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Drought-hit Pakistan turns to solar water treatment

by Saleem Shaikh and Sughra Tunio | Thomson Reuters Foundation
Monday, 2 February 2015 06:32 GMT

An elderly woman toils to get water from a dug well while another woman fills pitchers with the water in Mithi in the desert district of Tharparkar in Pakistan’s south. THOMSON REUTERS FOUNDATION/Saleem Shaikh

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In a district where just 5 percent have access to potable water, solar reverse osmosis is 'hardly less than a miracle'

By Saleem Shaikh and Sughra Tunio

MITHI, Pakistan, Feb 2 (Thomson Reuters Foundation) - Worsening drought has led to over 80 percent of water resources in Pakistan's southern Tharparker district becoming unfit for people to drink, a new study says.

That has led to plans by the Sindh provincial government to invest 5.4 billion Pakistani rupees ($53 million) in installing 750 solar-powered reverse osmosis water purification plants across the sprawling desert district, to help get safe drinking water to the region's over 1.5 million people.

All of the facilities are expected to be set up and working by June this year, the government said.

Residents living near a first plant, inaugurated in January in the Misri Shah area of Mithi, the district headquarters of Tharparker, say it is transforming life in the parched region, where vanishing rain and drying groundwater supplies mean most available water is now saline or too high in fluoride.

'HARDLY LESS THAN A MIRACLE'

"It is really hardly less than a miracle for us that we can now drink sweet and clean water, for the first time in my entire life," said 45-year-old Rekha Meghwar of Mithi, as she turns on the water plant's tap to fill her pitcher.

Billed as the 'Asia's largest (by capacity) solar-powered water purification plant', the facility will treat 3 million gallons of water daily, enough to meet the water needs of 300,000 people in Mithi and in 80 adjoining villages, according to officials in the Mithi town municipal office.

Constructed at a cost of 400 million Pakistani rupees or $4 million, the plant is expected to particularly benefit women, who currently often must fetch water from far-away hand-dug wells.

Sunita Bheel, a woman waiting in line for water from the new Mithi plant, said women in the area often walk two kilometers a day to fetch water from a hand-dug well owned by a landlord outside the village.

EFFECT ON MIGRATION

Local people said having water available for themselves, and their livestock, may stem increasing waves of migration from the area.

Anil Kumar, who lives in Morrey-Jee-Waand village, a few miles from Mithi, said 80 percent of people in his village and in seven other villages around it migrated last September to other areas in the region with supplies of dam water in an effort to find potable water for themselves and their livestock, and to seek jobs after crops failed.

"But they are now gradually returning to their villages when they learn about the sweet water (plant)," said the 65-year-old guar farmer, who looks after the property and belongings of neighbours who have migrated.

Today, Kumar rides every other day on his mule, strapped with two empty 30-liter drums, to the filtration plant to bring back water, he said.

Access to useable water is a key problem in drought-hit Tharparkar. Barely 5 percent of the population has access to clean and disease-free potable water, according to a study by Dow University of Health Sciences (DUHS) and the Pakistan Council for Scientific and Industrial Research (PCSIR).

One reason for this has been worsening fluoride contamination of underground water sources as less water recharges the drying system. The study found that the fluoride level at many locations in Tharparkar is at dangerous levels of over 13 mg/liter compared to the 1 mg/liter considered normal.

Excessive fluoride intake, from sources with more than 1.5 mg/liter of fluoride in the water, can cause problems such as bone deformation, dental problems, and damage to the kidneys and thyroid.

NO RAIN, NO RIVERS

Tharparkar depends heavily on rain-fed ground water, as it has no rivers. It receives an average annual rainfall between 200 and 300 millimetres, 80 percent of it during summer monsoon season, which runs from July to September. The rainfall recharges groundwater that must then last for the other three quarters of the year.

Since 2011, however, average annual rainfall each year has been less than 50 percent of normal, straining further already depleting groundwater resources, according to the Pakistan Meteorological Department.

"Given the current grim state of water woes, establishment of water purification plants is a welcome move," said Abdul Hafeez, the country manager at WaterAid - UK, a global water charity.

But water shortages in the area could be solved even more effectively by tripling the amount of rainwater harvesting going on in the district, he said.

(Reporting by Saleem Shaikh and Sughra Tunio; editing by Laurie Goering)

Our Standards: The Thomson Reuters Trust Principles.

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