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Groundwater in Rajasthan: Some Reflections
Bhanu Neupane, PhD, DBA
Regional Program Specialist
UNESCO
Outline
Some general overview Challenges Faced in Rajasthan Some suggestions
‘When the well is dry we know the worth of water.’-- Ben Franklin
If you
Pick up a SC journal on water issues of India
Browse an Indian site on environment on the web
Read a news item about water india
Etc.
You will find “more-or-less” the following noted:
Groundwater is depleting in India and this can arrest the pace of development. This is happening because:– Less cooperative societies– Not Enough Data– Lack of use of “New Technology”– Uncertain science– Poor Coordination– No Information Sharing– Expert inputs poor– No resources and money– Government irresponsible not allocating resources
Reality in Rajasthan in particular, which is the driest state in India
Modern development have increased demands for groundwater resources.
The welfare of society is tied to the sustainable exploitation of water resources.
State is “trying to keep pace with the development in other states of India”
Reality in Rajasthan
Water insecurity to many is based on inadequate water of sufficient quantity and quality to meet domestic needs: a precondition for effective primary health.
Most districts still are lagging behind to achieve 2015 goals agreed at the turn of the century.
– 45% of the total population still lacks access to safe and adequate quantity of drinking water
– Agriculture continues to remain the mainstay of economy– Growth in secondary and service sector also is suffering
due to poor availability of water
Reality…
Numerous water – related diseases plague the Rajasthani communities
The district sees out migration from because of lack of water.
Agriculture economy of the region is declining (but still being pushed as the major sector of state’s economy)
About 25% of entire Rajasthan live in poverty and depravity
Hunger and malnutrition are one of the highest in India
Rajasthan Water Resources and potential users
Source: Report on the Expert Committee on Integrated Development of Water Resources, June 2005
Source: Report on the Expert Committee on Integrated Development of Water Resources, June 2005
Rajasthan’s Water Resources (billion cum), 2000
Groundwater as THE solution
The increasing popularity of groundwater stem from various attractive features of it:
– It can be tapped almost everywhere– Local fix– It is comparatively cleaner for consumption (the effect may
not be visible immediately, viz. arsenic)– Initial capital cost of extracting groundwater is still
considered cheaper than the conventional treatment of surface water for consumption.
Source: State and Central Ground Water Board reports for various years, Government of Rajasthan andGovernment of India
Evolution of well density per 1000 square km in Rajasthan
3944
1822172215581489
0
500
1000
1500
2000
2500
3000
3500
4000
4500
1956-57 1961-62 1971-72 1981-82 1999-200
Year
Nu
mb
er o
f W
ells
Groundwater Status of Blocks in Rajasthan (%)
0
20
40
60
80
100
1984 1988 2001 2004
Year
Per
cen
tag
e o
f B
lock
s
Over Exploited (>100%) Critical (90 to 100%) Semi-Critical (70-90%) Safe (<70%)
Source: Report on the Expert Committee on Integrated Development of Water Resources, June 2005
Source: Report on the Expert Committee on Integrated Development of Water Resources, June 2005
Groundwater Quality Comparison of Rajasthan with rest of India
consequences
Poor health and hygiene Food insecurity Outbreak of Diseases Impact on Economy
Global Groundwater Overdraft: Change in Cereal Production from Baseline 2025
change in million mt (and percentage)
-1.7
-12.8
-16.2
-27.4
2.7
10.2
-17.2
-2.9
-14.4
-17.4
-34.6
-1.2
-0.5
-35.1
Irrigated
1.2
1.6
1.2
7.2
3.9
10.7
17.9
Rainfed
(-5.7)
(-8.1)
(-4.4)
(-3.9)
(-1.4)
(-0.2)
(-3.0)
(-1.4)(1.6)West Asia/ North Africa
(-4.9)(2.0)India
(-3.1)(0.9)China
(-1.8)(1.1)Developing Countries
(0.6)(1.1)U.S.
