ENVIRONMENTAL MANAGEMENT PLAN (EMP) FOR JATILUHUR ...€¦ · Gravimetry(SNI 19.6603.2001) 87 58...

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i ENVIRONMENTAL MANAGEMENT PLAN (EMP) FOR JATILUHUR IRRIGATION MANAGEMENT AND IMPROVEMENT (JIMI) FOR THE REHABILITATION OF SUB- SYSTEMS OF BARUGBUG Cs, PAWELUTAN Cs AND SALAMDARMA KIRI Cs. - Content - 1. Background. ................................................................................................................................ 1 2. Location. ...................................................................................................................................... 2 3. Scope of Works for 3 Sub-Systems in the 1st year Program...................................................... 2 4. Construction Equipment. ............................................................................................................. 2 5. Environmental Assessment. ........................................................................................................ 3 6. Environmental Condition Summary............................................................................................. 3 6.1. Climate ..................................................................................................................................... 3 6.2. Air Quality and Noise ............................................................................................................... 4 6.3. Topographic Characteristics and Regional Geology ............................................................... 5 6.4. Hydrology and Water Quality................................................................................................... 6 6.5. Flora and Fauna ...................................................................................................................... 8 6.6. Spatial Plan............................................................................................................................ 11 6.7. Socio Economic and Culture, Public Health .......................................................................... 11 7. Potential Environmental Impacts............................................................................................... 16 7.1. Pre-construction Stage .......................................................................................................... 16 7.2. Construction Stage. ............................................................................................................... 17 7.2.1. Recruitment and Mobilization of Labor. ·············································································17 7.2.2. Equipment Mobilization. ·····································································································18 7.2.3. Excavation of Sediment. ····································································································19 7.2.4. Disposal Area. ····················································································································20 7.2.5. Chance Find Procedures ···································································································21 7.3. After Construction Stage (O&M Stage). ................................................................................ 22 8. Environmental Management Plan ............................................................................................. 22 9. Environmental Monitoring Plan ................................................................................................. 22 10. Reporting and Capacity Building ............................................................................................... 23 11. Integration of EMP into the project ............................................................................................ 25 12. Public Consultation Meeting (PCM) .......................................................................................... 25 Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized Public Disclosure Authorized

Transcript of ENVIRONMENTAL MANAGEMENT PLAN (EMP) FOR JATILUHUR ...€¦ · Gravimetry(SNI 19.6603.2001) 87 58...

  • i

    ENVIRONMENTAL MANAGEMENT PLAN (EMP)

    FOR JATILUHUR IRRIGATION MANAGEMENT AND IMPROVEMENT

    (JIMI)

    FOR THE REHABILITATION OF SUB- SYSTEMS OF BARUGBUG Cs, PAWELUTAN

    Cs AND SALAMDARMA KIRI Cs.

    - Content -

    1. Background. ................................................................................................................................ 1

    2. Location. ...................................................................................................................................... 2

    3. Scope of Works for 3 Sub-Systems in the 1st year Program...................................................... 2

    4. Construction Equipment. ............................................................................................................. 2

    5. Environmental Assessment. ........................................................................................................ 3

    6. Environmental Condition Summary ............................................................................................. 3 6.1. Climate ..................................................................................................................................... 3 6.2. Air Quality and Noise ............................................................................................................... 4 6.3. Topographic Characteristics and Regional Geology ............................................................... 5 6.4. Hydrology and Water Quality ................................................................................................... 6 6.5. Flora and Fauna ...................................................................................................................... 8 6.6. Spatial Plan ............................................................................................................................ 11 6.7. Socio Economic and Culture, Public Health .......................................................................... 11

    7. Potential Environmental Impacts ............................................................................................... 16 7.1. Pre-construction Stage .......................................................................................................... 16 7.2. Construction Stage. ............................................................................................................... 17 7.2.1. Recruitment and Mobilization of Labor. ············································································· 17 7.2.2. Equipment Mobilization. ····································································································· 18 7.2.3. Excavation of Sediment. ···································································································· 19 7.2.4. Disposal Area. ···················································································································· 20 7.2.5. Chance Find Procedures ··································································································· 21 7.3. After Construction Stage (O&M Stage). ................................................................................ 22

    8. Environmental Management Plan ............................................................................................. 22

    9. Environmental Monitoring Plan ................................................................................................. 22

    10. Reporting and Capacity Building ............................................................................................... 23

    11. Integration of EMP into the project ............................................................................................ 25

    12. Public Consultation Meeting (PCM) .......................................................................................... 25

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    ENVIRONMENTAL MANAGEMENT PLAN (EMP)

    FOR JATILUHUR IRRIGATION MANAGEMENT AND IMPROVEMENT

    (JIMI)

    FOR THE REHABILITATION OF SUB- SYSTEMS OF BARUGBUG Cs,

    PAWELUTAN Cs AND SALAMDARMA KIRI Cs.

    1. Background.

    Development of Jatiluhur Irrigation Project started in year 1925 by construction of Walahar weir including the irrigation system called North Tarum Canal (NTC) with 77.41 km length of canals and irrigated 85,945 ha paddy field.

    In year 1965 it was followed by construction Curug weir located 8 km just upstream of Walahar weir, completed with irrigation system. The irrigation system from Curug weir divided into 2 (two) parts, for the left side called West Tarum Canal (WTC) with 68.67 km of canal length to irrigate 56,628 ha of paddy field and for the right side called East Tarum Canal (ETC) with 67.37 km of canal length to irrigate 90,230 ha paddy field.

    The total irrigation area of Jatiluhur is 232,803 ha. This area spread over 4 (four) districts in West Java Province; they are Purwakarta District, Karawang District, Subang District and Indramayu District.

    Beside for irrigation purpose, the Jatiluhur System also functions as water supply for Domestic, Municipal and Industrial (DMI) for the people and company along or around the canal and for Jakarta drinking water.

    Citarum river is the longest river in West Java Province with 270 km of length with abundant water. At the upstream portion of river, the Government constructed 3 (three) dams. The first dam located at the upstream of Curug weir is called Juanda Dam as a multi-purpose dam for hydro-electric plant (PLTA) and regulator water for Jatiluhur Irrigation System. The capacity of Juanda dam is 3 billion m³. More upstream there are Cirata dam and Saguling dam having functions as a hydro-electric plant (PLTA).

    Water supply for Jatiluhur Irrigation system is controlled and regulated by Juanda dam, firstly water use for electric power station, and then water flowing to downstream through Citarum river. At the Curug weir, the water pumped by hydraulic pump to the left irrigation canal WTC with capacity of 85 m³/sec, and by electric pump to the right irrigation canal ETC with capacity of 84 m³/sec. The excessive water flows to the downstream of Citarum River and at the Walahar weir is diverted to irrigation canal of NTC with capacity of 102 m³/sec.

    In line with the rapid development in various sector, the water requirement for domestic, municipal and industrial sectors also increase. The existence of Jatiluhur Irrigation Canals becomes more important. But on the behind, after operated more than 45 years, the capacity of canals has been reduced continuously. The main factor reducing the conveyance capacity of the canals is the sediment flowing with irrigation water and settled in the canals. For example, the capacity of ETC is now only 62.5 m³/sec, this is

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    only 75% of designed capacity of 84 m³/sec. Due to reducing capacity, the conflict of using water becomes more serious.

    In order to solve the problem of water supply at the Jatiluhur Irrigation System, the Government of Republic Indonesia, through Department of Public Works, Balai Besar Wilayah Sungai Citarum (BBWSC) plans to improve the irrigation system by implementing Water Resources and Irrigation Sector Management Program (WISMP-2) Stage 2, especially in West Java Province named Jatiluhur Irrigation Management Improvement (JIMI) Loan 4711-IND.

    According to Loan Agreement, the improvement work should be executed in accordance with environmental requirement.

    2. Location.

    The Environmental Assessment was carried out for the 3 (three) Sub-Systems of Jatiluhur irrigation system, such as Barugbug Cs, Pawelutan Cs, and Salamdarma Kiri Cs, which administratively locate at Subang district, West Java Province. SS Pawelutan Cs and SS Salamdarma Kiri locate at the Binong Sub-District and SS Barugbug Cs locate at Jatisari Sub-District. Location of sub-systems can be seen in Figure 1 attached.

    3. Scope of Works for 3 Sub-Systems in the 1st year Program

    Scope of work for Improvement of Jatiluhur Irrigation System are divided into several packages. For the first stage planned in year 2011-2012, the rehab works for the 3 Sub-Systems in East Tarum Canal (ETC) will be implemented with the details as below:

    1. SS. Pawelutan Cs for area of 3,592 ha, consists of 30,876 m canal long with the

    excavation work of 183,578 m3, improvement of embankment for 136,718 m3,

    canal lining for 8.803 km with 9,988 m³ of stone masonry and rehabilitation of 81

    nos of structures.

    2. SS. Barugbug Cs for area of 2,901 ha, with the irrigation canal of 15,791 m long,

    the excavation work of 18,484 m3 and improvement of embankment for 32,487

    m3, canal lining for 6.087 km with 12,176 m³ of stone masonry and rehabilitation

    of 27 nos of structures.

    3. SS. Salamdarma Kiri Cs for area of 2,922 ha, with the irrigation canal of 16,437 m

    long, the excavation work of 39,366 m3 and improvement of embankment for

    29,782 m3, canal lining for 9.418 km with 21,733 m³ of stone masonry and

    rehabilitation of 22 nos of structures.

