identifying elements of sustainability
TRANSCRIPT
-
8/19/2019 Identifying Elements of Sustainability
1/16
Lessons Learned from Rural Water Supply Projects in the Philippines
Identifying Elementsof SustainabilityEvidence-Based Recommendations
This Field Note describes a study of the performance and sustainability of eight major rural water supplyprojects undertaken in the Philippines over the last decade. The lessons learned from the study includethe importance of community involvement, local government capacity building, cost recovery, andtargeting the poor.
January 2004
Field Note
-
8/19/2019 Identifying Elements of Sustainability
2/16
1
Eight major rural water supply projects were initiated in the 1990s, usingvarious new financing and implementation approaches for rural water supply.
This new generation of projects tried to secure commitment and sustainabilityby requiring stakeholder contributions.
1Soriano and Test Consultants, Inc. (2003). Readers can access the full report online at www.wpep.org.
Introduction
From 1978 to 1990, 11 major rural watersupply projects were undertaken in thePhilippines, totaling more than US$120million. Toward the end of this period, thegovernment estimated that there wereonly 4,400 functioning rural water supplysystems in the country, which was about5 percent of the 96,200 systems requiredto provide the rural population with
adequate water services. These
planning data revealed that rural watersupply systems were falling into disuseand disrepair almost as quickly as theywere built.
During the 1990s the rural water sectorchanged significantly. Responsibility for thedevelopment of local water supply andsanitation services devolved from thecentral to the local government, and there
was also a substantial decrease in the levelof central government funding available forrural water supply.
Against this backdrop, eight major ruralwater supply projects were initiated inthe 1990s (see Figure 1), using variousnew financing and implementationapproaches for rural water supply. Thisnew generation of projects tried to securecommitment and sustainability by requiringcapital contributions from communitiesand local governments. The projectsalso invested more heavily in “soft”components, such as institutionalstrengthening, capacity building,community-based planning, and healthand hygiene promotion.
The Water Supply and Sanitation
Performance Enhancement Project(WPEP), an action research project in thePhilippines (see Box 1), commissioned afield-based study, “Rural Water: Modelsfor Sustainable Development and SectorFinancing,” which assessed theperformance and sustainability of 15 ruralwater supply systems implemented underthese eight projects. 1 The lessons learnedwere then used to make recommendationsfor the design of ongoing and futureprojects and to suggest changes in the
national framework for the rural watersector. This Field Note provides a summaryof the WPEP study.
Background
Per capita income in the Philippines islower than the regional average in East
Asia and the Pacific. Recently, growth in
Executive Summary
A flood of aid during the international decade for water supply and
sanitation (1980-89) failed to provide universal access to safe water for
all Filipinos. At the end of the decade less than 5 percent of the planned
systems remained in operation, forcing national attention on the issue of
service sustainability. In response, a new generation of rural watersupply projects emerged during the 1990s. These included eight major
donor-funded projects that experimented with new approaches to
financing and implementation. In 2003 a study by the Water Supply and
Sanitation Performance Enhancement Project (WPEP) assessed the
sustainability and performance of these projects. Overall, the findings of
the study suggest that projects with significant investments in capacity
and institution building produced the most sustainable rural water supply
systems. It also showed unequivocally that the involvement of the local
government and communities aids the preparation, planning,
implementation, and management of such systems, and that sustainability
is improved when these processes are monitored by external agencies.
The study suggests that the success of projects will require strengthening
local capacity and building institutions to operate and maintain systems,
developing mechanisms for cost recovery, explicitly targeting the needs
of the poor, and providing more incentives for local investment.
-
8/19/2019 Identifying Elements of Sustainability
3/16
2
Identifying Elements of Sustainability
the agricultural sector has also beenminimal. Despite the relatively small ruralpopulation, more than 60 percent of thepoor live in rural areas. 2 In addition,population density and population growthare about double the average for theregion, making both natural resourcemanagement and environmental issues
increasingly critical.
Basic policies for the water supply sectorin the Philippines were first established in1978. Universal water supply coverage wasdeclared a policy of the state, to bebrought about through:
• Rationalization of the organizationalstructure of the water supply sector
• Formation of water districts, associations,cooperatives, or corporations for theconstruction, operation, and maintenanceof water supply systems (in preference tosystems directly operated and managedby local governments)
• Encouragement of self-help and self-
sustaining water supply projects.
The Department of Public Works andHighways (DPWH) was given responsibilityfor the construction of wells and springdevelopment in rural areas, while theDepartment of Local Government andCommunity Development (DLGCD) wascharged with the formation and support of the water associations and cooperatives
needed to operate and maintain thesewater supply systems.
The Rural Water Supply and SanitationMaster Plan of 1988 suggested that81,900 rural water supply systems neededto be installed by 1991 to complement the4,300 systems in place. 3 Therefore, the
plan directed the DPWH to “undertake theconstruction of water wells, rainwatercollectors, development of springs, andrehabilitation of existing water wells in all
barangays 4 in the Philippines in such numberas may be needed and feasible, taking intoconsideration the population, hydrologicconditions, project development andoperational costs, financial and economicfactors, and institutional arrangements.”
