was dropped owing to non performance. The additional activity proposed “Peri-urban watershed treatment” was dropped during Mid Term review mission. The ICB document for inviting RFP to DL, DSS and Portal has been finalised. (2017-18) Tender was invited for establishment of DL, DSS and Portal under ICB. It is proposed to initiate the demonstration of saturation treatment of watersheds, LRI in 1931 MCs and commissioning of DL, Portal and DSS along with Disaster recovery mechanism. Hand holding for WDD and Partners to carry further modules of DSS, extending the utility of the LRI data to other line departments etc.
Year 6 : (Dec-2018) completion of the demonstration of saturation treatment of watersheds, LRI in 1931 MCs and commissioning of DL, Portal and DSS along with Disaster recovery mechanism. Hand holding for WDD and Partners to carry further modules of DSS, extending the utility of the LRI data to other line departments etc Consolidation and withdrawal from project sites.
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Chapter-II
Pre Project Studies under the KWDP-II (SUJALA-III) (Disclosed in WDD website www.watershed.kar.nic.in)
The WDD initiated Baseline, Social Assessment and Environmental Assessment studies. The study reports submitted by the different agencies have made several observations and recommendations to be considered by the project authorities. The said reports are reviewed by the PIA-WDD, and suitable recommendations and observations are considered for drafting implementation concept note and details are given below;
2.1 Comprehensive Base line Survey of the project districts:
Objectives and Scope of Base line Survey; • The broad objectives of the baseline study under SUJALA-III considered are to
ascertain the current status of the poor rural households in the 7 Project Districts (Bidar, Chamarajnagar, Davangere, Gadag, Gulbarga, Koppal & Yadgir) in terms of their resources, skills, livelihoods, assets and to identify the factors affecting their current status.
• To establish benchmarks against which project progress will be measured,
• To generate and develop an information base pertaining to socio-economic profile of targeted households and villages,
• To reflect on power dynamics structure pre-existent in the target areas, and risks which are likely to be faced by the project; also suggest mitigation strategies for the risks identified.
• To map the availability and concentration of developmental agencies and inputs in the project districts, while analysing their socio-economic profiles.
Introduction - Base line Survey; The area under dry land agriculture is prone to periodic droughts, severe soil erosion due to erratic rainfall, and depleting groundwater are hindering agricultural productivity in Karnataka. Sujala Watershed Development Project (Sujala I), implemented by the Watershed Development Department, established a model for the participatory integrated Watershed Development. Sujala was a community-driven watershed development project implemented over 2001-2009. The current project - Karnataka Watershed Development Project II (Sujala III) – aims to build on the success of Sujala I by involving all stakeholders. However, as a pre-requisite to this process this study is undertaken to identify the Stakeholders – individuals or agencies who can impact and/or who can get impacted by the project - and to map their expectations as well as issues.
Methodology followed - Base line Survey Methodology followed is analysis of primary data followed by baseline indicators matrix development, of the information collected from State, District, Taluk Offices, including survey by the investigators of the agency.
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Although several indicators are considered for study, only data for few selected indicators applicable to the seven project districts are given in the following Table
Table: Baseline Indicators (all figs in % of households unless stated)
Sl. No Indicator Bidar
Chamrajnaga
r
Davangere Gadag Gulbarga Koppal Yadgir
Coverage (Talukas) 4 3 4 2 7 4 3
No. of households sampled 1750 1450 1650 1350 3600 1650 1500
1 Owning Land 46.1 61.7 63.6 51.6 59.8 67.7 63.32 Land Holding Size Landless (Nil) 5.1 6.5 6.6 6.8 8.8 8.1 9.3 Small (0 to 2 acre) 53.9 38.3 36.4 48.4 40.3 32.3 36.7
Marginal (2 to 4
acre) 15.4 21.9 25.2 17.3 18.9 20.4 21.5
Medium (4 to 8
acre) 8.1 8.9 12.1 9.3 10.6 13.5 12.1
Big (> 8 acre) 17.5 24.4 19.8 18.2 21.4 25.8
20.3
3 Water Harvesting Structures
Farm Bunds 0.1 0.3 10.4 4.3 14.9 27.6 0.4 Contour Bunds 0 0.1 0.1 0 13.7 7.2 0.2 Ponds 0 1.4 2.8 8.4 21.8 32.7 0.3 Stone/Earth dams 0.1 0.1 0.6 1.3 3.4 9.5 0 Check dams 0.1 0.1 0 2 3.2 1.4 1.4 Diversion Dams 0.7 0.3 0.8 0.4 3.3 4 1.7
4 Migration (overall) 5.7 5.4 6.4 6 6.3 20.2 14.9
5 Migration (category wise)
SC 7 7 12 9 7 22 18 ST 4 5 4 5 15 24 25 BC 5 17 4 9 5 19 9 Others 6 2 2 3 4 18 136 Annual Income <Rs. 20,000 44.2 40.8 23.3 33.9 43.9 115.5 72.9 Rs.20,000 - 50,000 41.1 41.7 41.3 31.6 39.7 35.2 24.1
Rs. 50,000 -1,00,000 12.7 14.1 22.2 26.1 13.1 36.7 2.5
>Rs. 1,00,000 2 3.4 13.2 8.4 3.3 12.5 0.6
7 Annual Income Sources
Agriculture 17.8 31.2 29.7 20.2 16.4 29.5 25.4 Labour 17.9 16.5 10 15.4 12 19.3 16.1 Trade 7.5 12.9 24.8 15.3 11.2 13 24.6
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Sl. No Indicator Bidar
Chamrajnaga
r
Davangere Gadag Gulbarga Koppal Yadgir
8 MGNREGS
9 %households involved 14 22.7 15.2 35.4 25.6 54.6 15.7
10 Beneficiaries by Ration Card Type
BPL 13 17 22 37 26 52 15 Antyodaya 26 10 22 35 36 77 18 APL 11 11 28 27 19 59 16
11 Utilization of Subsidy Schemes
11a Households Utilizing 0.4 2.28 2.85 4.52 0.4 4.2 1.4
11b Category wise SC 0 4 3 6 1 5 4 ST 0.3 1 4 5 0.2 2 0 BC 1 5 4 5 0 4 1 Others 0.3 1 2 3 0 5 0.3
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Households dependent exclusively on Agriculture 10 23 23 15 14 5 18
13 Having own Land % 46.1 61.7 63.6 51.6 59.8 67.7 63.3
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Milk Yield per milch animal (Ltrs/Yr)* 97 115 117 273 127 274 83
* computed based on average figures Key Observations of the Base line Survey;
The key observations arrived from the data analysis are;
• Most of the farmers do not have water harvesting structures in their land to conserve rain water, which is essential for improving farm productivity.
• Only a few households have permanent house structures, with a higher percentage of households residing in temporary/semi-permanent structures.
• In most of the sub-watershed areas, the households rely on firewood and other fuels for their cooking needs, thus impacting the ecology adversely.
• Since there are no toilet facilities either at the household or community level, there is a possibility for the spread of contagious diseases from open defecation.
• Most of the households do not give importance to nutritious food and, therefore, give least priority for expenditure on food.
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• In the sub watershed areas, more farmers depend on traditional agricultural equipment & practices, and prefer organic pesticides to chemical pesticides, which is a positive and encouraging trend in the agricultural practices. However, one of the disturbing trends is that the farmers are more dependent on hybrid seeds than using indigenous ones, and, if this trend continues, there is every possibility of the latter becoming extinct.
• In most of the sub-watershed areas, the households depend more on micro finance institutions and money-lenders for borrowing. Since the rate of interest charged is high, it leads to distress sale of assets.
• Most of the household income is spent on non-productive purposes like marriages and festivals and they give less priority to child education, food consumption, etc.
• The benefits from the Government of India’s flagship poverty alleviation programme, Mahatma Gandhi National Rural Employment Guarantee Scheme (MGNREGS), which seeks to create income-generating assets at the local level through community involvement, rarely manage to reach the target groups.
• Most of the marginalized households interviewed were not often aware of the existence of the various government-initiated poverty alleviation programmes / schemes and the SC/ST households have not benefitted much from such initiatives.
• The cattle population appears to be on a declining trend, this can mostly be attributed to severe drought conditions which affect the project districts almost every year. Due to this, milk production is less compared to the state average.
• Due to lack of proper rainwater management structures, the agricultural output is way below the state average, if properly augmented, there can be multiple crops grown in the same land as also for more than one season to increase production.
2.2 Social Assessment Study:
Objectives;
Main objectives considered for the Social Assessment study are:
• To carry out a socio-economic, cultural and political/institutional analysis to identify potential social impacts of the proposed development of the project;
• To identify principal stakeholders, carry out consultations that are well documented and develop institutional framework for transparent and participatory implementation;
• Screen the proposed investment and assess whether there will be any adverse social impacts and to determine the applicability of policies relating to involuntary resettlement and Indigenous Peoples policies, and,
• To ensure that results of the SA provide inputs for participatory implementation.
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Social assessment (SA) in the seven project districts ensures that development initiatives contribute to inclusive development and poverty reduction. It is an approach for incorporating social analyses and participatory processes into project design and implementation. SA helps to make the project responsive to social development concerns including seeking to enhance benefits for the poor and vulnerable people while minimizing or mitigating risks and adverse impacts.
The following tasks were undertaken during Social Assessment
Beneficiary Assessment; Stakeholder Analysis; Impact Assessments; Safeguards Analysis; Risks Analysis; Designing Participatory Framework; Human and Institutional Development; Monitoring and Evaluation; Scope for Financial Participation by Beneficiaries; Assessing the Legislative and Regulatory Considerations.
The findings of Social Assessment Study are as given below;
• Boundary issues are likely to crop up while implementing private land development activities such as bunding and plantations.
• Convergence evokes mixed reaction from stakeholders. Therefore a detailed convergence policy is needed (under preparation).
• The issue of what is the right or desirable mix of common land treatment and private land treatment in a given location needs to be addressed.
• Due to high fluoride content in groundwater, people in several watershed locations of Yadgir, Koppal, Gadag and Gulbarga districts suffer from fluorosis. They expect that watershed development activities would mitigate the incidence.
Findings of the Social Assessment study;
The findings of the Social Assessment study reveal that the overall impacts would be positive but issues related to equity need closer attention. As per the report, the Social Assessment enquiry has identified the following points as key social development issues/ principles which should underpin the project’s strategy and implementation, accordingly following steps are considered for implementation under project implementation plan (PIP);
• Participation and inclusion is the central point in the design of the project.
• The PMKSY-IWMP of WDD aims to assist for mobilizing individuals and institutions at different levels: from community to state level;
• Project would be implemented on Integration and Convergence policy design to protect the interest of all the project stakeholders while developing the Watershed Project area on a science based plat form.
• Sector related institutions would be either strengthened or established, at different levels with explicit capacity, composition and a definite mandate, with strong emphasis on accountability and service delivery performance;
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• An Information, Education and Communication (IEC) campaign would be implemented by: publicizing the project rules for open engagement of partners; establishing a communication platform; and an easily accessible digital library.
Therefore, no Social Safeguard Policies are triggered for the focused action. Further,
Given the shift in project design from an investment to technical assistance focus, the investments no longer have any direct bearing on the Bank's Social Safeguard Policies - Resettlement and Lands.
No lands are to be acquired for any of the proposed activities, nor any impacts on the tribals expected.
2.3 Environmental Assessment
Environmental Assessment and Management Frame work (EMF): Environmental Management Frame Work (EMF) mainly comprises the following tasks;
• Understanding the project area with respect to the Environmental Situations existing;
• Analysis of the existing Environmental Situations and Identifying the sensitive areas which needs attention under the prevailing legal frame work;
• Understanding expected Positive and Negative Impacts due to intervention of several activities under different components;
• Assigning responsibilities to different stakeholders/Project players for Enhancing Positive impacts and Mitigation of Negative impacts for assuring safety through the safeguard measures to the society and the delicate environment.
• Developing and Implementation of Capacity Building Activities to the project stakeholders/Project players at different levels for Environmental Management.
Objectives;
The specific objectives of the EMF are;
a) To provide a systematic approach for identifying various possible environmental impacts at different stages of the project cycle,
b) To identify appropriate mitigation measures against the identified environmental impacts and
c) To devise an institutional arrangement for mainstreaming environmental management into the project implementation processes.
Introduction Over view of the KWDP-II (Sujala-III) reveals that the project design does not result in any adverse environmental impacts and leads to enhancement of positive environmental impacts. KWDP-I of GOK has prepared a detailed EMF and implemented the model.
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However, the study agency has provided the Environmental Assessment Report of the proposed project districts and the EMF has been prepared based on a detailed; a) Environmental Assessment, b) Stakeholder Consultations and c) Baseline Assessment.
Review: Review of available literature, visiting the project area and consulting the respective DWDO and other line departments to establish the baseline conditions in terms of physical and biological environment conditions in the proposed project area is done. Data on key parameters such as hydrological conditions of the watershed, status of natural resource management, land use pattern within the watershed, etc. are collected. Based on the information collected the positive and negative environmental impacts are identified.
Project stakeholders Consultation: The project stakeholder’s consultations were held to delineate the appropriate boundaries of the environmental assessment and to screen potential adverse environmental issues. Feedback on the expected environmental issues related to the project impacts and suggested mitigation measures was also received.
Study data Analysis
The important environmental issues identified: Through stakeholder consultations in the project districts following summarized environmental issues are identified as listed below.
Parameter Area Situation Land Related
Forest cover Depleting Natural Resource Base
Poor vegetation in forests Degradation of forests due to anthropogenic activities Land Degradation
Soils Related
Soil fertility Siltation of tanks Soil Erosion
Low water holding capacity of soils High to moderate erodability of soil
Water Related
Groundwater levels Water Availability
Erratic and low rainfall Small and non perennial streams Water Quality Inadequate Sanitation
Livestock Related Fodder Fuel wood
(report not given details)
By knowing the expected Positive and Negative environmental Impacts due to project interventions under different components; Review and evaluation of the KWDP-II components was done from the point of view of the World Bank’s Safeguard policies for identification of potential environmental issues in terms of their nature, magnitude, extent and location and timing and duration.
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Table: The World Bank Safeguard Policies, Key Features and their Applicability.
Policy Key Features Applicability to this project
OP/BP 4.01 Environmental Assessment
Potential environmental consequences of projects identified early in project cycle.
EAs and mitigation plans required for projects with significant environmental impacts or involuntary resettlement.
EAs should include analysis of alternative designs and sites, or consideration of "no option"
Requires public participation and information disclosure before Board approval.
Applicable.
To identify any potential impacts and proposed mitigation/ enhancement measures to address likely impacts.
OP/BP 4.04 Natural Habitats
Prohibits financing of projects involving "significant conversion of natural habitats unless there are no feasible alternatives".
Requires environmental cost benefit analysis.
Requires EA with mitigation measures.
Not Applicable.
The schemes to be taken up under the project would not convert or degrade natural habitats.
However, assessment procedures and mitigation measures have been put into place through the EMF so that any likely negative impacts on the natural environment are minimized.
OP/BP 4.36 Forestry
Prohibits financing for commercial logging operations or acquisition of equipment for use in primary moist tropical forests.
Not Applicable. Proposed investments do not have any impact on forest habitats under the project areas.
OP 4.09 Pest Management
Supports environmentally sound pest management, including integrated pest management, but does not prohibit the use of highly hazardous pesticides.
Pest management is the borrower's responsibility in the context of a project's EA.
Not Applicable.
Project is not financing procurement of any pesticides.
OP/BP 4.12 Involuntary Resettlement
Implemented in projects which displace people.
Requires public participation in
Not Applicable.
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Policy Key Features Applicability to this project
resettlement planning as part of EA for project.
Intended to restore or improve income earning capacity of displaced populations.
OP/BP 4.20 Indigenous Peoples
Purpose is to ensure indigenous peoples benefit from Bank financed development and to avoid or mitigate adverse effects on indigenous peoples.
Applies to projects that might affect indigenous peoples or when they are targeted beneficiaries.
Requires participation of indigenous peoples in creation of “indigenous peoples development plans”.
Not Applicable.
OP/BP 4.11 Physical Cultural Resources
Purpose is to assist in the preservation of cultural property, such as sites having archeological, paleontological, historical, religious and unique cultural values.
Generally seeks to assist in their preservation and avoid their elimination.
Discourages financing of projects that will damage cultural property.
Not Applicable.
OP/BP 4.37 Safety of Dams
Applies to large dams (15 meters or more in height).
Requires review by independent experts throughout project cycle.
Requires preparation of EA and detailed plans for construction and operation, and periodic inspection by the Bank.
Not Applicable.
OP/BP 7.50 Projects on International Waterways
Covers riparian waterways that form boundary between two or more states, as well as any bay, gulf, strait or channel bordered by two or more states.
Applies to dams, irrigation, flood control, navigation, water, sewage and industrial projects.
Requires notification, agreement between
Not Applicable.
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Policy Key Features Applicability to this project
states, detailed maps, and feasibility surveys.
OP/BP 7.60 Projects in Disputed Areas
Applies to projects where there are territorial disputes present.
Allows Bank to proceed if governments agree to go forward without prejudice to claims.
Requires early identification of territorial disputes and descriptions in all Bank documentation.
Not Applicable.
Note: Other World Bank Policies important to Environmental Concerns is the BP 17.50. This policy deals with Disclosure of Operational Information. The Bank’s Policy on Disclosure of Information, has been incorporated in the project implementation plan. As part of disclosure plan, the Project would disclose the final environmental assessment report on its website and at the district headquarters, where the project is to be implemented. An executive summary of the environmental assessment would be prepared and translated in the local language and disclosed.
Mitigation measures: Identified adverse environmental impacts were screened for designing mitigation measures and included in the Environmental Management and Monitoring Plan (EMMP). Project will be implemented in accordance with the EMF in a manner satisfactory to the (IDA) Association; including, the mitigation measures set forth therein, in a manner satisfactory to the Association; and by Ensuring that the environmental performance indicators contained in the EMF are updated and monitored regularly, in agreement with the Association. Environment Management Framework highlighting project activities, impacts, and mitigation measures with responsibilities, details would be communicated with a circular for implementation by the PIA-WDD.
Management Arrangements: In view of the above situation, in order to implement the KWDP-II (SUJALA-III) efficiently and to facilitate the end users to be more responsible and responsive, aiming at achieving the watershed development objectives in long run, the project would contract an Environmental Management and Policy Research consultant who will assist the PIA - WDD to oversee the implementation of the EMF
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Risk and Mitigation: The project is not financing any on the ground investments, such as, water and soil conservation works, constructing check dams, erosion prevention structures etc. This minimizes the risks, if any, emanating from Bank’s investments. Project is supporting institutional capacities, use of new and innovative technology for watershed planning and training and capacity building of stakeholders on science and research based findings. The Project’s objective is to improve integration of programs, strengthened institutions related to rainfed agriculture, and a stronger science-based approach supported by new innovations, knowledge and technologies that result in increased productivity of natural resources and incomes for communities in selected watersheds.
KWDP-II (SUJALA-III)’s Views:
Consequent to the project implementation no potential large scale, significant and/or irreversible impacts are anticipated. However, the key environmental challenges that the project addresses are:
Optimal utilization of hydrological resources through improved planning and collection of hydrological data; and
Arrest decline of groundwater and reduce soil erosion.
In order to face the possible challenges effectively, at the district level the DWDO will be overall in charge for the implementation of EMF. DWDO would coordinate with the Environmental Consultant and take appropriate actions to implement provisions of the EMF. At the Taluk level the Agricultural Officer/ADA would be in charge of the implementation of the EMF. These, project players would be suitably capacitated with Workshops/Trainings.
Under Environmental Management Frame work (EMF), the project plan has an approach with measures to enhance the potential positive environmental impacts that the project investments would result in. As part of the project design, new decision-support tools would be developed and piloted to improve selection of priority watershed sites that combine biophysical, hydrological, socio-economic, and environmental criteria. Deployment of such tools is likely to facilitate sustainable utilisation of natural resources, accurate investment plans to improve the natural resource base.
The Detailed Project Report (DPR) prepared as a part of Watershed Assessment and consequent planning process would be screened and scanned by the WDT before it is submitted for approval of the District Level Committee (DLC).
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Training and Capacity Building under EMF and Social Framework;
The objectives of the capacity building initiatives are:
To build and strengthen the capability of Watershed development institutions and other partners (NGOs) to integrate sound environmental management into watershed implementation.
To orient the watershed development staff, participating institutions at watershed level and communities to the requirements of the project’s environmental management framework.
Past experience of Sujala-I and with the implementing experience of ongoing IWMP-Batch-1 & 2, the district and taluk level implementing agencies have clearly gained awareness, skills and experience regarding the environmental aspects of watershed planning and implementation. However, in the new project area project stakeholders have to be trained in a systematic way to build their capacity to safe guard the Environment. Appropriate Modules will be developed under safeguards as detailed below. After assessing the Environmental Management Frame work report and the baseline as well as The Social Assessment study reports the WDD proposes the following comprehensive capacity building arrangements to address the various Social and Environmental issues.
Details of Training Programs to be considered during the project period;
Providing for participation by PRIs through SWS and MWS level institutional platforms
Capacity building of PRIs and securing participation in planning and implementation Establishment of Right of Grievance (RoG) to address issues arising at the MWS & disputes (if any) across different levels. Planning & Designing interventions
New approaches and tools for integrated planning,
Environmental Awareness Management and Monitoring Developing community monitoring training modules for WDT, CBOs and GPs
Developing training modules in Hydrological assessment
Developing Capacity Building Manuals on technology transfer for Extension Agents
Capacity building on usage and utility of LRI for planning. Workshops, trainings and seminars on usage and utility of DL for planning and interpretation watershed institutions including GP and RSK's and line department staff (in situ/SATCOM) Training on Geo-informatics (GIS) (Landscape Technology -Latest development ) Capacity Building for Project staff on Use of Land resources portal Additional training and Technical support for hydrology and stakeholder facilitation.
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Participants: Key officials of the project including TWDT, DWDT, as well as State Level Environmental Experts and District Resource Persons. DWDO of the district will be responsible for selection of suitable candidates for the training, and the expense will be borne by the overall project capacity building budget.
Schedule: The training will include an initial orientation workshop, a main and annual refresher training workshops on environmental assessment. The main and refresher training programs will be for duration of 2-3 days each, whereas the initial orientation workshop will be of one day duration. 10 Training programs will be conducted during the first year and 5 refresher programs per year will be conducted for the next 4 years. This will total to 30 programs.
Usage: This EMF is prepared for implementation by the WDD in the project area in order to overcome the anticipated adverse impacts of all the direct and indirectly linked infrastructure related activities and prepare enhancement and mitigation measures for implementation. Therefore, the PIA would make good use of this EMF and the good practice guidance note to identify key Environmental issues, as well as plan and implement mitigation and enhancement measures, as and where applicable.
New Legal Requirements & Updation : As and when required, PIA-WDD would update the EMF on any new legal requirements – modification of existing legislation or introduction of new legislation – as and when they are announced or made applicable. PIA-WDD would also ensure that the design, implementation and operation of all its sub-projects are in line with the new legal requirements.
In particular, PIA-WDD would update the chapter on legal requirements as and when required.
Comprehensive EMF Review: PIA-WDD would undertake thorough / comprehensive review of the EMF during the project period. Based on the review, the EMF would be updated if necessary. WDD would undertake this review and revision prior to Sujala-III’s mid-term review by the World Bank.
Supervision and Monitoring Plan: The following provisions are considered and the arrangements would be made for the effective implementation of the EMF with Supervision and Monitoring Plan:
Environmental supervision: A sample of 10% of the completed schemes will be visited at six monthly intervals by the WDT to check if all safeguard requirements are met and to identify any issues that need to be addressed. The selected sample will have representation of both Phase- I and Phase-II project area. However, internal environmental monitoring will be done as part of the regular monitoring by the WDD.
Monitoring of Relevant Environmental Parameters
The M&E process to be initiated in by the project will also monitor and prepare a report of the environmental situation in the project districts including data and analysis of relevant parameters such as rainfall, depth to water levels, status of groundwater basins, soil erosion, etc., as well as a listing of relevant new legislation and regulations that have
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a bearing on the environmental performance of the project. The EMF will be suitably revised annually on the basis of situation and data availability.
Environmental Audit Twice during the project period; mid-term and end-term; the WDD will appoint an external agency to undertake an independent audit of the environmental performance of the project. 5% of the completed micro watersheds will be covered in the audit.
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Chapter-III
Implementation Arrangements
3.1 Project Implementing Agency: Though both the WDD and DoH were designated as implementing agencies in the beginning of the project, during the WB mission visit in Nov 2016, WDD is declared to be responsible for ensuring that the project development objectives are met. The Department of Horticulture is vested with implementation of Horticultural component. 3.2 Institution / Project Partners with roles The project will be partnering with many State and Central organizations and agencies, involved in research, development and management of natural resources in the State. In this connection, Institutions involved in research and management of the natural resources have been identified as service provider for developing science-based watershed management plans under KWDP II (Sujala III). Their proposed roles and responsibilities are listed below. 3.2.1 State level
Institutions Roles & Responsibilities Project Empowered
Committee (PEC)
1. The PEC shall provide overall guidance on;
Policy, Integration of programmes of various departments and Involving Panchayath Raj Institutions and review & guide the overall annual implementation plan, budgets & disbursements & inter-alia review the overall project implementation progress, Supervise mid-course correction and issue guidelines for smooth implementation of the project.
2. Shall approve procurement of Project goods and other supplies, upto / exceeding INR 2 crores
Project Planning Monitoring Unit (PPMU)
1 Shall take the lead role in • Planning, implementation, quality control
& audit, Monitor project performance in line with the project implementation schedule
• Responsible for inter institutional co-ordination and Technical support to Project districts, Watershed Institutions and Consortium Partners.
2 Shall approve procurement of Project goods,
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equipment, furniture, planting materials, farm inputs, training materials and other supplies, above Rs. 1 crores and below Rs. 2 crores
Watershed Development Department (WDD) /
Horticulture Department (DoH)
WDD / DoH will be the Project Implementing Agencies (PIA) and be responsible for ensuring that the project development objectives are met.
Project Technical Cell (PTC) 1. Shall assist the WDD / PPMU in the day to day technical aspects of project implementation by developing a Road Map for Project implementation and the PERT chart of activities.
2. Shall review the Research proposals and establish working linkages between the various consortium partners, NGOs, RSKs, KVKs.
3. Shall approve procurement of Project goods and other supplies, upto / less than one crore
Financial Management and Procurement Cell (FMPC)
1. Shall work in close co-ordination with PTC and assist in establishing, and monitoring the Finance Management systems, Accounting Policies, Financial Discipline and Internal Control System, assisting in Budgeting & Fund Flow, Monthly Programme Implementation Calendar (MPIC), Annual Action plan etc.,
2. Shall assist in Disbursement Arrangements and IUFRs compilation and reporting and in preparing procurement packages from time to time and RFQ, RFP, EOI and related TORs etc., under the various project components
Research and Extension Cell (REC)
1. Scrutiny and selection of research proposals for funding and monitoring their progress
2. The cell was merged with PTC
Partner (MoU) Roles & Responsibilities National Bureau of Soil Survey and Land Use
Planning (NBSS&LUP)
Lead Agency for Consortium of Institutions of Service Providers. Guiding the Partners in LRI. Establishing Digital Library and Decision Support System.
UAS B , UAS D, UAS R, UHS B and UAHS Shimoga
Providing Technical Inputs for planning and,
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Participatory Research.
Will be associated with NBSS&LUP in Land resource inventory, operationalisation of Digital Library and DSS Establish and operate field, analytical and GIS Labs Training and Extension support
Karnataka Veterinary, Animal & Fisheries Sciences
University (KVA&FSU) Bidar.
Integrated farming, Income generation activity and Participatory Research work.
Karnataka State Natural Disaster Monitoring Centre
(KSNDMC)
Provide weather and climatic parameters for watershed and other areas of the state. Undertake weather analysis for identifying frequency of droughts and evolve plans related to climate smart farming. Provide base for developing contingency plans to overcome weather aberrations.
