Scarcity amidst plenty: Kerala's drinking water paradox

Kerala is blessed with high rainfall as well as plenty of natural water sources, but it has the lowest per capita share of freshwater resources in the country.
The Karamana river in Thiruvanathapuram, Kerala (Source: India Water Portal) The Karamana river in Thiruvanathapuram, Kerala (Source: India Water Portal)

Kerala, flanked on the west by the Arabian Sea and on the east by the Western Ghats is bestowed with enviable natural resources. It has 44 rivers spanning its lush green landscape and rainfall that averages as high as 3000 mm a year. As one of the most densely populated states in the country, it has high indicators of health and social development, and its model for development has been hailed as an important indicator for other states to follow [1].

However, recent evidence shows that high population density, industrialisation, urbanisation, mismanagement of water resources and vagaries of climate change have taken their toll on the water resources in the state [1,2]. The graphs below explain the situation of water resources in the state.

Declining availability of freshwater resources

The water situation is marked by contrasts--the state has abundant water resources in the form of rivers, lakes, ponds and two monsoons, but it is water stressed with the lowest per capita share of freshwater resources [1]. Evidence shows that this availability of freshwater sources has been declining over the years amidst growing demand for water due to high population density and changing water use habits.

Changing rainfall patterns

Its entire water supply depends on rainfall, which shows seasonal and regional variations that leads to occasional floods and droughts [2]. Rainfall is also the main source of groundwater recharge and is found to influence the water levels in the subsurface and deeper aquifers. There is a large variation in rainfall between districts, and recent evidence shows that there has been a decline, especially in the north, over the years along with changes in the form and timing of the rains [6]. Experts attribute this change in rainfall patterns to climate change and changes in landuse patterns and forest cover [6]. The monsoon, which has been deficient throughout the country this year, has also shown a 26% deficiency in Kerala.

Declining groundwater levels

Groundwater is important for meeting the domestic needs of more than 80% of rural and 50% of urban population in Kerala besides fulfilling the needs of around 50% of irrigated agriculture [2]. However, recent years have shown declining groundwater levels [2]. A study by CGWB in 2013 that analysed 10,219 wells across the country found that 5,699 wells reported a decline in water levels during that period. Kerala was the third state showing a decline in groundwater levels in the country after Tamil Nadu and Punjab.

High density of wells, high dependence on groundwater

As high as 62% of the households in Kerala depend on well water to meet their water needs and the state has a very high density of open wells with 250 open wells/km2. The decline in groundwater levels has been attributed to the high dependence on groundwater


Lowest proportion of improved drinking water coverage as compared to other bigger states

Kerala is the worst performer in terms of availability of improved drinking water sources. Improved sources of drinking water according to NSSO (2012) include piped water, public tap/standpipe, tube well/borehole, protected well, bottled water, protected spring, and rainwater collection. In rural  Kerala, only 29.5 percent of households get drinking water from an improved source while the proportion is as high as 80 percent or more for most of the other bigger states [3]. In urban areas of most of the bigger states, more than 90 percent of households get drinking water from improved sources while it is only 56.8 percent in Kerala [3].

The Kerala Water Authority (KWA) provides piped water supply to the state, but the water supply is characterised by poor planning in terms of sustainability, technology choice and design optimisation resulting in source and system failures. The Operation and Maintenance of the schemes is very poor and there is a very little chance for improvement due to lack of will and poor cost recovery [1].

Available decentralised water supply schemes also do not yield satisfactory results as they often follow a project mode. An assessment of decentralised community managed systems shows that the regularity of water supply varies drastically under the different schemes [1].

Highest water contamination of groundwater

Evidence also shows a very high degree of contamination of groundwater with a high number of wells contaminated with coliform bacteria due to the mixing of sewage with groundwater. A study by the Ministry of Drinking Water and Sanitation, Government of India (2012), found that Kerala had the highest chemical /bacterial contaminated drinking water among the 28 tested states in the country. Out of the total 102900 tested sources from Kerala, nearly 34 percent were identified with contamination of iron, fluoride, salinity, nitrate, arsenic and bacteria [4].

District wise, Kozhikode had the highest chemical/bacterial contaminated water. As high as 54 percent of the 10803 tested sources were found to be contaminated. Thiruvananthapuram, Kannur, Kasaragod, Ernakulum and Palakkad were the other vulnerable districts in terms of poor access to safe drinking water [4].

 

Poor development of surface water resources

The short length of the rivers and the height difference between the high and low lands leads to quick flow of water collected from the river basin to the sea. The state has thus far not been able to utilise river water sources to a major extent. High levels of bacteriological pollution as well as pollution due to industrial, domestic wastes, pesticides and fertilisers have rendered most of the water from the rivers unfit for drinking [5].

Apart from rivers and wells, sources like tanks, ponds, springs and surangams have also been used traditionally in Kerala to provide water for drinking as well as irrigation. Natural springs also occur in the highland regions and these can also be developed as good sources for drinking water supply and small scale irrigation. However, many of these resources continue to be underutilised, ill maintained and neglected [5].

Can scarcity be turned into plenty?

Experts argue that the increasing water demand leading to over exploitation of groundwater resources and deterioration in the traditions of water conservation have exacerbated the water crisis in Kerala. Thus, changing the state's water situation will require a multipronged approach with a focus on [5]:

  • Adopting an integrated water resources management (IWRM) approach through developing the understanding of water as a common resource.
  • Managing supply through:
    • Protecting forests, wetlands and ecologically fragile areas
    • Encouraging recycling and reuse of water
    • Focusing on reviving traditional water conservation structures
    • Encouraging groundwater recharge through adoption of rainwater harvesting
    • Adopting community-based watershed management 
  • Demand management
    • Focus on generating awareness among the community on reducing demand and wastage, and sustainable use of water
  • Regular monitoring of demand and supply of water resources [5]


References

  1. Chakrapani, R (2014) Drinking water and sanitation in Kerala: A situation analysis. Published by  WaterAid, India, Chalakudy Puzha Samrakshana Samithi (Kerala State Resource Centre of the Forum) and Forum for Policy Dialogue on Water Conflicts in India. 
  2. Hima Hari (2015) Dimensions of water pollution in Kerala:Threats and management issues. International Journal of Business and Administration Research Review, 1(8),  253 -258.
  3. Government of India (2013) Key indicators of drinking water, sanitation, hygiene and housing condition in India. NSSO 69th Round
  4. Kerala State Planning Board (2012) Economic Review, Thiruvanathapuram, Kerala.
  5. Government of Kerala (2015) Chapter 16: Water sustainability: Recycle, recover and reuse. Government of Kerala, Vision 2030 document.
  6. Chandrashekara, U.M (2015) Climate change mitigation strategies in the forestry sector of Kerala, India. International Journal of Advancement in Remote Sensing, GIS and Geography, 3 (1a), 29-37.

 

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