Local Initiatives in Water Quality Management Programs in ... · Management Programs in the...
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Local Initiatives in Water Quality Management Programs in the Philippines: Policy Issues and Challenges
Carlos M. Pascual*, Catherine P. Abadilla, and Fairie Anne P. AcedeboMariano Marcos State UniversityEmail: [email protected]
Third WEPA International Forum on Water Environmental Governance 23- 24 October 2008, Malaysia
Outline• Rationale
– Legal framework on water governance
• WQMP– Policy and Governing Laws
• Local Initiatives– Challenges
– Best Practices
• Implications
• Conclusions and Recommendations
Legal framework for water governance in the Phils.
1. 1987 Constitution which mandates that all water resources belong to the State;
2. Presidential Decree (PD) 1067 in 1976 or The Water Code of the Philippines;
3. Republic Act (RA) 8041 in 1995 or The Water Crisis Act;
4. Executive Order No. 364 in 1996, which created the Presidential Task Force on Water Resources Development and Management; and
5. Clean Water Act in 2004
RationaleR.A. 9275 ‐ Clean Water Act (CWA) in 2004;
• its innovations in water quality management, the Act and its IRR – require integrated approach, stronger collaboration among stakeholders, and promotion of co‐ownership of the water bodies.
Rationale
• ADB warned that water availability in the Philippines could be "unsatisfactory" in eight of its 19 major river basins and in most major cities before 2025 (ADB, 2007);
• Local governance initiated on water quality management program (WQMP) and intervention reforms;
Some Local Community Policies and regulations on water quality management Program
Source: EMB Region 3 (2006)
WQMP
• WQMP emanates from national policies and regulations;
• Specific enforcement requirements are mandated through enactment of ordinances from provincial, municipal, or city governments;
• Programs and activities to control water pollution and protect water bodies are spearheaded by various government agencies,
WQMP
• The Philippine National Standards for Drinking Water of 1993 outlines various parameters to be used in the analysis of drinking water quality;
• There are currently 56 bacteriological, physical, chemical, radiological, and biological parameters to be monitored.
WQMP
Water quality monitoring in Water Refilling Stations:
•Source water and product water are subject to regular monitoring by the local health office. •The national standards for drinking water contains 56 parameters that must be complied with.
•Only DOH-accredited laboratories are allowed to conduct water testing andanalysis.
The frequency of monitoring is as follows:Bacteriological quality - at least monthly Physical quality - at least every six (6) months Chemical quality - at least every six (6) months Biological quality - at least once a year Monitoring of radioactive contaminants shall be done only if there is
significant input of radiation from the surrounding environment.
WQMP
Parameters monitored (Physico‐chemical) :
• dissolved oxygen (DO),
• biochemical oxygen demand (BOD),
• total suspended solids (TSS),
• total dissolved solids (TDS), and
• heavy metals
WQMP
Parameters monitored :
• DO, coliform, and heavy metals for coastal and marine waters; and
• biological parameters such as phytoplankton, zooplankton, and benthos were monitored in selected water bodies.
Challenges in WQMP
Strict Enforcement of Water Policies – Enhance enforcement capability and capacity to immediately address deteriorating water bodies
– Promote compliance to all industries discharging to the Region’s water bodies
Challenges in WQMP
Strengthening of Inter‐Agency Collaboration
‐ Collaborate with other agencies like the Department of Health (DOH), Department of Public Works and Highways (DPWH), National Water Resources Board (NWRB), and LGUs in implementing WQMP
Challenges in WQMP
Enhancement of Resources and Capabilities of Personnel – Augment water quality management personnel (Currently, four full‐time personnel are in‐charge of monitoring more than 78,000 industries and 84 water bodies.)
– Build capacity on water quality management through continuous training
– Increase budget allocation to meet the s water quality management targets
Challenges in WQMP
Management of Domestic Wastes
– Enhance solid waste management program by providing support to the LGUs through capacity building programs
Challenges in WQMP
Sustained Information, Education, and Communication (IEC) Campaign by Education Institutions
– Establish disclosure mechanism on water quality management issues
– Develop and publish IEC materials regularly
Best Practices and Lessons Learned in WQMP
• River Water Quality Management ‐capacitated local farmers in understanding and performing water quality monitoring that was focused on drinking water quality and its impact to public health (World Bank, 2003).
Best Practices and Lessons Learned in WQMP
• Lake Water Quality Management ‐ Laguna Lake is one of Southeast Asia’s largest inland water bodies. Since its establishment in 1966 through RA 4850, the LLDA has been protecting and preserving the quality of the Lake as well as the 21 river systems that flow into it
Best Practices and Lessons Learned in WQMP
• Public‐Private Sectors’ Collaboration to Promote CP –. Inter‐agency collaboration has demonstrated success in transforming the paradigm of industries to focus on an integrated, preventive environmental strategy to processes, products, and services to increase efficiency and reduce risks to humans and the environment.