Indian Institute of Soil and Water Conservation, Bellary
(IISWC)
Technical and Process monitoring
Bangalore University Dropped
Partner (Contract) Roles & Responsibilities Indian Institute of Science
(IISc.) Hydrological studies. Provide input for Hydrology in DSS.
ICRISAT
• Capacity building • Demonstration of productivity enhancement
technologies • Preparing bid document for hiring services of total
solution provider for establishing DL/Portal and DSS and its implementation
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3.2.2 District and Watershed level
Institutions Roles & Responsibilities District Level Committee
(DLC) Scrutiny and approval of DPRs.
Project Implementation Agency (PIA)
Facilitator and Team Leader of the (WDT)
Watershed development teams (WDT)
Technical support and internal monitoring. Technology transfer and Taluk Resource Group. • Guidance and Quality Assurance for all the
Activities of the Project. DATC • Imparting training for the stake holders
• Exposing the trainees to model watersheds Krishi Vigyan Kendras
(KVKs) Provide Technical Inputs and work as knowledge centres particularly in Technology Transfer.
Horticultural Producers Cooperative Marketing Society (HOPCOMS)
Forward & Backward linkages for value chain and marketing support.
Executive Committee EC (Watershed Sangha)
Participatory Plan preparation and Implementation. Ensuring Accountability, Transparency and Quality Checks.
User Groups (UGs)
Participatory Plan preparation and end use of the assets and their maintenance.
Self Help Groups (SHGs)
Participatory Plan preparation Implementation of Livelihood activities.
NGO • Social Mobilisation, Awareness Building through Street plays, Jatha and other extension means.
• Facilitator for coordinating Net Planning, Production Systems and Livelihood Sub-plan preparation.
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The linkages of partners in the KWDP-II (Sujala-III) project are shown in the following Management Organogram.
Figure -2. Organogram-Overall Project Management
3.3 Collaboration with other Agencies There is need for collection of secondary data related to physical, biophysical and socio-economic status of the project area. As this information is held by different organizations at several levels in varying formats and scales, it needs to be collated and brought to the same scale. Hence the following departments / institutions are associated as partners for sharing information.
Agency Responsibilities and Information to be shared Department of
Agriculture (DoA) Convergence of Agricultural Intensification and Technology Transfer as well as crop advisories through various ongoing programmes and Mechanisms, information on crops, cropping patterns and yield.
Department of Horticulture (DoH)
Dovetailing of various ongoing programmes and Mechanisms on Horticultural Intensification and Technology Transfer on areas under horticulture.
Department of Animal Husbandry and
Veterinary Services (DAH&VS)
Incorporation of Animal husbandry programmes in Participatory Micro-plans for watersheds with Details of livestock, breed improvement and diseases.
ICAR Institutions
IWMP • WDT/Local NGOs• GPs, Watershed committees• User groups
NBSS&LUP
PPMU
Agriculture/ Veterinary/Horticulture Universities& IISc
PTCFMPC WDD
MOA: (DoA, DoH, WDD)
Other Departments: Animal Husbandry, Forestry, Mines and Geology, RDPR, KSNDMC etc.,
Component 1. Support forImproved Program
Integration inRainfed Areas
Local extension systems•District Training Centers
• Farmer facilitators and farmer groups, Sanghas
Component 2. Research and Development
Component 3. InstitutionalDevelopment
Component 4. Horticultural
PEC
Project partners
Project cells for advisory and technical support
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Central Ground Water Board
Integration of hydro-geological programmes in the Participatory Micro-plans. Information on groundwater status and functional wells.
Indian Institute of Horticultural Research
(IIHR)
Improved Package of practices, technological inputs and problems and prospects of horticultural crops
3.4 Project Empowered Committee
The Project Empowered Committee (PEC) The PEC at the apex level will guide, monitor and supervise the implementation of the ongoing IWMP. PEC will also guide and monitor the WDD in implementing the KWDP II project through IWMP. The PEC is constituted by the members drawn from line departments, Vice Chancellors of UAS B, UAS D, UAS R, UHS B, Director of ICRISAT and is chaired by the Additional Chief Secretary and Development Commissioner, GOK. The PEC will include the Secretaries of Agriculture, Horticulture, Planning, Finance, Animal Husbandry, Rural Development and Panchayat Raj plus the Additional Principal Chief Conservator of Forests. The PEC will also include the Regional Director, NBSS&LUP, and Directors of KSNDMC and KSRSAC. The Commissioner - WDD will be Member Secretary.
The PEC provides overall guidance on policy aspects relating to watershed development, integration between departments and convergence. The PEC will review progress and shall provide policy guidance. It will also look into mid-course corrections and issue guidelines for smooth implementation of the project. This will complement the ongoing IWMP/ PMKSY responsibility of the PEC to approve the perspective and strategic plan for watershed development on the basis of block and district plans. The PEC will work closely with the SLNA in PMKSY-IWMP acting as a link between the state and the Central Nodal Agency at GOI level for appraisal and clearance of watershed programmes and providing a channel to raise wider policy issues relating to the project. The PTC issues financial and administrative sanctions, organize recruitments and assign works and consultancies as required by the project. It will approve the annual implementation plan, and procurement of goods exceeding Rs. 2.0 crore.
3.5 Project Planning and Management Unit
At the state level, a Project Planning and Management Unit (PPMU) headed by Secretary, Department of Agriculture will supervise the project implementation, the Chairman will be assisted by a full-time Executive Director, who is also the Additional Project Director (APD) Coordination. The members of the PPMU will be the sectoral heads of Agriculture, Forestry, Horticulture and Animal Husbandry in WDD headquarters, Director of Horticulture as well as Director of KSNDMC, Directors of Research of different universities and the Head, NBSS&LUP, Bangalore will be the members. An expert on groundwater will also be a member. The Commissioner, WDD will be the member Secretary.
The PPMU will take the lead role in planning, coordination and monitoring of project performance in line with the existing PMKSY-IWMP implementation schedule, and
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facilitate decision-making for implementation of various components of the project, and be responsible for inter-institutional coordination. It will also ensure that requirements are budgeted, be in charge of all project procurement, manage disbursements, and ensure that project accounts are audited. PPMU will be assisted by PTC and FMPC. It will approve the annual implementation plan and procurement of goods costing above Rs 1.0 crore and below 2.0 crore.
3.6 Project Technical Cell (PTC) established in WDD and consists of experts in hydrogeology, soils, groundwater, agricultural meteorology, agricultural engineering, economics, M&E, GIS/MIS and documentation. This cell will assist the PPMU in dealing with day-to-day technical aspects of the implementation of the project. The PTC will be responsible for coordinating with agencies and universities on technical matters. It will be the unit primarily responsible for overseeing the project M&E and reporting. It will approve the annual implementation plan and procurement of goods up to 1.0 crore.
3.7 Finance Management and Procurement Cell (FMPC) headed by Executive Director / Additional Project Director established in the WDD under the PPMU for financial and procurement control. The Chief Accounts Officer, WDD will be the Member Secretary. Financial management and procurement consultants will be hired on consultancy/staff basis to assist the PPMU in designing, establishing, and monitoring the FM systems, software installation and processes for handling finance and procurement issues under the project. 3.8 Research and Extension Cell (REC): The project had an REC to begin with and the same is dismantled and the task is entrusted to PTC vide G.O No. AGD 213/AML/2015 dated 20.01.2016 in order to avoid multiplicity of committees. 3.9 Research Advisory Group : Similarly, a Research advisory group was proposed in the Project with the responsibility of organising seminars, workshops and brain storming sessions to identify the information gap that surface during the implementation of the project. The group is to identify the appropriate research issues and the institutions to address such information gap. ICAR & IIHR are part of this group and it will review the course of project implementation, technicalities and its utility and application in the field by constituting sub committees if need be.
3.10 Partners, District, Taluk and Watershed level institutions : The roles and responsibilities of the individual partner in the project either taken by MoU / contract and also that of District level institutions is given in detail under implementation of relevant components in the subsequent paras.
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Chapter-IV
Project Components and implementation
4.0 Introduction In order to achieve the project development objective described in para 1.7 supra, the project is designed to strengthen the science base of watershed management in IWMP by enhancing the understanding of hydrological dynamics and climatic variability, and developing tools for measuring them within the planning process. The project would include small farmers in existing agriculture schemes and value chains. The key agency responsible for the project is WDD which is the main beneficiary with respect to institutional strengthening and enhanced capabilities in order to serve the requirements of farmers and land less communities living in the watersheds. The project will be implemented through the following five components:
Component 1: Support for Improved Programme Integration in Rainfed Areas Component 2: Research, Development and Innovation Component 3: Institutional Strengthening Component 4: Strengthening Horticulture in Rainfed Areas Component 5: Project Management and Coordination
4.1 Component 1: Support for Improved Programme Integration in Rainfed Areas
This will test and demonstrate new planning by incorporating science-based approaches especially hydrological modelling and decision tools and M&E approaches through PMKSY-IWMP by convergence with other development programmes. Objective: Intervention of this component results in developing a scientific base for participatory micro watershed master planning with suitable tools, technical and knowledge support and Capacity Building Activities. Implementation will be through the following four activities;
i. Development of a digital spatial-data library through LRI for integrated land use planning to combine other development schemes for watershed management.
ii. Development and piloting of integrated sub-watershed assessment and planning, with particular focus on broader hydrological dynamics of the 1931 watersheds. The activities would include mapping, ground water planning and modelling, and dissemination of recommendations for micro-watershed planning;
iii. Developing and piloting new decision-support systems for integrated watershed management through science-based land use planning.
iv. Strengthening integrated micro-watershed master planning under PMKSY-IWMP by providing incremental support to the WDD and communities for more effective linkages with agricultural, horticultural and livestock development programmes.
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Expected Outcomes: • Scientific recommendations for watershed management are included in micro-
watershed plan. Key results include; ground-water assessment, crop selection, land-use, and agriculture potential.
• Digital library to be in place as per design and fully operational. • Strengthening community-based monitoring and documentation by providing
technical support for local M&E systems including simple water monitoring equipment.
4.1.1 Development of Digital Spatial-Data Library:
Purpose: Providing single window access for Geospatial and other Agriculture-related information for the farming community, researchers, planners and all other users from agriculture and allied sectors facilitating integrated landscape approach for planning effective watershed management.
Objectives: • Generation of site-specific land-resource digital database at the watershed level. • Design of a suitable architecture for the integrated digital data storage • Develop appropriate protocols for data sharing • Provide inputs for establishment of Land Resources Portal
Location: State Data Centre, NBSS&LUP Bengaluru, UAS Bangalore, UAS Dharwad, UAS Raichur, UHS Bagalkot and UAHS Shimoga.
Strategy: • Land Resource inventory to assess bio-physical status of natural resources through
mapping and digitization on GIS platform • Pooling of relevant information from different sources and organisations;
compilation, synthesis and analysis of primary and secondary data on climate, surface water and groundwater, land use, crops and cropping pattern, socio-economic parameters etc. of the watershed area.
• Interpretation of the data and generation of reports and maps on GIS platform • Operationalization of Digital Spatial-data Library
Implementation
This involves two stages i) Land resource Inventory and ii) Development and Establishment of Digital Library.
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4.1.2 Land Resource Inventory and GIS Database Purpose: Karnataka state, with an area of 19.17 m. ha, is endowed with varied climate, fauna and flora, soils, forests, minerals and rivers. The natural resources, which have enriched the social fabric of the state are under severe stress due to population pressures and competing demands on land resources. This has resulted in large scale land degradation (about 7 m. ha), which is continuing at an alarming rate, requires urgent and effective remedial interventions. This calls for assessment of potentials and constraints. Often the problems are site-specific necessitating farm-level interventions to bring in the desired change or impact. The detailed site-specific information at watershed level, particularly on soil and site characteristics is not available at present in the state. Many studies carried out in various parts of the country and in Karnataka (Tirumale sub-watershed near Magadi under IWMP, Durgada Naganehalli village in Tumkur district and Chikkarasinakere in Mandya district), have proved the importance of site-specific database for watershed planning and programme implementation in the state. (See Annexure II) Location: The spatial and temporal Land Resource Inventory is carried in 1931 microwatershed in 11 project districts. Objectives: LRI is carried out in the project districts to meet the deficits in the present data base as given below
• At present land resources are characterized at macro level (1:250,000 and 1:50,000 scales) with respect to certain parameters to broadly indicate the type/category to differentiate through visual observations with limited ground checks.
• Land resources inventory for different uses at cadastral level has not been generated so far in the state.
• Hydrological information and vegetation details at larger scale are not available as Spatial information.
• Socio-economic features are not available to know the needs and demands as well as strengths and weaknesses to promote equity, inclusiveness and improving economic status.
Strategy: For watershed development, site-specific spatial information on various land resources is required and the same can be obtained by carrying out detailed characterisation and mapping of all the existing land resources like soils, climate, rock types, groundwater, vegetation, crops, land-use pattern, socio-economic conditions, infrastructure and marketing facilities.
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Implementation: The Land Resource Inventory (LRI) is carried out by using cadastral map in conjunction with Cartosat/Quick Bird imagery as base. The land parcels or survey numbers having similar soil-site characteristics are grouped as one management unit and this helps in planning and implementation of various watershed development programmes.
The NBSS&LUP, Regional Centre, Bangalore will lead the consortium of Institutions identified in the state, for organizing the cadastral level Land Resource Inventory and Mapping. It will provide technical facilitation whereas the WDD will facilitate the consortium of institutions by financing necessary manpower, equipment and goods required to undertake LRI. It will have suitable linkages with IISc, KSNDMC and the SAUs. The required Maps and Imageries will be made available to the NBSS&LUP and Universities. Three Agricultural Universities, one Horticultural University and one Agri Horti University in different zones/Districts of the project (Fig 3) will act as Nodal Centres for LRI field inventory. Each university will have sufficient number of trained field parties to carry out field work for land resource assessment. Standard protocols will be followed in carrying out the inventory. The IISc will provide details of Hydrological parameters to be surveyed during LRI. Primary data will be gathered through field surveys. Secondary data will be collated from Departments of Agriculture, Horticulture, Animal Husbandry, Minor Irrigation and Economics and Statistics. KSRSAC is supplying the following requirements of the LRI partners.
• Digitised, geo-referenced cadastral base maps and remote sensing datasets, maps and outputs pertaining to the micro-watershed area.
• Cartosat 1 or 2 imagery (Pan+LISS IV, ortho/Quick Bird) for the Sujala watershed area.
• Required remote sensing Imageries for the entire state (Present and legacy data) at different scales, (soft and hard copy).
• Temporal data of suitable resolution (1:12,500) for three seasons for the watershed area
• DEM at the micro-watershed and sub-watershed levels for the operational area
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Table 1 : Land Resource Inventory schedule as per the original PIP
District Micro watersheds Area (ha) Chamrajnagar 86 40586.43
Davangere 73 35948.24
Gulbarga 140 75289.75
Yadgir 60 30787.54
Gadag 135 50463.37
Koppal 67 29502.00
Bidar 64 37765.50
Tumkur 148 57482.22
Raichur 43 21577.00
Bijapur 73 45187.60
Chikkamagalur 42 22363.89
Total 931 446953.54
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Table 2 : Institution wise micro-watersheds allotted
Institution District Micro watersheds Area (ha)
UAS B Chamrajnagar 42 21000
Davanagere 44 22000
Tumkur 127 63500
Total 213 106500
UAS D Gadag 52 26000
Koppal 37 18500
Bijapur 73 36500
Total 162 81000
UHS B Bidar 31 15500
UAHS Chikkamagalur 42 21000
NBSS&LUP Chamrajnagar 21 10500
Tumkur 21 10500
Gadag 25 12500
Gulburga 20 10000
Raichur 23 11500
Bidar 7 3500
Total 117 58500
UAS R Gulbarga 72 36000
Yadgir 41 20500
Raichur 20 10000
Total 133 66500
Grand Total 698 349000
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4.1.3 Restructuring
The MTR mission during Nov 2016 reviewed the current project structure and costs, and based on projected savings and disbursements. The key changes proposed are; 1. To Drop the Peri urban watershed management activity 2. To Drop the poly-house investments 3. To Scale up the LRI work from 698 to 1,931 sites 4. To Increase support for watershed demonstrations and saturation coverage from
the present four sites to nine sites
4.1.4 Expansion of LRI
The project envisaged Land Resource Inventory in 931 MCs belonging to batch 4, 5 and 6 of IWMP as listed in Table 1. It was intended to utilise the data so generated in preparation of DPR for implementation in IWMP. However, by the time the field work for LRI could begin, batch 4 of IWMP was due for implementation under IWMP. Hence, the batch 4 was not included for LRI, only batch 5 and 6 MCs were allotted for carrying out the LRI to the partners. Thus 698 MCs were distributed for LRI with intention to include batch 7 on subsequent dates after completing the Batch 5 and 6 as shown in Table 2. In the mean time, there was a policy change in Government of India, the DoLR has adopted PMKSY for treatment of watersheds covering the entire geographical area of taluk and District rather than the prevailing treatment of MCs selected on priority basis. In order to suit to the changing situation, it was proposed to World Bank for expanding the LRI to cover the entire Taluk and as concurred by the Bank wide Aide memoire of May 2016 “LRI expansion: With immediate effect, the LRI work will be expanded to ensure full coverage of all micro-watersheds within each Taluk where a project micro-watershed is already located, across all project districts. This will support the wider availability of high quality, bio-physical and socio-economic data for integrated planning, especially with the emerging PMSKY scheme and other government programs. Project funding will be reviewed ahead of the next mission to determine if even wider LRI expansion can take place to the end of the project. In moving forward with LRI expansion, WDD should review individual partner performance and consider allocating more of the expanded work to those institutions that are delivering high quality and timely LRI work and who can quickly scale up their capacity. Institutions not performing well should not be given additional work until completing their initial assignments.” and approved by Special PEC dated 05.07.2016 directions were issued to partners for carrying out the LRI covering the 12 taluks allotted against each partner.
Given the potential of this work to support a range of other programs in Karnataka under proposed restructuring, the LRI program should scale up to cover 1931 micro-watersheds during the project period. In the May 2016 t mission, WDD and the Bank agreed on a provisional scaled-up target of 3,187 micro-watersheds to be included in the expanded LRI program under the project, but subject to final concurrence based on a budget
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review. This target was later reduced to 3,003 sites based on communication with the Bank on July 26, 2016 as indicated in Table no. 3.
Table 3: Expansion of LRI to entire Taluk
Sl. No.
Institution District Taluk Micro watersheds
1 2 3 4 5
1 NBSS&LUP
Koppal Koppal 206
Yadgir Yadgir 310
Total 516
2 UAS Bangalore
Tumkur Tumkur 175
Chamrajanagar Chamrajanagar 234
Total 409
3 UAHS Shimoga
Chikkamagalur Tarikere 240
Davanagere Channagiri 244
Total 484
4 UHS Bagalkot
Bidar Humnabad 135
Aurad 217
Total 352
5 UAS Raichur
Raichur Lingasugur 369
Gulbarga Gulbarga 364
Total 733
6 UAS Dharwad
Gadag Gadag 222
Vijayapura Vijayapura 471
Total 693
Grand Total 3187
During the MTR, Nov 2016 the budget review indicated that the target needed to be modified to 1,931 micro-watersheds including 698-12 MCs already covered. As part of this modest scaling up, WDD and partners will pilot LRI at a larger scale by concentrating the expansion at the Taluk level in 11 Districts. This demonstration at a larger scale will also be useful to guide similar work in the Bank-supported Neeranchal National Watershed Project in nine states. Allotment of balance 1233 MCs in different project districts is given below.
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Table 4: Micro watersheds included under expansion
Partner Taluk Additional MCs allotted / Area (ha)
1 2 7 8
NBSSLUP Koppal 91 0.455
Yadgir 92 0.46
UAS Bangalore
Tumakur 79 0.395
Chamarajanagara 79 0.395
UAS Dharwad
Gadag 119 0.595
Vijayapura 119 0.595
UAS Raichur
Lingasuguru 113 0.565
Gulabarga 114 0.57
UHS Bagalkot
Humnabad 134 0.67
Aurud 135 0.675
UAHS Shimoga
Tarikere 79 0.395
Channagiri 79 0.395
Total 1233 6.165
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4.1.5 Action plan for covering the balance micro watersheds
Activities First Year 2016-17 Second Year 2017-18 Third Year
Dec 2018 Quarter 1 2 3 4 1 2 3 4 1 2 3 Preliminary work (Procurement of cadastral maps and imagery)
Base map preparation
Orientation training for field staff
Field investigations (Detailed land resource/soil survey)
Socio-economic survey &compilation of data on climate, crops land use etc. – Saturation
Socio-economic survey &compilation of data on climate, crops land use etc. – Non Saturation
Laboratory analysis (Soil and fertility samples)
Generation of soil and thematic maps through GIS
Interaction with users and stake holders
Land suitability assessment for crops and various other land uses
Finalisation of draft maps and reports
User- interaction/interface workshop with line departments
Printing of reports, Atlas and maps
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4.1.6 Community Inter-phasing
The PMKSY-IWMP NGO in the watersheds will provide necessary community inter-phasing in close coordination with the WDT. Before commencing the Land Resources Inventory at Micro-watershed level stakeholder workshops and training programmes were organised with audio-visual aids developed by NBSS&LUP. The NBSS&LUP, will also • Organize training programmes for field parties, • Plan and review the progress of survey in different watersheds, • Analyse soil samples collected from the correlated soil series; and • Develop guidelines / protocols for finalisation of maps and reports by LRI
partners.
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Fig 3. Operational area (districts) for LRI project partners
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4.1.7 Roles & Responsibilities:
Lead Agency (NBSS&LUP, Bangalore)
1. Co-ordinate with WDD in organizing stakeholder workshops for orientation of the project partners, project staff and Line Departments including IWMP NGOs;
2. Provide guidance in establishing GIS Lab and Strengthening Laboratory facilities in Project partner institutions;
3. Advise WDD and other partner institutions more specifically SAUs / SHU / SAHU on the requirement of various RS inputs / imageries, theme maps as the project progresses;
4. Develop standard protocols, Proformas and Manuals for field survey and laboratory analysis for soil & water samples;
5. Train the SAUs and SHU / SAHU / community in RS, GIS and Natural Resources Survey / Characterization;
6. Undertake 1 pilot sub-watershed assessment involving all project partners and local community;
7. Co-ordinate natural resource survey / characterization and socio economic surveys for baseline data in the remaining project watersheds;
8. Undertake characterization of correlated soil series from the project districts;
9. Provide guidance to all project partners in establishing Digital library, and provide guidance to UAS Raichur for hosting Watershed Management Portal;
10. Assist WDD in Developing Decision Support System (DSS) in collaboration with WDD and project partners;
11. Assist WDD in Developing guidelines to draw treatment plans integrating with into the watershed planing.
12. Assisting WDD in organizing stakeholder workshops one in each in project districts for creating awareness on the status of land resources and needed intervention for promoting the health of land resources
13. Review to finalise and incorporate the Treatment and Master plan revision.
14. Provide the generic, functional specifications for the major equipment to be procured by WDD through International/National Competitive Bidding;
15. Freely share/exchange the data (soft and hard copies) generated by them with the project partners in the best interests of the project. Confidentiality shall be adhered to while sharing the same with agencies other than the partners unless and otherwise desired by the WDD;
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The lead partner will guide the activities of the following agencies in carrying out LRI whose Key responsibilities are listed below
Partner Key responsibilities IISc Bangalore • Developing Protocols and proformae for collection of data
on Hydrology. • Developing training modules and organising trainings for
the partners. UAS
Bangalore, Dharwad,
Raichur, UHS Bagalkot and
UAHS Shimoga
• Undertake LRI under the guidance of NBSS&LUP in the respective areas of their jurisdiction.
• Establishment of dedicated field and GIS, laboratory • Analysis of soil and water samples • Finalisation of Soil Maps, Thematic Maps, Reports and
Atlas for the surveyed watersheds • Development of Decision Support System (DSS) • Data on groundwater levels from observation wells,
compilation and interpretation of Hydrological parameters at MWS/SWS levels.
KSNDMC Bangalore
Provide weather data for watershed and other areas of the state. Undertake weather analysis for identifying frequency of droughts and evolve plans related to climate-smart farming. Provide baseline data for developing contingency plans to overcome weather aberrations. • Establish Automatic weather stations and Telemetric Rain
guages in project districts – 179 nos • Instal Solar Radio meter – 179 nos
ICRISAT • Assisting in the preparation of ICB document and Establishment of DL, DSS and Portal
• Productivity enhancement trials • Facilitating Trainings at district and state levels • Facilitating Exposure visits (National and International for
Stake holders) IISWC, Bellary
• Process (Technical) monitoring • Result monitoring • Impact Evaluation
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The secondary data/inputs to be collected from the following agencies
Agency Information to be collected Department of Agriculture Crops and Cropping pattern and yields, Cost of
Cultivation and B:C ratio for major crops Department of Horticulture
Information on horticultural crops, extent and yields
Department of Sericulture Information on sericulture, area and yields Department of Animal Husbandry
Details of livestock, disease occurrence, area under fodder crops and yields
Department of Fisheries Extent of pisciculture and surface bodies used and yields
Department of Forests Forest areas, extent, canopy density and other details
Department of Minor Irrigation
Details of surface water bodies (tanks, gokattes, check dam, vented dams) and areas irrigated along with cropping pattern.
Central Ground-Water Board, Bangalore
Ground-Water levels of observation wells and water quality in the state
Department of Mines and Geology
Ground-Water levels of observation wells in the state
Department of Marketing Availability of marketing facilities, storage, etc.
Department of Economics and Statistics
Census data Data on crops, extent and yields Socio-economic information.
Central Soil and water Conservation Research and Training Institute, Research centre, IISWC, Bellary
Specifications for soil conservation structure and guidelines for planning watershed development.
4.1.8 Relevance and utility of the LRI database
The detailed and comprehensive database generated through the Land Resource Inventory, covering all the land holdings in a watershed area will help in
• Identifying site-and area-specific constraints affecting crop production • Potentiality of the area for agriculture, horticulture, forestry and other uses • Suitability for various crops and other uses • Identifying promising land-use options best suited to the location • Allocating areas for different crops and land uses • Identifying the extent of wastelands, common lands etc. and measures for their
regeneration
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• Identifying the type and location of water conservation structures in the watershed
• Strategic planning – identifying areas suitable for the introduction of new or exotic crops is possible with the help of the database.
• Assessment of Fertilizer requirement through soil fertility maps
4.1.9 Establishment and Maintenance of Digital Library
Purpose :
The Digital Library houses all the primary and secondary datasets and various resource and thematic maps of the surveyed watersheds. The line departments and other users can source from it their data needs for • Delineating homogeneous areas based on soil-site characteristics into
management units. • Interpretation of climatic and agronomic data for crop planning in relation to soil
units. • Identification of problem and potential areas and strategies for their management. • Identification of capability of the area for agriculture, horticulture, forestry and
other uses based on LULC. • Preparation of ideal conservation plan in a given landscape • Delineate upper reach, middle reach and lower reach of each micro-watershed at
Land parcel level. • To identify areas for establishing groundwater and vegetation sanctuaries for
optimizing resource use. • To develop plans to overcome market fluctuations and identify value added
products through alternative livelihoods. The result of land resource inventory and secondary data collected will form the basis for developing the digital library. Consultants will be hired to develop, test and synchronize the Digital library, maintain and capacity building of users.
Objectives : • Support improved sub-watershed assessment, integrated micro-watershed master
planning, monitoring and evaluation, and relevant research and development. • Design of a suitable architecture for the integrated digital data base through
technical support
Location : NBSS&LUP with the help of Project partners will help in the development of DL. UAS Bangalore, UAS Dharwad, UAS Raichur, UHS Bagalkot, NBSS&LUP and UAHS Shimoga and other partners will be providing database/maps/imagery for thematic maps pertaining to their survey and jurisdiction in the State for the DL.
