Growing Water Crisis Poses Existential Threat to Pakistan

Pakistan has increasingly been suffering from cycles of severe droughts followed by massive floods in the last few years. This recurring pattern of shortage and excess of water gives us a preview of the growing challenge of climate change. This situation calls for a comprehensive water management effort to deal with a potentially existential threat to Pakistan.

Flood-Drought Cycles:

Before the summer floods of 2010, the Indus had turned into a muddy puddle in parts of Sindh. Britain's Financial Times reported at the the time that "angry farmers marched through villages in Sindh demanding access to water. Those who can no longer turn a profit in the fields are increasingly resorting to banditry or migrating to urban shanties".

Earlier, there was a 2009 report by the Woodrow Wilson International Center saying that the melting Himalayan glaciers have exacerbated Pakistan’s shortages. And the World Bank warned that Pakistan could face a “terrifying” 30-40 per cent drop in river flows in 100 year’s time. Now large parts of Sindh are under water for the second year in a row, destroying lives and standing crops.

Growing Water Scarcity:



According to the United Nations' World Water Development Report, the total actual renewable water resources in Pakistan decreased from 2,961 cubic meters per capita in 2000 to 1,420 cubic meters in 2005. A more recent study indicates an available supply of water of little more than 1,000 cubic meters per person, which puts Pakistan in the category of a high stress country. Using data from the Pakistan's federal government's Planning and Development Division, the overall water availability has decreased from 1,299 cubic meters per capita in 1996-97 to 1,101 cubic meters in 2004-05. In view of growing population, urbanization and increased industrialization, the situation is likely to get worse. If the current trends continue, it could go as lows as 550-cubic meters by 2025. Nevertheless, excessive mining of groundwater goes on. Despite a lowering water table, the annual growth rate of electric tubewells has been 6.7% and for diesel tubewells about 7.4%. In addition, increasing pollution and saltwater intrusion threaten the country's water resources. About 36% of the groundwater is classified as highly saline.

So what can Pakistan do to manage these disastrous cycles of floods and droughts?

1. Build Dams and Dykes:



As the flood disaster takes its toll yet again, there are reports of USAID and ADB considering funding the $12 billion Bhasha Dam in Pakistan. The project is located on Indus River, about 200 miles upstream of the existing Tarbela Dam, 100 miles downstream from the Northern Area capital Gilgit in Gilgit-Baltistan region. The dam's reservoir would hold so much water that it could have averted last year's devastating floods. It would also provide enough electricity to end Pakistan's crippling shortages, according to a report in the Guardian newspaper. The massive dam on the Indus river would provide 4,500MW of renewable energy, making up for a shortfall causing up to 12 hours of load shedding on daily basis across Pakistan. The reservoir would be 50 miles long, holding 8.5 MAF (million acre feet) of water.

In addition to large dams, there is also a need to build and maintain dykes and start other flood-control projects in flood-prone areas like Badin and Thatta in Sindh.

2. Conserve Water:

Building Bhasha and several other proposed dams will help in dealing with water scarcity, but the growing population will continue put pressure on the vital resource.



Serious conservation steps need to be taken to improve the efficiency of water use in Pakistani agriculture which claims almost all of the available fresh water resources. A California study recently found that water use efficiency ranged from 60%-85% for surface irrigation to 70%-90% for sprinkler irrigation and 88%-90% for drip irrigation. Potential savings would be even higher if the technology switch were combined with more precise irrigation scheduling and a partial shift from lower-value, water-intensive crops to higher-value, more water-efficient crops. Rather than flood irrigation method currently used in Pakistani agriculture, there is a need to explore the use of drip or spray irrigation to make better use of nation's scarce water resources before it is too late. As a first step toward improving efficiency, Pakistan government launched in 2006 a US $1.3 billion drip irrigation program that could help reduce water waste over the next five years. Early results are encouraging. "We installed a model drip irrigation system here that was used to irrigate cotton and the experiment was highly successful. The cotton yield with drip irrigation ranged 1,520 kg to 1,680 kg per acre compared to 960 kg from the traditional flood irrigation method," according to Wajid Ishaq, a junior scientist at the Nuclear Institute for Agriculture and Biology(NIAB).





Beyond the government-funded experiments, there is a drip irrigation company called Micro Drip which is funded by the Acumen Fund. Micro Drip develops and provides products and services as poverty alleviation solutions to small farmers in Pakistan’s arid regions. It provides a complete drip irrigation system along with agricultural training and after-sales support to enable farmers to extract a higher yield from their land at a much lower cost of input.

So what is holding up Pakistan's progress on water management?

1. Lack of Funds:

Pakistani government revenues continue to be limited by slow economic growth and widespread culture of tax evasion. The biggest culprits are the ruling feudal politicians who oppose any attempt to levy taxes on their farm income. The limited resources the state does have are usually squandered on political patronage doled out to ruling politicians' supporters in the form of capricious grants, huge loans (defaulted with impunity), and plum jobs in bloated government and the money-losing state-owned enterprises. The result of this blatant abuse, waste and fraud is that the budget allocations for vital long-term investments in education, health care and infrastructure development projects are regularly slashed thereby shortchanging the future of the nation.