(1.0)(1.4)Developed Countries
(-0.7)(1.3)World
Total
change in million mt (and percentage)
-1.7
-12.8
-16.2
-27.4
2.7
10.2
-17.2
-2.9
-14.4
-17.4
-34.6
-1.2
-0.5
-35.1
Irrigated
1.2
1.6
1.2
7.2
3.9
10.7
17.9
Rainfed
(-5.7)
(-8.1)
(-4.4)
(-3.9)
(-1.4)
(-0.2)
(-3.0)
(-1.4)(1.6)West Asia/ North Africa
(-4.9)(2.0)India
(-3.1)(0.9)China
(-1.8)(1.1)Developing Countries
(0.6)(1.1)U.S.
(1.0)(1.4)Developed Countries
(-0.7)(1.3)World
Total
Source: Rosegrant et al. 2002. World Water and Food to 2025: Dealing with Scarcity
Number of Malnourished Children by Region 1997 and 2025 Baseline
85
33
19 18
6 5
60
38
137 4 2
0
20
40
60
80
100
South Asia SSA South EastAsia
China WANA LatinAmerica
1997 2025million children
Source: Rosegrant et al. 2005. Looking Ahead: Long-Term Prospects for Africa’s Food and Nutrition Security (in press)
Solution?
Sustainable Groundwater Management
‘Development and use of groundwater in a manner that can be maintained for an indefinite time without causing unacceptable environmental, economic or social consequences.’ (W. Alley et al., 1999)
In both quality and quantity terms– Most easy statement to read but equally a difficult
construct to implement!
Unlike Surface water, groundwater management is very recent.
The The sciencescience of groundwater is young! of groundwater is young!
Groundwater management is complicated
Linked to a constellation of issues– State thus governance– Community thus management– Agriculture/industry/ water supply thus poverty
and livelihood– Partnership thus stakeholdership, gender
issues…– Most importantly it is linked to the WATER
CYCLE
Precipitation = Infiltration + Surface Runoff + Evaporation/Evapotranspiration
Precipitation is the ultimate source of the available water resource for a given area which generally cannot be change.
Precipitation = Infiltration + Surface Runoff + Evaporation/Evapotranspiration
The total amount of water available in an area cant be increased unless through inter basin transfer or interlinking of rivers or through cloud seeding.
Reducing the surface runoff or reducing the rate of evaporation/evapotranspiration can be the only solution to augment the available resources.
Surface Runoff can be reduced by inducing artificial recharge techniques
Transpiration/Evapotranspiration losses can be reduced by improving agriculture practices.
Main Problems related to water availability in Rajasthan
Scanty and Uncertain Precipitation confined usually to 2 months. (300-500 mm annually)
Nearly two-thirds of the state falls within the arid to semi-arid category.
Lack of adequate surface water supplies Heavy stress on groundwater resources
which has resulted in water table decline.
Water Use Statistics for Rajasthan
Total available water from external and internal sources: 32 BCM
Per Capita availability: 800 cum/yr Current Total water requirement: 40 BCM Current deficit of water: 8BCM Deficit likely to be 9BCM by 2015
Groundwater situation for Rajasthan
Annual Replenishable Groundwater Resource = 11.56 BCM/Yr
Net annual Groundwater availability = 10.38 BCM/Yr Annual groundwater draft = 12.99 BCM/Yr Stage of Ground Water Development = 125 % (2007) In some areas the groundwater development is as high
as 600% How many of you are aware about crop varieties that
can thrive on precipitation as low as 300 mm/annum?
What is the Solution??
Reducing Surface Runoff YES
:Recharging groundwater sources through artificial recharge.:Roof Top harvesting
Reducing Evapotranspiration/Evaporation YES
:Improving agriculture practices:Conjunctive use of surface and groundwater resources
Agriculture Interventions
Best strategy – discontinue agriculture– But it is the source of livelihood for millions of Rajasthanis
Select drought resistant variety– Very poor success
Reduce or obliterate energy subsidy– Political agenda – no can do!
Find new methods of Irrigation– Sprinkler and drip irrigation (proven not successful)– Sub-surface drip irrigation (with WUE as high as 90-95%
under trial stage)
Yields and water requirements of irrigated and rain-fed agriculture
Irrigation has the potential to provide higher yields than rain-fed agriculture but water requirements are also much higher.