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Strategy :
The LRI Partners are state Agricultural universities having jurisdiction control over different districts. The Geo spatial land resource data collected by them will be housed in the respective institutions in the Digital Library which in turn will be transferred to central Digital Library located at State Data Centre. This information will be accessed through different decision support modules by the Portal which is again located in the State Data Centre. Implementation : It is the collection, development and management of physical and bio-physical information of an area, region or state in the electronic form with index creation and a provision for access, retrieval and facilitation of reference work and preservation.
The information needed for establishing a dynamic digital library to meet the requirements of various line departments, stakeholders, farmers and other users at watershed level is so varied and diverse that it cannot be provided by any one single organization or agency in the state. Apart from the inputs generated from the Land Resource Inventory, information needs of the users have to be sourced from many other agencies in the state. The schematic figure indicated below shows the flow of datasets from different sources to the Digital Library.
Digital Library to be
established at LRI partner institutions
Indian Institute of Science (IISc), Bangalore (Hydrological data sets)
Karnataka State Remote Sensing Application Centre (KSRSAC), Bangalore (Digital cadastral maps of watersheds)
Karnataka State Natural Disaster Management Centre (KSNDMC), Bangalore (Climatic data sets)
Secondary data inputs from Dept. of Agriculture, Dept of Geology and Mines
etc.,Land Resources Portal
housed at SDC
UAS, Bangalore, LRI in Chamarajnagar and Davanagere
Districts.
UAS, Dharwad, LRI in Gadag and Koppal.
UAS, Raichur, LRI in Gulbarga and Yadgir
UHS, Bagalkot, LRI in Bidar
Karnataka Veterinary, Animal & Fisheries Sciences University,
Bidar(livestock related)
NBSS & LUP Bangalore (LRI input compilation for all the districts)
Fig.4 Schematic diagram indicating flow of datasets from different sources to the DL
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4.1.10 Establishment of Land Resources Portal (LR Portal):
Purpose : The L R Portal for watershed is established to facilitate and coordinate the exchange and sharing of the spatial and non-spatial data between various stakeholders of different groups of watershed user. Staff should be trained for long-term maintenance and management of the LR Portal.
Objectives: The turnkey solution provider must establish LR Portal which would provide following services; • Portal services: The portal services should be made available to address the needs
of the viewer, discovery, management, authentication and access control and exposed services.
• Portrayal services: The portrayal services should include map services, styling services, coverage services and the map context services.
• Data services: The data services should include features, coverage, and symbology management.
• Catalogue services: The catalogue services should include data discovery, service discovery, catalogue update and query language.
Location : The SDC will host the L R Portal in collaboration with project partners. Two L R Portal nodes will be provided at WDD head quarters and NBSS&LUP.
Strategy : A qualified and experienced Total Solution Provider (TSP) shall be hired for setting up the LR Portal, Clearing house and to design, develop and implement watershed DSS Implementation : The SDC will host the LR Portal in collaboration with all LRI partners. The two LR Portal nodes will be provided. Disaster Recovery Center would be established as per the recommendation of Technical Committee. Expected Outcome : All the modules in the Software should be secured with user authentication. The users should have access to the functionalities like, data viewing, querying and updating depending on the privilege assigned. The applications should ensure that users are only allowed to access functions that they are assigned. The Mapping and Metadata services of the system will be designed as per OGC standard specifications.
The deliverables and configuration of the LR Portal are presented below.
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Thematic Outputs Soil, Texture, Drainage, Depth, Slope, Fertility, Land Capability & Land Suitability Maps
Decision Support System Hydro‐geological Monitoring Soil & Water Conservation Plans
Review, Monitoring & Evaluation
Training Stakeholders/
NGOs
Watershed Development Dept.
Integrated Watershed Dev. Plan
Identification of Water Harvesting Structures
Soil & Water Conservation Plan
Crop Choice & Crop Planning
Deliverables of Land Resources Inventory
Land Resources (LR) Portal
Land Resource Maps • Soil Map • Land Use Map • Land Form Map • Geology & Lineament Map• Road & Communication
Network • Drainage Network • Cartosat & other imagery • Cadastral Maps
UAS / R & D Institutions
Problem Identification &
Designing Research Proposals
Developing Location Specific
Package of Practices
Fig.6 Deliverables from Land Resources Portal
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Fig.7 From Land Resource Inventory to Land Use Planning
4.1.11 Developing and piloting new Decision-Support System Models (DSS)
Purpose: For integrated watershed management and site selection.
Objectives: • Development and piloting of new decision-support systems to assist WDD in
leading integrated watershed programmes. • Integrated decision-support models to help plan and prioritise soil and water
conservation measures including land-use practices at sub-watershed level that can then be downscaled to guide micro-watershed level planning.
Modern agriculture is highly knowledge intensive and requires the support of Information and Communication Technologies (ICT) for planning and decision making. Information needs in the agriculture and allied sectors are quite different from those in other sectors. While the farmer has some control over a few of the resources e.g., land and water, labour, seeds, etc. there are several other variables that are beyond his control – the weather parameters, precipitation and market prices, etc. By establishing connectivity between variables that influence production levels, it is possible to match with suitable options wherever possible, which can improve the efficiency of agriculture sector. The Internet, satellite communication, remote sensing, and GIS are providing new
Database at Watershed
Climate Hydrology Soil Site Characteristics Agricultural Data & Practices Existing Infrastructure Marketing Mechanism Socio‐economic Data Development Programmes
Land Use (Crop Requirements)
• Field Crops
• Forestry
• Silvi‐Horticulture
• Non‐agricultural
Identification of Problems/Constraints
Potentials of the Resources
Land Suitability for Various Uses
Land Use Options – Choice to Users
• Land Management
• Water Management
• Crop Management
DSS Action Plan‐ Allocation
to Various Uses
Implementation Mid Course Correction
Conservation Plan(Soil & Water)
Bench Mark Sites Monitoring
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opportunities to connect people with new development strategies which can bring in a new revolution in agriculture. The DSS produces simple output from the complex system and large data set in the form of decisions and plans. The plans may be of different types depending upon the purpose. Mathematical models such as hydrologic models and groundwater models crop growth models coupled with the field data are the basis for DSS. The models have the capability to convert the complex system into simpler ones, making it easy for the reliable prediction of impacts of changes to the existing system. The innovative and science-based approaches and convergence between PMKSY-IWMP and other development programmes can be better achieved through technology. Effective way to achieve the above is through locally-based planning and management at the watershed scale by considering spatial and non-spatial information on one hand and matching the needs and demands of the people on the other. In order to address these considerations, it is necessary to integrate a large amount of spatial information and knowledge from several disciplines. To be useful, the information and knowledge must be made available to stakeholders and decision makers in a rational framework. DSS is a computer-based information system that supports organizational decision-making easier, DSS serves management at planning and operation levels and helps to make decisions, which may be rapidly changing and are not easily specified in advance. Location: DSS will be located at SDC, Bangalore and Disaster Recovery Centre (DRC) would be implemented as per the suggestion of the Technical committee. Strategy:
The WMDSS (Watershed Management Decision Support System) is a tool designed to determine the optimum use of natural resources for improving the productive capacities under a given set of conditions by selecting appropriate strategies. It is a multi-dimensional optimization model designed to identify possible management scenarios that meet multiple resources-allocation objectives under various hydrologic, ecologic, social, regulatory and economic constraints. \
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DSS will be developed by service provider in association with domain experts.
List of DSS Modules Identified under Sujala – III
Sl. No
Module Source of inputs
1 DSS for Soil & Water conservation plan-to identify the type of structures, their design and estimate, for both arable and non arable lands/areas
WDD, NBSS&LUP, ICRISAT
2 DSS for crop selection (Based on physical suitability and cost benefit ratio
NBSS&LUP, SAU’s
3 DSS for delineating prime farm lands/arable and non-arable lands based on Land Capability Classification
NBSS&LUP
4 DSS on crop based nutrient management and soil health
NBSS&LUP, SAU’s
5 DSS for estimating surface runoff at farm/MWS/SWS levels
ICRISAT, SAU’s and Domain experts
6 DSS for designing the size and location of Farm ponds based on runoff model
ICRISAT, SAU’s and Domain experts
7 DSS for estimating the crop water requirement at MWS/SWS levels based on the existing land use or crops that are planned to be taken up for cultivation at MWS or higher levels
ICRISAT, SAU’s and Domain experts
8 DSS for estimating water balance at MWS or higher levels, taking into account the RF, crop requirement, Runoff, evaporation and other losses, soil moisture and ground water.
ICRISAT, SAU’s and Domain experts
9 DSS for water budgeting taking into consideration the needs of various uses/users at MWS/ Village level- crop needs, human needs, livestock needs etc.
ICRISAT, SAU’s and Domain experts
Implementation : • Research-cum-development initiative for developing the decision support systems
by forming a consortium of various organizations in the state. Many of the institutions will need handholding support and capacity development before they can apply appropriate models for IWMP.
• Integrate all the models starting from water availability assessment through water balance models for developing appropriate structures and designing them with identification of suitable locations, preparing the estimates of various rainwater
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harvesting structures, designing watershed interventions by undertaking total water budgeting and yield gap analysis and designing suitable productivity enhancement interventions.
• A Total Solution Provider (TSP) will be hired by the WDD for the development and implementation of WMDSS.
The architecture of DSS thus developed would look as depicted below
Fig. 8 Typical Workflow of WMDSS
Functions of DSS (at different levels) • Assist local stakeholders to manage land and water sources for sustainability and
better growth • To provide alternatives through modelling to mitigate drought and manage disasters • To determine the trade-offs associated with different interventions within the
watershed • Develop on-the-ground watershed management strategies given alternative social
constraints • Hydrological models for designing and identifying the locations for rainwater
harvesting structures in the watersheds
Utility of the System The system can integrate spatial and non-spatial data and help farmers, stakeholders and policy makers to make faster and better analysis based on queries raised by various users. The WMDSS will be made use of to allow faster decision making, identification of negative trends, and better allocation of resources of Integrated Watershed Management System, with a view to • Managing the natural resources in a sustained manner • Balancing agricultural growth, environmental protection and economic gains on
sustainable basis
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• Scientifically utilizing soil, water, livestock, and other biological and natural resources for greater benefit of society.
Enabling individual land owners to improve the yield of crops, reduce the possible production risks, reduce the cost of inputs, reduce the labour requirement and generally improve efficiency. Roles & Responsibilities:
Partner Key responsibilities NBSS&LUP, Bangalore [Lead Institute for the Consortium]
• The NBSS&LUP will advise and oversee the adaptation in use of technical decision tools, GIS data bases, monitoring systems, collecting information and validation.
• Assist WDD in Developing Decision Support System (DSS) Applications in collaboration with WDD and project partners
IISc Bangalore • The IISc will develop an information infrastructure and adaptation of existing scientific decision-making tools and models that would inform sub-watershed assessments and integrated micro-watershed planning concerning hydrological aspects.
UAS Bangalore, Dharwad, Raichur, UHS Bagalkot and UAHS Shimoga
• The SAU’s, UHS and UAHS Shimoga will provide the inputs for modules to be developed based on the requirement of the farming community and also would involve in developing protocols / scenarios / workflow to address various challenges faced by the farmers and suggest various modules to be developed for DSS to address issues at farmer’s field level.
• Provide inputs to Develop Decision Support System (DSS) KSNDMC Bangalore
• Provide inputs for the DSS
ICRISAT • Assisting in the preparation of ICB document and Establishment of DL, DSS and Portal
4.1.12 Thematic outputs needed for DSS:
Land Resource maps: Soil map indicating the distribution of soils in the watershed area and land management units with survey numbers and legend indicating all the details of the unit using cadastral map. Land Capability map: Land capability map shows the general capability of the resources. The grouping is based on the inherent soil characteristics, external land features and environmental factors that limit the use of the land for various uses.
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Soil slope map: Slope plays an important role in the formation of soils and process of erosion (and alters the overall use of the land). Slope information provides the land users the information on the type and extent of soil and water conservation structures needed. Rock fragments map: Provides information on Gravel content in the soil, stones, boulders and rock pieces and their distribution, greatly influences hydrological characteristics of the soils and thereby the crop production. Soil depth map: Soil depth refers to the depth of the soil occurring above the parent material. It determines the rooting depth, water and nutrient holding capacity of the soil. It is used to group the various soils occurring in the area into different soil series. Surface soil and subsoil texture map: Texture indicates the relative proportion of particles present in the soil. Based on the proportion, the soils are grouped into various textural classes like sand, loamy sand, sandy loam, sandy clay loam, clay loam, sandy clay and clay. Soil reaction map: The level of salinity, alkalinity and acidity influences the quality of soils and has a direct bearing on crop production. Soil erosion map: Erosion due to normal factors like rainfall, slope, soil type etc is known as natural erosion or geological erosion and the erosion due to human disturbance to ecosystem is known as accelerated erosion. The intensity of erosion is assessed based on the physical characters and a map is prepared depicting the variations observed in the field. Water holding capacity and Available water: The parameter is crucial for deciding the type of crops under rainfed situations. In climate-smart agriculture the parameter is of prime importance in selection of crop and management practices. The amount of water held between saturation and field capacity contributes to groundwater recharge and it is essential to know the total water held and also available water for determining the groundwater recharges. It is the measure of the quantity of water stored in soil profile within one meter depth and is readily available for crop production. This water is held between field capacity (1/3 bar) and permanent wilting point (15 bar). Soil organic carbon status: The status of soil organic carbon indicates the inherent fertility and overall health of soils. In tropical countries it is extremely difficult to maintain good organic matter content particularly in fields subjected to frequent ploughing and other farming operations. Monitoring of this parameter is the most important activity when we plan for climate-smart farming, soil carbon sequestration and other related activities. Soil fertility status map: The content and dynamics of major nutrients (macro and micro) should be understood for adopting of precision farming. Nutrient level are
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influenced by management practices, kind of crops cultivated, changes in soil reaction (pH), climatic changes and extreme weather events (drought and floods). Hence this information requires to be updated from time to time.
Meteorological map: The information related to climate in terms of extent and intensities of droughts and areas prone to floods would help to prepare risk management plans.
Geo-Hydrological survey involves: • Geo-morphological studies to determine lineaments and presence of aquifers to
generate lineament map. • Identification of water bodies, runoff and stream characteristics and building
models to develop potential water resources map for surface water and groundwater.
• Hydro-geological survey for water quality, aquifer characteristics and groundwater abstraction and recharge to delineate areas and their status for locating groundwater sanctuaries.
• Vegetation survey is done for identifying species native to the area and useful to society to promote livelihoods.
Vegetation map: Depicting the existing vegetation with respect to forestry species, agriculture and horticulture crops is to be prepared to determine the species native to the area as well as for identifying the areas that will be used for incorporating new technologies based on the knowledge generated at the research institutions to promote vegetative density and productivity.
Livestock map: The density map of different livestock is to be prepared for determining the carrying capacity and productivity so as to incorporate corrective measures and management plans to increase the economic levels by building our native experience with the knowledge generated in the research institutions and experience of the departments.
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4.2 Component 2. Research, Development and Innovation
Purpose: Rainfed agriculture is characterized by low productivity and high biotic pressure resulting in reduced vegetative cover, extensive grazing leading to accelerated runoff, soil erosion and low groundwater recharge. The combined outcome has resulted in land degradation and erosion of productive potential of Natural Resources. It is estimated that a total of 7.7 M ha of land in Karnataka is suffering from one type of degradation or the other and about 2.0 M ha have attained the status of waste land; fallow lands have increased from 0.8 to 1.3 M ha over a period of 30 years from 1960 to 1990. Consequent to such degradation the averaged yields are low. Unscientific management of resources, low input use, and need-based farming led to subsistence farming which cannot provide food and livelihood security. Agriculture as a livelihood option under such conditions is considered as a rural poverty trap. Hence there is a need to ensure conservation of natural resources by arresting degradation, judicious use of inputs to increase water use efficiency through adoption of innovative technologies based on land capabilities for minimizing the risks of vulnerability of crops to variations in climate. This would shift subsistence farming to science-based profitable farming venture.
Objectives: To provide new technologies regarding crop selection, planting time, water management, harvesting and value addition to rainfed farmers. To strengthen extension and information systems.
The outcome of Component 1 will be integrated with that of Component 2 for prepation of effective Net Plan through the following activities.
Location: The Research will be carried out in project districts
Strategy: Research, development and innovations for best practices in rainfed farming will be led through the following four sub components • Research for integrated landscape management and agricultural intensification
through thematic studies • Integrated Hydrological Assessment and Monitoring • Technology transfer and • Strengthening research management
Implementation :
The outcome of the research will be adopted for field level production demonstration in multiple localities before recommending. Validation will be done by RAG
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4.2.1 Research for integrated land management and agricultural intensification
For integrated land management and agricultural intensification applied research studies across key thematic areas including integrated land management and agricultural intensification, climate-smart agriculture, and agriculture value chains are to be initiated for better land utilization. Priority setting for identified studies: The PTC will receive inputs from various stake holders including SAU’s and farmers in prioritising the field of research based on the information gap found in micro watershed studies.
Processing of Research Proposals: The themes and research areas identified in the above prioritization will be publicized amongst various universities. Proposals that qualify will be asked to submit detailed proposals including detailed cost estimates.
Selection criteria: The criteria for evaluation of research proposals include relevance and scientific quality of the proposal; expected impact on watershed management, rainfed agricultural productivity, farm income, sustainability and equity; likelihood of achieving the expected outputs and impacts; comparative advantage of research institute; and evidence of a multi-disciplinary and inter-institutional approach. Additional preference may be given to joint proposals that promote public-private partnerships involving NGOs or research organizations outside the UASs, and focus on research-extension-farmer linkages, and practical end-user solutions.
Funding: The PPMU shall finance investment and operational costs, including incremental operating costs; contractual staff (e.g. research associates); goods specifically for proposed research activity, including need-based small equipment; honoraria for researchers and institutional charges; training; and travel.
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The following Seven Research proposals are selected for funding :
Sl. No. Institution Title 1 UAS B Development of short duration RAGI
2 UAS B Adaptation of indigenous Technology & Amalgamating to IDM practices
3 UAS R Socio Economic Analysis of Ground Water Management
4 ICRISAT Genomics-assisted breeding for high yielding - PIGEONPEA
5 ICRISAT Development of climate resilient CHICKPEA varieties using genomics
6 ICRISAT Harnessing the power of genetics & genomics for enhancing rabi SORGHUM
7 ICRISAT Improving popular GROUNDNUT varieties for foliar disease resistance
I. Title : Development of short duration ragi (Eleusine coracana Gaertn.) varieties
for Karnataka State.
Principal Investigator : Dr. Shailaja Hithalamani, Professor and Head, dept. Of plant breeding and genetics, UAS, Bangalore – 560 065.
Objectives; a) To identify advanced segregants for high yielding and early maturing by
hybridization IE1012 x Indaf – 5 and selection in late generation families b) To identify superior mutants (of variety ML 365) for early duration and
identify Transcriptome sequences for disease and drought in ragi and identify, genes and markers.
c) Evaluation under target locations in farmer’s field and experimental site and organize the training programs and field days.
d) UASB shall bare the required laboratory, library and computer facilities and also the technical expertise, as and when required by the Scientist out of the approved cost of the project only.
Outcome : a) Short duration ragi varieties for late sowing b) Drought tolerant ragi genotypes for rainfed with dought spell c) Farmer demonstration and field days d) Drought and blast tolerant DNA sequences / transcriptones e) Express Sequence Tags of Ragi / Transcriptome sequences and genes for
tolerance to drought and blast. f) Stabilized mutants of early and short duration g) New genetic material generated
Period : The period of Research is 3 years (17.03.2015 to 16.03.2018);
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II. Title : Adoption of Indigenous Technologies and amalgamating to IDM practices and promotion through farmers participatory approach
Principal Investigator : Dr. B M R Reddy, Professor and Head, dept. Of plant pathology, UAS, Bangalore – 560 065.
Objectives;
a) Evaluate the effective Indigenous technologies (ITKs) in managing diseases in maize, redgram and ground nut.
b) Influence of Climate change on incidence of diseases and the efficiency of IPM strategies
c) To enhance the productivity and economic status of farmers and to create awareness among the farmers on available ITKs and integrated disease management strategies through demonstrations.
Outcome :
a) Activities for reducing the cost of disease management b) List of identified disease resistant varieties and adoption of ITKs c) Strategy for increasing the production levels by 10-15%. d) Benefits of integrated disease management practices in dry land agriculture e) List of ITKs that could be readily used in redgram, maize and ground nut disease
management f) List of Awareness Programmes conducted to farmers about the available ITKs
and integrated crop management technologies.
Period :
The period of Research is 1 year (01.03.2015 to 28.02.2016)
III. Title : Socio-Economic Analysis of Groundwater Management in Watershed through Capacity Building and Institutions
Principal Investigator : Dr. G B Lokesh, Assistant Professor, Agri. Economics, UAS Raichur - 584102
Objectives:
a) To examine the nature, distribution and socio-economic dimensions of ground water use in the watershed.
b) Formation of groundwater users groups and their capacity building for sustainable water use for improvement of livelihood
c) To develop a hydro-economic model for optimum extraction of groundwater for efficient, equitable and sustainable use.
d) To analyse economics of use of different water saving technologies for water resource use and their efficiency.
e) To assess the impact of sustainable water use at farm level as well as watershed level in terms of production, productivity, income and employment
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Outcome : a) Nature, distribution and socio-economic dimensions of ground water use in the
watershed. b) Formation of groundwater user groups and their capacity building for
sustainable water use for improvement of livelihood c) Development of a hydro-economic model for optimum extraction of
groundwater for efficient, equitable and sustainable use. d) Analysis of economics of use of different water saving technologies for water
resource use and their efficiency. e) Impact of sustainable water use at farm level as well as watershed level in
terms of production, productivity, income and employment.
Period :
The period of Research is 2 year (31.12 2015 to 30.12.2017)
IV. Title : Conducting Research on Genomics-assisted breeding for high yielding and
climate resilient pigeonpea varieties/hybrids and promotion of best suitable cultivars for food and nutritional security in Karnataka state of India
Principal Investigator : Dr. Rachit K Saxena, Scientist, Applied geonomics, ICRISAT – Hyderabad 502 324.
Objectives ;
a) Identification and enhancing adoption of farmer preferred cultivars and hybrids b) Targeted and accelerated breeding for developing fusarium wilt and sterility
mosaic diseases resistant cultivars c) Capacity building through training programs, field visits, electronic and print
media and developing basic genomics infrastructure at UAS-R d) Developing basic genomics facility at UAS-R
Outcome :
a) Identified trades preferred by farmers b) Identified set of Pigeonpea cultivars and hybrids c) Introgression of Fusarium wilt and sterility mosaic disease in elite cultivars d) Selected appropriate back cross progenies for cultivation e) Action taken for promoting adoption of improved pigeonpea cultivars and
hybrids through FPVS
Period : The period of Research is 3 year from 27.07.2015 to 26.06.2018.
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V. Title : Development of climate resilient chickpea varieties using genomics assisted breeding approaches and promotion of best suitable cultivars for food and nutritional security in Karnataka Principal Investigator : Dr. Mahendar Thudi, Scientist, Applied Genomics & Genotyping Services, ICRISAT, Hyderabad – 502 324.
Objectives;
a) Identification and enhancing adoption of farmer preferred cultivars b) Targeted and accelerated breeding for developing drought and Fusarium wilt
resistant cultivars c) Mapping QTLs for dry root rot resistance d) Identification of candidate genes for drought tolerance, dry root rot and
Fusarium wilt resistance e) Capacity building through training programs, field visits, electronic and print
media and developing basic genomics infrastructure at UAS-R
Output :
The outputs of the research which are improved lines with enhanced tolerance or resistance to both drought and Fusarium wilt and identification of candidate genomic regions for dry root rot. The candidate genes identified can be used for cloning these gene for further trait improvement and thus bring sustainable chickpea production. Period :
Within the project period of 3 years 01.01.2016 to 31.12.2018
VI. Title : Improving popular groundnut varieties for foliar disease resistance and high oleate trait using genomics-assisted breeding approach and multi-location testing of MABC lines for varietal release in Karnataka
Principal Investigator : Dr. Manish K Pandey, Scientist, Groundnut Genomics ICRISAT, Hyderabad – 502 324.
Objectives:
a) Accelerated improvement of popular varieties for foliar disease resistance and high oleate traits
b) Identification of candidate genes and development of breeder friendly markers for foliar disease resistance
c) Yield assessment of MABC lines developed by ICRISAT for foliar disease resistance
d) Capacity building or training breeders/ scientists in genomics and modern breeding approaches for groundnut improvement
e) Molecular and morphological characterization of promising MABC lines (ICRISAT, UAS-D & UAS-R)
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f) Enabling breeders from UAS-D and UAS-R in modern breeding approaches (ICRISAT)
Outcome :
The main outputs of the project are improved lines with enhanced resistance to foliar fungal diseases (rust and late leaf spot)and high oleate trait. These improved lines will enhance productivity in the disease prone areas of Karnataka and will alsoprovide good oil quality which is good for consumer health. The identified candidate genes and breeder friendly markers for foliar disease resistance will enhance deployment of genomics-assisted breeding approach at the collaborating universities of Karnataka. The yield assessment of MBC lines will led to identification of promising lines for varietal release by the Karnataka state.
Period : Within the project period of 3 years 01.01.2016 to 31.12.2018
VII. Title : Harnessing the power of genetics and genomics in enhancing rabi sorghum productivity in Karnataka.
Principal Investigator : Dr. Santhosh P Deshpandey, Scientist, Molecular Breeding, ICRISAT, Hyderabad – 502 324.
Objectives;
a) Accelerated breeding for development of shoot fly and post-flowering drought tolerant rabi sorghum cultivars
b) Development of genetically diverse locally adapted superior breeding and pre-breeding material for sustainable long term varietal development pipeline.
c) Capacity building through targeted training programs for trait based genomics applications for varietal development
d) Build the capacities (both physical and personnel) of UAS-Dharwad and UAS-Raichur scientists to integrate the genomics-assisted breeding in routine crop improvement activities.
Outcome :
a) Developing a range of elite rabi sorghum lines with improved shootfly and drought tolerance, individually and as well for both traits.
b) Development and access to the elite, genetically diverse (pre-) breeding lines with rabi adaptation to sorghum breeding programs with improved shoot fly tolerance, aphid resistance, and improved post-flowering drought tolerance.
c) Awareness and Capacities to employ advanced genomic tools for rabi sorghum improvement.
Period : Within the project period of 3 years 01.01.2016 to 31.12.2018
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Monitoring and Review:
Monitoring : The progress of Research activities sanctioned will be monitored regarding the pace of implementation and proper utilization of funds by PTC, PPMU & PEC. Review : The progress of implementation of research programs in relation to the project development objectives, methodology adopted and utility of the outcomes are periodically reviewed by the expert committee constituted with the involvement of Scientists from renowned institutions like RAG etc.
Dissemination of information: WDD through PTC will continue the process of disseminating the information in partnership with DoA, DoH, DoAH, SAU’s, Animal Sciences University and other suitable agencies like appropriate NGO’s for its extension. Successful studies/research results shall be published by the PTC in the form of reports and hosted on the portal/website.
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4.2.2 Integrated Hydrological Assessment and Monitoring Purpose:
Developing best-practice approaches and tools for basic and advanced hydrological assessment and monitoring by financing development of systems to deliver appropriate hydrological data from sub-watershed to micro-watershed scales. Location: Basic hydrological parameters are monitored in all the 1931 MCs wherein LRI is being carried out. Intensive hydrological monitoring is carried out in 14 model MCs.
Objective: • To strengthen hydrological monitoring • Piloting advanced monitoring systems • To design effective water conservation structures in a watershed • Developing community Groundwater Management System
Strategy:
• A basic hydrological assessment and monitoring in all project micro-watersheds will be done with available information and simple tools.
• For monitoring, communities will be trained to measure a small set of indicators supported by a simple IT-based data-acquisition tool.