2. Corruption and Security Concerns:

The NY Times recently reported that "Washington’s fears of Pakistani corruption and incompetence has slowed disbursal of the money". The story reinforces the widely-held view that even after the funding is arranged, the corrupt and incompetent politicians and their hand-picked civilian administrators make any development progress slow and difficult. Such problems are further exacerbated by significant security issues in parts of the country severely plagued by ongoing militancy.

Existential Threat:

The Taliban who get all the coverage do not pose an existential threat to Pakistan. Generations of military families have periodically fought FATA insurgencies. For example, Shuja Nawaz, the author of Crossed Swords says that his grandfather, his uncle and his cousin have all been deployed in Waziristan by the British and later Pakistani governments in the last century and a half. American withdrawal from the region will eventually calm the situation in Waziristan, and the rest of the country.

Climate change and the growing water scarcity are the main long-term existential threats to Pakistan and the region. Water per capita is already down below 1000 cubic meters and declining
What Pakistan needs are major 1960s style investments for a second Green Revolution to avoid the specter of mass starvation and political upheaval it will bring.

Related Links:

Haq's Musings

Growing Water Scarcity in Pakistan

Political Patronage in Pakistan

Corrupt and Incompetent Politicians

Pakistan's Energy Crisis

Culture of Tax Evasion and Aid Dependence

Climate Change in South Asia

US Senate Report on Avoiding Water Wars in Central and South Asia

Comments

Riaz Haq said…
Here's a Forbes story blaming drought as the main cause of an Indian farmer committing suicide every 30 minutes:

Bt cotton seeds are genetically modified to produce an insecticide that kills Bollworm, a common cotton pest in India. In 2002, the government of India allowed Monsanto to start selling Bt cotton to farmers in India. In the years since, Bt cotton has pervaded cotton farming in India.

As CHRGJ sees it, the problem is this:

Farmers take out loans to purchase the [Bt cotton] seeds, but when the crop fails due to lack of access to water, they often fall into debt. Many kill themselves by consuming the very pesticide they went into debt to purchase.

Bt cotton bears at least partially blame for these tragedies, according to CHRGJ, because it is more water intensive than other cotton seeds. The report cites studies showing that “Bt cotton performs better under irrigated conditions.”

In 2006, the Indian Institute of Management in Ahmedabad, India evaluated the performance of Bt cotton in India based on a survey of Bt cotton farmers and agricultural data. The final study concluded that the yields obtained with irrigation are typically higher than those without irrigation, but that:

in all cases, the yields of Bt cotton are higher than the yields of Non-Bt cotton . . . The results indicate a sizeable impact of Bt cotton on the yield and value of output under both irrigated and unirrigated conditions.

This finding is corroborated by the U.S. Department of Agriculture’s Long-term Agricultural Projections for last year, which described the impact Bt cotton has had on cotton yields in India:

Improved cotton yields in India, largely due to the adoption of hybrid cotton containing the Bt gene, have raised India’s production and exports in recent years. Yield growth is projected to continue as the area planted to hybrid cotton expands and cultivation practices improve. The increase in cotton output is expected to enable India to increase domestic textile production and exports. Its export volume has already surpassed those of Sub-Saharan Africa and Central Asia, and it is expected to maintain this rank throughout the forecast period.

In any event, it should not come as a huge surprise to most cotton farmers that access to water is essential to crop performance. Cotton is an especially thirsty plant. It can take more than 25,000 liters of water to produce a single kilogram of cotton. To put this in perspective, it takes only 500 liters of water to produce a kilogram of potatoes.


http://www.forbes.com/sites/williampentland/2011/05/18/every-30-minutes-an-indian-farmer-commits-suicide-biotech-is-not-to-blame/2/
Riaz Haq said…
Here's an Express Tribune update on Neelum-Jhelum hydroelectric project:

ISLAMABAD: As Water and Power Development Authority (Wapda) completes 28 per cent work on the 969MW Neelum-Jhelum Hydropower Project, the cost of which has gone up from Rs84 billion to Rs333 due to inordinate delay, Pakistan is pushing China to release the promised $500 million loan to bridge the shortfall of funds.

The cost of the project has increased after it was redesigned in the wake of the 2005 earthquake. Work on the project is progressing but the shortfall of funds and issues in land acquisition are still problems that need to be addressed to complete the project.

Wapda has also had to procure two Tunnel Boring Machines (TBMs) at the cost of Rs17 billion to overcome the delay of two and half years. “We will be able to reduce implementation time by two years by using TBMs that are expected to reach Karachi by January 25, 2012,” sources said.

Average completion level on the project is 28%. Some areas are progressing better, like the powerhouses, which are at 40% completion.

In the powerhouse, four turbines with a capacity of 242MW each will be set up. A separate plant of 45MW will also be set up at the diversion tunnel which was completed on October 15. A total of 60 kilometres of tunnels have to be completed including 35.6 kilometres of tunnels needed to push water to drive the turbines.

“As much as 17 kilometres have been completed,” sources said adding that work was underway on the coffer dam that is expected to be completed by February next year.