    For more clear, the scope and quantity of the work can be seen in Table 1 attached.

    4. Construction Equipment.

    The Construction Period is planned for 18 months. For the execution of rehabilitation works as above will be used several kinds of the equipment consisting of bulldozer, excavator, vibrator roller, watertank truck, dump truck, concrete mixer and concrete vibrator.

    The required number of such equipment can be seen in Table 2 attached.

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    5. Environmental Assessment.

    For the environmental assessment for Improvement of Jatiluhur Irrigation system, various surveys were executed at the field covering area within East Tarum and North Tarum Irrigation System. The surveys consist of:

    1) Physical-chemical survey

    - Air Quality and Noise

    - Water Quality

    - Sediment Content.

    2) Biological Survey

    - Flora and Fauna

    - Biota Aquatic

    3) Social, Economic and Culture

    - Demography

    - Social Economy

    - Cultural

    - Community Health

    - Community Response and Involvement

    6. Environmental Condition Summary

    6.1. Climate

    A. Meteorological Station

    There are many meteorological stations in the Jatiluhur irrigation area. About 100 rainfall stations operated by PJT-II and one meteorological station by Balai Besar Penelitian Tanaman Padi Sukamandi (BBPTP Sukamandi) are located in the Jatiluhur irrigation area. The location of the main stations is shown in the below Figure.

    The BBPTP Sukamandi has been measuring several climate data such as rainfall, evaporation, relative humidity, sunshine hours and wind velocity. The period of BBPTP Sukamandi data is from 1991~2009 (19 years) and the period of rainfall data of PJT-II is from 1988~2009 (21 years).

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    B. Climate

    Table below demonstrates several climatic features in the Jatiluhur irrigation area. The Jatiluhur irrigation area is characterized with high temperature and longer sunshine length with lower rainfall depth. The climate of the area is affected by the sea more over the mountain.

    Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Avg

    Temperature (℃) 26.4 26.2 27.0 27.6 27.7 27.0 26.5 26.7 27.5 28.0 27.7 27.1 27.3

    Relative Humid (%) 87.1 87.7 84.4 82.4 80.9 81.1 80.3 76.7 74.4 76.1 80.4 83.2 80.9

    Sunshine (hr/day) 4.8 4.7 5.7 6.0 6.7 6.5 7.1 7.7 8.1 7.2 5.8 5.3 6.2

    Wind Speed (m/s) 2.4 2.5 2.1 1.7 1.7 1.7 1.9 2.4 2.5 2.3 2.1 2.3 1.5

    C. Rainfall

    The climate of the Jatiluhur irrigation area is characterized by two distinct seasons: rainy season and dry season. The rainy season occurs during the months of November to April, while the dry season occurs during the remaining months. February is the wettest month, while August is the driest month. The semi-monthly distribution of rainfall in the Jatiluhur irrigation area is shown in the following figure. The average annual rainfall is 1,453 mm. Almost 83% of annual rainfall occurs during the rainy season.

    6.2. Air Quality and Noise

    A. Ambient Air Quality

    Ambient air quality sampling was taken in 4 locations where population density is high enough and near to the project site as well. The locations are Walahar village (Karawang), Tanah Timbul village– SS. Lamaya Timur (Karawang), Lampeni village – SS. Kamurang (Subang), dan Karang Baru village – SS. Sukra, Indramayu.

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    Measurement of air pollutant was made to the gas nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), hydrogen sulfide (H2S), total suspended particular (TSP), and Plumbum (Pb). The results of the measurements show that in general all the parameters meet the required quality standard.

    No Parameter Unit Method Result

    Standard 1 2 3 4

    1 Nitrogen Dioxide (NO2)

    μg/Nm3 per

    1 Jam

    Grietz Saltzman(SNI 19–

    7119.2.2005) 19,74 18,89 15,45 30,91 400

    2 Sulphur Dioxide

    (SO2) μg/Nm3 per

    1 Jam

    Grietz Saltzman(SNI 19–

    7117.3.1.2005) 2,93 tt tt tt 900

    3 Carbon

    Monoxide (CO) μg/Nm3 per

    1 Jam Iodine Pentoxide(WHO) 630 1260 1260 1260 30000

    4 Hydrogen Sulfide

    (H2S) μg/Nm3 per

    1 Jam Methylene Blue(WHO) tt tt tt tt 0,02**)

    5 Total Suspended

    Solid μg/Nm3 per

    24 Jam

    Gravimetry(SNI

    19.6603.2001) 87 58 73,5 121,5 230

    6 Plumbum (Pb) μg/Nm3 per

    24 Jam

    Gravimetry(SNI

    19.6603.2001) tt tt tt 0,13 2

    7 Noise dB(A) SNI 19–6878–2002 50–70 48–68

    52–62 49–76

    55***)

    Remark : *

    ) Law of Government No. 41 Year 1999, Concerning Air Pollution Operation

    **) Environmental Ministry Decree No. Kep 50/MENLH/11/1996, concerning Odor Level Standard

    ***) Environmental Ministry Decree No. Kep 48/MENLH/11/1996, concerning Noise Level Standard for Settlement

    Area tt = Not detected

    B. Noise

    Noise level at 4 sampling locations ranged from 48 dBA to 80 dBA as shown in the table above. The highest noise level is at SS. Sukra, Karang Baru Village, Indramayu District ranging between 49 – 76 dBA and lowest noise is at SS. Kamurang, Lampeni Village, Subang District ranging between 52-62 dBA. The highest level of noise at SS. Sukra, Karang Baru Village, Indramayu District is because of heavy transportation there. When compared with the noise level standard based on Environmental Ministry Decree No. Kep 48/MENLH/11/1996, the allowed noise level standard for a settlement is 55 dBA. Results of measurement at 4 locations in the study area indicates that noise exceeds the noise level standard.

    6.3. Topographic Characteristics and Regional Geology

    A. Topographic Characteristics

    The principal features of the Citarum River basin with the Jatiluhur irrigation area are some hilly areas which almost cover the entire lowland and plain area. The Jatiluhur Irrigation area can be geomorphologic divided into two types of landforms:

    a) Hilly areas mainly located along the upstream area from Jatiluhur weir and partially scattered on the lowlands, consist of gentle slopes and plateaus and have an altitude of 10 to 150 meters, mostly below 100 meters. The plain area is

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    between 0 and 10 meters in height and mostly below 1.5 meters. In addition, hills are covered scarcely with plantation and agriculture production area.

    b) Lowland and plain, below 10 meters in altitude, comprise the main fish-pounding and paddies area.

    The length of North Tarum Canal (NTC) and East Tarum Canal (ETC) are approximately 144.76 km. The canal originates from the Curug Diversion Weir and Walahar Diversion Weir.

    B. Regional Geology

    The bedrock area of investigation was distributed on the ETC, NTC and upstream of curug weir consists of Tertiary sedimentary (mainly conglomeratic and tuffaceous sandstone) and Subang formation. The bedrock is exposed mainly on hilly and covered locally by Pliocene Beach ridge deposits. Quaternary alluvial deposits widely overlie the bedrock, especially on the lowlands.

    6.4. Hydrology and Water Quality

    A. Jatiluhur Dam

    The Jatiluhur dam is the first multi-purpose dam in Indonesia and the primary water source of Jatiluhur irrigation system. The total catchment area of Jatiluhur dam is 4,550km2 and inflow from the Citarum River is regulated by two dams located on the upstream of Jatiluhur. According to the previous studies, average annual discharge from Jatiluhur was 5,806MCM during the period of 1920 – 1941 (BCEOM, 1990) and 5,787MCM during the period of 1963 – 1987 (ICWRMP, Nippon Koei, 2005).

    Based on the recent discharge data from PJT II, annual discharge from Jatiluhur during 1993-2008 is 5,344MCM or 169.4m3/s. Maximum and minimum discharges are 7,314MCM in 1993 and 3,945MCM in 1997

    Water availabilities of the Jatiluhur estimated in previous study are 186.6m3/s or 5,885MCM with 80% dependability (JWRMP, NEDECO, 1998) and 152.2m3/s or 4,871MCM with 90% dependability (ICWRMP, Nippon Koei, 2006). The recent annual discharge is median value of these two estimations. When estimating dependable discharge using the recent 16-year discharge data, 80% dependable discharge is 4,448MCM and 90% dependable discharge is 4,048MCM. If the data

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    Average 169.4m3/s

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    series in the past were included, the dependable discharge would be increased. This implies the reduction of water availability in Jatiluhur.

    Jatiluhur is operated as a cascade system with Saguling and Cirata based on the equal sharing concept which balances on the percentage of each dam’s effective storage against total effective storage of three dams. This operational system regulates the most part of inflow and outflow of Jatiluhur dam and makes better of water resources in upper Citarum river basin. Stored excess water along one year at upper two dams can be released to the downstream in the following year for inter-annual regulation. Regarding water supply capacity of Jatiluhur, 5,344MCM of annual discharge during the period 1993-2008 was accepted as water availability in normal year.