• Low-cost monitoring of groundwater levels, key weather parameters, runoff volumes, and changes in water levels in open water bodies (tanks, farm ponds, etc) will be undertaken to support improved, integrated sub-watershed and micro-watershed planning and monitoring.
• Advanced field-based hydrological assessment and monitoring will be undertaken in fourteen micro-watersheds in 11 project districts using integrated models and decision-support tools, cutting edge equipment, and IT-based data-acquisition system. Sensors will be installed to monitor weather, outflow in selected watershed streams, soil physical properties (soil moisture, infiltration rate), soil nutrient level, groundwater levels and usage in wells, and water storage and usage in various water-harvesting structures will be monitored.
• Demonstrating an assessment of groundwater potential/recharge based on aquifer mapping that could be used to guide community-based groundwater management.
Aquifer characteristics in different hydro-geological units • Location and continuity lineaments using remote-sensing data with proper ground
truthing. • Monitoring the water quality changes due to insitu contamination and develop
ameliorative measures through enhanced recharge • Establishing the relationships between the land use and groundwater status
particularly in areas with deep borewells and excessive draft.
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• Detail Project Report (DPR) should have data on Runoff volume, available soil moisture, recharge and ground water draft from each micro-watershed surveyed under the project. Apart from this, detailed analysis of the rainfall pattern, PET and other parameters at the watershed level and length of growing period for each management unit to be incorporated in the report.
Implementation:
The project is targeting 1931 MCs for LRI and the basic Hydrological data has to be gathered by the partners in all these MCs besides collection of advanced Hydrological data collected from the 14 model MCs. The main aspects in Hydrological Assessment and Monitoring to fulfil the above requirement are : Soil Moisture
• Based on soil moisture available from each management unit, the best suited crop for that unit, expected time of stress period if there is lack of rainfall, management strategies to be followed to overcome the stress and possibility of supplemental irrigation wherever possible based on water harvested in farm ponds should be elaborated in DPR.
• Soil Moisture measurements required to be done every 10 days by using TDR and Theta Probe and hydra probe. Soil moisture data will be used for crop planning.
• Amount of water held in soil profile and available soil moisture for each management unit to be arrived based on LRI data base and soil moisture characteristics obtained by the use of pressure membrane apparatus. The values obtained by the above method needs to be validated with the values obtained from hydra probe and theta probe in model watershed areas.
• LAI measurements may be made in each farm every 10 days from May/June to October.
• Moisture Adequacy of dominant crops and tree crops (4-5 measurements in each crop) followed through cropping period.
Runoff
• Based on the runoff, the type of bunding, water harvesting and recharge structures to be constructed in the watershed area will be elaborated in detail in the DPR.
• Runoff volume is calculated based on infiltration rate, arrived by using double ring infiltrometer for the soils identified in the watershed area. The calculated run off volume to be compared with the values obtained through the use of flow meter in the model watershed area and validated.
• Surface run off measures may be made at 4 to 5 locations in each watershed and run off may be estimated for planning water conservation and water harvesting structures.
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• Storage capacity of water bodies and water harvesting structures located in the farm may be determined which has to be deducted from run off if computed by formulas.
Groundwater Recharge
• Ground water level measurements is required to be made twice a month to know the status of water level, its fluctuation and water level trend and estimation of ground water recharge.
• Based on water table fluctuation, as measured in watershed area, the amount of recharge and draft needs to be computed for each watershed.
• Water level measurements of surface water bodies may be made by putting water level gauges to quantify infiltration to ground and recharge to ground water from surface water bodies. It will also help in estimating percentage recharge to ground water from surface water bodies.
Draft / Discharge
• Discharge of wells, their pumping duration and no of pumping days are to be inventoried. Using the data, Ground water draft (use) may be estimated. It is also required to know the yield pattern, to quantify total ground water draft from farm land and to quantify the balance ground water recharge if any for future use.
• The methodology to compute various hydrological parameters will be prepared jointly by IISc and UAS Raichur.
Roles and Responsibilities of Lead Agency (IISc)
Train regional universities in setting up the instrument for other watersheds, and train for
• To advise and support the WDD in Hydrological assessment and monitoring related to the project.
• To monitor and assess two pilot watersheds in Chamarajnagar District. • To develop preparation of the bid documents for procurement of equipments
relevant to the project. • To prepare guidelines to Design monitoring setup, advice required formats for
database of each watershed in order to have uniform data and compatible with the knowledgebase.
• Controlling the quality of hydrological data, storing, processing, analyzing, maintaining the database of 14 watersheds through regional universities and WDD
• Planning for water-conservation structures. • To develop hydrological models to use in the Decision Support Systems. • Analysis in advance monitoring, and modeling.
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Watersheds selected for Assessment and Monitoring
Advanced field based Hydrological assessment and monitoring will be implemented in 14 micro-watersheds in the Eleven districts namely, Bidar, Gulbarga, Yadgir, Gadag, Koppal, Chamarajnagar, Davanagere, Tumkur, Raichur, Bijapur and Chikkamagalur. Details are given in the following Table.
List of Model Micro Watersheds for Hydrological Studies
Partner District Block Name of MCs IWMP
IISc (2) Chamarajanagar (2)
Gundal Watershed Ankhalli -SWS
K. Madahalli - MC Kodasoge G.P Gundlupet Tq
4B3E2IEc VI
Doddahole Watershed Singanallur - SWS Singanallur -2 MC Singanallur - G.P
Kollegal Tq
4B3A4C2F
III
UAS Bangalore (3)
Tumkur (2) Hosalaya SWS Hebbur hobli Thondigere,
Tumkur Taluk
4B3C5N1a V
Mudugere SWS Turuvekere Taluq
Devanayakana halli
4B3D1P1c VI
Davanagere Chennehpur SWS, Chennagiri Tq
4D4C4W1c, VI
UAS Dharwad (3)
Gadag Kanakawadda SWS, Shirahatti Taluk,
4D4A3J2c & 4D4A3J2d (Clubbed)
VI
Koppal Bedawatti SWS Yelaburga Taluk,
4D4A1F1a V
Bijapur Daddamatti SWS Bijapur Tq,
4D7A5G1a V
UAS Raichuru (4)
Raichur Murharpur SWS, Raichur Tq
4D2D8D2a & 4D2D8D2b (Clubbed)
VI
Yadgir Tekaral SWS, Shahpur Tq
4D5A1O2a VI
Gulbarga (2) Kalmandari tanda MC Kalamandargi SWS
kamalapur hobli
4D5B7E2b
V
Mulkod SWS, Chittapur Tq
4D5B8Z1c V
UHS Bidar Humnabad Taluk, 4E6E2D1e V
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Partner District Block Name of MCs IWMP
Bagalkot (1)
Chitaguppa hobli, Rayapalli SWS
UAHS Shivamogga (1)
Chikkamagalur Hebbur Microwatershed, Ajjampura
Subwatershed, Tarikere Taluk,
4D3E4P2b
VI
Simultaneously, IISc will impart training and capacity building to the other partners (Universities) in hydrological monitoring and assessment. IISc will also help in hydrological assessments using the data gathered by the partner universities through suitable models. These models will be shared among partners to impart knowledge and for use in other watersheds. Roles and Responsibilities
In this context Hydrological, water quality and weather parameters will be collected periodically and for each crop season and will be used for developing models to support further integrated activities. Participatory Hydrological planning
Water is an essential resource that affects all. True participation is ensured only when all stakeholders are involved in taking decisions on water. In this process local people,
Partners Key Responsibilities WDD • To oversee the entire project implementation and
coordination between all partners. • Actions to build institutional capacities in implementing
and partner agencies of the project. • To release funds for project implementation as and when
required based on the situation. • Monitor through SMS
UAS B, UAS R UAS D, UHS B,
UAHS S
• Monitoring of basic Hydrological parameters in 1931 MCs
• Collection of advanced Hydrological data in 14 MCs under the guidance of IISc
• Integrating the Hydrological data with LRI outputs to develop DPR
• Assisting the WDD in Saturation of watershed treatments
• Information dissemination Bangalore University
Terminated the MoU
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community organizations, NGOs and other stakeholders decide together how to measure hydrological pathways and what actions should follow once this information has been collected and analyzed. Stakeholders are given a voice in water planning and management, with particular attention to securing the involvement of women and the poor.
The partners will be carrying out the following tasks under Hydrological studies gathering and linking the data to net plan: Methodology: Integrated participatory approach
Many approaches have been used in establishing hydrological monitoring networks. It is proposed to develop an approach of six steps as given in the figure below;
Fig.10 Integrated participatory approach in establishing the hydrological monitoring network
Use of hydrological assessment by the community
Participation of men and women of a watershed community in decision making at all levels of water management is essential to achieve sustainability. Integrated and
Step 1
Step 2
Step 3
Step 4
Step 5
Inception of Idea (a) What should be the spatial boundaries
of the monitoring system? (b) What are the key hydrological
processes that need to be monitored and how?
(c) Is there any existing monitoring
End User
Stakeholder Identification (a) Who are key stakeholders (b) What are their interests? (c) How should they be involved? (d) When should they be involved?
Defining the Scope of the Network (a) Establish a range of possible networks(b) Consider processes that needs to be
monitored, resource available and scope of existing network
Installation (a) Collect and analyze existing
information (b) Site Surveys (c) Detailed design and installation (d) Participation of key stakeholders in
ll
Monitoring (a) Participation of stakeholders (b) Security of the installed network
Input from Experts & Key Stakeholder
Expert Knowledge (Experience from similar projects Elsewhere & Literature)
Feedback to Key Stakeholders
Data and Information sharing (Field days, report analyzed data)
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sustainable water-resource management will contribute greatly to gender equality by improving access of both women and men to water and water-related services. Equitable, sustainable and guaranteed access to water will result in reduction in loss of produce caused by disruption in water supply and, consequently, helps increase incomes and reduce poverty. Adequate supply of water in the watershed creates an environment for additional production, which promotes employment and income enhancement. Involvement of many people promotes water education and awareness. Linking Hydrological Assessment and Monitoring
Linking Hydrological Assessment and Monitoring to Watershed planning through DSS
Results of hydrological assessment and monitoring can be used to address a wide range of water management issues such as; • Recharging groundwater and thereby aquifers for ensuring sustainability matching
demand and supply. • Reducing loss through runoff and evaporation losses through appropriate
interventions.
• The data needed for undertaking the above assessment can be sourced from the Digital Library. The information is also used for developing appropriate models and incorporates in the decision support system to address complexities involved in sustainable management of both surface- and ground-water resources.
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4.2.3 Technology transfer : Purpose:
Demand-driven technology transfer will be strengthened through the development/adaptation of best-practice models and tools for increased adoption by end-users, for use as planning and training tools at micro-watershed level, contingency planning against climatic risks, improved information on markets, post-harvest technology and value addition, and on-farm participatory field trials and demonstrations for specific technologies, for example conservation farming. Location: Initially the transfer of Technology will be demonstrated in the subwatersheds identified for saturation of watershed treatments spread over 11 project districts. Further, it will be spread over the entire project districts.
Objectives: • Development/adaptation of best-practice models in watershed management • Developing planning and training tools.
Strategy: In terms of strengthening extension systems and outreach to rainfed farmers, the PTC will build strengths and links of the existing agricultural extension system. For technology transfer specialist technical agencies, closely coordinated by the PTC will be contracted work in consultation with DoA and end users to develop information and decision tools for end users. The PTC will coordinate closely with the DoA’s and UAS field research and extension wings. The PTC shall ensure that extension units such as district agricultural offices in project watersheds are closely involved to feed research results into the extension training programmes (under Component 3).
Areas of Technology Transfer:
The tools and techniques required to be demonstrated as best-practice models for end users are in the following areas. • Land capability maps at micro-watershed level indicating potentials and constraints
of the resources at individual farm level. • Land suitability maps for cereals, oilseeds, pulses, horticultural crops, tree crops
and farming systems • Contingency plans for managing climate risks such as drought, variations in the
onset and withdrawals of monsoon, and flood. • Synergizing other developmental programmes such as soil and water conservation
measures with soil topography and rainfall maps generated through Land resources inventory.
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• Using hydro-geological and geo-morphological maps to develop groundwater management plans
• Monitoring information related to market demands, supplies and prices on the data base for dissemination.
Methodology for Transfer of Technology: • The new technology will be disseminated by organizing demonstrations on specific
land uses, crops and farming systems, INM, IPM, Water use efficiency, water conservation through land configuration systems, alternative land uses and livestock management.
• Audio-visual aids, web based information can also be used for intensification of agriculture and improving water-use efficiency.
• Exposure visits to farmers within the District/State will be arranged for better understanding and adaptation of the technology by them.
• In addition to the above, adaptive trials will be conducted on farmers’ fields so as to train them for sustaining higher production levels and preventing resource degradation. Specific themes will be selected and farmers’ field schools will be organized through Lead Farmers for training purposes.
4.2.4 Pilot demonstrations on watershed treatments (complete treatment of all the interventions) in selected micro watersheds
Introduction :
Govt. of India has fixed the cost per hectare of Rs.12000/-in plains and Rs.15000/-in hilly areas under PMKSY-IWMP projects. Of which amount available for land based activities is Rs.6720/Ha in plains and Rs.8400/Ha in hilly areas. In this context, the area planned to be treated may not be fully covered giving thrust for all the activities required in that parcel on holistic approach due to paucity of funds.
Taking stock of the situation, in order to assess the real time visible impact of all the activities/interventions with respect to natural resource management, land capability, crop production and productivity of the soils eventually to see the marked improvement in the production and sustainable management of natural resources saturation activity is planned. It is proposed to identify one sub-watershed in each of the project district which was treated under PMKSY-IWMP in which taking the stock of the previously executed net plan, revisiting all the parcels of the sub-watershed /Micro-watershed to prepare the revised net plan based on the interventions required in the parcel on real time basis to precipitate desirable out puts. Therefore, the planned area will be treated to measure the impact of interventions for sustainable management of natural resources dovetailing the funds of Rs. 134.30 crores for 9 sub watersheds and 2 Micro watersheds (Model) in Raichur and Chikkamagalur under Sujala-3 project.
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The selected subwatersheds include activities related to Soil and Water Conservation structures, Forestry, Horticulture Animal Husbandry and Income Generation Activities aimed at integrated Farming system. The data pertaining to these activities are generated through Sujala-III and dove tailed to IWMP.
Activities involved are linked to IWMP by following detailed procedure prescribed under the common guidelines for watershed development projects - 2011 issued by Govt. of India. The Physical implementation of the projects based on e-DPR will be monitored through PIA. The roles and responsibilities and method of implementation, monitoring of the progress and results in accordance with the guidelines is given in para. 5.
The details of subwatersheds selected for demonstration of treatment saturation is given below.
Saturation of Watersheds – List of SWS identified
Si no District Taluk SW code Area(ha) 1 Chamaraja nagar Chamarajanagar IWMP- 14/13-14 5368 2 Bidar Humnabad IWMP- 16/13-14 5325 3 Koppal Yelaburga IWMP- 16/13-14 4990 4 Tumkur Tumkur IWMP- 31/13-14 5002 5 Davanagere Harapanahalli IWMP- 16/13-14 5417 6 Gadag Gadag IWMP- 18/13-14 5410 7 Yadgir Yadgir IWMP- 10/13-14 5266 8 Kalburgi Chincholi IWMP- 31/13-14 5000 9 Vijayapura B. Bagewadi IWMP- 19/13-14 5480
Purpose: The present Project intends to expand and refine the Planning process by bringing in the New Scientific Knowledge base and planning tools developed under various components. Location: The Master plans are prepared in all the 11 project districts to demonstrate the efficacy of adopting scientific inputs in watershed treatments over the conventional methods.
Objectives: • To facilitate Participatory PMKSY-IWMP micro-watershed master planning
process with new tools and scientific knowledge base that would promote more effective integration of watershed management with other development programmes under different sectors.
• To demonstrate and create awareness of the utility of new planning tools and knowledge base
• Improved resource conservation and production practices so as to establish equity and inclusiveness
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• To promote better integration between watershed planning and agricultural crop planning.
• Revision of the field PMKSY-IWMP manual in year 1 to incorporate new processes for watershed planning.
• After implementing, to draw in lessons learned from project implementation and to diffuse the same on a wider scale for making integrated planning approaches for sustainable cost effective development.
• Developing incremental training modules that can be integrated into PMKSY-IWMP planning process with communities and GPs
• Integrated Watershed development programmes, initiated under the Hanumanth Rao committee recommendations, as a strategy for over all development of agriculture in the country has been in operation since the Seventh Five Year Plan (FYP 89-92) guided by the pre and post Hariyali Guidelines of GOI.
During this period the Watershed development programmes focused on Soil and Water Conservation Works, adopting a top-down approach. It was observed that the supply-demand mismatch resulting in inadequate attention to local needs and aspirations of the communities leading to inadequate implementation and consequent lack of sustainability. It was, therefore, felt that there was a need for technology-cum-resource driven agriculture to achieve region-specific resource-use optimality and gender equity to make the programme truly people-centred and people-driven. Consequently, rural development by way of transition from traditional isolation to integration with new technologies through people’s participation has become the current policy paradigm and enunciated in the XIth Plan. The KWDP – I (Sujala I) demonstrated the new socially inclusive participatory Watershed approach. The Common Guidelines 2008 issued by the NRRA, MOA, GOI to a great extent reflect the Sujala learning. The PMKSY-IWMP planning process revolves around the Common Guidelines. Strategy:
The database generated for the micro-watersheds, under the sub-watershed in each district can be sourced from the digital library established under the sub Component 1.2 in the main Component 1. Using this information, problems, constraints and potentials of the selected sub-watershed can be identified.
Climate analysis used for identifying periods of onset and withdrawal of the monsoon, droughts of different duration and intensity, periods of intense rains and occurrence of floods and other aberrations that affect crop production for developing appropriate contingency crop plans to mitigate the adversities of climate. Livestock details for determining their health and productive performance so as to develop plans to promote health and performance using the available knowledge generated in the Universities.
Crops and cropping practices followed along with productivity levels so as to develop appropriate crop and crop management plans in relation to soil characteristics based on
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the information generated in research organizations (Universities of Agricultural Sciences, University of Horticultural Sciences, Departments of Agriculture, Horticulture, Animal Husbandry). Implementation:
Considering the information contained in the above database and thematic maps, a tentative land use plan for the concerned watershed will be prepared for the use of the various line departments and implementing agency/agencies, as per the schematic diagram below. (Page no. 83) The land use plan highlights the problems, potentials and suitability of the resources for various agricultural and non-agricultural uses with multiple options to choose from. This facilitates net planning process and finalization of Action Plan for implementation (by line departments followed by PRA exercise). Micro-watershed master plan
Hither too, the practice of treatment of selected watersheds was based on the development of Detail project report (DPR). The DPR was prepared by following the steps prescribed under the common guidelines issued by DoLR, GoI. The main thrust in these activities was on Participatory Rural Appraisal (PRA) by involving local communities / beneficiaries through NGO’s. This methodology is further refined by dovetailing various scientific data gathered through LRI, Hydrogeology, Socio-economic and Live stock inventory carried out through Sujala-III thus the detailed treatment plan evolved with these inputs are more effective and followed in project districts by linking to PMKSY Micro-watershed Master Plans are prepared by teams of various stakeholders – including the community (through various CBOs) and the facilitators (NGOs and the Department). The following teams will be involved at the micro-watershed level for this purpose.
• Executive Committee (EC) of the watershed and GP • User Groups (UG); and SHGs • NGO staff, Watershed Assistants and local facilitators • Watershed Development Team consisting of AO, AHO, RFO, AAO • Resource persons from SAU’s
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Roles & Responsibilities
In order to develop a Micro Watershed Master Plan addressing program integration across the sectors are required to work in close co-ordination.
Following are the responsibilities
Partners Key Responsibilities Resource persons
• To provide the watershed assessment and land resource inventory outputs along with various theme maps and land use maps and tentative Land use plan to facilitate informed planning process
• To educate the WDT, Watershed Institutions and Line Departments including GPs on the usage and utility of Watershed Assessment and LRI outputs and tentative Land use plan
Watershed Development Team (WDT)
• The WDT is responsible for spreading awareness and training • Prepare the Net plans and get it approved • The WDT will co-ordinate with the consortium partners to
obtain the Watershed assessment and land resource inventory outputs
• To organize and conduct community facilitation process through PMKSY-IWMP NGOs to educate the watershed institutions and GPs regarding Watershed Assessment and LRI outputs
• The team supported by NGOs and Watershed Assistants shall discuss the land-use plans with the respective user groups at individual level for identifying the needs and demands so as to converge with the schemes under different sectors for inclusion in the net plans
• Technical facilitation for planning process Role of
Watershed Assistant
Watershed Assistant is a link between Watershed Committee / Executive Committee and villagers
• He should actively participate in preparing Net plan
• He has to complete the implementation of Net plan in a systematic and time bound manner
• He should ensure the implementation of the Net plan without compromising the quality
• He should ensure the supply of necessary Technical / Scientific information required by the farmers
• He shall maintain all the documents related to implementation of Net plan
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Role of NGO
• To create effective and functional linkages between project partners at district & community level to implement the program.
• IWMP NGOs will undertake project publicity and awareness creation, formulate CBOs and undertake capacity building.
• To provide assistance and facilitate involvement of EC, UG, SHG and GP members and participation of all vulnerable sections of the society in the entire planning process for resource conservation under the guidance of WDT.
• The NGO in association with WA will collect and collate the information required for generating management plans for developing common and waste lands involving EC and SHGs.
• Identify appropriate Income Generation Activities for the landless for achieving convergence with National Livelihood Improvement Programme and Special Component Programmes.
Executive Committee
(EC)
Executive Committee is constituted to implement the watershed projects with the technical support of multi disciplinary Team of Watershed Development Department (WDD). It operates at Grama Panchayat (GP) level consisting of 11 to 15 members (4-6 representatives from SHGs 5-7 representatives from UGs and 1-2 members of GPs). GP president is the president of the EC. Department person is serving as a treasurer cum secretary of the EC.
Landed members • Responsible for proper implementation of PMKSY • Actively participates in the planning process starting from
farmer to the preparation of Net Plan • Prepare the Action plan and DPR, get it approved by the Gram
Panchayath and submit to ADA • After getting approval from DLRC the DPR is to be
implemented • Monitoring the progress
Landless members • Selection of suitable beneficiary members • Plan for management and maintenance of common property
resources in perpetuity • To ensure participation of all the vulnerable families dependent
on the resources of common property while planning for common lands
• Monitoring the progress
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User Groups (UG)
The UGs shall participate to take the advantage of science-based land-use planning and value-addition with their traditional knowledge to make the programme more effective in order to conserve the resources and manage them efficiently for higher incomes and achieve sustainability. • User Groups shall take the lead in implementing Land based
or Land less activities • They play major role in preparing Action plan and their
implementation based on the inputs from WDT and NGO’s.
Self Help Groups (SHG)
SHGs are small, informal groups of 20 or fewer members drawn from the economically poorer sections of the community such as landless families, small and marginal farmer groups, artisans, or SC and ST population. They are normally groups with economic homogeneity and emotional affinity. Potential members for SHGs are identified through wealth ranking exercises in each village during delineation on mini and micro catchments and micro watersheds. SHGs are a means to providing members with economic, social and political empowerment and a means to ensure equity in the watershed management programme to benefit the landowners. SHGs are trained and exposed to other areas to enhance their capacity.. Later, these SHGs are graded through well structured criteria to assess their maturity. Next step is preparation of IGA sub plan for each of these SHGs through Entrepreneurship Awareness Programme (EAP). These trainings are conducted to select different livelihood activities by considering their capacity, skill, availability of raw materials and market demand. It is expected that on an average, 70 to 80% of the beneficiaries will opt for traditional livestock based activities and petty trade which doesn’t require any additional skill up gradation. However, for livestock beneficiaries Village Based Trainings (VBTs) for livestock management and training on fodder production are imparted with assistance of local Animal Husbandry Department. If any of the SHG is not performing well, handholding is provided through local NGOs with the support of WDT. They are given counseling for establishing and managing the micro enterprises. Special care to be given for problematic IGA. The needy entrepreneurs are exposed and linked to markets by local NGO.
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The SHGs will also participate in developing the community, common and waste lands for enlarging their livelihoods and effectively manage the assets created.
Role of GPs
• GPs will function at micro watershed level • Facilitate participation of GP and the Grama Sabha in the
planning process • Vetting Net plan in consultation with EC and fine tuning • Plan for management and maintenance of common property • Training facilitation for convergence planning process
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The flow diagram for the convergence is as given below
Digital Library, DSS & LRP
ImprovedPMKSY‐IWMP
Planning
Land Resource Inventory
WDD: • Soil Conservation • Land Development • Water Conservation and
Water Harvesting • Afforestation • Water Storage
Enhancement • Improving Micro & Minor
Irrigation, etc.
Agriculture Dev. Programmes: Bhuchetana Farm ponds Krishi Bhagya Organic Farming etc.,
Horticulture Dev. Programmes: • Expansion and demonstrations • Productivity improvement • Micro – irrigation • Post harvest ,management • Value chain management etc.,
Animal Husbandry & Fisheries: • Breed Improvement • Milk & Meet production • Pasture & Fodder Dev. • Small Ruminants • Animal Health • Pisciculture
Forestry Programmes: • Social Forestry • Bio‐diversity • Bio‐fuels • Market linkages
Institutional Linkages: • Credits to Landless
for Livelihoods • Credits to Small &
Marginal Farmers • Market Linkages
Fig.9. New Planning Process
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Documentation at planning process: The lessons learnt while bringing convergence of different sectoral schemes into IWMP-PMKSY and their impacts on resource conservation and production changes due to science based technologies will be documented as part of M & E together with components of equity and inclusiveness for future adoption in similar agro-climatic and socio-economic conditions.
• Preparation of Atlas of each Micro-watershed • Preparation of a user manual for easy use by the line departments
4.2.5 Pilot Demonstration of Water Harvesting and Production technologies
Objectives
To demonstrate the efficacy of adopting various scientific data gathered under Sujala-III in holistic treatment of watersheds for enhancing the productivity.
Location
All the project districts
Strategy
Steps involved is shown below;
• Assess the capacity development needs for the farmers, watershed development staff and officers of the Sujala watershed program in the area of productivity enhancement.
• Prepare training modules for farmers as well as staff for productivity enhancement measures through holistic approach.
• Train the university scientists and WDD staff as master trainers in holistic productivity enhancement interventions
• To enhance the productivity of the crops in the watersheds by adopting holistic integrated approach for increasing profitability and sustainability
• Demonstrate and undertake participatory evaluation of in-situ conservation measures to minimize runoff and soil loss in the individual farmer fields through sample plots.
• Collect data for calculating cost of cultivation and profitability of the improved interventions to assess economic viability of the productivity enhancement interventions.
• Disseminate the benefits of precise input use to other farmers and stakeholders; • Train farmers in productivity enhancement measures through conducting field days
in each district
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Implementation
It is proposed to undertake a holistic demonstration of production technologies in each of the project districts where saturation of watersheds treatments is undertaken. The idea is to integrate all the findings of Sujala-III in selected micro watersheds to demonstrate the efficacy of Scientific planning over the traditional method followed in IWMP.
4.3 Component 3: Institutional Strengthening
Purpose:
The component would finance eligible expenditures for goods, consulting services, training, minor works and incremental operating costs.
The project seeks to demonstrate more effective watershed management through greater programme integration related to rainfed agriculture, innovative and science-based approaches, strengthened institutions and increased capacities of the stakeholders. The project proposes to strengthen science base of watershed management under PMKSY-IWMP through land management in the light of soil variability hydrological dynamics and climate variability along with Horticulture, value chain & value addition etc. It is considered that greater participation of small and marginal farmers in the proposed extension delivery system, agricultural, horticultural schemes, will enhance their opportunities to adopt new technologies for realizing higher yields and incomes. In addition, stakeholders require more knowledge and expertise on improved planning tools and process, land management and productivity in rainfed areas.