2Philippines, National Statistics Office (1999)3Philippines, National Economic and Development Authority (1988)4Barangay is a village and is the smallest political unit in the Philippines.
Figure 1: The eight major rural water supply projects undertaken in the 1990s
Project
Agrarian Reform Communities Development Project and Community Project (ARCP)
Central Visayas Water and Sanitation Project (CVWSP)
First Water Supply Sewerage and Sanitation Sector Project (FW4SP)
Institution Building for Decentralized Implementation of CommunityWater Supply and Sanitation Project (WATSAN)
Poverty Alleviation Fund II Potable Water Development and Sanitation (PAF2)
Rural Water Supply and Sanitation Sector Project (RW3SP)
Rural Water Supply and Sanitation Project—Phase IV (RWS4)
Second Island Provincial Water Supply and Sanitation Project (SIPRWSSP)
Planned schemes(Number)
Supporting Agency
Project cost(US$)
WB = World Bank; OECF = Overseas Economic Cooperation Fund of Japan; ADB = Asian Development Bank; GoP = Government of the Philippines; AusAID = AustralianAgency for International Development; UNDP = United Nations Development Program Source: Test Consultants, Inc. (2003)
WB
AusAID
WB
UNDP
GoP
ADB
OECF
ADB
3.9M
28M
85M
1.5M
11M
57M
9.0M
27M
54
507
6,500
148
4,100
1,200
3,000
2,300
-
8/19/2019 Identifying Elements of Sustainability
4/16
These projects combined funding from two or three sources—nationalgovernments, local government units, and water users association...but werenot necessarily providing the levels of service that communities required.
There are three levels used to designatewater systems in the Philippines (see Box 2).
As part of the 1988 plan, the DPWHplanned to increase the number of Level Isystems by 96,200, so as to completelyclose the demand gap by 1991. The planspecified that each barangay in the countrywould receive at least one additional potablewater source until about 100,000 rural watersupply facilities were installed. The fundswere to come from the annual appropriationsfor the DPWH and from financial grantsand concessional loans extended to thePhilippines. In order to ensure the properoperation and maintenance of each new
water facility, local water users associationswere formed. These included barangaywaterworks and sanitation associations,community-based organizations, and watercooperatives. The DPWH was to train themin the operation and maintenance of thewater facility prior to handing overmanagement. The associations’ memberswere to pay minimal charges to cover themaintenance and normal repairs of thewater facilities and in some cases a smallpercentage of capital costs.
Eight major rural water supply projectswere implemented between 1990 and
1998, each using the combined funds fromtwo or all of the following three sources—national governments, local governmentunits (LGUs),5 and water users associations(see Figure 2). The first three projectsbegan between 1990 and 1991 andincluded no financing from LGUs. In theseearly projects, the national governmenttypically provided grants equal to 90 to 100percent of the total project cost. Theremainder (a maximum of 10 percent) wasprovided by the community through itswater users association in the form of voluntary labor, donated land, or cashcontributions. Any costs associated withexpanded levels of service, such as watertreatment or more complex distributionsystems with house connections, were tobe borne wholly by the community.
After the devolution of 1991 (see Box 3),LGUs were asked to make a contributiontoward project costs. In two of the largerprojects (PAF2 and RW3SP), LGUs wereasked to match the 10 percent of totalproject costs contributed by the waterusers associations, thus allowing thenational government to reduce its grant to80 percent. However, three other projects(CVWSP, WATSAN, and ARCP) adopted amore radical approach. Communitycontributions were reduced to zero, and all
project costs were met by the national andlocal government. The LGU share of capitalexpenditures ranged from 10 to 52percent, and they also had far greaterinvolvement in implementation.
The national policy for rural water supplyevolved even further in the last few years.
The 2002 guidelines from the NationalEconomic Development Authority (NEDA)
5Local government units are territorial and political subdivisions of the Philippines. They are either provinces, cities, municipalities, or barangays.3
Box 1: THE WATER SUPPLY AND SANITATION PERFOR MANCEENHANCEMENT PROJECT (WPEP)
WPEP is an action research project in the Philippines that is jointly funded by theGovernment of Australia through the Australian Agency for InternationalDevelopment (AusAID), the Water and Sanitation Program of the World Bank (WSP), and the Government of the Philippines. The executing agency for thegovernment is the Water Supply and Sanitation Program Management Office of theDepartment of Interior and Local Government, with support from the WSP–East
Asia and the Pacific (WSP-EAP). The goal of the project is to enhance the accessof the underserved rural and urban poor to adequate water and sanitation serviceson a sustainable basis.
The WPEP action research agenda is demand-driven through consultation with abroad range of water supply and sanitation sector practitioners in the Philippines. InPhase I of the project, WPEP funded six background studies, which provided thebasis for the learning agenda. Following consultation with sector stakeholders onthese studies, Phase II of the project commissioned local consultants to undertakefour field-based studies on the following topics:• Small towns water supply management models• Urban sewerage and sanitation• Small-scale water providers• Sustainable development and sector financing for rural water models
This Field Note is one of a series summarizing the results of this research program.