    B. Intercepted Rivers

    Within the Jatiluhur system, there are 9 weirs interacting with Tarum canals, namely Curug, Bekasi, Cikarang, Cibeet, Barugbug, Jengkol, Macan, Gadung and Salamdarma. Water captured at these weirs is irrigated to about 240,000ha of farmland and supplied to nearby area for DMI water. Weirs in western part (Bekasi, Cikarang and Cibeet) are directly connected to WTC and provide supplementary water. Weirs in eastern part (Barugbug, Jengkol, Macan, Gadung and Salamdarma) are intersected with ETC and receive supplementary water from ETC during the dry period. NTC has no intersected rivers.

    In Jatiluhur area, runoff records at each weir site have been measured since 1971 by PJT II. 39 years of semimonthly runoff data is available except Macan (37years) and Gadung (38years).

    However, the total runoff volume in rivers cannot be utilized for Jatiluhur area because of seasonal variations of runoff and water demand, location of intake weirs and capacity of intake facilities.

    Annual Discharge Volumes (in MCM)

    WTC Region ETC Region

    River Weir Avg. 5-year (80%)

    River Weir Avg. 5-year (80%)

    Bekasi Bekasi 893 505 Cilamaya + Ciherang

    Barugbug 650 329

    Cikarang Karang 409 217 Cijengkol Jengkol 421 207

    Cibeet Beet 917 490 Ciasem Macan 334 214

    Cigadung Gadung 305 165

    Cipunegara Salamdarma 1730 1,031

    Total 2,219 1,212 Total 3,440 1,946

    C. Water Quality

    Result of water quality at 2 (two) locations, one is in Cilamaya River which supply water to Barugbug weir and the other is in Ciasem River which supply to Macan Weir and Pawelutan weir can be seen in Table 5 below :

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    Table 5: Water Quality at Cilamaya and Ciasem Rivers.

    No Parameter Unit

    Location

    Standard S. Cilamaya

    S. Ciasem

    1 Dissolved Solid mg/L 120 135 2000

    2 Suspended Solid mg/L 498 194 400

    3 pH mg/L 7.30 7.86 5-9

    4 BOD mg/L 22 10 12

    5 COD mg/L 79 37 100

    6 DO mg/L 5.4 5.2 0

    7 Nitrite mg/L 0.47

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    are fruit trees, like Breadfruit (Artocarpus communis), Jackfruit (Artocarpus Integra), Mango (Mangifera indica) and Guava (Psidium guajava).

    c. Agroforrestry Typology

    Agroforrestry typology is the area cultivated with mixed vegetation consisting of trees as a perenial crops (annual) and vegetable or plants that live only one year or one season. There are 50 kinds of flora in the study area with majority of wood-producing plants dominated by Jengjen (Albizzia falcataria) and Formis (Acacia auriculiformis).

    d. Shrub

    Shrub typology in study area consists 32 kinds of flora, majority of shrub species like kirinyuh (Eupathorium odoratum), kaliandra (Calliandra sp.), and Cucuk garut (Mimosa invisa).

    The various kinds of flora found in the study area, more specifically, found along the irrigation canals, are not categorized as protected flora.

    B. Fauna.

    The collected fauna data is an inventory of terrestrial fauna species in each typology of land as above. Observed terrestrial fauna consists of four classes of animals, namely mammals, reptiles, amphibians, and birds.

    Based on primary survey and interviews with local people, the type of land mammals found in the study area are only two kinds, namely rice field rats (Rattus argentiventer) and brown rat (Rattus rattus).

    Class of reptiles found in the study area are Lacertilia (Lizards), Ophidia (Snakes), and Testudinata. Species of reptiles in the river banks or canals is a type of lizard (Varanus salvator). This species is a top predator from the class of reptiles that usually prey fish and other aquatic biota.

    Class Amphibians found in the study area is Anura (frog). Out of amphibians most abundant types in the study area is paddy field frog species (Fejervarya cancrivora).

    The diversity of birds was invetorized for every typologies of land as follow:

    a. Paddy field typology

    There are 25 kinds of fauna found in the project area. The most dominant species is the type of Java Scaly-breasted (Lonchura leucogastroides) and rabbit Swiftlet (Collocalia linchi). Both bird species are commonly found in the typology of paddy fields due to the paddy land provides an abundant food source. Seeds of rice became the main food source of the Scaly-breasted birds of Java and Peking Scaly-breasted (Lonchura punctulata). While various types of soil insects, and air insects, as a source of feed for birds Insectivora (insect eaters) such as rabbit Swiftlet (Collocalia linchi), Asian Kites (Hirundo rustica), and type of Zitting Cisticola (Cisticola juncidis).

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    b. Yard

    There are 8 kinds of fauna found in the project area. The most dominant species is the type of rabbit Swiftlet (Collocalia linchi), whereas the others are Burunggereja Erasia (Passer montananus), Scaly-breasted Java (Lonchura leucogastroides), Chili Java (Diaceum trochileum), and Burungmadu Sriganti (Nectarinia jugularis). Burunggereja Erasia (Passer montananus) is an adaptive type of settlement, because its source of food is human food scraps, and usually nest at the houses roof.

    c. Agroforrestry

    Agroforestry is the typical land for the most bird species, because it has a stratification of vegetation composition and complex compared with other land typology. There are 38 kinds of fauna found in the project area. The most dominant species is the type of rabbit Swiftlet (Collocalia linchi), where the dominating species is similar to the yards typology. The other dominant species are Scaly-breasted Java (Lonchura leucogastroides), Burunggereja Erasia (Passer montananus), and Cucak Kutilang (Pycnonotus aurigaster).

    d. Shrub

    The Shrub has its own characteristics on the type of bird, although the dominant kind is similar to yards and agroforestry typology. There are 28 kinds of fauna found in the project area. Shrub typology has a special characteristic, which can not found in other typologies, such as reeds Coucal (Centropus bengalensis), Long-tailed Shrike (Lanius schach), and striped Gemak (Turnix suscitator).

    Fauna recorded in this survey, generally, live in the paddy field, yard, agroforrestry and shrub, and not in the irrigation canals. No protected fauna based on international and Indonesian wildlife protection regulations were found in the study area.

    C. Aquatic Biota

    Aquatic biota in the study area is divided into three groups as follows: plankton, benthos, dan nekton.

    a. Plankton

    Plankton can be divided into two groups, namely phytoplankton which is the plant microorganisms and zooplankton which is the animal microorganisms. In aquatic ecosystems, phytoplankton determines the productivity of aquatic plants. In addition, phytoplankton can also be used as indicators of aquatic environmental conditions change, for example, the entry of polluting substances into waters will have an impact on the quantities of phytoplankton as well as zooplankton.

    Based on the survey, in the study area was found as many as 19 species phytoplankton and 8 species of zooplankton. The most of phytoplankton population is Fragilaria sp. and Rhabdholaimus sp. for zooplankton.

    b. Benthos

    Benthos consists of stick biota, crawling or making a hole in the bottom of waters. Benthos is an important animal group which connects the energy transport and

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    benthic aquatic ecosystems. Composition and density of macrobenthos in the river is usually stable from year to year. Some communities respond to changes in habitat quality by adjusting the structure of their community.

    There are three conditions that cause changes in community structure, namely organic matter, changes in the substrate, and contamination by toxic chemicals. There are 6 species of benthos found in the project area. The most population of benthos are Macrobrachium sp. and Melanoides sp.

    c. Nekton

    In irrigation canals was identified 8 nekton or fish species. Fish which is often found is the kind of Snakeskin Gourami (Trichogaster pectoralis), betok (Anabas Testudineus) and keting (Arius caelatus). Species of fish in the irrigation canal is a type that is carried from the river or from the fish ponds, because some species of fish found similar to those found in stream headwaters.

    6.6. Spatial Plan

    Inside JIMI land, most (over 80%) is agricultural area of paddy fields and only a small portion was developed as an aquaculture area.

    Yet in some areas of JIMI study area there are local protection area, in accordance with Presidential Decree. No 32/1990 which states that the belt of the river is the area along both sides of the river, including the artificial river / canal / primary irrigation canal, which has important benefits to maintain the sustainability of river function.

    Riverine criteria is as below:

    At least 100 meters on either side of major rivers and 50 meters on either side of the creek is outside the settlement.

    For the river in the form of riverine settlement area it is expected to build enough inspection road between 10 - 15 meters.

    In addition to riverine areas, Cilamaya Wetan sub district is a forested coastal mangroves and tidal waves and flood-prone area, thus it is included in local conservation area boundary.

    6.7. Socio Economic and Culture, Public Health

    A. Population

    Population by sex and sex ratio

    Based on data from the Central Statistics Agency the study area where the 3 sub systems exist is located into 2 (two) sub-districts, there are Jatisari and Binong Sub-District. Total population is 117,652 of people consisting of 59,084 male and 58,568 female, with 33,447 households. The Sex ratio is 101%.

    Population by Age Group

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    From the total population, the age with 40 years and over is the greatest number in the study area that is equal to 44,910 inhabitants or 38.17%. The age group from 10-14 years has least in the study area that is equal to 6,458 inhabitants or 6.49%.

    Based on the results of interviews with respondents in the study area, who are the head of the family, the majority of respondents have aged between 41 and 50 years old, which were 31.48% of respondents. While respondents 15-20 years age group is the least number with 1 respondent or 0.37% of the total 270 respondents.

    Population Density

    Population density in project area in the Jatisari Sub-District is 13.44 people/ha, while in Binong Sub-district it is 9.04 people/ha.

    B. Social Economy

    Livelihood

    Livelihoods of the study area consists of agriculture, industry, trade, and other services. Total population by type of livelihoods in the study area is dominated by agriculture and trade.