Sources said that a consortium of six banks including Exim Bank of China is providing financing for the project. “We are pushing Exim Bank of China to extend a $500 million loan to bridge the shortfall of funds,” sources said adding that other banks in the consortium were also being asked to extend additional $700 to $800 million loans.

The project cost has escalated on different accounts including Rs38 billion due as interest on loan, Rs45 billion on account of depreciation of rupee against dollar, from Rs45 to Rs86. Further cost increases were because of rate of land acquisition and procurement of two TBMs that cost Rs17 billion.

The government is to procure total 3,900 kanals of land out of which about 68 kanals is still outstanding, including the crucial portion of about 18 kanals for which payment of Rs1.2 billion has already been made to the AJK government.

“Despite payment, local people are reluctant to hand over land which may further delay the completion of the project,” sources added.


http://tribune.com.pk/story/302326/neelum-jhelum-project-pakistan-pushes-china-to-release-promised-500m/
Riaz Haq said…
US State Dept & Sen Feinstein defend US aid to Pakistan, according to Dawn:

WASHINGTON: The US State Department on Tuesday defended aid to Pakistan amid calls from senators for a full review of whether economic and military assistance there serves the US national interest.

“We believe our assistance to Pakistan still continues to provide dividends for the American people in trying to grow and strengthen Pakistan’s democratic institutions, boost its economy,” said spokesman Mark Toner.

“In the long term, you know, those are the kinds of things we’re seeking to achieve,” he told reporters one day after Republican Senators John McCain and Lindsey Graham made a full-throated call for reevaluating the aid.

His comments came shortly after US Senate Intelligence Committee Chair Dianne Feinstein said that cutting assistance to Pakistan would be unhelpful but warned that calls to do so had strong congressional support.

“I don’t think that’s useful,” she told reporters. “My understanding is that there’s some overtures under way to restore the relationship. Well, that’s fine, but I suspect that if a bill were to come to the floor which fenced money, the bill would have a good chance of passing,”she said.

US lawmakers have expressed mounting anger at Pakistan, accusing military and intelligence officials there of supporting the Haqqani network blamed here for attacks on US forces and targets in Afghanistan.

“I can only express my profound disappointment with the relationship” and the “deterioration” in an already troubled alliance that “goes up and down, and up and down, and up and down,” she said.

“My very strong feeling is you can’t walk both sides of the street with respect to terror,” said Feinstein.

Relations slid to a new low last month when Nato air strikes killed 24 Pakistani soldiers on the Afghan border, prompting Pakistan to boycott an international conference in Bonn on Afghanistan’s future.

“This is a very complex relationship,” Toner said, adding that the deadly border incident “was difficult for the Pakistani people, for the Pakistani government.”

“They have reacted in a way that shows how important and how significant this tragedy was for them,” Toner said.

“It’s absolutely essential that Pakistan, Afghanistan and the US, other international partners, work through this and beyond. It’s in all our interests.”

But Republican Senator Mark Kirk told AFP that McCain and Graham, who serve on the Senate Armed Services Committee, “are right.”

“Military aid to Pakistan is unsustainable, and in this time of deficits and debt, we ought to save the money,” he said, warning that if Pakistan has chose “to embrace terror and back the Haqqani network,” it should do so “without subsidies from the US taxpayer.

Kirk has also called for bolstering ties to India and “making India a military ally of the United States and to encourage India to fill the vacuum in Kabul once we leave.”


http://www.dawn.com/2011/12/07/us-state-dept-defends-pakistan-aid.html
Riaz Haq said…
ADB asks Pakistan to tie all loose ends to proceed with Bhasha dam construction, according to Daily Times:

The Asian Development Bank (ADB), the lead financer of the Diamer-Bhasha Dam on Tuesday suggested Pakistan to focus on resolution of revenue sharing issue between Khyber Pakhtunkhwa (KP) and Gilgit Baltistan (GB) as well as affected population and address issues of environment degradation for smooth execution of the mega project.

ADB’s Head of Energy Division Rune Stroem while speaking to a select group of journalists along with the ADB’s Country Director to Pakistan Werner Liepach after conclusion of his visit to Pakistan aimed at ‘critically reviewing the mega project’. He said, “ADB is fully aware that there will be strong debate on revenue sharing and ADB can give advice but at the end the issue will have to be decided by the Council of Common Interests.” The KP government is disputing over the ownership of 18 kilometres long belt with GB government in a bid to get share in income from the power generation. The GB legislative assembly has passed the resolution against the provincial government claim and intends to take the matter to the Supreme Court if it is not amicably resolved.

“Pakistan has not been focusing on social aspects of the project as much as one could hope,” Stroem said and added that the success of the project hangs on local people satisfaction with resettlement activities. “The resettlement work has been done but still there are gaps where the government needs to bring in improvement as per international standards,” he added.

Explaining the gaps, Stroem said individual activities were going on at relatively small scale and lots of pilot projects have been initiated. He said the legal dispute over sharing of revenues between GB and KP has to be worked through and on environment no sufficient work has been done yet.