-
8/19/2019 Identifying Elements of Sustainability
5/16
4
recommend a relatively sophisticatedcost-sharing scheme between the nationalgovernment and the LGUs. 6 Under thesenew rules, the national government grants
for rural water supply have been reducedsignificantly, varying between 20 and 50percent depending on the income class of the LGU and the level of service provided.
This reduction in direct funding by thenational government has been offset byconsiderable increases in the allocation of resources to local governments, thusprovincial and municipal LGUs are nowexpected to contribute the majority of theremaining costs of the provision of ruralwater supply. The policy does not refer to
community contributions.
AssessingPerformance
In 2003, WPEP completed the study“Rural Water: Models for Sustainable
Development and Sector Financing.” The study team selected 15 rural watersupply systems implemented under theeight major projects (listed in Figure 1)
as representative case studies. The teamanalyzed these cases using three datacollection methods—methodology forparticipatory assessment, householdsurvey, and specialist appraisal. Thespecific objectives of the study were to:
• Examine users’ preferences for differenttypes of services, willingness andcapacity to pay, perceptions onparticipating in water users associations,and satisfaction with services
• Assess responses to the variousfinancing polices of the rural watersupply projects
• Assess the sustainability of the selectedrural water supply systems
• Use the findings to makerecommendations on the design for
ongoing and future projects and forchanges in the national policies andinstitutional frameworks for the ruralwater sector.
Selection of suitable case systems provedchallenging. A sampling framework wasused to ensure that the cases included amix of different project rules, levels of service, and geographical variation. Projectrecords were examined to select suitablesites but it soon became apparent that thesituation on the ground was very differentfrom that in the records. The field teamsfound that most of the systems they visitedwere no longer operational, some of thesystems did not have any formalmanagement organizations, and beneficiarycommunities had often received fundingand assistance from so many different
sources that the users could no longerremember which systems or parts wereprovided by which project. Only 5 of theoriginal 15 cases selected from the projectrecords met the sampling criteria. In severalinstances, the field teams had to visit more
6Philippines, Department of Finance (2002)
In-kind contributions often mean that local elites donate surplus land in return for privileged access, while poorerhouseholds are pressured into providing free labor
T e s
t C o n s u
l t a n
t s ,
I n c .
Identifying Elements of Sustainability
Box 2: LEVELS OF WATERSYSTEMS IN THEPHILIPPINES
• Level 1—Stand-alone waterpoints, including shallow wells,handpumps, or rainwatercollectors
• Level 2—Piped water supply witha communal water point, such asspring system or borewell
• Level 3—Piped water supply witha private water point, such as ahouse connection
-
8/19/2019 Identifying Elements of Sustainability
6/16
5
than 10 alternate schemes before findingan operational system with a formalmanagement organization. However,eventually 15 suitable case study systemswere found (see Figure 3).
Findings The study examined a number of diverseissues but only some of the major findingsare featured in this summary. The followinginclude the most significant findingsregarding performance and sustainability orresults that proved to be contrary to theassumptions that underpinned the originaldesign of the projects.
Overall Sustainability
The team used the methodology forparticipatory assessment 8 to gather datafrom users on their perceptions of thesustainability of the selected systems.Using this method, an assessor, togetherwith individuals from the community,assessed sustainability in terms of systemquality, effective functioning, effectivefinancing, and effective management.
To give a score for overall sustainability,the team then aggregated the scores and
combined these with the score given foreffective use (whether the project had anyimpact on well-being and poverty) (seeFigure 4).
Specialist appraisals were also employedto make ratings of the overall sustainabilityof the case study systems. This includedtechnical, financial, institutional, and socialsustainability. A multidisciplinary team of
five specialists appraised each watersupply system using data collected fromkey informant interviews with severalstakeholders—water users; representativesfrom various technical, financial, andnational agencies; and staff from LGUs.Using the data, the specialists rated eachsystem according to the four dimensions of sustainability and then scaled andaggregated the scores in order to create anoverall sustainability rating (see Figure 5).
While the methodology for participatoryassessment and the specialist appraisalprovide different scales to measure theoverall sustainability of the case studies,
several cases from two of the projectsstand out in both assessments:
• The Kibudtungan Barangay Waterworksand Sanitation Association from theWATSAN project ranks first using themethodology for participatoryassessment and second using thespecialist appraisal.
• The four systems studied under theCVWSP rank in the top six using themethodology for participatoryassessment, and three of the fourcases rank in the top five using thespecialist appraisal.
Some of the systems visited did not have formal management organizations,and communities had often received funding and assistance from so manydifferent sources that the users could no longer remember which systems orparts were provided by which project.