    Based on survey data of 270 respondents from ten Sub districts, the majority of its population is living as farmworker (26.67%), entrepreneur (18.15%), construction workers (15.19%) and traders (12.96%), Farm owners (9.26%), farmers (7.04%), private employees (4.07%) PNS / TNI / Police (1.11%), Retired (1.11%), sugar cane plantation workers ( 0.74%) and others (3.70%). It can be seen in graphic below.

    Source : Primary Survey, 2010

    Vulnerable population within the three sub-systems which are likely to be influenced by irrigation project is 50,556 peoples (42.97%) consists of owner farmer 9.26% (10,895 peoples), tenant farmer 7.04% (8,283 peoples) and farm-worker 26.67%(31,378 peoples). Women group is 25,106 peoples.

    As for expectations and hopes of respondents it found that the majority of respondents, when the project start, they wish to participate in the project. It was

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    revealed that as many as 37.04% of the respondents (n = 270) want to work for the project while 29.63% of respondents suggest to use local labour.

    Population Economic Level

    Based on the results of interviews with residents in the study area of 270 respondents carried out in February 2010, income of respondents varies greatly, the majority of respondents (25.93%) has an average income of between Rp. 500,000 - Rp. 750,000 per month, while respondents with incomes of less than Rp. 250,000 per month equal to 25.19%. Most respondents had an average expenditure of between Rp. 500,000 - Rp. 750,000 per month that is counted 33.33% of the total respondents.

    Regional Economic Growth

    Regarding economic contribution by each sector in the districts of Purwakarta, Kawarang, Bekasi, Subang and Indramayu, the greatest contribution is from the agriculture sector and manufacturing sector and trade sector. The agricultural sector is supported by sub-sector of food crops and plantations. The industrial sector is supported by the sub-sectors of food, beverages and printing matter. Trade sub-sector is supported by the wholesale and retail trade.

    C. Cultural

    Based on data from the Central Statistic Agency, out of people living in the study area, majority have a religion of Islam (98.79%, 116,217 peoples), followed by Christian Protestant (0.52%, 612 peoples), Budhist (0.41%, 482 peoples), Catholic (0.28%, 329 peoples) and Hindu (0.01%, 12 peoples). Religious service buildings recorded are 99 mosques and 319 musolas while church, temple and vihara were not available in the study area. Mosque and musola are located in the residential areas and not found along the irrigation canals.

    No physical cultural resources such as archeological site were found in the study area. Cemeteries are located near to residential areas, relatively far from irrigation canals.

    D. Community Health

    Morbidity

    Based on data from sub district health centers Jatisarii, type of disease that is often suffered by residents is acute respiratory infection as much as 16,542 cases, followed by fever with 2,778 cases.

    Based on the interview and distributing questionnaires to the respondents, the disease often suffered by family members of respondents is Flu / Cough / Colds as many as 173 people infected (64.07%). Itching disease ranks number two of 34 patients (12.59%). Fever and Demam Bedarah ranks third with 31 people (11.48%) with most types of disease that are often suffered by family members of respondents.

    Health facilities and Infrastructure

    Basically the development in the health sector aims to provide health services easily, evenly, and cheap. One of the government's efforts in order to provide health services to the community is to provide health facilities especially health centers, because the facilities were able to reach all layers of society down to the

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    more remote areas. In the year 2008 in the Jatisari sub-district there are 2 health centers and 2 sub-health centers, since for Binong Sub-district there are also 2 health and 2 sub-health centers.

    Based on questionnaires and interviews with residents in the study area, most health facilities by the respondents were clinic as much as 89.26% of the total 270 respondents. The majority of respondents used Public Health Center facilities because of the distance to a location close enough and also the cost of treatment is cheap so affordable by all levels of society.

    Environmental Sanitation

    Environmental sanitation is one indicator that can be measured to determine the degree of public health. When sanitation conditions in one community is adequate, then the relative degree of public health will be better, and vice versa.

    From interviews with 270 respondents in the study area, data showed that the majority of respondents use dug wells / pumps as a source of clean water that is used for daily life as much as 61.48% of the total respondents, and the user of taps as a source of clean water as much as 18, 89% in the second. The respondents who have dumped waste into the trench toilets directly into the river reach as much as 57.41%, dumped into septic tengki as much as 31.11%, and others as much as 11.48%. For disposal of waste generated by households the majority of respondents burn household waste (65.93%) and dump directly into rivers (22.59%). Average waste generated per family is less than 2 kg of waste per day. It ranked first with 71.11%.

    E. Community Response and Involvement

    From interviews with respondents in the study area, it is noted that all respondents agreed with the plan of activities Jatiluhur Irrigation Management and Improvement (JIMI), with a reason to increase agricultural productivity and to overcome the problem of canal and sluice structures damaged.

    The sampling locations into the study area has a strong culture of Sundanese culture, and in some sub districts in the Karawang and Indramayu districts some residents

    Health Facilities

    Frequently Used by Respondents

    Puskesmas 89.26%

    Policlinic 4.07%

    Others 0.37%

    General Hospital

    0.74%

    Doctor 5.56%

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    have mixed cultures of Sundanese and Javanese with the domination by the Javanese culture, because the area is bounded by the Central Java area mixing culturals that occur between the Javanese culture and Sundanese culture.

    Also, people in the study area is very dynamic, hardworking and friendly, and it can be seen at the time of the survey. The community welcomed with open every new person who comes into their area, especially when there are guests from the big city.

    Community Attitudes and perceptions of JIMI activity plan

    Based on the results of questionnaires and interviews with people in the study area, generally they are not aware of any planned activity. Only some people who knew about JIMI activity plan.

    The aspirations and expectations of respondents are as follows:

    Planned JIMI Benefits

    Based on the interview and distributed questionnaires to the respondents (n = 270) about JIMI activitiy plan in February 2010, approximately 66.30% of the respondents did not know the benefits and advantages of JIMI. While 74.81% of respondents gave their opinions that they agree with JIMI activity plan.

    The reason they agree is that JIMI activities can increase agricultural productivity and overcome problems that arise around the location of irrigation. And they hope to participate and to be employed in JIMI activity.

    Respondent opinions on JIMI Activity Plan

    Respondent expressly agrees to JIMI activity plan (74.81%); the community hopes to participate in project work (37.04%), and hope to give priority to local residents who can work on this project (29.63%); the project should be completed quickly and environmentally friendly (27.78%) and the rest of respondents expect to be trained as employees of the project (2.59%) and others (2.96%).

    Some community leaders and local officials expect the holding of socialization expecting any JIMI or media forum of communication between and the peoples of the community so that every complain or information to be conveyed to the implementators in order to be resolved. In addition, the majority of residents expect to be given priority to local residents in the recruitment of labor.

    Community Participation in Project Planning and Design

    Government policy calls for participatory irrigation management, whereby beneficiary participation is channeled and strengthened through organization of water user associations (WUAs, generally covering about 60-100 ha and 200-300 farmers), and the WUAs then are amalgamated into WUA federations (WUAFs). These organizations participate in all stages of management: planning, design, construction supervision, and operation and maintenance of completed works and sub-works.

    Based on the surveys carried out in early 2010 and participatory irrigation approach, community aspirations and concerns are channeled through WUAs located in the 3 subsystems during project planning and design. During walk

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    throughs of sub systems planning, communities located near the irrigation canals were consulted for their inputs including decision of subsystem technical designs. Formal consultations was carried out in December 16 and 17, 2010 to share results of project design for each sub systems (Pawelutan, Barugbug, and Salamdharma SSs) and Environment Management Plan (EMP). Results of such consultations was recorded and updated in this EMP.

    7. Potential Environmental Impacts

    For the study and evaluation of potential environmental impact by the improvement of Jatiluhur Irrigation System, the Consultant assessed environmental and social impacts by dividing project implementation into 3 (three) stages, there are:

    1. Pre- Construction Stage

    2. Construction Stage, and

    3. After Construction Stage (O&M).

    7.1. Pre-construction Stage

    During pre-construction period, the activities which will give impact on environment are:

    a. Survey, Investigation and Design (SID).

    It is very important to communicate the development plan with the peoples in the project area. Implementation of the project, starting from SID should be following the bottom-up process. Information and input from the farmers is very important especially in the rehabilitation project. Socialization of the project to the farmers will give a good feedback for successful development. From the survey with 270 respondents in the project area, majority (74.81%) of the respondents fully understand that improvement of Jatiluhur project will improve the quality of life of the farmers and they will give a support to the project. Using the participatory irrigation approach, communities within the proposed 3 sub systems were consulted to accommodate inputs during planning and design.

    b. Land Acquisition.

    Availability of land (space) for development of a project is a very important in the project activities. Since the scope of work for JIMI is rehabilitation or normalization of irrigation system, and the first priority is to re-function all the irrigation facility to meet the current requirement, there is no special land acquisitions required for irrigation purposes. The majority of work is removal of the sediment material deposited in canals from long time ago, and excavation to fit the original design dimension. Excavated material will be re-used to improve the canal embankment and inspection road as much as possible.

    The excessive excavated sediment material will be placed at the outside of canals. These areas belong to Perum Jasa Tirta II and no need of land acquisition.

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    7.2. Construction Stage.

    During construction stage, the activities which will have an impact on environment are as follows:

    7.2.1. Recruitment and Mobilization of Labor.

    a. Population Density.