Source: FAO, 2005
Yields response to irrigation
Rain Water Harvesting as a solution
Surface run off potential in Rajasthan: 26BCM Government district wise master plan for
rainwater harvesting structure proposes 47,698 structures
Till 2005, 16,803 structures have been completed PROBLEM: Construction of harvesting structures
have major environmental and cost implications.
Advantages of using aquifers as recharge structures
Construction of check dams, Anicuts along small streams are an important step in this direction
Helps in recharging groundwater in the adjacent areas
Water availability for drinking and domestic purpose in the wells in the downstream area even in drought years
MN Sadguru Foundation and Tarun Bhagat Sangh have effectively carried out rain water harvesting through this technique.
Roof Top Harvesting
Roof Top harvesting is the most effective technique for augmenting drinking water supplies.
Water collected can be stored in tanks to be used at a later stage.
This mechanism basically has two advantages over artificial recharges structures such as ponds, check dams or induced aquifer recharge
– In situ– Maintain environmental flows
Contd……
Roof Top Harvesting
The volume of water that can be made available through roof top harvesting is equal to the amount of rainfall, the surface area of the roof and the run off co-efficient of the roof
Contd…..
Co-efficient of run off for different type of roofs
Source: Roof top harvesting Manual, Prepared by AFPRO for UNICEF
Considering the average annual rainfall in Rajasthan of about 500 mm, a house with a roof area (concrete roof) of 50 m2 can collect about 17500 lts of water
Considering 10 lts/day/person requirement for a 5 member family, this water will be sufficient for 350 days
With the cost of water around Rs 1.5/lt, the above quantity will help in saving around Rs.26000 per year
Roof Top Harvesting
Contd…..
However initial costs are involved during the construction of the roof top harvesting system and installation of storage tanks which may be between Rs 15000 to Rs.20000 (Approx US $ 350-550)
This one time investment may be quite high for many of the rural household therefore government should come up with schemes of providing such systems at a subsidized cost.
Roof Top Harvesting
Contd…..
Some policy Suggestions
Optimal combination of different policy measures:
– regulation governing groundwater abstraction, – provision of economic incentives/disincentives to reduce
groundwater abstraction (e.g. charges for groundwater usage and wastewater discharge),
– provision of alternative water resources to groundwater, and support for the major groundwater users in their water-saving activities
Management strategy needs to be regularly reviewed and updated to meet the changes over time.
Some policy Suggestions
Groundwater conservation should be made an integral part of landuse planning.– Establishment or protection of replenishing zones;– Introduction of decentralized recharge schemes in
household or community ;– Installation of water-saving technology stipulated
in the building code (e.g. recycled water for flushing toilets).
Some policy Suggestions
Abstraction rights should be assigned to the government in statutory form for effective groundwater control.
– Panel of different stakeholders including experts and groundwater users can be established to regularly monitor the management policy.
– Participatory planning and management of groundwater.– Available government resources should be allocated more to
water reuse and recycling.– Fertilizer inputs should be capped to reduce the nitrate
contamination of groundwater.
Some policy Suggestions
Enforce usage charges, wastewater treatment charges and other economic disincentives for groundwater usage.– Charging for groundwater usage can be an
effective tool– Charges especially wastewater discharge/
treatment charges can contribute to the reduction in groundwater abstraction,
BUT WHO WILL BELL THESE CATS?
Custodianship of water not yet determined– Center or state
Water continues to remain as a “vote agenda” Energy tariff is free for farmers (8 hrs of farm pumping
is free) Model bills have been prepared for adoption and
enforcement – not utilized (again state can overrule center’s decisions)
Groundwater authorities (CGWB, GWA remain ineffective)
National water development priority still surface water centric
International Hydrological Programme
DEPENDENCIESDEPENDENCIES
SOCIETALSOCIETALRESPONSESRESPONSES
STRESSSTRESS
HYDROLOGICAL CYCLEHYDROLOGICAL CYCLE
GovernancePoverty
Ecosystemsat risk
Social Challenges
Groundwater
Under G-WADI
Evaluation of low cost water harvesting structure– Pilot projects
Assessment of environmental gains of recharge structures
– Has been included as a One-UN agenda Research and demonstration on effectiveness of sub-
surface irrigation – Demonstration and pilot project
One basin is developing under G-WADI and another one is being proposed
UNESCO Water Portalhttp://www.unesco.org/water