Stroem said there was a need to ensure minimum water flows during storage to offset negative impact on the environment. He said no water flows at the time of construction and storage will have adverse affects.

Having an estimated cost of $11.20 billion the project is planned to be completed in 12 years that will generate 4,500 megawatts (MW) electricity besides storing 8.5 million acres feet water for agriculture purposes. The project’s groundbreaking has been performed twice. The ADB official said that the agency has not yet fully assessed the price and completion period but the total cost may change due to price escalation.

Stroem said that an unwritten agreement has been reached with the government. According to that the ADB will play its role as senior lender, co-financer and will be the financial adviser to Pakistan on the project. He said next week both the parties will review the draft of the Memorandum of Understanding that clearly defines the role of the ADB in project execution.

He said the project can’t be donor-driven instead the government is the primary driver and it’s cognizant of the fact. The ADB was helping the government to structure the project and make it bankable. “It is the most complex and the most comprehensive project the ADB has ever financed.”

Liepach said that the ADB has not yet framed clear views on the dam financing requirements but the export credit will be major source of financing. Other than the export credit the international financial institutions and commercial financing would also be availed to complete the project, he added. Stroem said the Water and Power Development Authority will evaluate the bids for the project but the ADB will also review to ensure transparency. The ADB has strong anti-corruption policies and the agency’s involvement will give more credit to the project, he added.


http://www.dailytimes.com.pk/default.asp?page=2011\12\14\story_14-12-2011_pg5_9
water testing said…
Water protects 70.9% of the Global exterior,and is important for all known types of everyday life.On Soil, 96.5% of the global water is discovered in sea, 1.7% in groundwater, 1.7% in snow and the ice limits of Antarctica and Greenland, a little portion in other huge water systems, and 0.001% in the air as steam, atmosphere (formed of strong and fluid water debris hanging in air), and precipitation
Riaz Haq said…
Here's an excerpt from an Express Tribune Op ed on water-food-energy triangle:

Food production requires water and energy, the extraction of water requires energy, and energy production requires water. Food prices are highly sensitive to energy costs – which indirectly affect the GDP of a country as high costs of processing, irrigation, fertiliser and transportation affect production and lead to lower exports.

This nexus poses a challenge to governments and population. The lack of energy security, lower agriculture yields and higher cost of relief goods is leading us towards unrest and uncertainty. This threatens our masses, our government and our business as 70 % of our country’s production is dependent on our agricultural sector.

Hunger and poverty are on the rise while we remain clueless about the future. Our reservoirs need to be secure and more dams need to be constructed faster, as draught and famine are fast turning into a possibility.

Agriculture, in Pakistan or elsewhere, consumes more than 70% of global water demand. For example, countries that produce meat require up to 20,000 litres of water for every kilogramme of meat produced, compared to at least 1,200 litres to produce a kilogram of grain. We do not realise the need for secure water resources due to illiteracy and lack of community awareness.

Climate change, in the shape of torrential rains, has also affected our country; we are one of the few countries facing a chronic food emergency today.

Economists forecast that global demand for energy will increase by 40% by 2030, and that this energy will draw heavily on freshwater resources. Over 75% of global demand for energy from 2012-2030, will be dependant on fossil fuels – predominantly coal. The Thar coal reserves need to be developed rapidly, as this is the only way to ensure job security, resource mobilisation, income and prosperity for the population. It makes good business sense for leaders to work on this. Furthermore, we have to ensure fast-tracked building of dams between now and 2015, a failure to do so may lead us to bankruptcy, as people will lose faith in the nation’s ability to sustain itself and business will suffer colossal damages.

We need good business and we need to understand the difference between dependency on others and self reliance. Bad governance is a major issue in Pakistan, eating up business and politics and leading us to ruins. Pakistan faces risks ahead as its next big war will not be over power or money – it will be over food, water or energy. All are vital as we struggle to survive. For Pakistan, failure is not an option.


http://tribune.com.pk/story/351745/the-food-water-energy-nexus--pakistan-walking-a-tightrope/#comment-617375
Riaz Haq said…
Here's an AFP report on World Bank loaning over a billion dollars to Pakistan for hydro energy and drip-sprinkler irrigation projects:

The World Bank said Tuesday it would fund two projects totaling $1.09 billion, in energy and irrigation, aimed at supporting Pakistan's growth agenda for reducing poverty.

The World Bank's executive board approved the projects Tuesday, the development lender said in a statement.

The $840 million Tarbela IV Extension Hydropower Project will add power generation capacity of 1,410 megawatts, contributing a crucial source of electricity for the economic growth and development of Pakistan, the World Bank said.

Only 15 percent of Pakistan's vast hydropower potential has been developed, the Bank noted.

The Tarbela IV Extension Hydropower Project will use the existing dam, tunnel, roads and transmission line for generating additional electricity in summer months when demand for electricity and river flows are high, it added.

"The beauty of this project is that it will help Pakistan reduce the gap between supply and demand of electricity by maximizing the benefits of existing infrastructure of Tarbela Dam without requiring any land acquisition or relocation of population," Rachid Benmessaoud, World Bank country director for Pakistan, said in the statement.