7Soriano and Test Consultants, Inc. (2003)8 The methodology for participatory assessment (MPA) has been tested worldwide in 88 communities. For more information on the approach, consult Dayal and others (2000). 6 hemethodologyforparticipatoryassessmenthasbeentestedworldwidein88communi ties.Formoreinformationontheapproach,consultDayalandothers(2000).Tuding, Paitan Sur, San ta Lucia , Capitongan & Usmad
Box 3: DEVOLUTION FOLLOWING THE 1991 LOCALGOVERNMENT CODE 7
The implementation of the 1991 Local Government Code (LGC) triggered a processof political and administrative devolution that brought major changes to thegovernance structure of the Philippines. The LGC transferred powers andresponsibilities from the central government to the LGUs, including primaryresponsibility for the development of water supply and sanitation services. Thisprocess was also accompanied by large increases in the incomes of the LGUs. A large change was that LGUs were now required to share the installation costs forrural water supply systems, while responsibility for system implementation wastransferred from the central agencies to the provincial and municipal governments.
Under the LGC, national agencies were supposed to improve coordination of national government policies and programs and provide adequate technical and
financial assistance to less-developed LGUs. The Department of Interior and LocalGovernment (DILG) was supposed to develop national water supply programs. TheDPWH was meant to provide technical assistance in design and operation andmaintenance to local governments. The Department of Health (DOH) wasdesignated as responsible for the promotion of public health and hygiene andmonitoring of water quality. However, the reality today is that most national agencieshave not changed their roles substantially. For instance, the DPWH still performsengineering and construction functions, such as well drilling and springdevelopment, although now for locally funded projects.
-
8/19/2019 Identifying Elements of Sustainability
7/16
The WATSAN and CVWSP projects had
a great deal in common. Both wererelatively small projects, implementedlargely by LGUs rather than nationalagencies. Both invested heavily in buildinginstitutions and capacity, and encouragedLGU and community involvement in theplanning, construction, and managementof the systems. Both also includedregular monitoring of the operation andmaintenance of their water supply systemsthrough provincial planning anddevelopment officers.
Most of these features did not belongto projects with cases rated as“marginally sustainable” or “unsustainable”in the specialist appraisal. These less-successful cases are generally part of large, centrally implemented projects (forexample, FW4SP, RWS4), which spentlittle on institution building and rarelyinvolved LGUs or communities in
planning, implementing, or monitoring their
water supply schemes.
Access to Wat er Supply
As part of the assessment of socialsustainability and performance, goodaccess to water was examined. “Goodaccess” is defined in the assessment toolas regular access to a safe and reliablewater supply. This excludes cases wheredistance to the water source is excessive,water is rationed, or water pressure or
quality is inadequate. On average, only 19percent of households in each communityhave good access to the profiled facilities.In five cases, only 10 percent of households in the community have goodaccess. Out of 15 cases, only four havegood access scores higher than 30percent. The highest access scores are forthe two water cooperative-managedsystems constructed under the CVWSP.
The majority of the households with good
access are middle-income users, withrelatively few upper-income users. In manycases, those without good access chooseto use other water suppliers. Surveys of households that have not joined the waterusers associations reveal that:
• 40 percent prefer to use an alternativewater source nearer to their house
• 17 percent report insufficient funds to payfor water charges charged by water
users associations
• 5 percent perceive that the quantity ofwater available from the association-runfacilities is insufficient.
The study also suggests that the 15case study water supply systemshave little impact on services for thepoor. Fifty-six percent of the
6
Identifying Elements of Sustainability
7 In the two level 1 cases that charge tariffs (four of the six level 1 cases do not charge)8 With the exception of Tuding where acute water scarcity forces households to pay high water charges despite a low level of service (manyhouseholds prefer to pay for private water deliveries)
Figure 2: Distribution of financing by project
Project Financing
Agrarian Reform Communities Development Project and Community Project
Central Visayas Water and Sanitation Project
First Water Supply Sewerage and Sanitation Sector ProjectInstitution Building for Decentralized Implementation of
Community Water Supply and Sanitation Project
Poverty Alleviation Fund II Potable Water Development and Sanitation
Rural Water Supply and Sanitation Sector Project
Rural Water Supply and Sanitation Project—Phase IV
Second Island Provincial Water Supply and Sanitation Project
Water Users Association Source: Test Consultants, Inc. (2003)National Government Local Government Unit
80 to 90% 20 to 10%
90% 10%
90% 10%
48 to 90% 52 to 10%
80% 10% 10%
80% 10% 10%
90% 10%
90% 10%
-
8/19/2019 Identifying Elements of Sustainability
8/16
communities define their households aspoor, but only 12 percent of these poorhouseholds have good access to the ruralwater supply system. In half the casestudies, less than 5 percent of poor
households have good access to the watersupply system.The location and layout of the facilities studied was often determinedby the availability of donated land, easeof construction, or minimum cost
requirements. As a result, the poor, whotend to live in marginal areas and areexcluded from discussions regarding waterservices, often have closer alternative watersupplies than the facilities managed by
7
There appears to be a clear link between projects that place emphasis oninstitution building and those that achieve cost recovery.