    During the construction stage, there will be required labor or worker. The number of labor or worker are estimated at 665 peoples consisting of 364 un-skill labors and 301 peoples of skill labor. Un-skilled labor can be supplied from people which stay in the project area, meanwhile the skill labor will be supplied from outside and will be mobilized to project area. Mobilization of the skill labor predicts that there will be additional population in the project area and increase of population density. Compared to the numbers of population in the project area, considering the big sizes of area, the impact of population increase on the society is relatively very small. The skill labor of 301 peoples will stay in the base camp provided by the project located near to the working sites, so they will not give important impact to the residence area of local peoples.

    The labor required can be seen in Table 3 attached.

    b. Income Level.

    With the additional labor in the project area, it will increase additional income. By assuming the wage of un-skilled labor of Rp. 40,000/day, the increase of money circulation for one month with 364 labor will amount to be Rp. 364,000,000 ( Rp. 40,000.- x 25 day x 364 peoples). For 301 skilled labor, by assuming the wage of Rp. 2,000,000.-per month, the increase of money will amount to Rp. 602,000,000.- (Rp. 2,000,000.- x 301 people). The money will be used for daily life of labor and will give a positive impact.

    c. Job Opportunities.

    During construction, implementation of irrigation system in the study area, the impact will appear to the people such as tenant farmer and farm workers who have a direct influence due to decrease of farming works . The impact is the lost of source of income.

    To minimize or reduce the negative impact of the lost farming work opportunity can be done the followings.

    - Main construction activities to be scheduled during uncultivated period - Carry out construction of irrigation facilities without totally stoping delivery of

    water to the field. The required water at the field can be supplied even with intermitten ways.

    - Suggestion to the farmer to plant the crop with low requirement of water like palawija.

    With the project, there is a chance for the people in the project area to get the job out of agriculture work. Job opportunity in construction activities will increase and have a positive impact on the community, direct or in-direct way. With the availability of job, it will reduce the un-working people in the project area.

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    d. Business Opportunities.

    Labor mobilization activities will encourage for the creation of business opportunity in the project area. With arrival of 301 people outsite labor, it will bring opportunity for people in the project area to create some business to fulfill the requirement of the influxed labors, i.e.: transportation sector, lodging sector, food sector and etc. Women groups can utilize business oportunity in the food sector.

    e. Attitudes and perceptions of Community.

    Recruitment of labor for the project implementation will give some impacts on social environment. If majority of the labor working in the project area are supplied by local people, the impact will be small, otherwise it will give a relative high impact. Emphasis should be on socialization and information to the peoples in the project area about the quality and criteria of the labor for the project requirement.

    Even though the people in the project area agree and support the project implementation for the Jatiluhur Irrigation Project, continuous socialization and information should be carried out through out the construction stage.

    7.2.2. Equipment Mobilization.

    There will be increase in mobilization of equipment due to execution of the project. Equipment required for project implementation as shown in Table 2. The type of equipments to be used are bulldozer, excavator, vibrator roller, watertank truck, dump truck, concrete mixer and concrete vibrator, and etc.

    a. Air and Noise Quality.

    As known from the results of ambient air quality measurements in the project area and its surroundings regarding the parameters of SO2, NO2, CO, H2S, TSP and pb, in general the concentration is still below the quality standard according to Government Regulation Number 41 Year 1999 on Ambient Air Pollution Control. There are 8 (eight) locations for this survey in the study area. In a total of 5 samplings cannot be identified H2S parameters, except for location no. 1 at Walahar Village 2.19 μg/Nm3 per 1 hour, and 4 locations in SS Rawa Baru respectively 0 , 58 μg/Nm3 per 1 Hour. Based on the Decree of the Minister of Environment No. Kep 50/MENLH/11/1996, about Standard Level odor, H2S parameters of the three locations do not exceed the required quality standard (28 μg/Nm3 per 1 hour). The parameter of pb, cannot be detected at 5 (five) locations, and at the others 3 (three) locations was detected very low and still below the standard level (detected 0.1 µg/Nm³ per 24 hours in SS. Rawa Sentul, 0.15 µg/Nm³ in SS. Rawa Baru and 0.13 µg/Nm³ in SS. Kamurang, while the Standard Level according to Indonesian Government Regulation No. 41 year 1999 regarding the Controlling Air Pollution is 2 µg/Nm³ per 24 hours).

    Meanwhile, the noise level in the project area and the surrounding was measured at 8 points of measurement location. From 8 point measurement location, the measured noise levels range from 48 dBA to 80 dBA, where the Standard Level maximum is 70 dBA. The measured noise exceed the Standard Level located at SS. Rawa Sentul with value 62 – 80 dBA, at SS. Rawa Baru the value 56 – 71 dBA and at SS. Kamurang the value is 49 – 76 dBA. However these areas locate outside of the proposed sub-systems area.

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    Result of noise level at the Kampung Lampeni near the project area is 62.5 dBA, which is below the standard level. The prediction noise level of equipments operated at the project site can be seen in table 4 below.

    Table 4 : Noise Level Prediction on the Distance of Source.

    No

    Equipment Type Noise (dBA)

    Noise Prediction (meter)

    20 50 80 100 120 150 200

    1 Bulldozer 82 70 62 58 56 54 52 50

    2 Excavator 92 80 72 68 66 64 62 60

    3 Compactor 72 60 52 48 46 44 42 40

    4 Dump truck 90 78 70 66 64 62 60 58

    5 Concrete mixer 80 68 60 56 54 52 50 48

    6 Vibrator 75 63 55 51 49 47 45 43

    Noise Level Standard for Resettlement based on Decree of Environmental No. Kep-

    50/MENLH/XI/1996 is 55 dBA

    b. Traffic.

    During the construction there will likely be 23 dump truck operating for sediment movement from work sites to disposal area which is proposed to be located outside of the canal along the canal. Based on observation in the field, the traffic density along the canal inspection road is low, and increasing dump truck mobilization will give a small impact.

    c. Attitudes and perceptions of Community.

    Mobilization of heavy equipment such as dump truck at the site will increase the risk of accident and give a negative impact.

    Even though, the people in the project area agree and support the project implementation of Jatiluhur Irrigation Project, special attention should be taken during operation of heavy equipment.

    7.2.3. Excavation of Sediment.

    Dredging spoils transportation without proper care (not dewatered) can cause excessive spilling on roads. Odor from dredged anaerobic sediment is to be expected. Although the smell subsides within a few days of exposure to air, residents in the immediate vicinity of the dredging should be informed and assured that the foul smell is temporary.

    Disruptions to community daily activities to be expected. Contractor should be required to prepare spoil disposal and nuisance minimization plans and inform affected communities including duration of works. Contractor should also plan the works without need for cutting-off the downstream flow.

    Alternative source of water supply will be provided to communities along the canal that tap water from the stream or use it for washing /bathing purposes.

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    Sediment Contents

    Concentration in the sediment of a range of organic and heavy metal contaminants must be measured before dredging is started. The selection of the sediment contaminants to be checked should be based on an assessment of the surrounding land use and potential sources of contamination.

    There are no samples truly representing the three sub-systems, available sediment testing results were taken from ETC and NTC main canals.

    However, from long experiences it is known that the sediments from the canals of sub-systems are not easy exploded, not easy burn, un-reactive, and do not cause infection and un-corrosive material.

    Excavated material can be directly placed at the disposal areas along the canal and will not give a negative impact.

    7.2.4. Disposal Area.

    As explained in Point 6.1 above, all the excavated sediment will be placed at the outside of canals along the canals, where the space available from 20 – 50 m wide, belongs to Perum Jasa Tirta II. Calculated from excavation quantity and the length of canal, the amount of excavated sediment is estimated at only 0,67 m³/m ((241,428-198,987)/63,105=0.67) along the canal. It is very small amount compared to the space available at the field.

    Disposal areas for the sediments removed from the canal will be properly sited so that these are not susceptible to washout or slumping. Possible beneficial uses of the material should be maximized, including use for topping of service road embankments. The area allocated for sediment disposal will be surrounded by protective embankment/bunds to prevent silt runoff into the surrounding areas. A security fence will be installed to prevent contact between farmers /residents and fresh sediments

    a. Landscape

    Disposal of excavated sediment is predicted to have an impact on the landscape along the canal alignments. Landscape will be changed after disposed of soils. To reduce the impact, the material should be placed with good treatment and shape, even the change of landscape is relatively neglectable.

    b. Terrestrial Flora

    Along the disposal area proposed at the outside of canals, there are no trees at the site. Placing the excavated material can be done directly without any special preparation, and will have no impact.

    Excavate

    Inspection Road

    Canal Free area

    20 – 50 m

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    c. Terrestrial Fauna

    There are not found protected fauna at disposal area along the canal. Placing the excavated material can be done directly without special preparation, and will have no impact.

    d. Diversity on Aquatic Biota

    Excavation sediment activity predicts decrease in the diversity of aquatic biota inside the canals as a result of taking large amounts of sediment. Population of aquatic biota may be disturbed especially the benthos. Sediment excavation activity will change the sediment substances, which may affect the overall aquatic biota community structure, species of benthos, nekton, and plankton.