"The direct beneficiaries will be millions of energy users, including industry, households and farmers who would get more electricity at a lower cost and suffer fewer blackouts."

The $250 million Punjab Irrigated Agriculture Productivity Improvement Program Project is aimed at getting maximum productivity out of irrigation water by weaning farmers away from the traditional and "wasteful" flood irrigation, the Bank said.

The project will emphasize more modern methods like drip and sprinkler irrigation systems, which in turn will encourage crop diversification, it said.

The hydropower project includes a $400 million, 21-year loan from the Bank's International Bank of Reconstruction and Development that includes a grace period of six years.

The remaining $440 million of the Tarbela project and $250 million for the irrigation project are credits from the International Development Association, the World Bank's concessionary lending arm.

These 25-year loans have a 1.25 percent interest rate and a five-year grace period, the Bank said.


http://www.google.com/hostednews/afp/article/ALeqM5gC8sjJnQh2zAV1dxx-fMAZlKG0FA?docId=CNG.cc5ff6942ce75ef4fd87ae4d1d3fa477.51
Riaz Haq said…
Here's Daily Times on ongoing hydroelectric dams and irrigation canals construction in Pakistan:

The prime minister said that the timely completion of hydropower projects was vital for controlling floods along with mitigating water and power shortfall. The government is prioritising the water storage projects, he added.

Raja directed the WAPDA chairman to expedite the work on Kachhi canal, Rainee canal, RBOD-1 and RBOD-III. These projects would be instrumental in controlling the floods as well as for irrigation purposes, he added.

The chairman apprised the prime minister about the progress on eight ongoing projects with cumulative capacity of about 1,500 megawatts (MW).

Out of these, six projects of about 400 MW including Jinnah Dam 96 MW, Gomal Zam Dam 17MW, Satpara Dam 17 MW, Allai Khwar 121 MW, Duber Khwar 130 MW and Jabban Dam 22 MW would be completed in 2012 while the work on Neelum-Jhelum with production capacity of 969 MW and Golen Gol with capacity of 106 MW was progressing at full swing, said the chairman.

The prime minister directed the chairman to take up work on small and medium-sized dams especially in Balochistan and FATA on priority. The prime minister also directed WAPDA chairman to work on war footing to repair the breaches in the canal networks affected by recent floods in Sindh and Balochistan, so that the infrastructure could be restored.


http://www.dailytimes.com.pk/default.asp?page=2012\09\25\story_25-9-2012_pg5_4
Riaz Haq said…
Here's a piece on how low Pakistan is on water with just one-month storage left:

Pakistan is one of the most vulnerable countries in the world to the impacts of climate change due to its location, population and environmental degradation. According to a 2013 report from the Asian Development Bank, Pakistan has one month of water supply on hand. The recommended amount is 1,000 days. 80 percent of Pakistan’s agriculture relies on irrigation from the overstressed water system.
Pakistan’s average temperature is expected to increase around 3 degrees Celsius within the next 50 years — this will make food and water challenges even more taxing. A new study published in the journal Nature Climate Change concludes that people are already migrating out of the Pakistan for just these reasons.
The study, which focuses on rural Pakistan, found “that flooding — a climate shock associated with large relief efforts — has modest to insignificant impacts on migration. Heat stress, however — which has attracted relatively little relief — consistently increases the long-term migration of men, driven by a negative effect on farm and non-farm income.”
It goes on to state that “agriculture suffers tremendously when temperatures are extremely hot … wiping out over a third of farming income.”
For those in Pakistan relying on the large timber industry for their livelihoods, the outlook is also grim. Deforestation is a major problem in Pakistan, with the country only retaining between two and five percent of its tree cover. About 43,000 hectares, or 166 square miles, of forest are cleared annually. According to the U.N. Food and Agriculture Organization, this is the highest deforestation rate in Asia.
Deforestation is not an easy problem to address. Each of Pakistan’s five provinces has its own deforestation laws. There is a strong timber mafia that has a hold over many local and timber officials. And recently a shortage of natural gas for heating and cooking has led to an increase in the country’s middle-class cutting down trees for energy use. Pakistan’s population has more than quadrupled since it was founded in 1947, and the country now has an estimated 180 million residents. Deforestation contributes to flooding, and in 2010 Pakistan experienced devastating floods after a strong monsoon season that killed around 2,000 people.
“There is no doubt that deforestation is threatening the livelihoods of many poor people in our country who depend on the forests for their fuel and livelihood needs,” Syed Mohammad Ali, a development consultant, wrote in an op-ed last year. “Deforestation is also blamed for exacerbating the damage caused by natural disasters such as floods and landslides, since the absence of tree cover causes soil erosion and diminishes groundwater absorption. Researchers have also identified deforestation as a major factor behind expansion of the country’s heat zone, reduced flow in the Indus River as well as shrinkage of the Indus River Delta.”
In December the World Bank gave Pakistan nearly $4 million to study deforestation and how to address it. Naeem Ashraf Raja, the director of Pakistan’s biodiversity program, told the Washington Post that “officials also hope to convince the United States and other foreign donors to help launch programs to compensate landowners who agree not to cut trees......


http://thinkprogress.org/climate/2014/02/03/3238781/deforestation-water-energy-pakistan/
Riaz Haq said…
KARACHI: Asia's largest reverse osmosis plant, having a capacity to produce two million gallons of water daily, was inaugurated today in Pakistan's drought-ridden Sindh province.