Objective (i) Institutional development focusing engagement of stakeholders in relation to the
development objectives and (ii) Enhancing knowledge base and skill levels of different stake holders.
Strategy
• Train the community institutions, Gram Panchayat members, and farmers about the benefits of integrated watershed planning and the importance of effective convergence of PMKSY-IWMP operations.
• Train the farmers on integrated crop planning, water management, farming intensity, environmental management, soil and soil moisture management, and adaptation to climatic change, etc.
• Incremental training for User Groups / Producer groups on improved harvesting and post-harvest handling of produce, Primary processing and value addition, assessing the market potential etc. for Agriculture and Horticulture crops.
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• Awareness training for the members of Self-Help Groups about the other ongoing Government Schemes and Programs on Agriculture, Horticulture, Animal Husbandry etc.
• Organising Exposure Visits for community members across the project area for exchange of information, sharing the Knowledge and adoption of latest Technology.
• Preparing customised training modules & programs on planning processes. • Development and Strengthening of the in-house M&E systems in WDD
Implementation:
This component has two parts namely a) Improving the knowledge, skill and ability of different stake holders and b) Upgrading the institutional infrastructure to facilitate the above activities.
WDD has engaged ICRISAT for undertaking detailed training need assessment and to develop training modules and tools to train stakeholders at different levels and to deliver the training programmes. Further, they are entrusted with the training of Stake holders at Stake and district levels besides organising exposure visits, conducting workshops and seminars.
NGOs and partners will assist the WDT in arranging for capacity building activities of stake holders up to micro watershed level.
4.3.1 Roles & Responsibilities
Partner Key responsibilities NBSS&LUP, Bangalore [Lead Institute for the Consortium]
• Guiding the execution of LRI, Socio-economic survey and preparation of LRI - Atlas to partners
• Organizing stakeholder workshops • Providing standard protocols and proforma for field, GIS
& Laboratory analysis • Training in establishment of Digital Library • Training on Data authentication, data processing • Enabling the partners in developing DSS modules
IISc Bangalore • Guiding the SAU’s, UHS B, UAHS S in establishing advanced Hydrological equipments and collection of data
• Processing and utilization of advanced Hydrological data in developing climate resilient crop models
• Hand holding the partners in integrating Hydrological data in preparation of DPR
• Developing training modules and organising trainings for the partners.
UAS Bangalore, • Training the WDD staff on significance of LRI and
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Partner Key responsibilities Dharwad, Raichur, UHS Bagalkot and UAHS Shimoga
Hydrology studies and acquainting with LRI Atlas and management units
• Train the WDT in collection of Hydrological data by the communities
• Train the WDD staff in preparation of DPR KSNDMC Bangalore
• Train the partners in integrating the prevailing and projected weather data in developing climate resilient crop models
KVAFSU • Train the partners in integrating Animal Husbandry data in preparation of DPR
• Train the WDT in adopting appropriate integrated farming system
ICRISAT • Conduct need assessment and development of training modules for Stake holders
• Facilitate Trainings at State and District level • Arrange Exposure visits to different Stake holders - State
/ National / International levels • Conduct demonstration of Productivity enhancement trials
KSRSAC • Train the partners in map reading, image interpretation, ground truthing and DEM models
Need for Training
The utility of the Sujala-III database depends entirely on its dissemination to the various user agencies and project personnel working in the watershed areas. This can be achieved by organising structured training programmes, both during the course of the survey and later during planning and implementation of the watershed and Horticulture development programs. Project partners will be generating “Spatial digital data library of land resources, hydrological characteristics, Socio-economic, Animal Husbandry data”. These partners will be organizing training to sensitize the field officials, development departments and stakeholders / farmers and any other concerned groups. The project targets the capacity building of the following: • Beneficiary organizations (EC, UG, SHGs, HOPCOMS) • Facilitator organizations (WDT, NGOs, WA) • Project Management Unit (PPMU, PTC, DWDO, TWDOs) • Elected Local Bodies (GP and ZP members) • Technical support members (Staff of WDD, DoA, DoH, SAUs, DoAH, UHS,
RSKs, KVKs)
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4.3.2 Training Material and Tools for CB Activities:
Preparation of Training Materials and Tools and Development of various training Modules will be the responsibility of the Lead Technical Partner of the respective component, in association with WDD. In this regard, PTC of WDD will co-ordinate with all the Technical project partners. While preparing CB Plan care will be taken to integrate the existing information in the PMKSY-IWMP Training modules.
The Capacity building activities such as Training Programmes, workshops, training modules and the exposure visits for Capacity Building along with the activities categorised at State, District, Sub-watershed and Micro-watershed level to different stake holders is listed below.
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I. Capacity Building activities completed
State level
Sl. No.
Training title Participants No. of participants
By Whom Duration (Days)/ Batches
Location Month
1. Interactive meeting with ICRISAT scientists and WDD staff to decide about CB activities WDD staff districts
staff 30 WDD 1 / 1 WDD Bangalore
2 Nov 2015
2. Sujala Awareness building, Training of Master Trainers
WDD staff , south districts staff 68 WDD 1 /1 Mangala Bhavan
UAS B 17 Dec 2015
3. Sujala Awareness building, Training of Master Trainers North districts staff 40 WDD 1 / 1 DATC Vijayapura 2 Jan
2016 4. Training Need Assessment Interaction meeting held
at WDD
Line department staff 25 ICRISAT 1 /1 WDD Bangalore 2 July 2016
5. Trainers training on SUJALA-III project1
DATC staff 20 LRI Partners 3 NBSS&LUP
6. Workshop - Geographical Information System (GIS) for Sujala – III Project Staff
Project staff of UHS Bagalkot 10
NBSS&LUP 5 NBSS&LUP 20th – 25th
June, 2016 7. Workshop on Account management Partners 30 WDD
1 WDD 24.10.2016
8. DL-DSS-Workshop Partners 28 NBSS&LUP 1 NBSS&LUP 07.06.2016
9. DL-DSS & portal Workshop Partners 16 NBSS&LUP 1 NBSS&LUP 08.06.2016
1 The Trainers Training programme was conceived as important based on the request from DATCs and hence included in the training schedule for 2016-17
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Sl. No.
Training title Participants No. of participants
By Whom Duration (Days)/ Batches
Location Month
10. Sujala - III Workshop review of progress
Partners 12
NBSS&LUP 2 NBSS&LUP
13.06.2016 to 14.06.2016
11. Sujala DL- development review Partners 10 NBSS&LU
P 1 NBSS&LUP 18.08.2016
12. Sujala work shop on LRI expansion Partners 58 NBSS&LU
P 1 NBSS&LUP 28.09.2016 to
29.09.2016
13. Tumkur Saturation workshop JDA & Staff 27 NBSS&LU
P 1 NBSS&LUP 03.10.2016
14. Workshop on finalization of M & E indicators and their quantification Partners 40 NBSS&LU
P 1 NBSS&LUP 05.10.2016
15. Workshop on finalization of M & E indicators and their quantification Partners 40
NBSS&LUP 1 NBSS&LUP
06.10.2016
16. Working group meeting on DSS ICRISAT & Partners 6
NBSS&LUP 1 NBSS&LUP
06.10.2016
17. Working group meeting on DSS ICRISAT & Partners 5
NBSS&LUP 1 NBSS&LUP 07.10.2016
18. Working group meeting on DSS ICRISAT & Partners 8
NBSS&LUP 1 NBSS&LUP 17.10.2016
19. Working group meeting on DSS ICRISAT & Partners 8
NBSS&LUP 1 NBSS&LUP 18.10.2016
20. Working group meeting on DSS ICRISAT & Partners 7
NBSS&LUP 1 NBSS&LUP 19.10.2016
21. Working group meeting on DSS ICRISAT & Partners 3
NBSS&LUP 1 NBSS&LUP 24.10.2016
22. Working group meeting on DSS ICRISAT & Partners 29
NBSS&LUP 1
NBSS&LUP 25.10.2016
23. Working group meeting on DSS ICRISAT & Partners 7 NBSS&LUP 1 NBSS&LUP 25.10.2016
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Sl. No.
Training title Participants No. of participants
By Whom Duration (Days)/ Batches
Location Month
24. Working group meeting on DSS ICRISAT & Partners 14 NBSS&LUP 1 NBSS&LUP 26.10.2016
25. Working group meeting on DSS ICRISAT & Partners 10 NBSS&LUP 1 NBSS&LUP 27.10.2016
26. Workshop on hydrology - Soil moisture assessment by utilizing RISAT-1 data Partners 30 NBSS&LU
P 1 NBSS&LUP 05.10.2016
27. Soil survey training UAHS staff 15 NBSS&LU
P 5 NBSS&LUP 11th to 15th 2016
28. Image Interpretation at Bijapur UAS D 50 NBSS&LU
P 1 NBSS&LUP 4th and 5th Feb 2016
29. Soil co-relation workshop held at UAS Raichur All the project partners
35 NBSS&LU
P 2 NBSS&LUP 08.05.2015 and
09.05.2015 30.
Sujala progress review workshop / NBSS&LUP All the project partners 25 NBSS&LU
P 1 NBSS&LUP 04.07.2015
31. LRI field work Training program / UAHS Shimoga
UAHS project scientists and field
staff30 NBSS&LU
P 6 NBSS&LUP 20th to 25th July 2015
32. LRI field work Training program / UAS Raichur
UAS Raichur project scientists and field
staff 35 NBSS&LU
P 6 NBSS&LUP 23rd to 28th July 2015).
33. Preparation of Pilot management plan / Hosahalli
Chamrajnagar dist. Project Scientist & WDD Officials 50 UAS
Bangalore 5 UAS Bangalore 3rd to 5th Aug-15
34. Pilot implementation Plan for model micro watershed UHS Project Staff 50 UHS
Bagalkot 1 UHS Bagalkot 31.08.2015
35. Soil and water conservation field staff 15 UHS
Bagalkot 2 UHS Bagalkot 01.09.2015
to 02.09.2015
36. GIS Training Programme UAS, Bangalore / Dharwad
14 NBSS&LUP 8 NBSS&LUP 18.08.14 to
27.08.14
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Sl. No.
Training title Participants No. of participants
By Whom Duration (Days)/ Batches
Location Month
37. Crop Modular Training Project Partners 35 NBSS&LUP 1 NBSS&LUP Oct, 2014
38. Image Interpretation Project Partners 56
NBSS&LUP 27 NBSS&LUP 03.01.15 to
24.01.15
39. GIS Training Orientation UAS, Raichur staff 3
NBSS&LUP 2 NBSS&LUP Dec. 2014 &
Jan 2015
40. Orientation Training Programme UAS, Dharwad staff 20 UAS, Dharwad 11 NBSS&LUP
05.08.14 to 16.08.14
41. Hydrological Studies All Project Partners 22
NBSS&LUP 1 NBSS&LUP 19.02.15
District / Taluk / Micro watershed level
1. An introduction to SUJALA-III project for District level officers in Chamarajanagar
Line department staff 68 WDD 1 / 1 KVK
CRNagar
26 April 2016
2. An introduction to SUJALA-III project for District level officers in Bidar Line department staff 42 WDD 1 / 1 CoH
Bidar 28 April
2016
3. An introduction to SUJALA-III project for District level officers in Koppal Line department staff 28 WDD 1 / 1 JDA office
Koppal 30 April
2016
4. Building insights in to SUJALA-III project for Taluk level implementing personnel in Bidar Line department staff 18 WDD 1 / 1 Bidar 18 May
2016
5. Building insights in to SUJALA-III project for Taluk level implementing personnel in Koppal Line department staff 20 WDD 1 / 1 ADA office
Koppal 21 May
2016
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6. Building insights in to SUJALA-III project for Taluk level implementing personnel in Chamarajanagar
Line department staff 35 WDD 1 / 1 KVK CR Nagar
24 June 2016
7. Effective implementation of activities as per DPR in sub watersheds selected for saturation of watershed activities - WDT members
WDT members 43 (21+22) WDD 3 /2 DATC, Mysore DATC, Vijayapura Dec 2016
8. Implementation of soil and water conservation activities in sub watersheds selected for saturation of watershed development interventions- Agricultural sector staff
Agri. Sector staff- SCN 27 (13+14) WDD 5 /2 DATC, Mysore
DATC, Vijayapura Jan/ Feb
2017
9. Basics of Sujala-III and WS planning using scientific inputs generated in the project- for Watershed Assistants and representatives of WCs
WA and WC representatives 60 (30+30) WDD 3 / 2 DATC, Mysore
DATC, Vijayapura Dec.2016
10. Technological aspects of Soil and water conservation activities in watershed development for Watershed Assistants and WCs
WA and WC representatives 60 (30+30) WDD 6 / 2 DATC, Mysore
DATC, Vijayapura Jan.2017
11. Technological aspects of crop production, forestry and animal husbandry activities in watershed development for Watershed Assistants and representatives of WCs
WA and WC representatives 60 (30+30) WDD 6 / 2 DATC, Mysore
DATC, Vijayapura Mar.2017
12. Sericulture intervention in comprehensive watershed development- WDT (Seri)
DoS staff in WS area 20 CSR&TI 2 /1
CSR&TI Mysore KVK CNagara/UAS B
Feb.2017
13. Animal husbandry technologies in comprehensive watershed development-WDT(AH)
DoAH staff in WS area 20 KVAFSU 2 /1
KVAFSU Bidar/ Bangalore campus
Jan. 2017
14. Participatory approaches in watershed project management- WDT
WDT members 21+22 WDD 2 /2
DATC, Mysore DATC, Vijayapura
Dec.2016
15. Empowerment of village watershed development committees
WC representatives from each MWS 160 (@4/MWS) WDD 3 /4
CR Nagar, Madhugiri, Yalaburga, Humnabad
Feb. 2017
16. Hydrological monitoring by communities Aquifer interest group representatives 120
(@3/ MWS) WDD 5 /4 CR Nagar, Madhugiri, Yalaburga, Humnabad
Feb. 2017
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17. An introduction to Sujala-III and effective use of LRI/ Scientific inputs
DLC members and Taluk officers of Line Departments
210 (@30/ district WDD 2 /7
Chickmagalore, Davanagere, Gadag, Vijayapura, Raichur, Yadagiri and Kalaburgi
Dec2016
18. An introduction to Sujala-III and effective use of LRI/ Scientific inputs for field extension workers of RSKs and ADAs office
RSKs and ADA office staff
220 (@20/ district) WDD 2 /8
Bidar, Kalaburgi, Raichur + Yadagiri, Gadag + Koppal Vijayapura, Davanagere+ Chickmagalore, Tumkur Chamarajanagara
Jan.2017
19. Field day at Mustari Village, Humnabad, Bidar district
Farmers 200 KVAFSU 1
Mustari Village, Humnabad, Bidar district
30.01.2016
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Tentative Trainings scheduled for DATC Mysore during 2017-18 underSujala-3 project
Title/theme Participants No. of Batches
Duration (days)
Place of training
Tentative time Imparting agency Category Numbers
Introduction to Sujala-3 project for NGOs and their responsibilities in the project
NGO team @ 3/ project district from all project districts
3 1 3 DATC, Mysore May,
2017 DATC Mysore
Participatory approaches in implementation and monitoring and evaluation of watershed development activities
WDT members 6/ SWS NGOs 2/SWS from 3 SWS (CRNagar, Tumkur & C. Magalore)
24 1 3 DATC Mysore May 2017
DATC Mysore
Productivity enhancement strategies based on scientific data generated in project
ADA office staff=2 AO=2, AAO=8/SWS from 3 SWS (CRNagar, Tumkur & C. Magalore
36 1 3 DATC Mysore May to June 1 week, 2017
DATC Mysore
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 11 MWs from Chamarajanagar
66 2 3
DATC Mysore June, 2017
DATC Mysore
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC from 11 MWs from Chamarajanagar
66 2 3
DATC Mysore June- July, 2017
DATC Mysore
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC from 11 MWs from Chamarajanagar
66 2 3
DATC Mysore Sept-Nov 2017
DATC Mysore
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Tentative Trainings scheduled for DATC Vijayapura during 2017-18 underSujala-3 project
Title/theme Participants No. of Batches
Duration (days)
Place of training
Tentative time Imparting agency Category Numbers
Technological aspects of comprehensive watershed development
Watershed Assistants 29 1 6 DATC, Vijayapura
May, 2017 DATC Vijayapura
Participatory approaches in implementation and monitoring and evaluation of watershed development activities
WDT members 6/ SWS NGOs 2/SWS from 8 SWS (Bidar, Kalaburgi, Yadagiri, Koppal, Raichur, Vijayapura, Gadag, Davanagere)
64 2 3 DATC, Vijayapura
May 2017 DATC Vijayapura
Productivity enhancement strategies based on scientific data generated in project
ADA office staff=2 AO=2, AAO=8/SWS (Bidar, Kalaburgi, Yadagiri, Koppal, Raichur, Vijayapura, Gadag, Davanagere)
96 3 3
DATC, Vijayapura
May to June 1 week, 2017
DATC Vijayapura
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 5 / WC from 8 MWs from Vijayapura
40 1 3 DATC, Vijayapura
June, 2017 DATC Vijayapura
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 5 / WC from 8 MWs from Vijayapura
40 1 3 DATC, Vijayapura
July to Aug, 2017
DATC Vijayapura
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 5 / WC from 8 MWs from Vijayapura
40 1 3 DATC, Vijayapura
Aug to Sept 2017
DATC Vijayapura
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Training scheduled for DATC Tumkur (Chikkanahalli)
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 13 MWSs
78 2 3
DATC Chikkanahalli
June, 2017
DATC Chikkanahalli
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 78 2 3
DATC Chikkanahalli
July to Aug, 2017
DATC Chikkanahalli
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 78 2 3
DATC Chikkanahalli
Aug to Sept 2017
DATC Chikkanahalli
Training scheduled for Davanagere District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 7 MWSs
42 1 3
DATC Davanagere
June, 2017
DATC Davanagere
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 42 1 3
DATC Davanagere
July to Aug, 2017
DATC Davanagere
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 42 1 3
DATC Davanagere
Aug to Sept 2017
DATC Davanagere
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Training scheduled for DATC Kalaburagi
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 8 MWs
48 1 3 DATC Kalaburagi
June, 2017
DATC Kalaburagi
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 48 1 3
DATC Kalaburagi
July to Aug, 2017
DATC Kalaburagi
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 48 1 3
DATC Kalaburagi
Aug to Sept 2017
DATC Kalaburagi
Training scheduled for Yadagiri District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 10 MWs 60 2 3
DATC June, 2017
DATC
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 60 2 3
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 60 2 3
DATC Aug to Sept 2017
DATC
Training scheduled for Koppal District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 10 MWs
60 2 3
DATC June, 2017
DATC
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Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 60 2 3
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 60 2 3
DATC Aug to Sept 2017
DATC
Training scheduled for Gadag District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 8 MWs
48 1 3 DATC June,
2017 DATC
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 48 1 3
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 48 1 3
DATC Aug to Sept 2017
DATC
Training scheduled for Bidar District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 6 / WC from 10 MWs
60 2 3
DATC June, 2017
DATC
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Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC 60 2 3
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC 60 2 3
DATC Aug to Sept 2017
DATC
Training scheduled forChickmagalore District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 10/ WC from 1 MWs
10 1 3 DATC June,
2017 DATC
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 10 / WC 10 1 3
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 10 / WC 10 1 3
DATC Aug to Sept 2017
DATC
Training scheduled for Raichur District at Micro watershed level
Institutional and implementation arrangements in Sujala-3 project and understanding roles and responsibilities of stakeholders
WC representatives @ 10 / WC from 1 MWs
10 1 3
DATC June, 2017
DATC
Technological aspects of comprehensive watershed development including environment mgt. strategies
WC representatives @ 6 / WC
10 13
DATC July to Aug, 2017
DATC
Participatory approaches in implementation , monitoring and evaluation of watershed development activities
WC representatives @ 6 / WC
10 13
DATC Aug to Sept 2017
DATC
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I. Capacity Building schedule from April 2018 to November-2018 (subject to revision)
Title/theme Participants No. of Batches
Duration (days)
Place of training
Tentative time
Imparting agency Category Numbers
State level Annual experience sharing workshop
All partner institutes, district staff 100 1 1 UAS-B April, 2018 WDD
Strengthening hydrological monitoring by communities
NGOs and WA (22+48) 60 2 3 UAS-R &
UAS-B May, 2018 UAS-R & UAS-B
Orientation on use of digital library and decision support system
Scientists, KVK staff, key persons of dev. departments, WDD staff, JDAs and DDAs of project districts etc.
180 6 2 WDD April to June 2018 WDD
Productivity enhancement strategies based on scientific data generated in the project
JDAs, DDAs, ADAs, AOs, AAOs and others from project districts
165 6 1 WDD July, 2018 WDD
Dissemination of climate change adaptation and mitigation measures
JDAs, DDAs, ADAs, AOs, AAOs and others from project districts
165 6 1 KSNDMC August, 2018 WDD
Workshop to review the progress and to set phasing out strategies
JDAs, DDAs, ADAs, WDD staff 60 1 1 WDD Oct. 2018 WDD
District level Annual experience sharing workshop and setting strategies to improve implementation efficiency
DLC members, DDAs, WDTs, NGOs, WCs 540 1 1 JDAs office May, 2018 JDA
Soil and water conservation technologies in watershed development
Agricultural Sector staff of WDT 55 2 3
IIS&WC, Bellary
May, 2018 IIS&WC, Bellary
Orientation on use of digital library and decision support system
DLC members 165 11 1 DATC, Mysore
and Vijayapura June, 2018 DATCs
Horticultural sector activities in watershed development
ADH, AHO 22 1 3 UHS-B, GKVK
June, 2018 UHS-B, GKVK
Forestry sector activities in ACF, RFO 22 1 3 UAHS-S, June, 2018 UAHS-S,
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Title/theme Participants No. of Batches
Duration (days)
Place of training
Tentative time
Imparting agency Category Numbers
watershed development Ponnampet PonnampetAnimal Husbandry interventions in watershed development
ADAH, VO 22 1 3 KVAFSU, Hebbal
June, 2018 KVAFSU, Hebbal
Sericulture interventions in watershed development
ADS, SEO, SI 22 1 3 KSSRC, Talagattapura
June, 2018 KSSRC, Talagattapura
Participatory watershed implementation, monitoring and evaluation
WDT members 66 3 2 DATC, Mysore
and Vijayapura July, 2018 DATCs
Participatory implementation and monitoring of watershed development activities
Watershed Assistants (88+2 MWS) 46 2 3 DATC, Mysore
and Vijayapura July, 2018 DATCs
Refresher training on soil and water conservation activities in watershed development
Watershed Assistants 46 2 3 DATC, Mysore
and Vijayapura July, 2018 DATCs
Productivity enhancement strategies based on scientific data and climate resilient agriculture
Watershed Assistants 46 2 6
DATC, Mysore and Vijayapura
August, 2018
DATCs
Dissemination of climate change adaptation and mitigation measures
RSKs staff 150 5 3 DATC, Mysore and Vijayapura
Sept to Nov, 2018
DATCs
Environmental awareness management and monitoring
WA & NGOs 60 2 3 DATC, Mysore and Vijayapura
Nov, 2018 DATCs
Project phasing out strategy DLC members, DDAs, WDTs, NGOs, WCs 540 1 1 JDAs office Nov. 2018 JDA
Sub watershed level Orientation on use of digital library and decision support system
PRIs representatives @ 12 / sub-watershed / district
132 11 1 DATCs of project districts
June, 2018 DATCs
Orientation on use of digital library and decision support system
WC representatives @ 3 / WC 264 9 3
DATCs of project districts
June, 2018 DATCs
Productivity enhancement technologies based on scientific data
WC representatives @ 6 / WC 528 18 3
DATCs of project districts
July to Aug, 2018
DATCs
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Title/theme Participants No. of Batches
Duration (days)
Place of training
Tentative time
Imparting agency Category Numbers
Adoption of climate change adaptation and mitigation measures
WC representatives @ 3 / WC 264 9 3
DATCs of project districts
Aug to Sept 2018
DATCs
Effective management of watershed committees- leadership, communication, group dynamics and conflict resolution
WC representatives @ 3 / WC
264 9 3
DATCs of project districts
Oct to Nov 2018
DATCs
Accounting and book keeping WC representatives @ 3 / WC 264 9 3 DATCs of
project districts Oct to Nov 2018
DATCs
Livelihood activities / micro enterprises management (selection, execution and maintenance, linkages, marketing)
SHGs / UG members @ 10 / MWS
880 30 3
DATCs of project districts
April to Sept., 2018
DATCs
Phasing out strategies in the project
WC representatives @ 3 / WC 264 9 3
DATCs of project districts
Nov, 2018 DATCs
Sub-watershed level workshop on lessons learnt and way forward
WDT member, WAs, NGOs, WC representatives
100 1 1 DDA office Nov, 2018 DDA
Micro watershed level Adoption of climate resilient agriculture-adaptation and mitigation measures
Farmers / Community members @ 30 / MWS 2640 88 1 NGOs May to
July, 2018 NGOs
Productivity enhancement approaches based on scientific data generated in Sujala-3
Farmers / Community members @ 30 / MWS 2640 88 1 NGOs Aug to Oct,
2018 NGOs
Integrated natural resources management-hydrology, ground water management and safe guards
Farmers / Community members @ 30 / MWS 2640 88 1 NGOs July to
Nov. 2018 NGOs
Project phasing out and orientation on continuation of technologies introduced in the project
Farmers / Community members @ 30 / MWS 2640 88 1 NGOs Oct. to
Nov. 2018 NGOs
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Exposure Visits
Date Participant Place
30.10.2014 to 10.11.2014
Hon’ble Agriculture Minister, Karnataka Vietnam
30.12.2015 to 02.01.2016
Secretary to GoK, Agriculture Department Kenya
28.10.2015 to 03.11.2015
37 farmers from Tumkur and Chamarajanagar Ralegaon siddhi, Maharashtra
03.02.2016 to 07.02.2016
38 farmers from Raichur and Yadgir Ralegaon siddhi, Maharashtra
During Oct-Nov, 2016
356 farmers from 8 districts (Bidar, Chamarajanagara, Chikkamagaluru, Gadag, Kalaburgi, Raichur, Tumkur, Koppal)
Within their respective districts
07.11.2016 to 13.11.2016
40 farmers from Gadag and Koppal Sadguru Foundation, Gujarat
14.11.2016 to 21.11.2016
44 farmers from Chikkamagaluru and Davanagere Sadguru Foundation, Gujarat
13.02.2017 to 19.02.2017
Five officers of WDD MHWDP, Himachal pradesh
20.02.2017 to 26.02.2017
Seven officers of WDD MHWDP, Himachal pradesh
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4.3.3 Infrastructure development : Purpose: The quality of the implementation of the project depends on the Human resource behind it. The personnel involved at various levels with differenct capabilities are to be brought to required level through sensitization, training, exposure visits etc., which is referred to capacity building activity. The training is intended to bring a change in the knowledge, attitude and skill of the personnel. Imparting training and other related capacity building activities require strong state of the art equipment, material and environment. Thus infrasturcuture development for enhancing the capababilities of the project personnel is dealt in this component. Location: Mainly at Vijayapura and Mysore training centres and also in district training centres at 11 project centres. Strategy: The project finances for upgrading the existing class rooms, furniture, audio visual teaching aids, accommodation and transport facilities. Implementation: The funds are streamlined through officer in charge of the District Training Centre for upgrading the facility The project personnel at different levels will be deputed for training in these centres.
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4.4 Component 4. Strengthening Horticulture in Rainfed Areas
Introduction:
Horticulture sector in the project area would focus on introduction of new varieties/ crops suitable for rainfed areas. Capability Building, enhancing knowledge base and assisting the farmers through training and demonstrations on new practices and packages suitable for Rainfed areas will be taken up on priority. Farmers in micro watersheds will be mobilized to adopt collective approach for harnessing the benefits of scale, as well as better post harvest and value addition practices besides integrated nutrition and pest management practices. The project has programmes to provide incremental management support and training by complementing the current interventions to improve productivity in selected horticultural crops. The sectoral staff along with resource institutes, would organize the Horticulture farmer groups in the watersheds and will be trained on input production on farm, skill development in dry land horticulture production technology, post harvest handling and establishment of direct market linkages including value additions. The project planning and implementation will be concentrated broadly on the following 4 areas:
1. Extension and demonstrations to Farmer Groups on annual and perennial horticulture crops, nutritional gardens and crop water management.
