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India face the worst water crisis in its history, and 21 Indian cities will run out of groundwater by 2020, a new report from the NITI Aayog – a government think tank – said, highlighting the need for “urgent and improved” management of water resources.
With nearly 600 million Indians facing high-to-extreme water stress – where more than 40 percent of the annually available surface water is used every year – and about 200,000 people dying every year due to inadequate access to safe water, the situation is likely to worsen as the demand for water will exceed the supply by 2050, said the ‘Composite Water Management Index’ (CWMI) report , released on 14 June 2018.
While Indian cities are grappling for water supply, the Aayog has called for “immediate action” as growing scarcity will also hit India’s food security.
States need to start managing their groundwater and their agriculture water, said the (CWMI) report – India’s first comprehensive collection of nationwide water data.
As we said, 21 Indian cities – including Delhi, Bengaluru, Chennai and Hyderabad – will run out of groundwater by 2020, affecting 100 million people; 40% of India’s population will have no access to drinking water by 2030, the report said.
Currently, many Indian states, including Andhra Pradesh, Chhattisgarh and Tamil Nadu, face water shortages, exacerbated by changing rainfall patterns, IndiaSpend reported on 6 June 2018.
The Economic Survey 2017-18 acknowledged India’s water crisis and explained the triggers, including rapid groundwater depletion, decline in average rainfall and increasing dry monsoon days, The Times of India reported on 21 June 2018.
Groundwater in India depleted at 10-25 mm per year between 2002 and 2016. Average rainfall declined, from 1,050 mm in the kharif – summer cropping – season of 1970 to less than 1,000 mm in kharif 2015. Similarly, in the winter cropping, or rabi season, average rainfall declined, from ~150 mm in 1970 to about 100 mm in 2015. Dry days — days without rainfall — during the monsoons have increased, from ~40 percent to 45 percent in 2015.
India holds about 4 percent of global freshwater and 16 percent of its population. Water intensive agricultural practices and growing water demand for industrial, energy production and domestic purposes are significantly stressing India’s limited water resource, said Samrat Basak, an expert on water-related issues from World Resource Institute (WRI), an advocacy.
Conceived as an annual exercise by the NITI Aayog, the index evaluates states on nine broad sectors and 28 indicators, including groundwater, irrigation, farm practices and drinking water.
Since water is a state subject, the decision-making related to the resource lies with states. “This index is an attempt to budge states and UTs towards efficient and optimal utilisation of water and recycling thereof with a sense of urgency,” Amitabh Kant, chief executive officer of NITI Aayog wrote in the report’s foreword.
In 2015-16, 14 of the 24 states analysed scored below 50 percent on water management and have been classified as “low performers”. These states are concentrated across the populous agricultural belts of north and east India and the northeastern and Himalayan states.
Gujarat performed best with a score of 76 percent, followed by Madhya Pradesh (69 percent) and Andhra Pradesh (68 percent).
“Water Index scores vary widely across states, but most states have achieved a score below 50% and could significantly improve their water resource management practices,” the report said.
India’s food security faces significant risks as low performers – such as Uttar Pradesh, Bihar, Rajasthan and Haryana – on the water index account for 20-30 percent of India’s agriculture output and are home to over 600 million people.
Many water-scarce states have performed better in the Index, the report said. States with high and medium performances–Gujarat, Madhya Pradesh, Andhra Pradesh, Karnataka, Maharashtra and Telangana–have suffered from severe droughts in recent years.
In addition, 15 of the 24 states have improved their scores in 2016-17 compared to the previous year, data show.
On average, scores improved 1.8 percentage points between 2015-16 and 2016-17. Eight states gained 5 percentage points or more – despite the slow-moving nature of several indicators (such as irrigation potential utilised and area under rain-fed agriculture), said the report.
“Most gains have been led by improvements in restoration of surface water bodies, watershed development activities, and rural water supply provision,” the report said.
Similarly, Rajasthan, Jharkhand and Haryana – non-Himalayan states achieving best improvements – were also among the low performers in the overall performance index.
Most states did well on the infrastructure-heavy themes of ‘major and medium irrigation’ and ‘watershed development’, and have also enacted policies in line with the recommendations on the ‘policy and governance’ theme.
However, they were lagging on the critical themes of ‘source augmentation’ (groundwater), ‘sustainable on-farm water use practices’ and ‘rural drinking water’.
Performance around groundwater augmentation can significantly improve with strengthening of groundwater regulations and strict implementation on the ground. Steps like improvement of monitoring network and continuous monitoring of groundwater level and groundwater quality, strict implementation of rain water harvesting and continuous operation and maintenance of the same will also help states manage their groundwater better, Basak said.
The Central Ground Water Board (CGWB) – a central authority to monitor and manage water groundwater resources of the country – has a network of 22,339 groundwater observation wells in India, which means one monitoring point in approximately 147 square kilometre — approximate area of Mysore, a city in Karnataka.
An expedited adoption of micro-irrigation techniques can significantly improve on-farm water use, experts believe.
India has the potential to bring nearly half of its net cultivated area – 140 million hectares – under micro irrigation. But so far, only 7.73 million hectares – drip Irrigation covers 3.37 mha and sprinkler irrigation covers 4.36 mha – as against the estimated potential of 69.5 mha has been covered under micro-irrigation, said Basak.
Research shows that sprinkler irrigation can use 30-40 percent less water, while drip can use about 40-60 percent less water compared to flood irrigation methods, he added.
Experts believe that CWMI is a step in the right direction but it could have gone a step further.
A comparative risk analysis and rating between participants (states) of very similar calibre and nature does not add much value for water risk mitigation and water security, said Basak. The need is to look at how the states are performing against some of the other better performing developing countries like China, he added.
“Therefore, it is critical to evaluate water risk and water management aspects at a watershed/ catchment/ river basin level. For example, look at how the water management indices of downstream states are getting impacted by the water management practices of upstream states and transboundary movement of water,” said Basak.
(This article was first published on IndiaSpend and has been republished with permission.)
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