The plant which is billed to produce two million gallons of water per day is expected to reduce the water crisis in Tharparkar district where last year hundreds of children have lost their lives by drinking untreated water.

Former President Asif Ali Zardari inaugurated the plant. Zardari, who is also co-chairman of the Pakistan Peoples Party which heads the province, said his party was committed to provide clean drinking water to the people of the area.

Zardari said Asia's biggest RO plant has been set up at a cost of Rs 300 million while many smaller plants having a capacity of 10,000 gallons per day have also been set up across the region at a cost of around Rs 2.5 million each.

The Sindh government plans to install 300 reverse osmosis (RO) plants in water-starved regions of the province by February.

The number of the ROs already made operational is 150. Irshad Hussain, the chief operating officer of Pak Oasis, the company that has been working in Thar's water sector since 2004, said the government had allocated Rs 5.4 billion allocated to set up RO plants in the region.

He said these plants can be operated through electricity or solar energy and steps were being taken to convert most of the filter plants to solar energy.

"It is solar energy that matters here in this region as it makes operation of ROs cost effective," he added.

Taj Haider, a senior PPP leader who is overlooking the operation in the region said: "For years now people living in the region have had to travel several kilometres to fetch a few buckets of clean water from reservoirs in their area. The situation is going to change now for the people of Tharparkar.

Reverse osmosis plant uses a purification technology that remove salts and other pollutants from water.


http://articles.economictimes.indiatimes.com/2015-01-07/news/57791724_1_water-sector-osmosis-water-crisis
Riaz Haq said…
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.




"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.

---

http://www.scientificamerican.com/article/drought-hit-pakistan-turns-to-solar-water-treatment1/
Riaz Haq said…
The leaders of the University of Utah and Mehran University of Engineering and Technology traded memorandums of agreement Tuesday in the new campus law building, formalizing an academic partnership for water research.

Although the signing of a memorandum of agreement does not bind either party by law to uphold agreements made regarding the project, the documents are treated with the highest respect by both institutions.

"Utah and Pakistan surely share common ground in this sector. We both cope with water scarcity and the need for better ground management," University of Utah President David Pershing said.

The partnership will serve as a model of cooperation, address critical water issues and train the next generation's water professionals, Pershing said.

The educational partnership is part of a program known as United States-Pakistan Centers for Advanced Studies in Water and is funded by the United States Agency for International Development.

Academic programs resulting from the project will include master's and doctorate degrees in three water disciplines at Mehran University, which provides many opportunities for research and will be the primary center for the project because it's located in the water-stressed Sindh province of Pakistan.

According to M. Aslam Uqaili, vice chancellor of Mehran University, the higher education institution received nearly 500 applicants for 50 positions in the upcoming academic water programs.

Meanwhile, U. faculty, staff and students will have several research opportunities as they collaborate with Pakistani academics and five other partner institutions, including Colorado State University.

"It aligns very well with strategic priorities of our institution," said Ruth Watkins, head of academic affairs at the U.

Watkins said the partnership will help bring in expert faculty to the University of Utah, assist in achieving the school's environmental goals, and increase the presence of women in technology and science.

Participating parties are also hoping the pending research will address four overarching water problems in Pakistan: surface and groundwater availability, hazard and risk management, environmental quality, and climate change.

"The situation in Pakistan, as far as water scarcity is concerned both for human consumption as well as for agriculture, is something that really does need to be tackled," said Hamid Asghar Khan, consul general of Pakistan in Los Angeles.

In some areas of Pakistan, young children die from the lack of proper drinking water, Khan said.

Finding water solutions Pakistan is just the beginning. United States Agency for International Development officials are hoping new technology will be applicable to other water-stressed regions throughout the world.


http://m.deseretnews.com/article/865634357/Utah-and-Pakistan-educational-institutions-team-up-to-solve-water-issues.html
Riaz Haq said…
#Pakistan using #NASA satellite images to monitor, manage groundwater resources. http://phy.so/376039608 via @physorg_com

Pakistan's water managers are looking to NASA satellites to help them more effectively monitor and manage that precious resource, thanks to a partnership with engineers and hydrologists at the University of Washington, Seattle.
"Satellites up in space looking at how much water we have underground, in rivers or in the atmosphere are providing routine observations that can help policymakers and on-the-ground managers make informed decisions," said Faisal Hossain, associate professor of civil and environmental engineering at the University of Washington. "From offering improved flood forecasting to indicating areas where groundwater resources are threatened, freely available satellite data can be an invaluable resource, particularly in developing countries."