2. Establishment of soil, water and leaf analysis facilities and monitoring the nutritional status through training and capacity building programmes.
3. Strengthening post harvest management, marketing and value addition through technical support by instituting the studies for generating scientific know how.
4. Strengthening horticulture sector through service support for meeting the above requirements.
The horticulture component of Sujala-III project is implemented through FPO approach for better effectiveness. The FPO will generally have a minimum of 1000 farmer members of the project area. About 20 farmers are grouped to become the Farmer interest Groups who are in close proximity.
The activities will be taken up on pilot/ demonstration basis and the activities of the project catalyse adoption of similar approach and wider implementation in rest of the district and other districts. The project shall ensure, Capacity building and training of the farmers with required knowledge base, establishment of post harvest and marketing facilities, coordinating with marketing and processing activities and providing policy support from time to time.
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Structure of the Horticulture Project Monitoring Cell
4.4.1 Extension and Demonstration for Productivity improvement:
Purpose:
The productivity of horticultural crops in dry land areas is generally low as farmers are adopting low investment cropping systems to avert the risk of crop failures. This component targets on building the capacity of farmers, by providing the required package of practices. The design of these interventions will follow the schedule of training, exposure visits, demonstration on adoption of Good Farming Practices. Better management of rain water and adoption of Good Agriculture Practices for sustainable production of perennial and annual crops in farmers field and establishment of nutritional gardens in public schools. The Component would also support field days, training the facilitators and development of crop specific literature on crop profiles, video films, CDs.
Objectives:
Improving knowledge base and skills of farmers on production practices for perennial and annual horticulture crops in watershed areas to enhance productivity and returns and establishment of nutritional gardens in the premises of public schools.
Motivating the farmers to adopt Good Agriculture Practices for sustainable production of horticultural crops in rain fed areas.
To adopt a collective approach for building the capacity of farmers,
Location: The activities are planned in all the 11 project districts.
Strategy:
i. Training of farmers: The farmers will be trained on potential horticulture crops. The crop selection based on LRI data, land use capability and market demand and such trainings will be carried out by the project horticulture staff. This component will be implemented during second, third and fourth year in line with the coverage of area under the project.
Commissioner of Horticulture Commissioner, WDD
Project Management Cell (State Level)
Project Offices – District Level
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ii. Demonstrations: Demonstration on cultivation of perennial crops, such as Mango,
Guava, Jack, Amla, Sapota, Jamun, Tamarind, Acid Lime, Cashew, Ber, etc., suited to soil, climate and market demand will be laid out in farmers’ field with the participation of farmers and support from the project in an area of one hectare in each MWS. This activity will be taken up during 2nd, 3rd and 4th year to enable other farmers to follow the lessons of demos in their farms. The crop selection for demonstrations in different MWS are made based on LRI data. The interventions namely introduction of horticulture crops where field crops were grown continuously, improved varieties, high / medium density of planting, INM, new crop consortium, IPM, Land based activities, mulching, use of hydrogels etc., which enhance productivity, production and returns to the farmers. Both perennial (fruits) and vegetable crops are used for demonstrations based on suitability for the MWS. Similarly, the demonstrations of annual vegetables, such as Tomato, Onion, Chilli, Brinjal, Okra, Drumstick, Curry leaf etc., flowers such as Marigold, Chrysanthemum, Gailardia etc., medicinal (Ashwagandha), aromatic crops (Lemon grass, Vetivera etc.,) and spices (Turmeric and Ginger) suited to soil, climate and market demand will be taken up in farmer’s field with their participation. Demonstrations on nutritional gardens is proposed to be taken up in Govt schools through Grama Panchayats and School Management Committees by growing local vegetables, fruits and herbs, etc., round the year.
iii. Productivity Improvement in Departmental Farms
The existing departmental horticultural farms in the project districts are strengthened with crop productivity improvement programmes and also rejuvenation of progeny orchards to serve as demonstration to the FIGs of the project. The productivity program involves developing watershed concepts like a) soil and water conservation structures such as compartment bunding, TCB, crescent bunding, catch pits and organic mulching b) rejuvenation of progeny orchard through training and pruning, top working, adoption of INM, IPM and suitable cropping systems, drip irrigation etc., c) Strengthen the model nurseries for supplying quality planting materials.
iv. Nutrition Garden Demonstrations
The demonstration on nutritional garden activity implemented in Government schools through the participation of Gram Panchayats and school management committees by growing local vegetables, fruits, herbs etc., round the year. This will help in providing fresh vegetables, fruits and herbs to the student community to alleviate mal nutrition.
v. Field days: Every demo will be followed with field days. Farmer to farmer interactions are also arranged regarding adoption of new technologies. The participated farmers in the field day are the source of spreading/transfer of technologies to other farmers of the region.
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vi. Exposure Visits : The exposure visits enable FIGs, FPO management, farmers from different areas/ MWS to interact with and learn from each other allowing them to weave practical examples of successful integration of sustainable, proven and scientific practices in farming.
vii. Formation of FIGs : The FIGs formed in Sujala-III will be strengthened by building capacity in production, post harvest handling and provide hand holding support until the Sanghas become self sustainable. These FIGs will be the focal point for conducting the demonstrations and all other activities of the horticulture component in the MWS.
viii. Demonstrations of horticulture service support programmes: The nutrition kits involving organic manure enriched with bio agents and micronutrients are supplied to FIGs to conduct demonstration on fruits and vegetable crops. The crop growth and productivity is enhanced in dry land areas as a result income of the farmer increase besides improvement in soil health.
ix. Creation of Greenhouse with water storage structures: Aimed to demonstrate the productivity enhancement per unit area by cultivation of high value vegetable crops like tomato, capsicum, cucumber, flower crops and seed production activities. The rain water falling on greenhouses is effectively harvested and utilised for cultivation of crop.
x. Training to facilitators: The lead member of FIG will be identified and trained to guide other farmers for implementation of horticulture components in MWS. These trainings and exposure visits are conducted regularly to update their knowledge about advanced production and PHM technologies / activities imparted by the concerned experts of KVK’s/SAU’s/Project staff / Consultants / SMS.
xi. Publications: Booklets having a detailed information on the package of practices to various crops, marketing and post-harvest processing and contingent planning for the district and such booklets will be given to the facilitators, UGs and horticulture SHGs. The publications on a) Crop interventions manual comprising of mango, sapota, guava, jamun, jack, ber, tamarind, clustered apple, acid lime, cashew and amla considering LRI information (S1 & S2 crops) b) Crop interventions manual of annual vegetable crops comprising of tomato, brinjal, onion, okra, chillies, drumstick, curry leaf and spices like turmeric and ginger c) IPM manual for fruits, vegetable and spices covered under the project. d) Individual crop production technology leaflets are also being prepared.
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xii. GIS Laboratory for Horticulture
All the activities under the project are to be monitored concurrently for efficient results/outcome and well documented. From planning, analyzing the field, crop production, harvest analysis and precision horticulture tracking & field data collection, quality, efficiency of the above activities and evaluation can be improved through GIS facility as against the manual inspection and evaluation. By this digital monitoring the time frame required for evaluation is reduced. Although, online monitoring of activities through computerization/digitalization is being implemented in the Department, the GIS will help in mapping the activities farmer wise, survey number wise, village wise, hobli wise, taluk wise, district wise and at MWS level.
xiii. Mobile Services Platform & App for Custom Hiring Service Centre
Most of the small and marginal farmers use farm machinery, tools and vehicles on hire basis. In the present system, there are several problems as there are no regular and formal arrangements for hiring. It is generally on adhoc basis and has many problems. Presently under the project, farm equipment and tools have been provided to the FPOs as Custom Hiring Centres(CHC), but the facility are not put to full use. In order to enable efficient use of the CHC equipment as also make available farm equipment to the FPO members in a timely and efficient manner, a customer hiring service centre with required equipments, hardware and software is planned.
The mobile services platform will have a robust backend software system with a quick-response front end system for efficient management and hiring of the CHC, other facilities of FPO as also other farm equipment available with the registered farmers. The system should be dynamic and with quick response. The platform/ system along with the personnel should be able to undertake activities namely; a)Maintain dynamic database of all equipments of CHC, other facilities of FPO and registered farmers b) Maintain membership of users c) End to end solution starting from Accepting requests from Farmers for equipment, schedule automatic allotment, billing, payment tracking d) Proper maintenance of the equipment e) Training of Drivers and staff on operation and maintenance and f) Provide analytical tools/ information regarding usage, trends, etc.,
Time Frame: The time line for implementation of each activity of the subcomponents are given in the annexure comprising the GANNT chart. These sub components will be implemented from 2nd to 5th year of the project period.
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Documentation: The staff will document details of each activity including the mode of implementation, level of community /farmers involvement, feedback received during the implementation, post implementation impact and level of adoption of the techno-managerial aspect introduced under the sub component and lessons learnt for up-scaling including the grading of each of the activity. The feedback received will be circulated for taking research and further innovations on the areas of demand by the farmers.
The detail of each activity with its success and impact on sustainable productivity and returns will be documented through case studies, success stories, video films and photos of both perennial and annual crops. This document will serve as a permanent source of information on production technologies of different crops for the future farmers, SMS, users, and other facilitators.
4.4.2 Soil and Crop Monitoring:
Purpose:
To overcome the risk of crop failure due to drought and to build capacity of farmers to take timely decisions in application of right nutrients based on appropriate scientific knowledge, it is proposed to establish soil, water and plant tissue analysis facilities at district level and facilitate the farmers to maintain a good health of crop-soil-humus ratio.
Objective:
It is proposed to train the farmers on the soil health and its importance, the sampling method and adoption of suitable measures. The soil health cards will be distributed to farmers.
Location: The activities are planned in all the 11 project districts.
Soil, Water & Leaf Analysis:
Soil and leaf tissue analysis will be carried out for major nutrients (N, P, K, pH, EC, Secondary nutrients (Ca, Mg, S), Micro nutrients (Ca, Zn, Mn, B, Fe etc) & heavy metals (Lead, Arsenic, Chromium & Cadmium) and water analysis for pH, EC, Carbonates/Bicarbonates, Chlorides, Sodium & heavy metals. The samples can also be analysed from SAUs and KVK.
i. Soil, water and leaf tissue testing laboratories: Soil, water and leaf tissue laboratory facilities will be established in one district (Koppal) under the project during the 3rd year of the project period. These laboratories will be managed by the project staff. The necessary analysis of the
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samples given by the farmers and recommend suitable correction measures to be taken up based on test results. At present since the laboratories are still under construction and establishment stage, the collected soil/water samples are analysed through KVKs/SAUs/Departments.
Time Period:
The component activities has been initiated during 3rdyear and continued up to 5th year. Later on the horticulture department would extend handholding support to farmers to continue the practices on their own.
4.4.3. Post Harvest Management:
Purpose :
Many a times crops produced by the farmers will not fetch the desired price in the market owing to the glut, damage during harvesting or transportation. During such season, if the farmer can be supported with post harvest manipulations and value addition to his produce it will fetch better remunerative price.
Objective:
Tomato, Onion, Chilli and potato growers are the frequent victims of inadequate post-harvest and market linkages. To prevent such situation and to avoid farmers falling into distress sale, it is proposed to develop appropriate post harvest handling and marketing facilities and linkages in the project area.
Strategy
Post harvest technology is required for storage, primary and secondary processing, packaging, distribution and marketing of horticultural crops. This would stimulate production, minimise post-harvest losses, improve nutrition and add value to the produces. In this process, it would generate employment, improve the economic status and catalyse technological innovations, commercial entrepreneurship and respond in an integrated manner to the development needs.
This will be taken up with demonstration of scientific harvesting for different crops and popularise the harvesting practices as well as establishment of suitable storage, handling, post-harvest infrastructure and processing units.
Location: The activities are planned in all the 11 project districts.
a) Assessment of Post Harvest Infrastructure & Market Linkage and Value Chain Packages for selected crops:
A study on the assessment of Post Harvest Infrastructure and marketing linkage requirement including a baseline survey shall be conducted. This activity is required to obtain baseline data of the FPO farmers in the project area; assess the post harvest
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infrastructure & market linkage – existing and required for the district; obtain designs, drawings and specifications for the post harvest and marketing facilities. For this purpose, NABARD Consultancy Serivces (P) Ltd., -NABCONS had been assigned the work pertaining to the initial seven districts of Sujala –III Project and the firm has already submitted its report.
b) Training & Capacity building
The project looks at an end to end approach, the FPOs and the other Stakeholders apart from being specialised in their field of activity are also expected to have knowledge of Post-Harvest Management, Marketing, Business Operations and statutory & legal aspects of FPO. This activity shall include training, capacity building, exposure visits, participation in exhibitions by having stalls and visit to exhibitions etc.
The stakeholders will be continuously trained and guided by the horticultural staff working in Sujala-III project. Along with them innovative/enterprising farmers will be trained to capacitate them on the post-harvest management of the produces.
c) Post Harvest Infrastructure & Practices.
i) Ripening Units: Ripening is the process by which fruits attain their desirable flavour, quality, colour and other textural properties. Presently the aggregators adopt unscientific ripening system which leads to physical loss and quality deterioration of the produces. In order to educate the farmers, local entrepreneurs, FPOs and traders on the scientific line of ripening of fruits, it is proposed to establish the ripening units in all districts with the FPO.
The safe and worldwide accepted method is using ethylene, which is a natural hormone for ripening when done under controlled temperature and relative humidity conditions. Ethylene being a natural hormone does not pose any health hazard for consumers of the fruits.
The scientifically designed ripening units yield good quality and safe fruits to the consumers on one end and promote scientific ripening among the farmer/ farmer groups and traders on the other. It is also necessary to promote consumption of safe and good fruits among consumers.
ii. Community Pack house: In order to establish an organised marketing system and network, the Community Pack house in the Production area becomes a very important requirement. Facility for aggregating and handling a reasonable good quantity of produce at one location is very important from the marketing point of view and can attract buyers. Further different markets have preference for different crops/ varieties/ package sizes and packaging types. This sorting, grading and packing to meet the buyer requirement (domestic/ exports) is best done in a community pack house.
iii. Small Scale Processing Units: The primary/ minimal processing and small scale processing units will help in value addition to the produce. This will be more useful during seasons of glut when there is high production and low returns for the fresh
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produce. Some of the processing units are Solar drying units, powdering units, paste making, pickling etc. This shall be based on the crops available in the region as also other factors such as market potential, operation and management risks, investments etc.
iv. Collection centres and retail outlets:
Under this component, it is proposed to establish infrastructures for running collection/ aggregation centres for horticulture produce at the FIG level . The project will bring both farmers and market functionaries on common platform through these centres wherein produces and market functionaries relationship would be established.
d. Technical Modules and Manuals for PHM and marketing.
It would be necessary to have Technical modules, bulletins, leaflets and manuals pertaining to Post Harvest Management, processing, value addition & Marketing in print and audio visual version for the crops selected in the project to create awareness, for training and capacity building to different stakeholders of the value chain.
4.4.4 Strengthening of Market Linkages
Purpose:
Horticultural produces are often perishable hence are to be disposed off within a short time. This constraint of the farmer is being exploited by the middle men. This situation can be averted by establishing proper linkages with the market for timely disposal of the produce.
Objective:
Establishing & Strengthening of market linkages to the farmers/ FPOs is vital for the benefit of the farmers and success of the project. Following activities are planned to be taken up in the project.
Location: The activities are planned in all the 11 project districts. a) Establishing of Horticulture Farmer FPOs: Producer companies are the institutions to be registered under the provisions of the amendments brought to Companies Act 1965 of India. The responsibilities of these organizations are to assist the member producers from seed to value chain management of Agri Business enterprises in rural areas.
b) Handholding & Incubation support for FPOs: Farmer Producer Organisations (FPOs) play an important and central role in implementation of Sujala Project –III. The work of mobilization of farmers, registration and related capacity building for the FPOs is taken up by several Resource Institutes through Small Farmer’s Agribusiness Consortium (SFAC).
During the implementation of the project, it was suggested that services of a separate agency for development of business plan for the FPOs, incubation support, close
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monitoring and hand holding them through the project for liking up both backward and forward linkage is necessary. This matter had been discussed in the Departmental meeting for FPOs and it was suggested that services of specialised and experienced agencies shall be utilized for incubation and handholding services in the Sujala Project . Subsequently, During the May 2016 Mission of World Bank, it was suggested to contract a suitable technical agency to lead the development of “end to end” business plans for 2 to 3 key crops across all project supported FPOs.
c) Activities for Value Chain & Value addition: Apart from the general post-harvest and marketing facilities for the project, there are certain important crops in certain districts which require special attention and support in the entire value chain in view of the importance of the crop and the involvement of a large number of farmers and their economies. The above value chain interventions are indicative and there can be more crops and districts based on the need of the district/ FPO.
d) Marketing Support: Marketing infrastructure and strengthening market linkages is the most desired and wanted support by the farmers/ FPOs. Sustainability of community enterprise (FPOs and its business activities) would lead to sustainability of the family income. Establishing of required marketing infrastructure and providing support facilities for marketing and branding including developing skills of the farmers/ FIGs and FPO on potential of marketing with proper grading, sorting, packing including promotion and branding as well as providing market linkages and exposing them to new markets will be undertaken in this sub component.
e) Marketing Studies and Tie-up: Market linkage of FPOs with the buyers namely Retail Chains/ Retailers, Institutions, Wholesalers, Processing Industry, Exporters is a very crucial aspect of the project. Crops which are of importance to the FPOs and have potential shall be identified and market studies undertaken by an agency/ consultant for identifying market segments, potential buyers as well as draft agreements for tie-up.
Note:
A business plan shall be prepared for all the Sujala FPOs in the project districts. The business plan shall include information on all the business activities to be undertaken as also the post harvest and marketing facilities to be provided under the project. The Infrastructure and support facilities mentioned above are indicative.
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4.5 Component 5 : Project Management and Coordination Objective: Providing Financial Support for the Management, Coordination and Third party MEL&D systems. Strategy: It is proposed to achieve the above objective of this component by following three pronged approach;
a) Project management and coordination b) Financial management and procurement c) Project monitoring and evaluation
Implementation
4.5.1 Project management and coordination –
• Overall project implementation support through additional specialized technical staff (both full and part-time) in headquarters and field offices, covering various fields including agriculture, hydrology / meteorology, GIS/MIS, environment, training, documentation, procurement, financial management, and legal services. The list of specialised personnel taken at project head quarters and subsequent modified proposal for recruiting the personnel is given the table below.
• The sub-component will also support incremental administration costs including field travel, communications and equipment such as rental cars, computers, office furniture, etc, to support project implementation.
• The sub-component will cover costs of external audits and other relevant financial management activities. It will also support the setting up and maintenance of a project website (built as update to the existing WDD website) and other project information material.
• The project will have a comprehensive communication and review strategy to ensure wide awareness about the project purpose and lessons, and ensure stakeholders engage in the continuous improvement of the project. This will include specific information events and workshops, but will largely build on the M&E and learning system and products, as well as a wide range of knowledge products emerging from the research and development component. Management specialists will be hired for strengthening the WDD management and M&E systems, and upgrading the WDD’s existing MIS system.
• The PTC will build strengths and links of the existing agricultural extension system. This will be coordinated with the District Agricultural Training Centres
• The Agricultural Officer at the Taluk level form a contact point for farmer facilitators and farmer groups for agricultural inputs, information on DoA schemes and technologies. One farmer facilitator, with an allowance from the DoA, provides
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support on technologies and advice on schemes to farmers in an area of 500 ha, roughly equivalent to a micro-watershed.
• At District and Taluk levels the project will provide support staff, training and equipment to build capacity and strengthen the arrangements already in place, mainly the existing WDT.
• The PTC supported by outsourced specialized NGOs will undertake capacity building of existing agricultural and horticultural extension units so that the local units can access and use a greater range of information products, decision tools, and manage field demonstrations.
• A web-enabled computerized MIS which will be an integral part of the M&E system, integrated into the overall WDD MIS systems.
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OLD NEW
Sl.No Designation Sanctioned Posts Sl.No Designation Sanctioned Posts
At Head Office level At Head Office level 1 Finance Manager / Specialist 1 1 GIS Specialist 1 2 GIS Specialist 1 2 Documentation & IGA Specialist 1 3 Documentation Specialist 1 3 Hydro-Geologist 1 4 Hydro-Geologist 1 4 Environment Specialist 1 5 Environment Specialist 1 5 NRM Consultant 1 6 Soil Scientist 1 6 M & E Specialist 1 7 M & E Specialist 1 7 Soil Scientist 1 8 Training Analyst 1 8 Training Analyst 1 9 System Analyst 1 9 System Analyst 1 10 Project Technical Assistant 1 10 Project Assistant (Clerical) 3 11 Project Assistant 2 11 IGA Assistant 1 12 Technical Assistant 2 12 Documentation Assistant 1 13 Computer Operator 1 13 GIS Assistant 3 14 Data Entry Operators 2 14 MIS assistant 1 15 Messengers / Peons/Class-IV 3 15 Graphic designer 1
16 Data Entry Operators 4 16 Account Assistants (@ 9 Saturation
districts) 7 17 Messengers / Peons / Class-IV 3
17 Technical Support at district level 7 Total 26 18 Technical Support at taluk level 29 18 Account Assistants (@ 9
Saturation districts) 7
(3 each for saturation dist. & 1 each for Raichur, Chikkamagaluru
19 Watershed Assistant 30
Total 43
Grand Total 63 Total 37 1 Procurement Consultant (Part time ) 1 Grand Total 63
1 Procurement Consultant (Part time ) 1
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4.5.2 Financial management and procurement
The sub-component will support consultancies for financial management, procurement, and internal audit to augment internal WDD capabilities and systems. Costs for staff training in Bank procurement and financial management will also be supported. A Finance Management and Procurement Cell (FMPC) will be established in the WDD under the PPMU for financial and procurement control and reporting of the project. Financial management and procurement consultancies will be outsourced to assist the PPMU in designing, establishing, and monitoring the FM systems, software installation, and processes for handling finance and procurement issues under the Bank project. FMTSC (Financial Management Technical Support Consultancy) is appointed to maintain the accounts and record keeping of the project as per World Bank norms and to prepare and submit the Internal Unaudited Financial Report to World for claiming the reimbursement. They also submit the records for the scrutiny by the audit.
FRC (Financial Review (Audit) Consultant)are appointed with the specific objective of internal auditing of all the expenses related to the project and submit the audit certificate to the project director.
Roles & Responsibilities
Institution Key responsibilities FMTSC Annual Project Financial Statements (for the HO/district) both for WDD
(including Project Partners) & DoH are prepared in a timely manner as per the time schedule indicated. Shall assist the project in liasioning with and providing necessary information to the internal and external auditors. Would assist the project in follow up and take necessary action based on the audit reports, review reports and Management letter.
Shall make Recommendations for continuous improvements and updates to the financial management system, outlined in the Project Financial Management Manual based on implementation experience to enable the updating of the Manual as required.
Shall ensure that the financial management system is operated satisfactorily as to enable generation of financial monitoring reports (IUFR's) as per the formats approved by the World Bank in FM Manual.
Shall develop capabilities of project staff at the district level (both of WDD & DoH) on project financial management aspects by providing continuous training and technical support to project financial staff.
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Shall reconcile the Accounts of District Project Offices ( both of WDD & DoH) with Appropriate accounting package report and treasury report every month and make available the same every month.
Shall compile the Accounts as received from all the locations, Project Partners and also complete Activity/ component wise expenditure and consolidate the same at the Head office and submit consolidated IUFRs on or before 9th of the subsequent month
FRC The audit would cover the entire project i.e., covering all sources and application of funds by Head Offices (WDD & DoH) and District offices (WDD & DoH) and Support Organizations (i.e. Project NGOs, Consultants, Institutions, Universities & other Partner agencies) as considered necessary for the audit. The audit would also cover all consultancies or other contracts including NGO outsourced that may be entered into by the implementing agencies. The internal audit should be carried out in accordance with the Auditing Standards prescribed by the Institute of Chartered Accountants of India and will include such tests and controls, as the auditor considers necessary under the circumstances. The audit plan for each quarter would be worked out with the PIA. The audit should be planned in such a way that all the offices involved in the project are covered by the auditor at least once in a year. The auditor will ensure minimum of 2 Districts are audited in each Quarter covering transaction of preceding one year period from that quarter. Whether the project is monitoring the receipt of periodic reports (including financial reports), IUFRs and other documentary evidences against payments. Whether the accounts of the project are compiled in a timely manner at Head Office (WDD & DoH) and District level(WDD & DoH).
An assessment of compliance with provisions of financing agreements (IDA Financing Agreement and Project Agreement), especially those relating to procurement, accounting and financial matters. Adherence to Government orders, project principles and procedures prescribed in the Project Appraisal Document, Operation Manual, Procurement manual & Financial Management Manual for the Project and the administrative rules and regulations made under the project from time to time.
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Audit Mechanism
The Account of the project are subject to audit at three levels as shown below
• Audit by C&AG of india The transactions of the project are submitted to the scrutiny of Comptoller and Audit General of India. The audit certificate issued by C&AG will be forwarded for information
• State Audit
• Audit by internal consultant (FRC) The Financial Review Consultancy appointed by the WDD under the project will scrutinize all the expenditure under the project and submit a report to the project director
Procurement The expenditure under the project is subject to the procedure laid down in the world bank approved Procurement manual. All the procurements namely Goods, Services, Consultancies are to be under the provisions of World Bank norms. STEP – online procedure is being followed to obtain approval as well as tracking the progress of procurement. Threshold Values: Works and Goods:
Procurement Method
Contract Value (Threshold) Review procedures
NCB (Works) $100,000/‐ equivalent per contract but less than the equivalent of $40,000,000/‐
Works contracts of value equal to or more than $10,000,000/‐ are subject to prior review. All other contracts will be subject to post review
Shopping (Works) <$100,000/‐ equivalent per contract
All contracts will be subject to post review.
ICB (Goods) >$3,000,000 /‐equivalent per contract
All contracts will be subject to prior review
NCB (Goods)
As per paragraphs 3.3 and 3.4 of Guidelines
>$100,000/‐and <$3,000,000/‐
equivalent per contract
Goods contracts of value equal to or more than $1,000,000/‐ are subject to prior review. All other contracts subject to post review
Shopping(Goods)
As per paragraph 3.5 of Guidelines
=< $100,000 /‐ equivalent per contract
All contracts will be subject to Post review by the Bank
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Direct Contracting (Goods &Works) as per paragraph 3.6 and 3.7 of Guidelines
Goods and works which meet the requirement of Guidelines and as approved in the Procurement Plan
Direct contracts of value equal to or more than the equivalent of $10,000/‐ are subject to prior review and all the other contracts are subject to post review by the Bank.
Community Contracting as per paragraph 3.17 of Guidelines
< $100,000 equivalent All contracts subject to Post Review
Force Account as per paragraph 3.8 of Guidelines
Works that meet the requirement of Guidelines
Will be procured with Bank prior clearance.
IT and non‐consultancy services
Assignments that meet the requirement of Guidelines
Contracts of value equal to or more than $1,000,000/‐ are subject to prior review. All the other contracts would be subject to post review.
Notes: 1. A procurement plan for a procurement to be undertaken under the project shall be prepared
by WDD, DoH and all implementing partners. These plans shall be collated by WDD and sent to Bank for review and clearance.
2. All direct procurement shall require satisfactory justification and meet the eligibility requirement. These shall be reviewed by the World Bank on a case by case basis.