9 Dayal et al (2000) ‘Methodology for participatory assessments: with communities, institutions and policy makers’, Washington DC: Water and Sanitation Program10 For more detail on this process, consult TEST (2003)11 Technical and environmental performance were combined into one rating
Figure 3: The characteristics of case study locations
Project Location
BWSA
CBO
COOP
COOP
CBO
CBO
BWSA
BWSA
BWSA
CBO/LGU*
BWSA
BWSA
BWSA
CBO*
BWSA
Level of Service and Source of Water1 2 3
Type of WaterUsers Association
Well
Well
Well
Well
Well
Well
Kasitrusan
Lapan-Lapan
Bato
Cantumog
Bagacay
Usmad
Bimmotobot
Paagan
Tuding
Paitan Sur
Kibudtungan
Santa Lucia
Capitongan
Damires
Hoskyn
Spring
Spring
Spring
Spring
Well
Spring
Spring
Spring
Spring
Spring
Spring
Spring
Well
BWSA = Barangay Waterworks and Sanitation Association; CBO = Community-based Organization; COOP = Water Cooperative; LGU = Local Government Unit;* = informal management organization
Agrarian Reform Communities Development Projectand Community Project
Central Visayas Water and Sanitation Project
First Water Supply Sewerage and Sanitation
Sector Project
Institution Building for Decentralized Implementationof Community Water Supply and Sanitation Project
Poverty Alleviation Fund II Potable WaterDevelopment and Sanitation
Rural Water Supply and Sanitation Sector Project
Rural Water Supply and Sanitation Project–Phase IV
Second Island Provincial Water Supply andSanitation Project
-
8/19/2019 Identifying Elements of Sustainability
9/16
8
water users associations. The study’sfindings confirm that the poor generallycontinue to use these (often free) alternativesources even after improved facilities havebeen installed in their community.
Cost Recovery
When assessing financial sustainability,cost recovery was examined. It is thenational government policy for users of Level 1 systems to pay minimal chargesto cover maintenance and normal repairsand for users of Level 2 systems tocontribute an additional amount fordepreciation or asset replacement. Whenthe projects were implemented, they allhad varying approaches and gave differentemphasis to cost recovery, but only theRW3SP had rules requiring that tariffs
cover asset replacement.
In practice today, only two of the six casestudies with Level 1 water supply systems(Capitongan and Bagacay) have waterusers associations that collect watercharges on a regular basis. The rest of theLevel 1 associations rely on adhoccollections when repairs or replacementsare required. In contrast, all but one of theassociations from the Level 2 and Level 3systems collect regular water tariffs.
The water tariffs charged by the associationsappear affordable. The average householdincome reported by users is approximatelyUS$100 per month, and the averagemonthly water charge is US$0.66, whichmeans than less than 1 percent of theiraverage income is spent on water charges.
Typical water supply costs in relation tolevel of service are as follows:
• Level 1 facilities—In the two cases thatcharge tariffs, US$0.09 is charged permonth (0.1 percent of the average income)
• Level 2 facilities—US$0.15 per month ischarged per month (0.8 percent of theaverage income)
• Level 3 facilities—US$1.88 per month ischarged per month (2 percent of theaverage income).
There appears to be a clear link betweenprojects that place emphasis on institutionbuilding and those that achieve effectivecost recovery. The case study systemsfrom the projects that did not invest ininstitution building (FW4SP, RWS4, andPAF2) do not currently charge for water.Most of these systems have insignificant
savings and do not have updated financialrecords. In contrast, the case studysystems implemented under the projectsthat did invest in institution building(WATSAN, CVWSP, RW3SP) exhibitgenerally good financial management. Inthese cases, tariffs are in line with costs foroperation and maintenance, accounts arein order, and several of these water usersassociations have managed to build upsubstantial cash reserves.
Three of the more successful water usersassociations (Bato Cooperative, CantumogCooperative, and Kibudtungan Barangay
Association) have installed water meters ontheir house connections and are usingprogressive tariffs to bill the userhouseholds. The users pay for theinstallation of their private service pipesand water meters, and the systems appearto be working well. The level of service and
the management effectiveness of theseassociations are unusually high comparedto other rural systems.
Demand-Responsiveness
In examining technical and institutionalsustainability, one of the lessons concerneddemand-responsiveness. In most cases,the projects offered lower levels of service
than those desired by the communities.Despite the projects’ limitations, thecommunities have generally managed toget what they need, either by increasingthe size of their community contributions orby finding alternative sources of finance.
CVWSP was the only one of the eightprojects to offer Level 3 water supplysystems, but none of the communities in
9Soriano and Test Consultants (2003)
Identifying Elements of Sustainability
The study team visited many schemes that were nolonger operational
T e s
t C o n s u
l t a n
t s ,
I n c .
-
8/19/2019 Identifying Elements of Sustainability
10/16
its four case study systems chose thisoption. Therefore, all 15 case studieswere originally Level 1 or 2 water supplysystems, with six Level 1 systems andnine Level 2 systems.
A review of the current status of the casestudy systems confirms the importanceof the initial level of service provided.