After training at the University of Washington, the Pakistan Council of Research in Water Resources in January 2016 began using satellite data from NASA's Gravity Recovery and Climate Experiment, or GRACE, mission to create monthly updates on groundwater storage changes in the Indus River basin. This will allow them to see where groundwater supplies are being depleted and where they are being adequately recharged. Like all NASA satellite data, GRACE data are freely available for download from open NASA data centers (GRACE Tellus and the Physical Oceanography Distributed Active Archive Center) at NASA's Jet Propulsion Laboratory in Pasadena, California.
GRACE's pair of identical satellites, launched in 2002, map tiny variations in Earth's gravity. Since water has mass, it affects these measurements. Therefore, GRACE data can help scientists monitor where the water is and how it changes over time. Using tools developed by the University of Washington and partners at the University of Houston; Ohio State University, Columbus; and NASA's Applied Sciences Program, Pakistan's water managers and researchers can analyze the NASA data to estimate changes in the total amount of available water, as well as changes in groundwater supplies.

"Using these satellites, we can indicate the areas that are most threatened by groundwater depletion. We can tell the farmers and water managers and help decision makers formulate better and more sustainable policies," said Naveed Iqbal, an assistant director and hydrogeologist at the Pakistan Council of Research in Water Resources. Iqbal spent six months at the University of Washington learning how to analyze and process the GRACE data to enhance decision-making at his agency.
GRACE project scientist Carmen Boening of JPL, which manages the GRACE project for NASA, said, "This is another great example of the unique ability of GRACE to see changes in water resources on a regional scale and provide easily accessible information where data are otherwise limited."
Compared to traditional groundwater monitoring efforts, the satellite information offers less spatial resolution but huge benefits in terms of cost and efficiency. For example, Pakistani water managers spent eight years building a groundwater monitoring network in the Indus River basin alone, and that network provides readings only twice a year.
"It's so fundamentally difficult to do this monitoring in a conventional way—sending people and sticking probes in the ground to measure water. It takes a long time and it's expensive," said Hossain, who runs the University of Washington's Sustainability, Satellites, Water and Environment Research Group. "In some places you can't even send people because the terrain is too remote or there is mortal danger due to insurgency and political strife."
Riaz Haq said…
Excerpts from a right-wing Hindu publication hindunet.org on the history of water issues between India and Pakistan:


Following the partition of the sub-continent, India and Pakistan signed a "standstill agreement" on 18 December 1947 which guaranteed to maintain water supplies at the level of allocation in the pre-partition days. However, on 1 April 1948, India without any warning cut off supplies to Pakistan from both Ferozepur and Gurdaspur. The action was contrary to the letter and the spirit of the international law covering interstate river waters. The Barcelona Convention of 1921 on interstate river waters to which India was a signatory disallowed every State to stop or alter the course of a river which flowing through its own territories went into a neighbouring country and also forbade to use its waters in such a way as to imperil the lands in the neighbouring State or to impede their adequate use by the lower riparians. But India as the upper riparian of the Indus rivers was in a position of strength. India could deflect the Beas into the Sutlej above Bhakra or divert the Ravi into the Beas at Madhopur. It could construct a dam on Wular lake in the Kashmir valley and dry up the river Jhelum. A headwork on the Chenab at Dhiangarh, north of Jammu, could deflect the Chenab from its natural course into Pakistan. The major projects of the Bhakra, Pong and Thein dams then in the offing, if completed, could drain off the rivers of Sutlej, Beas and Ravi.

------


The Indus water Treaty was signed at Karachi on 19 September, 1960 by Prime Minister Nehru and President Ayub Khan. Under the agreement India promised to supply waters to Pakistan for the payment of expenses for operating the Madhopur and Ferozepur head works and their carrier channels, and also to contribute Rupees 100 crore for construction of replacement headworks to Pakistan.


http://www.hindunet.org/hindu_history/sarasvati/sarasvati_river/punjabriverwaters.html
Riaz Haq said…
From Sashi Tharoor:


‘isolation’ is a bigger challenge for New Delhi this time: Firstly, because Uri involved fewer victims than Mumbai; secondly, because they were soldiers, not civilians as in 26/11; and thirdly, because various countries have bilateral reasons not to isolate Pakistan.
The US needs Pakistan because of Afghanistan, and China has major strategic interests there, especially a $46 billion economic corridor that is China’s single biggest overseas development project. As long as major powers choose to stay engaged with Pakistan, overlooking its misbehaviour, diplomatic isolation will have its limitations as a policy.

‘Surgical’ airstrikes seem superficially attractive, not least because, in Eliot Cohen’s marvellous formulation, they are an option rather like modern courtship — they offer the possibility of gratification without commitment. You fly from a great height, drop a few bombs and come back home, without taking the issue any further, leaving your victims to contemplate the smoking ruins.

What about Pakistani retaliation, which is sure to be swift and perhaps disproportionate? At what point do you stop the punishment that will inevitably provoke more reprisals? And what about the international opprobrium you will incur for violating the LoC or worse, breaching an international frontier?

Above all, what about the ancillary risks of further escalation? India’s overriding priority is economic development, which requires foreign investment and a peaceful climate for economic growth. How does that square with the military adventurism being advocated by our armchair generals? Investors, naturally, do not like to invest in war zones. Can we afford to drive away the funds without which we cannot pull our people out of poverty?