Food and WQMP Initiatives at MMSU
Mobile Packaging Facility for food and water products for local communities.
Food and Water Quality Management Programs at MMSU
• regular food and water quality monitoring to special studies on analytical method formulation and/or validation and testing of substances to assess impacts on water pollution and food product development to help local entrepreneurs.
Food and Water Quality Management Programs at MMSU
• initiative is being done to conduct current good manufacturing practices (cGMP) on food and water resources for crop production, dormitories, faculty houses and water refilling projects for MMSU and for food processors of vinegar/wine, local sausage and other local food products in the community.
Comparison between local, national and international standards on some physical and chemical property values of some food products taken from food processors and water sources at MMSU, Ilocos Norte, Philippines from 2007‐2008.
PROPERTY
FOOD PRODUCT /VALUE
NATIONAL STANDARD
VALUE1
INTERNATIONAL STANDARD
VALUE
Mold and Yeast Count, cfu/gSalmonella, cfu/gS. aureus, cfu/g
Empanada2
<10zerozero
10zerozero
n/an/an/a
Comparison between local, national and international standards on some physical and chemical property values of some food products taken from food processors and water sources at MMSU, Ilocos Norte, Philippines from 2007‐2008.
PROPERTY
FOOD PRODUCT /VALUE
NATIONAL STANDARD
VALUE1
INTERNATIONAL STANDARD
VALUE
%Vol of Ethyl Alcohol at 200CSugarcane Wine
10.36 7-16 n/a
Comparison between local, national and international standards on some physical and chemical property values of some food products taken from food processors and water sources at MMSU, Ilocos Norte, Philippines from 2007‐2008.
PROPERTY
FOOD PRODUCT /VALUE
NATIONAL STANDARD
VALUE1
INTERNATIONAL STANDARD
VALUESalmonella, cfu/gStaphylococcus, cfu/gColiform Count, MPN/g
Local Sausageabsent
0<1.8
absent0
<1.8
n/an/an/a
Salmonella, cfu/gStaphylococcus, cfu/gColiform Count, MPN/g
Crispy Porkabsent
0<1.8
absent0
<1.8
n/an/an/a
Comparison between local, national and international standards on some physical and chemical property values of some food products taken from food processors and water sources at MMSU, Ilocos Norte, Philippines from 2007‐2008.
PROPERTY
FOOD PRODUCT /VALUE
NATIONAL STANDARD
VALUE1
INTERNATIONAL STANDARD
VALUE
Mold and Yeast Count, cfu/gSalmonella, cfu/gS. aureus, cfu/g
Empanada2
<10zerozero
10zerozero
n/an/an/a
%Vol of Ethyl Alcohol at 200CSugarcane Wine
10.36 7-16 n/an/a
Acetic Acid, g/100 mLSugarcane Vinegar
5.704.0 n/a
Salmonella, cfu/gStaphylococcus, cfu/gColiform Count, MPN/g
Local Sausageabsent
0<1.8
absent0
<1.8
n/an/an/a
Salmonella, cfu/gStaphylococcus, cfu/gColiform Count, MPN/g
Crispy Porkabsent
0<1.8
absent0
<1.8
n/an/an/a
Comparison between local, national and international standards on some physical and chemical property values of some food products taken from food processors and water sources at MMSU, Ilocos Norte, Philippines from 2007‐2008.
PROPERTY
FOOD PRODUCT /VALUE
NATIONAL STANDARD
VALUE1
INTERNATIONAL STANDARD
VALUE
Total Coliform Count,mpn/100 mLE. coli Count, mpn/100 mLHeterotrophic Plate Count, cfu/mlpH, mg/LAcidity, mg/l as CaCO3Chloride, mg/LSulfate, mg/LTotal Dissolved Solids, mg/LTotal Hardness, mg/L
Raw Water<1.1 (negative)<1.1 (negative)
<1.0 7.33<1
38.7743.77473.33350.00
<2.2<2.2300
6.5-8.5n/a
250.00250.00500.00300.00
Water3
zerozeron/a
6.5-8.5n/a
250.00250.00500.00
n/a
Implications
• Clean Water Act of 2004 require appropriate planning processes, regulations, capital investments, and resources;
• It is evident that more actions and resources are needed to build on existing water quality management programs;
Conclusions
• Major water quality challenges are felt to improve the quality of its surface, ground, and coastal waters;
• The government pursue aggressive strategic plans to address the seemingly decreasing trend of the quality of water bodies;
• The active involvement and participation of stakeholders is important in implementing WQMP;
Recommendations
• Successful WQMP requires a strong community‐based effort with stakeholder involvement, good partnership building and collaborative decision making on best management practices;
• The challenge is to internalize the message that water is an important resource and that everyone has to play a role in the conservation and management of our water environment;