The six Level 1 case studies all remain atLevel 1, while seven out of the nine Level 2systems have been upgraded to Level 3systems (or to combination Level 2 and3 systems). These improvements arepossible because the communities haveobtained additional financing, thus
the upgrades often reflect the politicalconnections of the communities in questionrather than the strength of their demands.However, genuine demand for higher levelsof service has been expressed in severalcases, most notably where householdshave constructed their own houseconnections using local materials, suchas flexible pipes.
Local Government UnitContributions
In examining responses to financingpolicies, the study shows that the moresuccessful and sustainable case study
systems all receive contributions fromLGUs toward capital expenditures. Inmost cases, these contributions involvetaking responsibility for soft components(institutional development, training,transport, and support), rather than forhardware (materials and construction).Importantly, this ensures that local bodiesform relationships with the water usersassociations at an early stage and involvethem in vital decisions, such as the siteselection of the water supply facilities.
However, the case studies also reveal thatLGUs are sometimes reluctant tocontribute toward the rural water supply
9
One of the lessons concerned demand-responsiveness. In most cases, theprojects offered lower levels of service than those desired by the communities.
100 200 300 400 500
Figure 4: Overall sustainability according to the methodology for participatory assessment
Score
Bato
Cantumog
Paitan Sur
Damires
Usmad
Bagacay
Tuding
Paagan
Lower Bimmotobot
Kasitrusan
Santa Lucia
Hoskyn
Capitongon
Kibudtungan
Water Cooperatives
Community-basedOrganizations
BarangayWaterworksand Sanitation
Associations
Type of WaterUsers Association
Effective Functioning Effective Financing Effective Management Effective UseSystem Quality
Locations
M a x i m
um S
c or e f or
S u s t a i n
a b i l i t y
-
8/19/2019 Identifying Elements of Sustainability
11/16
schemes being implemented within their jurisdiction. This may be a function of theirrelationship with the implementing agency,but it also draws attention to the fact that
smaller municipal LGUs have constrainedbudgets and may struggle to meet thehigher levels of cost sharing that newnational policies for rural water supply arecurrently emphasizing.
Community Contributions
Community contributions toward capitalcosts are supposed to diminish the risk of building inappropriate facilities in ruralcommunities. The rationale is that
impoverished communities may acceptany water system that is offered for free,but will think twice before agreeing tocontribute toward such a system. It isalso thought that community contributionsincrease users’ sense of ownership of asystem, thus ensuring more interest andinvolvement in planning, construction,and management, which in turn resultsin a more sustainable system.
Surprisingly, in examining responses tofinancing policies, the link betweencommunity contributions and increasedsustainability is yet to be established. The
WATSAN and CVWSP projects, whichproduced five of the most sustainable casesexamined by the study, did not requirecommunity contributions (unless higherlevels of service were demanded), whereassix out of the seven least sustainableschemes did receive communitycontributions. In part, this finding relates toa general policy trend toward lowercommunity contributions (with higher LGUcontributions), but it may also be becausemost of these community contributions were
in-kind (labor, local materials, land, andfood for the workers). Further investigationon this funding, particularly any distinctionbetween in-kind and financial contributions,would be useful in the future.
Institutional Arrangements
In examining institutional sustainability, thestudy shows that the training and capacity
building given to the water usersassociations and the support andmonitoring provided by external agenciesvary among case study systems. Theinvolvement of barangay officials prior tothe implementation of the project appearshelpful in developing the water usersassociation and in ensuring thatappropriate beneficiaries are targeted andinvolved in the early stages of projectplanning and site selection. Assistance isalso helpful for the proper registration andaccreditation of the association with theappropriate authorities.
The six most sustainable cases identifiedusing both assessment methods includetwo barangay waterworks and sanitationassociations, two water cooperatives, andtwo community-based organizations. Thus
there is little evidence that any one of thesethree forms of water users associations isinherently more sustainable than the others.However, the water cooperatives appear tohave advantages in several other areas,including access to water supply andexternal support.
The two water cooperative-managed casestudies have the highest levels of access.
This may be related to the more cost-efficient tariffs charged by the cooperatives.
For instance, Kibudtungan BarangayWaterworks and Sanitation Associationis rated the most overall sustainable caseby the MPA method (see Box 4), but itcharges almost three times as much percubic meter as the cooperatives and hasmuch lower access figures (only 16percent households have good accessto the water supply). The cooperativesalso have the advantage of external
10
Intended beneficiaries of rural water supply projects continue to rely on traditional sources of water, as they seethat little has improved with the often distant and unreliable new systems
T e s
t C o n s u
l t a n
t s ,
I n c .
Identifying Elements of Sustainability
-
8/19/2019 Identifying Elements of Sustainability
12/16
support from the Cooperative Development Authority (CDA), a non-technical body thatdoes not assist with water supply problems,but monitors performance, examinesfinancial records, and carries out generaltraining and support.