    However, the impact can be neglected because the working area is inside of the canal where the aquatic biota is not so various.

    e. Attitudes and perceptions of community

    Based on the results of interviews with people in the study area (n = 270) regarding the implementation of improved management of irrigation systems, as much as 77.81% stated that they agree and strongly agree, while 1.48% stated not agree and the remaining stated they do not know. As much as 66.30% stated that they know the benefits of this project.

    f. Environmental Sanitation

    Since disposing activity along the canal is relatively far from the residential area (more than 100 m), it is predicted that there will not be the important impact from environmental sanitation point of view.

    7.2.5. Chance Find Procedures

    If any person discovers a physical cultural resource during construction, such as (not limited to) archeological sites, hystorical sites, remains and objects, or a cemetery and/or individual graves during excavation or construction, the contractor shall follow the Chance Find procedures as follows:

    1. Stop the construction activities in the area of the chance find;

    2. Delineate the discovered site or area;

    3. Secure the site to prevent any damage or loss of removable objects. In case of removable antiquities or sensitive remains, a night quard shall be arranged until the responsible local authorities take over;

    4. Notify the Supervising Engineer who in turn will notify BBWSC and the responsible local authorities immediately (within 24 hours or less);

    5. Responsible local authorities are in charge of protecting and preserving the site before deciding on subsequent appropriate procedures. This would require a preliminary evaluation of the findings to be performed by archeologists. The significance and importance of the findings should be assessed according to the various criteria relevant to cultural heritage; those include the aesthetic, historic, scientific or research, social and economic values;

    6. Decisions on how to handle the finding shall be taken by the responsible authorities. This could include changes in the layout (such as when finding an irremovable remain of cultural or archeological importance) conservation, preservation, restoration and salvage;

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    7. Implementation for the authority decision concerning the management of the finding shall be communicated in writing by relevant local authorities; and

    8. Construction works could resume only after permission is granted from the responsible local authorities concerning safeguard of the physical cultural resource.

    7.3. After Construction Stage (O&M Stage).

    a. Irrigation Operation

    - Income Level

    Operations of irrigation system predict to generate a positive impact on community income levels around the location of the canals. The effects of improvement of irrigation canals will increase the water discharge in the canal; the farmer can cultivate their land according to proposed cropping pattern of two times rice cultivation a year. Another positive impact comes from improving infrastructure such as roads around the irrigation canals, so that the mobility of the population in and around the project area can utilize inspection road to travel to the work place or for other activities. Impacts cause to accelerate more active flow of agricultural commodities in the project area.

    - Attitudes and perceptions of community

    Operation of irrigation system has a positive impact on attitudes and perceptions of the community because of the availability of water for irrigation which in turn would spur economic development of the territory and increase of population. Improvement of the existing road infrastructure will also enhance the accommodative attitude of society towards the rehabilitation of irrigation canals.

    b. Irrigation Maintenance

    - Job Opportunities

    Irrigation maintenance will need labor. The existence of such maintenance can cause a positive impact on employment of people around the irrigation area.

    - Attitudes and perceptions of community

    Irrigation maintenance activities would require worker. Impact of these employment opportunities is development of positive attitudes and perceptions of residents who are involved, and social interaction in the form of cooperation.

    8. Environmental Management Plan

    Potential Environmental Management Plan (EMP) for the rehabilitation of the Jatiluhur irrigation system can be seen in table 6.

    9. Environmental Monitoring Plan

    Potential Environmental Monitoring Plan for the rehabilitation of the Jatiluhur irrigation system can be seen in table 7.

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    10. Reporting and Capacity Building

    To ensure that the environmental and social management and monitoring is effectively undertaken it will need resources which understand the requirements and are skilled in meeting techniques and procedure for the project. This will include:

    Environment management implementer.

    Environment Monitoring Implementer.

    Report Writing Technique for environment management and monitoring

    Understanding organizational management.

    REPORTING

    PERUM JASA TIRTA

    JIMI PROJECT

    Impacts - on environmental: - Impacts on air and noise quality - Impacts on water qulity and aquatic biota - Impacts on slope stability - Impacts on flora dan fauna - Impacts on social-economic and cultural - Impacts on public health

    IMPLEMENTATION of EMP

    CONTRACTOR IMPLEMENTER

    PROJECT IMPLEMENTER

    MONITORING AND RECOMENDATION

    Environmental Management Board (BPLH) of Districts

    BPLHD West Java Province

    BALAI BESAR WILAYAH SUNGAI CITARUM

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    INS

    TA

    NC

    E O

    F R

    EP

    OR

    T

    RE

    CE

    IVE

    R

    IN

    ST

    AN

    CE

    OF

    CO

    NT

    OL

    LE

    R

    INS

    TA

    NC

    E O

    F

    IMP

    LE

    ME

    NT

    ER

    Note :

    Flow Report

    Flow control

    Notes : Implementer contractor managed in construction stage activity of Jatiluhur irrigation canal rehabilitation while

    operational stage management by Perum Jasa Tirta (PJT).

    To provide these resources, capacity building through training is needed. Materials for this capacity building are:

    Understanding environmental management policies

    Understanding activity criteria as an impact source

    Understanding management techniques from impact sources

    Understanding key indicators with simple nature as standard of monitoring

    Understanding the monitoring methods, and determination of monitoring period and measurement in relation to decreases in environmental quality

    Data analyze techniques and interpretation

    Management Coordination or institutional cohesiveness between stakeholders

    Writing technique and report management of UKL/UPL

    The estimated cost for this training and capacity building is as follows:

    1. Provincial Level: Rp 120,000,000 (one time) 2. District and subdistrict level: Rp. 300,000,000.- (2 districts x 2 times x Rp

    75,000,000)

    BPLHD West Java Province

    1. BPLH Karawang District 1. BPLH Subang District

    2. Balai Besar Wilayah Sungai Citarum 3. Perum Jasa Tirta 4. KRC Asosiasi

    Implementer Contractor

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    11. Integration of EMP into the project

    Compilation of UKL-UPL/EMP is one of the permit requirements to be undertaken for an activity as the basis of environmental feasibility. Environmental feasibility means that the work plan and planned activity will consider their impacts to the environment. Negative impact will be minimized or eliminated while positive impact will be optimized.

    The purpose of environmental management and monitoring is technically not just assuring the environmental components but also protecting project interest because it could minimize negative impact to the environment from the project whether biophysical or social. As an example, unmanaged project management could have an impact on dam preservation, as well as the community around the activity location if the aspects and impacts associated with the project are not identified and mitigated against.

    This EMP will be treated as one of the mandatory requirements for bidding and contractor documents.

    From the legal policy aspect, the implementation of UKL-UPL/EMP shows conformance with the environmental management policy stipulated by the laws and also project protection if any environmental issues occur in the future.

    From the integration aspect, Environmental management policy has an extremely interactional correlation on project management.

    12. Public Consultation Meeting (PCM)

    Public Consultation Meeting (PCM) was carried out December 16, 2010 in Jatimulya village office for SS Salam Darma Kiri Cs and SS Pawelutan Cs, and December 17, 2010 in Seksi Sukamandi Office of PJT II for SS Barugbug Cs. (Details: attachment 1,2 & 3)

    Material presented and discussed in PCM are as follows:

    a. Rehabilitation Design for three sub systems,m

    b. Operation and Maintenance for ETC and NTC of Jatiluhur, and

    c. Environmental Management Plan (EMP).

    Result of PCM are as floows:

    1. Rehabilitation Design by JIMI Consultant already confirmed with farmer proposal and input during walk-through and could be well accepted.

    2. Farmer through WUA/WUAF will participate in operation and maintenance of the irrigation system according to regulation available.

    3. Prior to main construction works implementation, construction activities should be started with a pra-construction Public Consultation Meeting in order to reach the real target of development according to plan.

    4. WUA/WUAFs are proposed to be involved in supervision for the construction work for good quality of work according to technical specipication.

    5. From the environment point of view, the farmers agree to and understand about:

  • 26

    a. Using heavy equipment during construction.

    b. Disposal the material excavated along the outer side of canal.

    c. Farmer full understands that during construction of irrigation system, the impact will appear to the peoples/farmers due to decrease of farming works, distributing of water to the field will be disturbed.

    d. Farmer wants to minimize or reduce the negative impacts with; i) Main construction activities to be scheduled during uncultivated period (during maintenance period); ii) Delivering the irrigation water to the field with intermittent ways; iii) Using cofferdam to protect the special work.