3. All software shall be procured from original producers/Developers or from their authorized resellers in India.
4. Once cleared by Bank, all direct procurement shall be disclosed in UNDB irrespective of value.
Consultancy Services
1. Quality and Cost Based Selection (as per Section II paragraphs 2.1 to 2.35) ;
2. Quality-Based Selection (as per paragraphs 3.2 to 3.4);
3. Fixed Budget Selection (as per paragraph 3.5);
4. Least Cost Selection (as per paragraph 3.6); 5. Consultants’ Qualification (as per paragraph
3.7 ); of Consultant Guidelines
Consultancy Contracts of firms of value equal to or more than $500,000/- are subject to prior review. All other contracts are subject to Post review. The short list for technical assistance or training estimated to cost less than $500,000 equivalent per contract may comprise entirely of national consultants.
Single Source Selection in accordance with paragraphs 3.8 to 3.11 of Consultant Guidelines
All Sole Source contracts of value equal to or more than the equivalent of $10,000/- are subject to prior review by the Bank. All other contracts are subject to post review.
Individual Consultants in accordance with provisions of Section V- paragraphs 5.1 to 5.6 of Consultant Guidelines.
Contracts estimated to cost $200,000 equivalent or more are subject to prior review. All other contracts are subject to post review by the Bank.
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Revised Prior Review Procurement Thresholds – KWDP as on 01.03.2017
Type of Procurement USD Million Works (including turnkey, supply & installation of plant andequipment )
10
Goods, Information technology and non-consulting services
2
Consultants: firms
1
Consultants: individuals
0.3
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4.5.3 Project monitoring and evaluation Preface Input-output monitoring and regular reporting will be supported by a web-enabled computerized MIS which will be an integral part of the M&E system,
Monitoring is a systematic and continuous assessment of the progress and direction of all activities throughout the project period, watching closely the project implementation trajectories and the results achieved. In the process, shortcomings are identified and brought to the notice of decision-makers, to facilitate implementation of corrective measures. Evaluation consists of determining the net contribution of the project to agricultural intensification in the project area adopting science-based farming and benefits that are accrued to the stakeholders, by using a set of indicators. Learning comprises the corrective measures identified to bridge the gaps observed in the programme during the monitoring. The learning insights that emerge in the process should be documented for generating a knowledge base that will be used in developing contingency plans to overcome shortcomings in implementation of similar programmes elsewhere. The learning, therefore, triggers multiplier effects across space and time. Purpose Monitoring and Evaluation provides an insight to the management regarding the course of implementation of the project vis a vis the development objectives. It could be on two planes namely Physical and Financial. It alters the management to take appropriate steps. Further, it helps in identifying best practices for replication else where and documentation for future use.
Strategy:
The M&E responsibilities will be distributed across all the project units and staff. However, primary responsibilities at each level will rest with M&E specialists:
a) Various committees such as PEC, PPMU, PTC, FMPC, etc. are monitoring the progress of implementation of the project.
b) IIWSC Bellary is monitoring the technical aspects c) Third Party Agency is appointed to monitor the impact in saturation MCs d) World Bank will monitor the progress of implementation against the project
development objective and financial reimbursement regularly. e) Monitoring of research project by ICAR and IIHR f) M&E Coordinator at the state level;
The Results framework table in Annexure outlines responsibilities in relation to outcome monitoring.
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Refer para 4.5.4 below regarding technical monitoring
Implementation:
The sub-component will finance the incremental third party monitoring and evaluation requirements relevant to project activities specifically, complementing the overall M&E system operating under IWMP. The M&E system shall consist of the following elements:
i) Baseline studies; ii) concurrent progress monitoring; iii) process monitoring and pathway analysis; iv) results monitoring, including performance assessments, with regular local and State project planning and review workshops; v) participatory monitoring and evaluation; vi) thematic studies and case-studies, with learning and policy oriented workshops; and vii) impact evaluation.
Impact Assessment Impact Assessment of the project is done to evaluate the overall impact of the project on the natural resources and socio-economic aspects. This is done through 10% sampling (socio-economic & natural resources) with respect to baseline, mid-term and final assessment. Impact assessment will be carried out in 3 stages:-
• Baseline survey: The first stage will be initiated with baseline survey, which forms the benchmark for the mid-term and final assessment. The sample watersheds under the project taluk will be selected through simple random sampling with ‘control’ watersheds selected outside the project area. The baseline surveys would draw information from the Digital Library and Natural Resources Portal and data from other sources.
• Mid-term assessment: will be carried out to coincide with the half way point of project implementation. It will make use of baseline information as benchmark.
• Final assessment: The final evaluation would coincide with the end of the project. At this stage, the evaluation would focus on the project’s overall objectives of improved productivity, reduction in poverty across the target population through scientific land-use, performance of the local level institutions regarding their ability to manage the resources, level of convergence with other development programmes to determine equity, inclusiveness and optimum allocation of financial resources. It will also focus on the best management practices identified involving research organizations.
Concurrent progress monitoring
The purpose of this activity is to assess progress in implementation against time and fund utilization against budget. It will report on progress of implementation and expenditure on a quarterly and annual basis. Concurrent monitoring consist of two parts:
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• Input-output monitoring (updated monthly, reported quarterly and annually) to be undertaken by project implementation and management units supported by an MIS; and
• Sample survey (quarterly basis), to be undertaken by an external M&E agency for validation of internal reports.
Process monitoring and pathway analysis
Process monitoring will deal with critical processes directly related to the project objectives, viz., formulation of integrated plans, convergence of resources, and so on. It will be combined with ‘pathway analysis’ to systematically study and analyze the factors leading to achievement or non-achievement of intermediate project outcomes and impacts. Process monitoring responsibilities will be divided between internal and external auditors, and specific formats and checklists developed to facilitate process monitoring by internal staff members. To deal with the constraints of lack of capacity for undertaking such assignment, an external agency will be hired for capacity building of project team.
Monitoring of results To track efficiency and effectiveness of the project interventions, achievement of results will be continuously monitored. While the MIS will be able to track immediate results, tracking of intermediate outcomes will be done by an external M&E agency, which will also validate findings of input-output monitoring on a quarterly basis. Any deviations notice will be corrected.
Project Management Information Systems (MIS) Input-output and results monitoring would be supported by a web-enabled computerized MIS which would be an integral part of the M&E system, wherever necessary integrated into the overall WDD MIS systems. Support in this area would cover i) initial assessment of management information requirements and potential for ICT automation; ii) software development; iii) customization; iv) field testing and system rolling out; and v) sustained technical support for maintenance, including further adaptation and refinement. Participatory monitoring and evaluation Participatory M&E (PME) tools will be developed and used extensively at Executive Committee, Panchayat and User group levels for sensitization, capacity building, planning and self-assessment of institutional capabilities, depending on stage of institutional maturity. Watershed assistants will be brought on board to the tools. Suggested methods include self-scoring by Community Based Organizations (CBOs), and District team facilitated institutional assessment. Results of self-scoring exercises will be integrated within the project MIS and indices developed for assessment of institutional maturity. Thematic studies and case-studies The need for thematic studies will emerge from the findings of the process monitoring and external quality monitoring as the project progresses. Specialized agencies with expertise in the fields to be studied will be invited for planning and conduct of these studies. The studies
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will generally be evaluative in nature, but may also capture good practices of the project. In addition, the project will proactively undertake documentation of processes, case-studies, best practices and lessons learnt from project experience. Documentation will be for internal learning as well as for disseminating project experiences to other stakeholders; it will be a continuing process throughout the project duration and across all the project personnel. Impact Evaluation The objective of Impact Evaluation will be to establish the net contribution of the project to the sustainable livelihoods of the targeted families. As necessitated by the nature of the project outcomes and impacts, an appropriate mix of quantitative and qualitative methods will be adopted for the evaluations.
Action learning, documentation and reflection Internal learning is crucial for the project to be responsive to the changing context of the project as it progresses. The effectiveness of internal learning will depend upon the degree of institutionalization of learning among the various levels of project organization and the community. A considerable part of learning will take place through a structured set of participatory workshops associated with quarterly and annual review and planning, at local, district and State level.
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4.5.4 Intensive monitoring and documentation at local level
Indian Institute of Soil and Water Conservation Bellary is entrusted with the task of Intensive monitoring and documentation at local level of Technicalities involved in scientific data collection, dove tailing of the data in preparation of DPR, implementation of DPR and consequent results.
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Chapter-V
5.0 Right To Information (RTI)
Karnataka State has promulgated RTI Act 2005 (Central Act No.22 of 2005). Provisions of the Act provide that every office of the government should operationalize a Right to Information Cell to cater to information needs of public at large. Applications received shall be registered immediately and the information is furnished to the applicant within maximum time limit of 30 days. At the state level, Information Commission will oversee the RTI process.
The Act prescribes for Public Information Officer (PIO), Assistant Public Information Officer (APIO) and Appellate Authority (AA). Watershed Development Department (WDD) has designated the public information officers at State, District and Taluka level. The WDD has also published Citizen Charter as provided under the RTI Act in its official Website www.watershed.kar.nic.in.
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Fig. 11 Schematic Diagram of RTI Structure
Following is the schematic diagram of RTI structure in WDD.
The project adopts pro-active step to publicize the various aspects of the project through project website & extensively use the ITC tools and media to provide information to the stakeholders and the public at large. The RTI process diagram is furnished herewith.
RTI Structure of WDD
STATE DISTRICT TALUK
Appellate Authority (AA)
Commissioner
Public Informaiton Officer (PIO)
Asst. Director of Agril. / Asst. Conservator of Forests
/Asst. Director of Horticulture
Public Informaiton Officer (PIO)
Dist. Watershed Development Officer
Public Informaiton Officer (PIO)
Director
Appellate Authority (AA)
Director Appellate Authority (AA)
Dist. Watershed Development Officer
Asst. Public Information Officer (APIO)
Addl. Director (Admin)
Asst. Public Information Officer (APIO)
Technical Assistant @ DWDO’s Office
Asst. Public Information Officer (APIO)
Taluka Agriculture Officer/Range Forest Officer/
Asst. Horticulture Officer
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Fig.12 RTI Process Diagram
PIO to notify in writing – additional fees to be paid, if any (No fees for BPL)
RTI Application
Information to applicant – within 30
days
Appeal with appellate authority (AA) under sec 18
Information not available – PIO must send return notice to applicant
PIO rejects application. Sends decision notice including details of
appeal rights
IC reviews documents, PIO to justify non disclosure.
Interventions are successful
Identify the APIO / PIO ‐as information officers
PIO ‐ 30 days to approve or reject
application
Application is accepted Application is rejected
AA to dispose of appeal within 30 – 45 days
AA accepts appeal – information to be provided as soon as possible
AA rejects appeal – written notice to be given including right to appeal to central or state Information Commissioner (IC)
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5.1 GRIEVANCES REDRESSAL
Karnataka government has adopted a policy to speedily and effectively address public grievances, G.O.No. DPAR 21 AMC 83, dt. 1.7.1983 prescribed modalities. A dedicated Public Grievances cell is constituted at the government level for addressing the grievances of the public at the earliest. This cell is under the control of DPAR. On receipt of the grievances, the concerned departments will make investigations. The action taken will be intimated to the applicant. Deputy Commissioner in districts through respective district departments are responsible for investigating and taking remedial actions on the grievances at the district level.
The applications will be received at multiple levels (HO/District/Government). The applications / grievances received at state level will be sent to the concerned district DWDO offices to get it investigated. The action taken will be centrally monitored at state level.
All the application / grievance received will be investigated at the district by respective DWDO. The compliance is reported through the Deputy Commissioner and also head of the department (Commissioner, WDD) to the state grievance redressed cell in DPAR with in 10th of every month.
Monthly grievance redressal progress report will be complied at district level & rendered to the Deputy Commissioner as well as commissioner WDD. The Commissioner WDD will also compile state level WDD progress report & submit to the DPAR Cell. Additional Director (Admin) in WDD will be responsible for this process. Pending applications if any at the end of each month will be monitored and suitable action initiated in the following months. The above mechanism will be followed for grievances redressal under the project.
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The grievances redressal process in WDD is as below:
Application at state level Cell DPAR
District WDD
District Investigation
Action taken & Intimation to applicant
In addition, the grievance redressal particulars will be posted on the Project Website on monthly basis by 10th of each month. Additional Director (Admin) in WDD will be responsible for this process.
Report to Cell through WDD copy to DC
Application at District Level
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Annexure - I
Agro Climate Zone Characteristics of Project Districts
Sl. No
District Agro Climatic Zone
Average Rain fall
(mm)
Elevation above
M.S.L (mt)
Soil type Water Holding Capacity
Cm/M 1. Bidar North eastern
transitional zone 868 715 Shallow to
medium black clay soils, Red lateritic soils.
10cm in medium black soil, 18-20cm in Red lateritic soils
2. Gulbarga Zone-1 Northeastern transition zone, Zone-2 Northeastern dry zone
789 300-750 Shallow to medium clay soil, Clay loamy
10cm in medium black soil, 7cm in shallow soils
3. Yadagir Zone-2 Northeastern dry zone
666.133 369 Medium to deep black soils
20cm in deep black soils, 10cm in medium black soils
4. Gadag Central dry zone-03
631 650 Black red sandy loam
20cm in black soils, 6cm in red loamy soils
5. Koppal Northern dry zone
704.5 500 Red soils 14-20cm
6. Chamarajanagar Southern dry zone
751 960 Red loamy black soils
14-20cm
7. Davanagere Central dry zone-4, Northern dry zone-3. Southern transitional zone-7
656 600 Black, Red sandy loam
14-20cm 10-15cm
8. Bijapur Northern dry zone
634 450-800 Black soils 10 - 15cm
9. Chikkamagalur Hilly zone, southern transitional zone and central dry zone
1900 320 - 780 Red and laterite soils
4-6cm
10. Raichur North eastern dry zone
681 350 - 400 Black soils 10 – 15 cm
11. Tumkur Southern dry zone
625 500 - 600 Red soils 4 – 6 cm
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Annexure - II
Need for Land Resource Inventory Karnataka is the eighth largest state in India with an area of 19.17 m ha. It is endowed with varied climate, fauna and flora, soils, forests, bounty of minerals and many rivers. These resources enriching the social fabric of the state need to be conserved, protected and improved. But of late the limited cultivable land area of about 12 m ha in the state is under severe strain due to population pressure and competing demands of various land uses. According to various agency reports Land degradation has affected about 7.7 m ha (40 % of the TGA) Wastelands occur in about 2. 0 m ha (11 % of TGA) Over-exploitation of groundwater and consequent drying up of bore wells in all districts. Significant shift in the land-use pattern and diversion of prime lands to non-agricultural uses Declining productivity reported for most of the crops in both rainfed and irrigated agriculture. Salinity alkalinity has affected about 10 per cent of the total irrigated lands It is obvious that the neglect and deterioration of the land resources and consequent decline in the productivity is continuing without much effective intervention in the state. The situation is expected to worsen in the future and warrants urgent correction. This requires situation analysis and assessment to come out with remedial solutions. The challenge is not only to increase the productivity per unit area, which is steadily declining and showing a fatigue syndrome, but also to prevent or at least reduce the severity of the degradation, which has reached alarming proportions. The situation needs immediate attention of all the stakeholders, from policy makers to farmers, particularly involved in the management of vast stretches of rainfed areas in the state. The root cause for the degradation, neglect and irrational use of land resources lies at the grassroots or farm level. In the above background any initiative to address these issues should also rightly start at the farm/village/watershed level only. This needs detailed farm/cadastral level information on soil, water, land use and other resources. Land Resource Inventorisation (Modern Soil Survey) on large scale (1:7920 scale) provides the information required for planning, executing and monitoring of all land-based activities at the farm or watershed level in the state.
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. Formation of gullies in black soils of Northern Karnataka
Before commencing the Land Resource Inventory at watershed level stakeholder workshops and education process will be organised as part of PRA by the IWMP, NGOs and WDT with active collaboration of various CBOs to be constituted by the PMKSY-IWMP NGOs. Suitable audio-visual aids will be developed by the NBSS&LUP for this purpose.
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Annexure - III
Model Cost Table
Sl. No.
Activity Cost in Rs / MC
A. Field expenses (Field work - LRI till June 2018)
1 Field contingency : labour JCB charges 57922 Vehicle hiring charges 115843 Camp office Rent 17384 Camp office Maintenance 5795 Field consumables : Sample bags, Stationery etc., 11586 Field review, correlation TA/DA/Honorarium for experts &
vehicle 24137 TA/DA of field parties 55608 Salary of Field consultant/RA 23179 Salary of SRF (Field) 1081110 Salary of SRF (Field data processing and Report finalization at
HQ) 270311 Salary of Project Assistant (Field) 1668012 Miscellaneous expenditure 724 NOTE: Salary of SRF's (Field) is calculated for 24 months
because their services are required for completion of maps and data processing work at HQ, ICAR-NBSS&LUP, RC, Bangalore.
Sub Total for (A) 62059 B. Laboratory expenditure (till December 2018) 1 Chemicals 40222 Glasswares 8043 Salary of RA/SRF (Lab) 40164 Salary of Project Assistant (Lab) 69505 Salary of skilled person (Lab) 37076 AMC/Maintenance/spare parts for Instruments 8047 Consumables 12878 Maintenance of instruments not covered under AMC 804 Sub Total for (B) 22395 C. GIS facility (till December 2018)
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Sl. No.
Activity Cost in Rs / MC
1 Salary of GIS consultant 23172 Salary of RA 77223 Salary of SRF (GIS) 64674 Salary of Project Assistant (GIS) 34755 For GIS output - for cartridges, computer consumables etc 48266 Annual maintenance of equipments 1609 Sub Total for (C) 26417 D. Socio-Economic Study 1 Salary of Consultant/RA/SRF (Socio-Economic) 20082 Salary of Project Assistant (Socio-Economic) 27803 TA/DA of field parties 695 Sub Total for (D) 5483 E. Project Management Cell and others 1 Salary of Project Assistant (Project Management Cell) 20852 Communication/Misc charges 6443 Attending/conducting Training
programmes/meetings/workshops/seminars 1609 Sub Total for (E) 4337 Total of components A+B+C+D+E 120691 Unforeseen/Contingent/Up gradation of facilities etc (3% of total
of all components) 3621 Total Recurring cost 124312 Institutional charges @ 15% on Total 18647 Total: Cost of LRI Expansion in 2 Taluks (Recurring
cost)+Institutional charges 142959 TDS (10% on grand Total) - Deducted by WDD at the time of
fund release 14296 Grand Total excluding Hydrology studies (A+B+C+D+E) 157255
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Annexure – IV
Prime Minister Krishi Sinchayee Yojana (PMKSY)
The major objective of PMKSY is to achieve convergence of investments in irrigation at the field level, expand cultivable area under assured irrigation, improve on-farm water use efficiency to reduce wastage of water, enhance the adoption of precision-irrigation and other water saving technologies (More crop per drop), enhance recharge of aquifers and introduce sustainable water conservation practices by exploring the feasibility of reusing treated municipal waste water for peri-urban agriculture and attract greater private investment in precision irrigation system.
PMKSY has been conceived by amalgamating ongoing schemes viz. Accelerated Irrigation Benefit Programme (AIBP) of the Ministry of Water Resources, River Development & Ganga Rejuvenation (MoWR, RD&GR), Integrated Watershed Management Programme (IWMP) of Department of Land Resources (DoLR) and the On Farm Water Management (OFWM) of Department of Agriculture and Cooperation (DAC). The scheme will be implemented by Ministries of Agriculture, Water Resources and Rural Development. Ministry of Rural Development is to mainly undertake rain water conservation, construction of farm pond, water harvesting structures, small check dams and contour bunding etc. MoWR, RD &GR is to undertake various measures for creation of assured irrigation source, construction of diversion canals, field channels, water diversion/lift irrigation, including development of water distribution systems. Ministry of Agriculture will promote efficient water conveyance and precision water application devices like drips, sprinklers, pivots, rain-guns in the farm “(Jal Sinchan)”, construction of micro-irrigation structures to supplement source creation activities, extension activities for promotion of scientific moisture conservation and agronomic measures Programme architecture of PMKSY will be to adopt a ‘decentralized State level planning and projectised execution’ structure that will allow States to draw up their own irrigation development plans based on District Irrigation Plan (DIP) and State Irrigation Plan (SIP). It will be operative as convergence platform for all water sector activities including drinking water & sanitation, MGNREGA, application of science & technology etc. through comprehensive plan. State Level Sanctioning Committee (SLSC) chaired by the Chief Secretary of the State will be vested with the authority to oversee its implementation and sanction projects. The programme will be supervised and monitored by an Inter-Ministerial National Steering Committee (NSC), which will be constituted under the Chairmanship of Prime Minister with Union Ministers from concerned Ministries. A National Executive Committee (NEC) will be constituted under the Chairmanship of Vice Chairman, NITI Aayog to oversee programme implementation, allocation of resources, inter ministerial coordination, monitoring & performance assessment, addressing administrative issues etc.
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Components of PMKSY under watershed
PMKSY (Watershed) by Dept. of Land Resources, MoRD • Water harvesting structures such as check dams, nala bund, farm ponds, tanks etc. • Capacity building, entry point activities, ridge area treatment, drainage line treatment,
soil and moisture conservation, nursery raising, afforestation, horticulture, pasture development, livelihood activities for the asset-less persons and production system & micro enterprises for small and marginal farmers etc.
• Effective rainfall management like field bunding, contour bunding/trenching, staggered trenching, land levelling, mulching etc.
PMKSY(Per drop more crop) by Dept. of Agriculture & Cooperation, MoA • Programme management, preparation of State/District Irrigation Plan, approval of
annual action plan, Monitoring etc.
• Promoting efficient water conveyance and precision water application devices like drips, sprinklers, pivots, rain-guns in the farm (Jal Sinchan);
• Topping up of input cost particularly under civil construction beyond permissible limit (40%), under MGNREGS activities like lining inlet, outlet, silt traps, distribution etc.
• Construction of micro irrigation structures to supplement source creation activities including tube wells and dug wells (in areas where ground water is available and not under semi critical /critical /over exploited category of development) which are not supported under PMKSY (WR), PMKSY (Watershed) and MGNREGS.
• Secondary storage structures at tail end of canal system to store water when available in abundance (rainy season) or from perennial sources like streams for use during dry periods through effective on-farm water management;
• Water lifting devices like diesel/ electric/ solar pump sets including water carriage pipes.
• Extension activities for promotion of scientific moisture conservation and agronomic measures including cropping alignment to maximise use of available water including rainfall and minimise irrigation requirement (Jal sarankchan);
• Capacity building, training for encouraging potential use water source through technological, agronomic and management practices including community irrigation.
• Awareness campaign on water saving technologies, practices, programmes etc., organisation of workshops, conferences, publication of booklets, pamphlets, success stories, documentary, advertisements etc.
• Improved/innovative distribution system like pipe and box outlet system with controlled outlet and other activities of enhancing water use efficiency.
• District Irrigation Plans (DIPs) shall be the cornerstone for planning and implementation of PMKSY. DIPs will identify the gaps in irrigation infrastructure after taking into consideration the District Agriculture Plans (DAPs) already prepared for Rashtriya Krishi Vikas Yojana (RKVY) vis-à-vis irrigation infrastructure
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currently available and resources that would be added during XII Plan from other ongoing schemes (both State and Central), like Mahatma Gandhi National Rural Employment Guarantee Scheme(MGNREGS), Rashtriya Krishi Vikash Yojana (RKVY), Rural Infrastructure Development Fund (RIDF), Member of Parliament Local Area Development (MPLAD) Scheme, Member of Legislative Assembly Local Area Development (MLALAD) Scheme, Local body funds etc. The gaps indentified under Strategic Research & Extension Plan (SREGP) will be made use in preparation of DIP.
• DIPs will present holistic irrigation development perspective of the district outlining medium to long term development plans integrating three components viz. water sources, distribution network and water use applications incorporating all usage of water like drinking & domestic use, irrigation and industry. Preparation of DIP will be taken up as joint exercise of all participating departments. DIP will form the compendium of all existing and proposed water resource network system in the district.
• The DIPs may be prepared at two levels, the block and the district. Keeping in view the convenience of map preparation and data collection, the work would be primarily done at block level. Block wise irrigation plan is to be prepared depending on the available and potential water resources and water requirement for agriculture sector prioritising the activities based on socio-economic and location specific requirement. In case of planning is made based on basin/sub basin level, the comprehensive irrigation plan may cover more than one district. The activities identified in the basin/sub-basin plan can be further segregated into district/block level action plans. Use of satellite imagery, topo sheets and available database may be appropriately utilised for developing irrigation plans at least on pilot basis to begin with and subsequently may be extended to all projects.
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Annexure - V Decision Support System
In the context of watershed management, DSS can be framed by coupling multiple data layers (soils, surface and groundwater, crops, technology, market, farmers’ resources, knowledge and skills, weather etc.) which can be seamlessly integrated to make most scientific and practical decisions on problems in farming, and manage resources for maximum benefit. The development of WMDSS would be done in three defined phases. Phase I: Acquisition of Pre-requisites for development of WMDSS A team of Consortium partners of the project will make an initial investigation and describe the problem at hand, the resources available and the data issue. After rigorous inventory of the needs and constraints, the team will identify DSS models to be developed as per the needs of the end user interest from policy maker to the farmer. Inventory
• Identify the actors involved in the decision and explore the social context • Understand the institutional and normative context • Identify possible constraints • Arouse user’s interest and initial commitment • Identify and clearly communicate reasonable expectations • Decide whether or not a DSS model may be useful for the purposes of the case
Phase II: Development of WMDSS tool The System Requirement Specifications (SRS) will be drawn from the inventory report from all the consortium partners. The workflows / protocols will be developed for programming the DSS modules. State-of-the-art industrial standard developmental tools / programming languages will be made use in all stages of SDLC (Software Development Life Cycle) for developing WMDSS tools and modules. Initially the tool will be developed on pilot basis; after thorough testing the same will be scaled up to the requirement level. Individual modules will be interactively tested and output will be verified with the end user to know the potentiality of the modules. In all the development stages of WMDSS, care will be taken to consider the end user prospects.
• Involve end users in the DSS development throughout the process • Define a clear strategy and work programme and include quality assurance • Adopt tool to the user’s needs • Assure flexibility and interoperability
Phase III: Implementation of WMDSS
• Before operationalising WMDSS on a large scale, operational training on pilot basis will be given to the resource persons and identified end users to make sure that the DSS shall be made user-friendly. A rigorous extension activity will be made by the SAU’s and UHS for transferring the technology and its benefits to the end users / stakeholders under their jurisdiction.
• Provide coherent methodological framework in which the DSS tool should operate
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• Provide effective documentation of the outputs / results that can be obtained • Provide adequate documentation and support materials for using DSS • Train users • Exploit the full potential of the tool in supporting the whole process • Provide the basis for maintenance and further development • Adopt strategies for dissemination and technology transfer • The web based WM-DSS should be capable of Integrating Spatial and Non-spatial
data and should fetch the result based on the query / search. • The application should identify authorized users • Display Maps and other data sets (Say Watershed boundary, Village boundaries with
census data, Land use map, soil map etc.) • Allow users to select / assign parameters required for prioritization • Show unified view of Land Use, Prioritized watershed and various other thematic
layers as selected by the user. • Web page should have the provision to switch over to local languages like Kannada
and others as per the need of the region • The application should be made accessible to unlimited number of users concurrently
over the Web/Internet/Intranet • Facilitate Seamless flow of information and the data capable of generating Reports.
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Annexure – VI
Detailed Project Report and Preparation of Net Plan in PMKSY-IWMP
The project aims to demonstrate the viability of community based approach for improvement of rainfed areas on watershed basis and economic improvement to asset-less and vulnerable groups, where the department plays a facilitating role. The components of the project envisage an active participation of the different community members living in the village. With a view to strengthening and sustaining the participation of the community, the programme provides for formation of Community Based Organizations (EC, UGs and SHGs) execution of Entry Point Activities, Awareness generation programmes and Capacity Building to different stakeholder groups.