Conclusion
A key message of this study is that thelarge, centrally managed projects failed toproduce sustainable rural water supply
systems. The sheer number of rural watersupply schemes required to ensureuniversal access to safe water supply andthe declared intention of the nationalgovernment to meet this objective asrapidly as possible put heavy pressureon rural water supply projects. The resultwas overly ambitious targets and costcutting in order to produce as manysystems as possible from the limitedresources available. Data on the numberof complete or functioning rural watersupply schemes are scant, but it appearsthat most of these large projects managed
to install less than half the intended numberof systems, of which many are no longeroperational. Although these large projectsinstalled many rural water supply facilities,it now seems clear that they wereinefficient, and their impacts were limited.
The findings of the WPEP study suggestthat smaller projects, with significantinvestments in capacity and institutionbuilding, produce the most sustainable andeffectively used rural water supplyschemes. It is also apparent that localinvolvement of the LGUs and communities
11
The study shows that the more successful and sustainable systems receivedcontributions from local government units toward soft components such asinstitutional development, training, and support.
4 8 12
Figure 5: Overall sustainability according to the specialist appraisal
Overall sustainability
Technical Financial Institutional Social
Scoring: less than 6 points = unsustainable; 6 points = marginally sustainable; greater than 6 points = sustainable
Bato
Cantumog
Paitan Sur
Damires
Lapan-Lapan
Usmad
Bagacay
Tuding
Paagan
Bimmotobot
Kasitrusan
Santa Lucia
Hoskyn
Capitongon
Kibudtungan
Water Cooperatives
Community-basedOrganizations
BarangayWaterworksand Sanitation
Associations
Type of WaterUsers Association
Locations
-
8/19/2019 Identifying Elements of Sustainability
13/16
aids system preparation, planning,implementation, and management, andthat sustainability is improved whenthese processes are monitored by externalagencies. In general, the communitiesdemanded higher levels of service thanthose being offered by rural water supplyprojects. In most cases the communitiesupgraded their systems themselves orpersuaded someone else to fund theimprovements. This confirms theimportance of informed choice anddemand-responsiveness in the provision of rural water supply services. Projects musthave less rigid rules on technical optionsand should offer a menu of options andrelated costs that allow local users to selectthe most appropriate system for theirspecific needs and payment capacities.
The findings on financing are not as clear. The most sustainable systems all receivedcontributions from the LGUs for capitalexpenditures, but these contributionsvaried greatly, and there is somesuggestion that smaller LGUs werereluctant to contribute. However, it seemslikely that the requirement that LGUscontribute was beneficial, as it increasedtheir involvement with the systems.
Within the group of cases studied, none of
the better-performing projects requiredcommunities to contribute toward capitalcosts. When community contributions weremade, they were often in-kind, and appearto have had little or no impact onsustainability. However, there is evidencethat cash contributions are associated withmore sustainable water supply schemes.
This distinction needs further considerationand follow-up in the future.
12
Identifying Elements of Sustainability
Box 4: KIBUDTUNGAN BARANGAY WATERWORKS ANDSANITATION ASSOCIATION 9
Before the water supply system for the Kibudtungan Barangay Waterworksand Sanitation Association was constructed, the community dependedon a spring source located about a kilometer away or bought water fromwater vendors at US$0.06 per 5-gallon container. Now, water is only
bought from vendors during power failures or when major system repairsare taking place.
The water system was implemented through the WATSAN project in 1997. The project was originally designed to provide Level 2 water service to thecommunity through seven public water points (requiring construction of anelevated reservoir and 600 meters of pipeline). Except for the pipelaying,which was undertaken through bayanihan (self-help), the rest of thecomponents, including materials and labor, were contracted out by theproject. The officers and management staff were trained in health andsanitation aspects and attended short courses on bookkeeping, financialreporting, and general management. A local resident was hired as the
system caretaker and maintenance person. Having been trained inplumbing at a local vocational school, the caretaker introduced technicalimprovements that have greatly enhanced performance of the system.
Of the 49 original member households, about 20 opted for private houseconnections (Level 3) at the outset. House connections required a watermeter, several lengths of pipeline, in-house taps, and plumbing service.
The average cost was about US$50. There are now over 120 userhouseholds, of which about 80 have house connections. The water rateschedule was designed with the help of the municipal engineer based onthe progressive charging system used by nearby water districts. When firstpresented to the association’s governing general assembly, it encounteredmuch opposition. However, when it was explained that the progressivenature of the tariff was designed to prevent wasteful use and that it wasactually much cheaper than the U$0.06 per container charged by watervendors, negative sentiments soon died down.
As a result of the tariff adjustments, the association is able to make areasonable return, which the users have decided to put toward subsidizingthe local public school and assisting poorer households within thecommunity to access a convenient water supply.
9Soriano and Test Consultants, Inc. (2003)
-
8/19/2019 Identifying Elements of Sustainability
14/16
13
A number of sector constraints areidentified by the study:
• National-level capacity is notaccessible. There is little evidence thatnational-level bodies have any positiveimpact on the sustainability of the ruralwater supply schemes studied. It isnotable that, despite the wealth of technical knowledge and skills containedwithin bodies like the DPWH and localwater districts, there is no mechanism forwater users associations to accessthis knowledge.