  • 27

  • 28

    Table 1 : Scope and Quantity of Works

    Description Area ( Ha )

    Canal Normalization Canal Lining

    (stone masonry) Total

    Structures Rehabilition

    of Gates Length

    (m) Excavation

    (m³) Embankment

    (m³) Length

    (m) Volume

    (m³)

    SS. Pawelutan Cs 3,592 30,876 183,578 136,718 8,803 9,988 81 37

    SS. Barugbug Cs 2,901 15,791 18,484 32,487 6,087 12,176 27 46

    SS. Salam Darma Kiri Cs

    2,922 16,437 39,366 29,782 9,418 21,733 22 18

    Total 9,415 63,105 241,428 198,987 24,308 43,897 130 101

  • 29

    Table 2 : LIST OF EQUIPMENT

    NO Discription of Work Volume Estimate

    time (month)

    Quantity equipment to be used ( set )

    Remark

    Bu

    ldo

    zer

    typ

    e

    100 -

    15

    0 H

    P

    Excavato

    r 80 -

    14

    0 H

    P

    Vib

    rato

    r R

    oller

    5 -

    8 t

    on

    Wa

    ter

    tan

    k

    50

    00

    lt

    Du

    mp

    tru

    ck

    Co

    nc

    rete

    Mix

    er

    Co

    nc

    ert

    e

    Vib

    rato

    r

    1 SS. Pawelutan Cs

    a.Stripping 27,139 1 1

    b.Common Soil 183,578 12

    3

    5

    c.Earthfill 136,718 15

    2 2 2 3

    d.Concrete 67.55 1

    2 2

    e.Stone Masonry 9,988 15

    5

    f.Inpection Road 28,549 12

    1 1 2

    Sub Total 1 5 3 3 11 7 2

    2 SS. Barugbug Cs

    a.Stripping 7,679 1 1

    b.Common Soil 18,484 4

    1

    2

    c.Earthfill 32,487 7

    1 1 1 3

    d.Concrete 47 1

    1

    e.Stone Masonry 12,176 15

    5

    f.Inpection Road 20,639 8

    1 1 1

    Sub Total 1 2 2 2 6 6 0

  • 30

    3 Package 5 : SS. Salam Darma Kiri Cs

    a.Stripping 7,679 1 1

    b.Common Soil 39,366 9

    1

    2

    c.Earthfill 29,782 6

    1 1 1 2

    d.Concrete 7.993875 1

    1 2

    e.Stone Masonry 21,733 15

    9

    f.Inpection Road 6,343 3

    1 1 2

    Sub Total 1 2 2 2 6 10 2

    TOTAL 3 8 7 7 23 23 4

  • 31

    Table 3 : LIST OF LABOR

    NO Discription of Work Volume ( cu.m )

    Man Power/ day

    TOTAL Remark

    Skill Labor

    Un-Skilled labor

    Op

    era

    tor

    As

    s.

    Op

    era

    tor

    Fo

    rem

    an

    Sk

    ill L

    ab

    ou

    r

    Su

    b T

    ota

    l

    1 SS. Pawelutan Cs

    a.Stripping 27,139 1 1 - 2 4 3

    b.Common Soil excavation 183,578 9 9 12 19 49 58

    c.Earthfill 136,718 9 3 17 29 58 86

    d.Concrete 67.55 1 1 1 2 5 2

    e.Stone Masonry 9,988 1 1 2 3 7 9

    f.Inpection Road 28,549 4 4 1 1 10 3

    Sub-Total

    25 19 33 56 133 161 294

    2 SS. Barugbug Cs

    a.Stripping 7,679 1 1 - 1 3 1

    b.Common Soil excavation 18,484 3 3 7 12 25 35

    c.Earthfill 32,487 6 3 9 15 33 44

    d.Concrete 47 1 1 1 1 4 1

    e.Stone Masonry 12,176 1 1 2 4 8 12

    f.Inpection Road 20,639 3 3 1 1 8 4

    Sub-Total

    15 12 20 34 81 97 178

  • 32

    3 SS. Salam Darma Kiri Cs

    a.Stripping 7,679 1 1 - 1 3 1

    b.Common Soil excavation 39,366 3 3 7 11 24 33

    c.Earthfill 29,782 5 3 9 16 33 47

    d.Concrete 7.993875 1 1 1 1 4 1

    e.Stone Masonry 21,733 1 1 4 7 13 21

    f.Inpection Road 6,343 4 4 1 1 10 3

    Sub-Total

    15 13 22 37 87 106 193

    TOTAL

    55 44 75 127 301 364 665

  • 33

    Table 6. Matrix of Environmental Management Plan, Implementation Schedule and Cost Estimation

    No Impact

    Source

    Important

    Impact Type Impact Measuring

    Purpose of

    Environmental Management Plan

    Environmental

    Management Plan Guidelines

    Location of

    Environmental Management

    Environmental

    Management Period

    Cost of

    environmental management

    Environmental Management Institution

    Implementer Controller Reporting

    I. CONSTRUCTION STAGE

    1. Recruitment

    and Mobilisation

    of Labor

    Income level

    Job and Business opportunities

    Attitudes and Perceptions of

    community

    Income rate of

    residents in study area before activity and

    minimum wage of Karawang, Subang, and

    Purwakarta districts Number of unemployed in study areas

    Attitudes and perceptions of

    community before activity

    To maximize the

    using level of local labor to work on

    projects, so it can reduce the number

    of unemployed.

    Socialization in Labor

    reception involve participative Society

    figure, Village and sub district government.

    In labor recruitment cooperate with related agencies which employ

    the appropriate local labor with expertise and

    competent as many as possible. Provide opportunities for

    the people trying to live around the project

    SS Barugbug,

    SS Pawelutan, SS Salam Darma

    Kiri

    Period of

    procurement and

    mobilization of labor

    Announcement

    on village and 2 districts = Rp.

    2,000,000,- (2 times x

    2 village x Rp. 500.000,-)

    Assigned

    Contractor by BBWS Citarum

    Balai Besar

    Wilayah Sungai Citarum (BBWS)

    Perum Jasa Tirta -2

    - Environmental

    Management Board of

    Karawang, Subang

    Districts - Environmental Management

    Regional Board of

    west Java Province

    2. Equipment

    Mobilization

    Air and Noise

    Quality Increasement of traffic volume

    and damage of road facilities

    PP RI No 41,1999

    about air pollution control Kep Men LH No. KEP-

    48/MENLH/XI/1996 about noise level

    The road condition before equipment and

    construction materials mobilization

    To reduce the air

    pollution noise To prevents damages to rural

    roads that are used for mobilization

    Using equipment that still

    meets the requirements by Department of Transportation.

    Operate sprinkler car Using a closed truck.

    Set the frequency of traffic.

    Conducting socialization to the nearby community about the route, duration

    and impact of activities. Improving the roads

    condition after mobilizing equipment as soon as possible.

    Coordinating with local governments on the

    route Speed control of vehicles, with max speed 30

    Km/hour.

    Along the road

    used by materials vehicles to

    project site especially in

    around the resident area.

    Period of

    mobilizing equipments and materials

    Traffic

    Controller = Rp. 700.000,- (2 person x 7

    days x Rp. 50.000,-)

    Cost for

    Maintenance of existing rural roads included

    in contract price.

    Assigned

    Contractor by BBWS Citarum

    Balai Besar

    Wilayah Sungai Citarum (BBWS) Perum Jasa

    Tirta=2

    - Environmental

    Management Board of Karawang,

    subang Districts

    - Environmental Management

    Regional Board of west Java

    Province

    3. Sediment Excavation

    /Dredging

    Content of sediment

    Water quality Odor Community

    perception and disturbance

    Decree BAPEDAL No 04/BAPEDAL/09/ 1995

    about Requirements on Procedures, Results Processing, Processing

    and Terms Location of Former Landfill Site

    Waste Used B3.

    To know the content of the

    sediment from the dredging. To reduce the

    possibility of decrease of

    conveyance

    Dredging spoils must be dewatered before moving

    to allow the foul smell to subside and so that these are dry enough to be

    transported to the spoil banks without excessive

    spilling on roads.

    SS Barugbug, SS Pawelutan,

    SS Salam Darma Kiri

    Period of sediment

    excavation

    Sediment Analyses Rp.

    27,000,000,- ( 3 samples x 3 points x Rp.

    3,000,000,- )

    Water Analyses

    Assigned Contractor by

    BBWS Citarum

    Balai Besar Wilayah Sungai

    Citarum (BBWS) Perum Jasa Tirta-2

    - Environmental Management

    Board of Karawang, Subang

    Districts - Environmental

    Management

  • 34

    No Impact Source

    Important Impact Type

    Impact Measuring Purpose of

    Environmental Management Plan

    Environmental Management Plan

    Guidelines

    Location of Environmental Management

    Environmental Management

    Period

    Cost of environmental management

    Environmental Management Institution

    Implementer Controller Reporting

    PP RI No. 82, 2001

    about Management and Water Pollution Control

    capacity of canals.

    Use dredging spoils as

    resource. Coarse sediments could be used

    as base material for improving inspection roads in the irrigation

    service areas. Odor from dredged

    anaerobic sediment is to be expected. Although the smell subsides within

    a few days of exposure to air, residents in the

    immediate vicinity of the dredging should be informed and assured

    that the foul smell is temporary.

    Contractor plan shall include measures to

    minimize nuisance to nearby communities. Contractor will also be

    responsible for notifying communities of

    temporary nuisance to be expected, and for providing adequate signs

    and detours in the work areas.

    Affected communities should be informed of the disruptions to be

    expected and their duration, and contractor

    should be required to prepare spoil disposal and

    nuisance minimization plans. Contractor should also plan the works

    without need for cutting-off the downstream flow.

    Alternative source of water supply should be provided to communities

    along the canal that tap water from the stream or

    use it for washing /bathing purposes

    Rp.22,500,000,-

    (3 samples x 3 points x Rp.

    2,500,000,-) TCLP test

    Rp.31,500,000,- (3 samples x 3

    points x Rp. 3,500,000,-)

    Provide sediment

    screen: Rp. 450,000,000.- (3 SS each Rp.

    150,000,000.-)

    Regional

    Board of west Java

    Province

  • 35

    No Impact Source

    Important Impact Type

    Impact Measuring Purpose of

    Environmental Management Plan

    Environmental Management Plan

    Guidelines

    Location of Environmental Management

    Environmental Management

    Period

    Cost of environmental management

    Environmental Management Institution

    Implementer Controller Reporting

    Concentration in the

    sediment of a range of organic and heavy metal

    contaminants must be measured before dredging is started. The

    selection of the sediment contaminants to be

    checked should be based on an assessment of the surrounding land use and

    potential sources of contamination.