Stepwise approach is designed to bring awareness among the community and to change their mind set with respect to planning and implementation of works to develop their lands and surroundings to re-establish the ecological balance so that the natural resources provide the required goods and services on a continuing basis. Step.1 : Organizing awareness building programmes in the project area in a language that
will be understood by the entire community using and dedicated NGOs experienced in the field.
Step.2 : As a second step, discussions will be held with the Local Institution (GP) members as well as the community at large to identify any long-felt needs that require immediate attention so as to benefit them. These activities/works are prioritized in terms of benefits and undertaken by the WDT. This leads to building rapport with the community and also creates confidence in them that the programme is real. In the process, the objectives of the project and roles and responsibilities of different stakeholders are brought to their notice through informal discussions.
Step.3 : As a third step, after noticing that the mood of the community is towards taking up the project, CBOs such as SHGs, UGs and ECs are formed under each project cutting across socio-economic barriers for promoting equity and inclusiveness. These groups are trained at different levels of the project for enabling them to organize, implement and monitor the activities under the project.
Step.4 : PRA exercise is organized by preparing a social map of the village/project to assess the maladies and likely remedial measures required to overcome and develop control over the situation.
Step.5 : At each project level a workshop cum training is arranged for all the department staff along with the EC members on the process of net planning.
Step.6 : Required GIS maps are prepared well in advance and are supplied to each of team.
Step.7 : At each project level 2 to 3 teams are formed with WDT along with NGO staff. These teams along with EC members will conduct transect walks. During the transect walk required interventions are identified on individual farmers’ field in consultation with concerned farmer and in common lands with consideration of
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the technical feasibility. Technically this process is known as “Net planning”. The net planning is conducted in the project area starting from upper reaches to lower reaches covering private land, common land and drainage line area.
Step.8 After collecting the information as indicated above, it will be computerized into customized software developed in-house by the department. This software helps in collating the data at ease and simplifies the process of consolidating huge quantity of data generated during net planning. It helps in analyzing the action plans for sector wise allocations, equity analysis, and investment across reaches, etc. Different output formats will be generated as per requirements.
Step.9 After the completion of the net planning, complete information on the identified interventions will be shared with the community through Participatory Rural Appraisal (PRA) exercise.
Step.10 The information generated during the net planning will be put forth before the Executive committee in the form of Action plan for approval. Once approved by the EC, same will be presented to the Grama Panchayat for its approval. This action plan will then be forwarded to the district technical committee headed by the JDA for technical approval. Finally DPR will be prepared and submitted to District Level Committee (DLC) Chaired by Chief Executive officer of Zilla Panchayat and the members are from all the development departments for final approval.
Annexure – VII
Restructured - Results Framework and Monitoring (Aide memoire Nov, 2016)
The revised results framework consists of three PDO indicators and ten Intermediate Result indicators, for a total of thirteen indicators in all. The number of indicators was reduced from the previous version of the results framework, with the intent of making the monitoring more feasible and focused. An effort was also made to ensure that each indicator was meaningful yet clear, and relatively easy to measure. The methods to be used will be mainly simple quantitative measurement or brief qualitative surveys of beneficiaries and other state-level departments. With two years remaining for the project to achieve its intended results, the data for most of the indicators will be collected and analyzed at the end of the project. The responsibility for monitoring and reporting will lie largely with the WDD, though a third-party agency, the Indian Institute of Soil and Water Conservation (IISWC), will assist it with M&E. The IISWC together with other institutional partners have been contracted to develop specific methodologies to assess the processes and outcomes of the project, and these, according to a draft plan of them submitted, align well with the revised results framework for KWDP II.
Watershed Assistants have the capacity to assist farmers with applying the LRI data
Sub‐watershed plans developed based on innovative science and community
Investments in soil and water conservation are made based on sub‐watershed
Innovative science‐based knowledge used to develop LRIs for
Departments/institutions have access to information from the Digital Portal and
Data from science‐based approaches is used by other departments/Institutions in the t t f l i
The knowledge base on horticultural potential is strengthened, & supply chains established
Farmer Centres have the capacity to provide LRI knowledge in a user‐
Farmers intend to adopt practices, including horticultural and climate adaptive ones based on LRI
WDD conducts M&E of performance of institutions, results for beneficiaries, sustainability, and soil &
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RESTRUCTURED KWDP II RESULTS FRAMEWORK—November 15, 2016
Project Development Objective (PDO): is to demonstrate more effective watershed management through greater integration of programs related to rainfed agriculture, innovative and science based approaches, and strengthened institutions and capacities.
PDO Level Results Indicators* C
ore Unit of Measure Baseline
Cumulative Target Values**
Frequency Data Source/
Methodology
Responsibility for Data
Collection
Description (indicator definition etc.)
YR2 YR3 YR4 YR5
YR6 YR7
Indicator One:
Sub-watershed management plans based on innovative science-based approaches and community consultation
Number of sub-watershed plans
0 3 8 9 Periodic reviews and end of project (EOP)
Project reports from regular implementation support missions (based on third-party M&E agency (IISWC) assessments Assessment of extent to which scientific data incorporated into sub-watershed management plans
WDD, DWDOs, supported by M&E agency and Project Partners
Sub-watershed management plans to incorporate Land Resources Inventory, Hydrological Monitoring and other data (e.g. crop potential) generated on micro-watersheds and recommendations based on it. Following their development, plans are to also be approved/adjusted by local governance bodies.
Indicator Two: Farmers who have been trained in each sub-watershed intending to adopt practices that are based on integrated land-resource knowledge generated by project.
Percentage of farmers intending to adopt practices
0 40 70 EOP EOP survey of a representative sample of beneficiaries in each micro-watershed
WDD, supported by M&E agency
Information on practices to adopt will come from various sources (management plans, Digital Portal, direct knowledge-partner communication with farmers (mobile phones), watershed assistants and others)
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Qualitative survey of representative sample of farmers will record intent to adopt practice(s), including of horticultural ones, as project period is too short for actual adoption.
Indicator Three: Data from science-based approaches adopted by other departments/
Institutions in the state for planning.
Number of state government departments or institutions
0 2 5 Periodic reports and EOP
Feedback from presentations/workshops on project data from departments/institutions
WDD supported by M&E agency
The LRI and other data produced will be made available to other departments and institutions through various means, including the Digital Portal and DSS, and presentations by WDD.
The state-level departments that could potentially use the information are five: Agriculture, Horticulture, Forestry, Animal Husbandry, and Sericulture.
Additionally, other institutions may use the information as well.
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Intermediate Level Results Indicators* C
ore Unit of
Measure Baseline
Cumulative Target Values**
Frequency Data Source/
Methodology
Responsibility for Data
Collection
Description (indicator definition etc.)
13-14
14-15
15-16
16-17
17-18
18-19
1. Innovative and relevant science-based knowledge is used to develop land resource inventories for 1931 micro-watersheds
Number of micro-watersheds
0 541 1131 1931
Periodic reports and EOP
Assessment of methods used to collect and analyze data, and of the relevance of the data for water and land issues in the targeted MWs
WDD & Third-party M&E agency
Ground and surface water, soil, geological, crop-suitability, cadastral, spatial and other data to be gathered and analyzed for each micro-watershed.
2. Sub-watersheds in which soil and water conservation investments are made, based on their management plans.
Number of sub-watersheds
0 3 9 Periodic reports and EOP
WDD & Third-party M&E agency
Following the development of sub-watershed management plans, the soil and water conservation improvement measures recommended in them are to be carried out.
3. Departments and institutions are provided access to information from the Digital Portal and Decision Support System.
Establishment and access to tools
No DP or similar tool available
DP & DSS are made acces-sible
Yearly reports and EOP
Implementation supervision reports
WDD, partner institutions & departments
Digitized library to be in place as per design, and fully operational and accessible for use.
Other state line departments and institutions have the potential to benefit from the use of the tools.
4. Watershed Assistants are trained on the use of LRI data for assisting
Average score of Watershed Assistants on post-training
0 60 Test all Watershed Assistants after training on LRI data and use the
WDD, training institutions
All Watershed Assistants to be tested on their knowledge of LRI data following training on the
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farmers. test average score. subject to ensure that they have necessary knowledge to share with farmers.
5. Farmers expressing satisfaction with the LRI-based assistance that Farmer Centers provide.
Percentage of sample of farmers surveyed
0 75 Survey of sample of farmers in each micro-watershed on satisfaction with the assistance. The sample for this indicator and others involving a survey could be 10% of all farmers.
EOP report
WDD, with third-party M&E agency
Farmer Centers will provide various types of assistance to farmers, based on the LRI, including making the Digital Portal and DSS available and fully operational.
The sub-watersheds will be those where investments for water and soil conservation will be made.
6. Strengthened Self-help Groups, which consist of women and which coordinate activities for improved livelihoods.
Number of SHGs that have received training
0 250 EOP EOP report WDD, SHGs Existing Self-help Groups (SHGs) will be strengthened through training on livelihood activities.
7. Farmers in each micro-watershed intending to adopt at least two climate-adaptation and/or climate-mitigation practices recommended by LRI knowledge and sub-watershed management plans.
Percentage of sample farmers surveyed
60 EOP Survey of sample of beneficiaries on their interest to adopt practices listed specifically in management plans as supportive of climate adaptation and/or mitigation
EOP report
WDD, Third-party M&E agency
Sub-watershed management plans recommend climate adaptation practices based on analysis of LRI and other data.
Two-year remaining project duration will not allow verification of adoption so survey will examine farmer interest in adopting
149
practice(s).
8. Through the demonstration of post-harvest techniques the knowledge base on horticulture potential in watersheds is strengthened.
Number of demonstrations
30 EOP EOP report DoH, M&E agency
Demonstrations will be of various technologies for storage and processing, value chains and marketing.
9. Supply chains of high-value horticulture crops established.
Number of supply chains
2 EOP EOP report DoH, M&E agency
Supply chains will be for onions and turmeric.
10. M&E system established and operational in WDD.
Establishment of operational system
No formal cell in WDD
M&E system fully established
EOP EOP report WDD, supported by M&E agency
Operational M&E system to consist of: cell establishment in WDD; field staff in place; M&E and reporting system procedures in place; database established; data collection, entry & analysis conducted; system generates findings to support watershed management.
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Annexure - VIII
“Socio-Economic Survey of Micro-Watersheds in Karnataka”
Sch. NO.:_________
1.1 Dist:.............................................................1.2 Taluk Hq: ……….....................................
1.3 Hobli/RSK Hq:………………………………1.4 Gram Panchayat Hq:……………….
1.5 Name of Sub watershed:…………………….1.6 Sub watershed Code :……………….
1.7 Name of MWS:………………………………1.8 Code number of MWS:……………
1.9 Name of the Village:………..……………..... 1.10 Survey Number:…………Hissa:…
1.11 Grid no:…………………………………….
1.13 Soil Management unit: LMU1/LMU2/LMU3/LMU4/LMU5/LMU6/LMU7/LMU8/
LMU9/ LMU10
1.14 Topography: Ridge/Mid/Valley:
2. General information:
2.1 Name of Farmer:..……………………………Father/Husband
name:…………………………
2.3 Ph. No.: ...…………………………………….. Aadhar card
number……………………………..
2.5 Caste: SC/ST/OBC/Gen
151
3. Sociological, Demographic information
Sl. No.
Name Age Gender Education* Occupation**
Involvement in local
organizations***
Member office bearer
1 H
2
3
4
5
6
7
8
*Illiterate/Functional literate/Primary School /Middle School /High School /PUC/Diploma/ITI /Degree/ Masters/ Ph.D /Technical /Others **Agriculture/Agricultural labour /General labour/Household industry/artisans/Government service /Private service/Trade and business/Others *** Gram Panchayath, Taluk Panchayath, Zilla Panchayath, CIGs, NGOs, Dairy cooperative, Sthree Shakthi sangha, Self help group, User groups, Rhaita sangha/others 4. Type of House
Sl. No. Type of house Number of Houses Value (Rs.)
1 Thatched
2 Katcha
3 Pucca/ RCC
5. Durable assets
Sl. No.
Materials No. Present
Value(Rs.) Sl. No. Materials No.
Present Value( Rs.)
1 Radio 9 Mixer/grinder
2 Television 10 Refrigerator
3 DVD/VCD player 11 Microwave oven
4 Bicycle 12 Landline phone
5 Motor cycle 13 Mobile phone
6 Auto 14 Computer/laptop
7 Tempo 15 Others
8 Car/four wheeler
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6. Farm machineries/implements
Sl. No.
Farm Power/Implements
No. Present
Value(Rs.) Sl. No.
Farm Power/Implements
No. Present
Value(Rs.) 1 Plough 10 Sprinkler
2 Bullock cart 11 Weeder
3 Seed cum fertilizer drill
12 Harvester
4 Transplanter 13 Thresher
5 Irrigation pump 14 Ground nut decorticator
6 Power tiller 15 Maize huller
7 Tractor 16 Chaff cutter
8 Sprayer 17 JCB/Hitachi
9 Duster 18 Others
7. Livestock/animal possession
Sl. No.
Animal Numbers Present Value (Rs.)
1 Bullock 2 Local cow 3 Crossbred cow 4 Buffalo 5 Sheep 6 Goat 7 Pigs 8 Poultry birds Others
8. Labour availability and migration details
Sl.
No.
Particular Number
1 Family labour availability for agriculture (own farming)
Male:……….. Mandays Female……… Manday
2 Hired Labour availability in the village for agriculture
1.…………………Mandays 2. Adequate /Inadequate
3 Is any of your family members migrated during last 12 months? If Yes, give details
Number of members : Male:………..Female…………. Duration (months) : Male:………. Female…………
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Distance migrated (km): Male:……..Female……….. Place: …………………….. Purpose:
1. Job/wage/work 2. Business 3. Education of the children 4. Preference towards urban life 5. For agriculture in other location 6. Other
4 If yes, what are the
consequences?
Positive
consequences
Negative Consequences
1. Construction of house 2. Purchase of land 3. Purchase of household
asset 4. Improved quality of life5. Better children
education 6. None 7. Other
1. Workload for households increased
2. Parent felt neglect/ absence
3. Health hazards 4. Children education
suffered 5. Disturbance in family
life 6. None 7. Other
9. Annual expenditure on health Amount (Rs………)
10. Nutritional intake-household food consumption
Please give the monthly consumption of following items by the family
Sl.No Item Qty (kg) Sl.No Item Qty (kg)
1 Ragi 8 Cooking oil
2 Jowar 9 Vegetables
3 Rice 10 Fruits
4 Wheat 11 Milk
5 Bajra 12 Egg
6 Maize 13 Meat
7 Pulses (all types) 14 Others (Specified)
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11. Women empowerment (please put √ in the appropriate column)
Sl No.
Decision on Activities
Access ( %) Control (%)
High (>75)
Moderate (40-75)
Low (<40)
No (0)
High (>75)
Moderate (40-75)
Low (<40)
No (0)
1 Household activities
2 Children education
3 Ownership on durable and farm assets
4 Savings and expenditure
5 Farm activities
6 Selection of crop enterprises
7 Subsidiary enterprises
8 Marketing of farm produce
9 Others
12. Land Holding with survey numbers
Sl. No. Type of land Survey
number Holding in
acres
Present Land value
(Rs.)
Soil Type (Black/ Red/ Laterite)
1 Irrigated land
2 Dry land
3 Permanent fallow land
Total
155
**: Fertile/Unfertile/Eroded/Saline/Alkaline/Acidic
13. Source of irrigation and quality of water
Sl. No Source Defunct.
(No.) Working
(No.)
Water table (Ft
Yield
Area irrigated Quality of water (salt/
/sweet)
Agriculture/Horticulture Perennial crops K R S
1 Open well
2 Bore well
3 Tank
4 Canal
14. Cropping pattern
Sy. No. Crop Intercrop Area (Acre) Season (Acre)
Kharif Rabi Summer
Total
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15. Borrowing status
Sl. No.
Components Status
1 Bank account Yes No 2 Do you have any
savings? Yes No
3 Credit availed (Rs.) Amount (Rs.):…………Adequate Inadequate 4 Institutional source
1 Commercial bank
2 Grameena bank, 3 Cooperative
bank 4 others
Amount (Rs)
Rate of
Interest
Purpose Repayment status Reactions
1. Agriculture production
2. Animal husbandry
3. Household consumption
4. Education 5. Healthcare 6. Social
functions like marriage
7. Bore well/ irrigation related equipments
8. Income generating activities
9. Purchase-land,
10. Purchase–agricultural implements/ farm machinery
11. Purchase-vehicle
12. Construction-house,
13. Construction-cattle shed
1. Unpaid 2. Partially
paid 3. Fully
paid
1. Timely agricultural operation
2. Easy access
3. Amount as per requirment
4. High rate of interest
5. Sell the produce at low price
5 Private source 1 Friends/Relatives 2 Money Lender 3 Traders 4 Input Dealers/
Suppliers 5 SHGs/CBOs
-
-
157
16. Cost of Production: 1 Name of the Crop Crop 1: Crop 2: Crop 3: 2 Extent of area (acres) &
Season: ________acres Kharif/Rabi/Summer/pern ________acres Kharif/Rabi/Summer/pern _______acres Kharif/Rabi/Summer/pern
4 Type of land: Dry/irrigated Intercrop ……………. Quantity of Seed; main………Kg inter crop:….…...Kg
Dry/irrigated Intercrop ……………. Quantity of Seed; main………Kg inter crop:….…...Kg
Dry/irrigated Intercrop ……………….. Quantity of Seed; main……Kg inter crop:….…...Kg
5 Irrigation method: Sprinkler/Drip/Flooding Sprinkler/Drip/Flooding Sprinkler/Drip/Flooding 6 * Est. and annual maint.
cost Rs. /Acre _____ & Rs. /Annum______ Rs. /Acre _____ Rs. /Annum ______ Rs. /Acre _____ Rs. /Annum ______
7 *Age of the garden & life span
_____Years &_____Years ____Years & _______Years _________Years &_____Years
Details of operation
Labour Use (md) Input (Qty)
Labour Use (md) Input (Qty)
Labour Use (md) Input (Qty) Men Women Bullock Tractor
(Hrs) Men Women Bullock Tractor (Hrs) Men Women Bullock Tractor
(Hrs) 8 Land preparation –
Owned
Hired
9 10
FYM / Compost Application Owned
Hired/purchased
11
Sowing - Owned Hired /Purchased
12 Fertilizer Application Owned
Hired
a) b) c)
13 Weeding : Owned
No. of weeding:______ Hired
158
14 Irrigation: Owned
No. of irrigation:______ Hired
15 PPC Application Owned
No. of spray: …. Hired
16 Harvesting & Threshing: Owned
No. of Harvesting:______ Hired
17 Electricity charges (Rs./year)
18 Miscellaneous expenses (Rs./year)
19 Yield Main product (q)
By product(tons)
20 Prices Main product(Rs./q)
By product(Rs./tons)
* Only for perennial crops md: Manday P/A $: Perennial /Annual # Expenses incurred by the farmer other than above listed item Men (Rs./day : Rs..______ Crop wise Seed Price
(Rs./kg)
Crop-1: Crop- 2: Crop-3: Crop-4: Crop-5: Crop-6:
Women (Rs./day): Rs. ______
Bullock pair(Rs/day) Rs.______ Tractor (Rs./Hour): Rs._______
FYM/Compost (Rs./ton) Rs.______
PPC (Rs./Lit / kg) Rs. ______ Fert. Prices/50 Kg bag
Urea Rs. _____
DAP Rs: _____
MoP Rs: _____ Sup Phos Rs: ____
17 all Rs. ____
19 all Rs. _____
Rental value of Land Dry Land: Rs/acre/year :………..
Irrigated Land: Rs/acre/year : ………………
Land Value : Rs/Acre:……..
Dry Rs/Ac: _____________ Irrgtd Rs/Ac:____________
159
17. Cost of production on subsidiary enterprises
Sl. No.
Livestock name
No. of animals
No. of milching animals
Present value of animal/s
(Rs.)
Monthly feed and fodder requirement (kg/animal/month) Labour
Health care
Yield Price
per unit ofoutput (Rs.) Dry Green Conc.
Milk (liters/month)or Animal (no./year)
Lactation period
(months)
Manure (t/year) No.
Hrs Amt. (rs)
Small ruminants 1 Sheep 2 Goat
Milch animals 3 Local cow
4 Crossbred cow
5 Buffaloes Drought animal
6 Bullocks Others
7 Poultry @- Other expenses /month includes labour cost, veterinary expenses
Cost of dry fodder (Rs./kg): __________ Cost of green fodder (Rs./kg):_____________ Cost of concentrates (Rs./kg):_____________
Price per liter of Milk: Rs._________/liter Lactation period: _________________Months
160
18. Fodder availability
Sl. No.
Type Availability Adequacy
Quantity (t/s) Duration (days) Adequate Inadequate
1 Green fodder
2 Dry fodder
19. Family Annual income from all sources Sl. No.
Source of income Total Income (Rs.) Total Expenditure (Rs)
1 Dry land 2 Irrigated 3 Sericulture 4 Dairy 5 Poultry 6 Sheep/goat 7 Piggery 8 Service/salary 9 Business 10 Wage income 11 others
20. Number of Horticulture and Forest species Planted
Sl. No.
Horticulture Spp.
Number Sl. No.
Forestry Spp.
Number
Field Backyard Field Backyard
1 Mango 1 Eucalyptus
2 Coconut 2 Cashew
3 Guava 3 Teak
4 Jack 4 Neem
5 Pomegranate 5 Tamarind
6 Sapota 6 Pongamia
7 Custard apple 7 Acacia
8 Lime 8 Banyan
9 Others 9 Pupil tree
Others
a. Are you interested in Cultivating horticulture or forestry species: Yes /
No If yes Species required……………………. Number:……………
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21. Additional investment capacity of farmers
Sl. No. Purpose
Extent of investment (Rs/acre)
Source of funds*
1 Land development 2 Irrigation - 3 Improved crop production ‐ 4 Improved livestock management ‐ 5 Orchard development/maintenance ‐ 6 Subsidiary enterprises -
Others - *Self/Soft Loan/Bank Loan/Asset Selling/Pawn Broking/Govt. Subsidy/Others
22. Marketing of the produce:
Sl. No
Particulars Name of the produce
Crop Name
Crop Name
Crop Name
Crop Name
Crop Name
1 Output obtained (q) 2 Output retained (q) 3 Output sold (q) 4 Type of market* 5 Mode of transport** 6 Price obtained (Rs/q)
*Local Market/Village Merchant/Cooperative Society/Regulated Market/Commission Agent/Outside the State/outside the country/Others **Cart/Tractor/Bus/Truck/Head Load /Train/Flight/Other
23. Awareness regarding watershed: A. Soil and water erosion problems in farm : Yes/No B. Status of soil fertility in farm : Low/Medium/High C. Soil Testing Done earlier : Yes/No D. Interest in soil test : Yes/No E. Adoption of soil and water conservation practices : Yes/No
24. In situ soil and water conservation methods adopted
Sl. No. Conservation structure Adoption*
1 Summer ploughing 2 Dead furrow 3 Mulching 4 Contour cultivation 5 Combination of deep and shallow root crops 6 Others
*Adopted/Not adopted
162
25. Status of soil and water conservation structures in the micro watershed
Sl. No.
Conservation structure Year Status*Implemented by
Self/External Agency**
Name of agency***
1 Field Bunding 2 Graded bund 3 Loose boulder checks 4 Vegetative bund 5 Farm Pond 6 Bore well recharge pit 7 Others
*Good/Slightly damaged/Severely damaged /Full replacement required **Self/External agency ***Ngo/Govt./Farmers Organization/Others
26. Access to basic needs Sl.
no. Minimum need Response
Source Distance
1 Fuel for domestic use
Dung Cake
Fire Wood
Kerosene
Biogas
LPG
2 Drinking water
Distance
Piped supply
River
Canal
Lake
Bore Well
Tank
Open well
3 Light Kerosene Lamp/Solar Lamp/Electricity/Petromax
4 Electricity Hours of electricity
5 Sanitary toilet facility Yes/No
6 Yashashwini health card Yes/No
7 Possession of PDS card APL/BPL/Not possessed
8 a. Work under NREGA Yes/no
b. Number of Persons working in
your HH under NREGA
b. Number of days employed in a
year in NREGA
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27. Adequacy/ self sufficiency food materials for the households
Sl. No. Particulars Adequate Inadequate Marketable surplus
1 Cereals 2 Pulses 3 Oilseed 4 Vegetables 5 Fruits 7 Milk 8 Egg 9 Meat
28. Farming Constraints:
Sl. No.
Constraints Experienced Not
Experienced 1 Lower fertility status of the soil 2 Wild animal menace on farm field 3 Frequent incidence of pest and diseases 4 Inadequacy of irrigation water 5 High cost of Fertilizers and plant protection chemicals 6 High rate of interest on credit 7 Low price for the agricultural commodities 8 Lack of marketing facilities in the area 9 Inadequate extension services
10 Lack of transport for safe transport of the Agril produce to the market.
29. Suggestions for improvement of the micro watershed
1. Natural resource management
………………………………………………………………………………………..
…………………………………………………………………………………………
…………………………………………………………………………………………
2. Social life
…………………………………………………………………………………………
.…………………………………………………………………………………………
…………………………………………………………………………………………
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3. Livelihood aspects
.………………………………………………………………………………………
………………………………………………………………………………………..
.………………………………………………………………………………………
4. Crop production aspects
………………………………………………………………………………………...
………………………………………………………………………………………...
………………………………………………………………………………………...
165
Annexure - IX
DPR format
MW
LMU
LCC
G. Panchayath
Village
Sy. No.
Hissa No.
Farmers name
Father/ Husband name
Farmer code
Area (ha.)
Farmers category LH wise
Caste wise
Existing crops
Proposed crops
Existing soil and water conservation and water harvesting activities (To be collected from the Dept.)
Activity type
Name
Size
Unit
Per unit runoff stored (TCM)
Existing No. of structures
Latitude (D-M-S)
Longitude (D-M-S)
Is in use
Programme name Year of construction
166
Proposed soil and water conservation and water harvesting activities
Activity type
Activity name
Dimension (size)
Unit
Unit cost (in Rs.)
Proposed No. of structures/ Extent (Ha. / Rmt)
Total cost (in lakhs)
Details of vegetative cover
Plantation type
Activity /model/plant/ crop name
Area as in Sy. No. (in ha.)
Proposed area out of total area (in ha.)
Source of irrigation (Well/ Canal/ Rainfed)
Method of irrigation (Drip/Ring/Surface)
Area as per type of land
Waste land
Cultivable
Ownership of land (Community/Private/Others)
Animal Husbandry activities
Name of the activity
Unit
Extent / No. of units
Total cost (Rs.)
Fisheries activities
Name of the activity
Unit
Extent / No. of units
Total cost (Rs.)
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Annexure - X
List of NGOs working in the District
Sl .No. District NGO Name
1 Chamrajnagar INSTITUTE FOR RURAL DEVELOPMENT (IRD) Bijapur
2 Davangere SAHARA - Social Actionfor Health Awareness and Rural Advancement, Davanagere
3 Gulbarga GRAM KIRAN SEVA SAMSTHE, Gulbarga
4 Yadgir PRAWARDA, Bidar
5 Gadag SARVODAYA, MEMORIAL FOUNDATION Davanagere
6 Koppal SAJJALA SRI SAMAGRA KRISHI ADHYANA MATTU GRAMIN ABHIVRUDHI SAMSTHE, Lingasur, Raidhur, Dist.
7 Bidar CURDS - Centre for Urban and Rural Development Society, Bangalore
8 Tumkur STEPS - Sustainable Technologies and Environment, Protection Society, Bangalore
9 Raichur GRAMS - Grameena Mahila Abhirudhi Shikshana Samsthe, Lingasugur, Raidhur Dist.
10 Bijapur READS, THE RURAL ECONOMICS AGRICULTURE SOCIETY, Koratagere, Tumkur
11 Chikkamagalur SPANDANA Gross root level support organisation, Hosadurga, Chitradurga Dist.