• Technical problems often hindersustainability. Several of the systemsstudied are struggling to functionbecause of relatively simple technicalfaults. They appear to be receiving no
assistance in solving these problems.
• There is insufficient focus onservices for the poor. Though povertyalleviation was not an explicit objective of the rural water supply projects studied(except for PAF2), it is noticeable thatmost of the case study systems havehad little impact on water supply servicesfor the poor. The location and layout of the facilities for the projects were oftendetermined by the availability of donated
land, by ease of construction, or byminimum cost requirements. As a result,the poor, who tend to live in marginalareas and are usually excluded fromdiscussions regarding water services,often have closer alternative watersupplies than the facilities run by waterusers associations. The study findingsconfirm that the poor generally continueto use these alternative sources, which
are often free, even after improvedfacilities have been installed in theircommunity.
The lessons from this study suggest thatprojects need to focus more on supportand follow-up activities, while localgovernments need incentives to be involvedthroughout the lifetime of the implementedsystems. Rural water supply efforts needto be concentrated on institutionaldevelopment, financial management,encouraging local involvement, and hygienepromotion. However, these issues arecomplex, and success requires extensiveresources, including much time, money,and trained staff. Small well-fundedprojects have the flexibility and dedicatedstaff needed to produce effective schemesbut these results may be difficult to
replicate on a larger scale.
Recommendations
The following recommendations attemptto address some of the constraintsidentified by the study, making suggestionsfor the design of ongoing and futureprojects and for changes to the nationalpolicy and institutional framework for the
rural water sector.
1. Invest in institutionalstrengthening and capacitybuilding
There needs to be a balance betweenambitious project targets for schemecompletion and the development of sustainable rural water supply services. At
present, too much effort and funding isspent on facilities and not enough is spenton ensuring that these facilities are welloperated, well managed, and effectivelyused by the intended beneficiaries. Newprojects should aim for fewer systems butwith more investment on institutionalstrengthening and capacity building. Thisinvestment should be directed toward bothwater users associations and relevantLGUs, so that LGUs gradually accumulatethe experience and skills needed to advise,regulate, and monitor the rural watersupply systems within their jurisdiction.
An important part of this process will bethe recognition that rural water supplyschemes are not complete until sustainable(in terms of all aspects of sustainability—technical, financial, environmental,
institutional, and social) services areestablished. Project completion or successshould be measured by sustainableoutcomes rather than inputs such as thenumber of handpumps or pipe networksinstalled. This change in approach willrequire the introduction of moresophisticated monitoring and evaluationtools, such as the MPA used in the WPEPstudy, long-term impact assessments, aswell as the introduction of more reliable andsustainable databases.
2. Emphasize cost recovery
Declining government funds for rural watersupply make cost recovery even moreimportant. Rural water supply projectsshould ensure that appropriate financialmechanisms are in place before systemcompletion or handover. Water usersassociations should be well trained in tariff
There is a strong argument for funding incremental improvements and upgradesto existing water supplies used by poor households, rather than subsidizing thedevelopment of new ones.
-
8/19/2019 Identifying Elements of Sustainability
15/16
14
setting, and regulations for tariff increasesshould be ratified by the associationsprior to starting operation. LGUs can
play an important role in this process byencouraging and facilitating local networksof water service providers to sharemanagement and cost-recoveryinformation on salary levels, operationalcosts, maintenance activities, tariff levels,replacements costs, etc.
3. Improve access to servicesby the poor
Improved access should be the main
objective of any rural water supply andsanitation project, as the poor generallyhave the lowest access to safe watersupply and suffer most from the poorhealth associated with inadequate waterand sanitation services. The first step isto identify the poor and determine theirpriorities. However, poor households arerarely comfortable communicating directlywith external agencies or governments,
thus it is often more effective to have localnon-governmental organizations (NGOs)intermediate between the community and
the project.
The WPEP study demonstrates that thepoor often continue to use traditionalwater sources in preference to an improvedwater supply located elsewhere in thelocality. This provides a strong argumentfor funding incremental improvements andupgrades to existing water supplies usedby poor households, rather than subsidizingthe development of new ones (whosebenefits are often captured by households
that are not poor).
4. Provide incentives forinvestment
Common policy and project rules willprovide greater incentives for LGUs andcommunities to invest in rural water supplysystems. At present, they are reluctantto contribute toward infrastructure costs
because they believe that there is alwaysa chance that someone else (politician,external donor, or NGO) will providethem with the facilities free of charge.Changing these perceptions and thereality will require consistent, progressive,and transparent national policies andprograms as well as solid commitmentfrom local politicians.
On average, only 19 percent of the communities consider themselves to have good access to the facilities, and itis the middle-income users that primarily enjoy these
T e s
t C o n s u
l t a n
t s ,
I n c .
Identifying Elements of Sustainability
-
8/19/2019 Identifying Elements of Sustainability
16/16