    Performing solidification test, when these sediments contain heavy

    metals and exceed quality standards

    Performing interim storage and final disposal

    in accordance with the Minister of State for Environment Office and

    BPLHD West Java Province

    recommendations Building a pool for effluent water until there

    is no effluent water from sediment.

    Installation of a screen in the site to reduce sedimentation and

    turbidity in the river Implement measures to

    minimize effect of disruption due to

    dredging and road construction works and impact on any

    communities affected by restricting the current

    open access to the canal. Require contractor to prepare spoil and other

    debris disposal plan and to post bond to ensure

    compliance.

  • 36

    No Impact Source

    Important Impact Type

    Impact Measuring Purpose of

    Environmental Management Plan

    Environmental Management Plan

    Guidelines

    Location of Environmental Management

    Environmental Management

    Period

    Cost of environmental management

    Environmental Management Institution

    Implementer Controller Reporting

    Require also to include in

    plan various measures to minimize nuisance to

    nearby communities. The contractor should plan works without need for

    cutting-off the downstream flow.

    4. Disposal Area Flora terrestrial

    Fauna terrestrial Biota aquatic Attitudes and

    perceptions of community about

    environmental sanitation

    Decrease in diversity of

    vegetation and land area before the project. Biota abundance level

    of water before construction

    Frequency of public complaints due to turbid waters

    To prevent the

    decrease of biodiversity in the study area.

    To reduce the decrease in the

    diversity of biota and the aquatic ecosystem stability.

    To increase accommodative

    attitude of society to plan the project

    activities. To prevent the unconvinience that

    could create social conflict.

    Disposal areas for the

    sediments removed from the canal should be properly sited so that

    these are not susceptible to washout or slumping.

    Possible beneficial uses of the material should be maximized, including use

    for topping of service road embankments.

    The area allocated for sediment disposal should

    be surrounded by protective embankment/bunds to

    prevent silt runoff into the surrounding areas.

    To reduce the impact, the excavated material should be placed with

    good treatment and shape, even the change

    of landscape is relatively neglectable.

    Planned disposal

    area

    Period of

    construction

    Social surveys

    Rp. 6,000,000,- ( 2 district x Rp. 3,000,000,-)

    Treatment cost

    of disposal material in outside canals

    included in contract cost

    Assigned

    Contractor by BBWS Citarum

    Balai Besar

    Wilayah Sungai Citarum (BBWS) Perum Jasa

    Tiirta

    - Environmental

    Management Board of Karawang

    District - Environmental

    Management Board of Subang

    District - Environmental

    Management Regional

    Board of west Java Province

    II OPERATIONAL STAGE

    5. Irrigation Operation

    Income level Attitudes and perceptions of

    community

    Level of population income before operating canal

    Attitudes and perceptions of the

    public before the project Accommodative

    attitude of community to the canal operation

    To increase public participative attitude about

    preservation of canal

    Keep the fluency of operational activities

    To increase the economic growth

    Preventing throw of garbage into the irrigation canal

    Maintaining side of canal to reduce contamination

    Cordinating with relevant agencies and communities around the

    canal to maintain the canal

    Obeying the regulations relating to areas

    Along the canal Period of operating irrigation

    system

    Social surveys Rp. 6,000,000,- ( 2 district x Rp.

    3,000,000,-)

    Perum Jasa Tirta-II (PJT-II)

    Balai Besar Wilayah Sungai Citarum (BBWS)

    - Environmental Management Board of

    Karawang, Subang

    Districts - Environmental Management

    Regional Board of

    west Java Province

  • 37

    Table 7. Matrix of Environmental Monitoring Plan, Implementation Schedule, and Cost Estimation

    No Environmental

    components Impact Source

    Environmental

    Parameter

    Purpose of

    Environmental Monitoring

    Collecting Method and

    Data Analysis

    Location of

    environmental Monitoring

    Time and

    Monitoring Frequency

    Cost of

    Environmental Monitoring

    Environmental Monitoring Institution

    Implementer Controller Reporting

    1 2 3 4 5 6 7 8 9 10 11

    I. - CONSTRUCTIONS STAGE

    1. Income Level Procurement and

    Labor mobilization

    - Income level of

    residents in study area.

    - Type of livelihood in study area.

    - To detect income

    level and economic growth in study area

    - Interview and secondary

    data. - Economic analysis

    comparing incomes before and after construction.

    SS Barugbug,

    SS Pawelutan, SS Salam Darma

    Kiri

    1 (one) time

    before and after

    mobilization and procurement

    of labor.

    Social surveys

    Rp. 6,000,000,-

    ( 2 district x Rp. 3,000,000,-)

    Assigned

    Contractor by BBWS

    Citarum

    - BBWS

    Citarum - Perum

    Jasa Tirta (PJT )

    - Sub

    district and village

    institution in study area.

    - Environmental

    Management Board of

    Karawang, Subang Districts

    - Environmental Management

    Regional Board of west Java Province

    2. Job and Business opportunities

    Procurement and labor mobilization

    - Total new business that resident make

    - Total local labor recruitment

    - To know total labor recruitment,

    - To make new business,

    - To manage effectively

    - Interview and secondary data collection.

    - Descriptive data analysis and trend analysis.

    SS Barugbug, SS Pawelutan,

    SS Salam Darma Kiri

    1 (one) time before and

    after mobilization

    and procurement of labor.

    Social surveys together with

    point 1 above,-

    Assigned Contractor

    by BBWS Citarum

    - BBWS Citarum

    - Perum Jasa Tirta

    (PJT ) - Sub

    district

    and village institution

    in study area.

    - Environmental Management

    Board of Karawang,

    Subang Districts

    - Environmental

    Management Regional Board

    of west Java Province

    3. Attitudes and

    perceptions of community

    - Procurement and

    labour mobilization

    - Sediment

    dredging and disposal areas

    - Total local labor

    recruitment by project

    - Turbidity level of

    location in downstream caused

    by sediment dredging

    - Communities

    affected by rehabilitation works,

    including impact on households affected by limiting the open

    access to the canal (e.g., provision of

    alternate water source, toilet facilities)

    - Nuisance caused by rehabilitation works

    including noise,

    - To know income level

    of local resident working in project and turbidity level

    caused by dredging - To manage effectively

    - Collecting primary and

    secondary data. Primary data to be collected by interview with

    respondents. While secondary data to be

    collected from institutions such as village and sub district government.

    - Sampling water and analysis in laboratory,

    comparing the results with PP RI No. 82/2001

    SS Barugbug,

    SS Pawelutan, SS Salam Darma Kiri

    1 (one) time

    before and after activities.

    Social surveys

    together with point 1 above,-

    Assigned

    Contractor by BBWS Citarum

    - BBWS

    Citarum - Perum

    Jasa Tirta

    (PJT ) - Sub

    district and village institution

    in study area.

    - Environmental

    Management Board of Karawang,

    Subang Districts

    - Environmental Management Regional Board

    of west Java Province

  • 38

    No Environmental components

    Impact Source Environmental

    Parameter

    Purpose of Environmental

    Monitoring

    Collecting Method and Data Analysis

    Location of environmental

    Monitoring

    Time and Monitoring Frequency

    Cost of Environmental

    Monitoring

    Environmental Monitoring Institution

    Implementer Controller Reporting

    1 2 3 4 5 6 7 8 9 10 11 dust, traffic

    congestion on service roads

    4. Air quality, noise and traffic

    Heavy equipment mobilization and

    construction materials

    - Environmental monitoring

    parameter; NO2, CO, H2S, SO2, Pb

    and TSP - Damaged level of road caused by

    project especially transport route of

    construction materials and traffic volume.

    - To know increased gas pollutant and

    particular - To know damaged

    level of roads caused by mobilization of heavy equipment and

    construction material - To manage effectively

    - Collecting data by direct sampling air in field with

    chemistry reaction (absorbent) for analysis

    in laboratory, comparing the results with standard of PP RI No. 41/1999

    - Monitoring road condition by observation and

    interview with residents during mobilizing route of heavy equipment and

    construction material

    SS Barugbug, SS Pawelutan,

    SS Salam Darma Kiri

    Environmental monitoring to

    be conducted in construction

    stage every 6 (six) months

    Air and Noise Quality Rp.

    22,500,000,- (3 points x 3

    samples x Rp. 2,500,000,-)

    Assigned Contractor

    by BBWS Citarum

    - BBWS Citarum

    - Perum Jasa Tirta

    (PJT ) - Sub

    district

    and village institution

    in study area.

    - Environmental Management

    Board of Karawang,

    Subang Districts

    - Environmental

    Management Regional Board

    of west Java Province

    5. Sediment Contents Sediment dredging and disposal area

    - Handling and disposal of sediment

    and vegetation debris removed

    from the canal, including safeguard provisions in bidding

    documents, contractor plans and

    compliance reports (SEE ESSF WISMP2)

    - Presence of toxic contaminants in the

    dredged sediment

    - Provision of

    adequate silt traps to prevent sediment

    dispersion downstream

    -

    - To know heavy metal content in sediment

    - To manage effectively

    Sampling sediment ± ½ kg and analysis in

    laboratory, comparing the re