The possibility of India revisiting the Indus Waters Treaty signed with Pakistan in 1960 has also aroused some strategists, and even MEA spokesperson Vikas Swarup, who said pointedly that “any cooperative arrangement requires goodwill and mutual trust on both sides”.
Under the treaty, India has control over three eastern rivers — Beas, Ravi and Sutlej —and Pakistan the western rivers of the Chenab and Jhelum. Swarup darkly hinted that it was in jeopardy: “For any such treaty to work, it is important there must be mutual trust and cooperation. It cannot be a one-sided affair.”
But the treaty under which the waters of the Indus and its five tributaries are distributed between the two countries is not purely a bilateral affair; it was brokered by the World Bank, whose involvement will be automatically triggered if India unilaterally abrogates it.

Nor can it be done like turning off a tap; various measures would be required to ensure that Indian cities do not get flooded with the water that is no longer flowing to Pakistan.


https://www.thequint.com/uri-attack/2016/09/25/scrapping-the-indus-treaty-will-isolate-india-globally-tharoor-modi-kozhikode-uri-terror-attack-kashmir-mumbai-26-11
Riaz Haq said…
Indian media on Bunji and Bhasha dams in Gilgit Baltistan:

China To Invest $27 Billion In Construction Of Two Mega Dams In Pakistan-Occupied Gilgit-Baltistan

https://swarajyamag.com/insta/china-pakistan-plan-for-construction-of-two-mega-dams-in-gilgit-baltistan

China and Pakistan have inked a memorandum of understanding (MoU) for the construction of two mega dams in Gilgit-Baltistan, a part of India’s Jammu and Kashmir state that remains under latter’s illegal occupation. The MoU was signed during the visit of Pakistan’s Prime Minister Nawaz Sharif to Beijing for participation in the recently concluded Belt and Road Initiative.

The two dams, called Bunji and Diamer-Bhasha hydroelectricity projects, will have the capacity of generating 7,100MW and 4,500MW of electricity respectively. China will fund the construction of the two dams, investing $27 billion in the process, a report authored by Brahma Chellaney in the Times of India has noted.

According to Chellaney, India does not have a single dam measuring even one-third of Bunji in power generation capacity. The total installed hydropower capacity in India’s part of the state does not equal even Diamer-Bhasha, the smaller of the two dams.

The two dams are part of Pakistan’s North Indus River Cascade, which involves construction of five big water reservoirs with an estimated cost of $50 billion. These dams, together, will have the potential of generating approximately 40,000MW of hydroelectricity. Under the MoU, China’s National Energy Administration would oversee the financing and funding of these projects.
Riaz Haq said…
#Mobile #CellPhone & #Satellites Improve #Farming in #Pakistan. #Irrigation #Agriculture #Water #Technology

https://learningenglish.voanews.com/a/mobile-phones-improve-farming-in-pakistan/3922948.html

Mobile phones and satellites are becoming valuable farming tools in Pakistan.

A new program there uses satellite information to estimate how much water a field needs. The satellite then sends this information by text message to farmers' mobile phones.

The program’s aim is to prevent the farmers from overwatering crops. A 2013 report from the Asian Development Bank says Pakistan has some of the most severe water problems in the world. The country’s water availability is similar to Syria’s, where a lack of rainfall has intensified civil war.

Pakistan is only able to store water that can last up to 30 days. That is far below the recommended storage amount of 1,000 days.

Several issues have led to Pakistan’s water crisis. They include climate changes, a growing population, local water mismanagement and a greater demand on farmers.

Many fear the water crisis could weaken relations between Pakistan and India. The two countries share the Indus River.

Turning off the water

Many older Pakistani farmers received agricultural training several years ago, when water was more readily available. They know the risks that come with underwatering crops.

But using too much water can reduce crop harvests.

The Pakistan Council of Research in Water Resources found that rice farmers were using more than three times as much water as they needed.

The council asked the Sustainability, Satellites, Water, and Environment research group, at the University of Washington, to get involved. The council wanted the research group to use science to help inform irrigation choices.

Pakistan's program started with 700 farmers in the spring of 2016. By January, 10,000 farmers were receiving text messages with a water amount advisory. For example, one message read: "Dear farmer friend, we would like to inform you that the irrigation need for your banana crop was 2 inches during the past week."

The messages come from a fully-automated system. It uses publicly available satellite information. It also uses models to compute how much water each farmer needs to irrigate.

A national effort

The council plans to expand the program for use across the country, and expects millions of farmers to participate. But first the system must be reviewed.

The researchers want to know how easy it is for farmers to use, and how many follow the irrigation advisories. They also want to know how accurate it is and whether it saves farmers money.

They are collecting responses from farmers over the phone.

Faisal Hossain is with the University of Washington. He says he has not seen a report on the results yet. However, the group heard from one farmer in the program who said he was able to get about 700 kilograms more wheat than his neighbor. The farmer said he believes the irrigation advisories made this possible.

Expanding the program may be difficult. The council may need to work harder to persuade farmers to trust the technology. Those working on smaller farms may not feel comfortable depending on mobile phone technology.

Mobile phones are already very common in Pakistan, however. And last year the Punjab government announced that it would give out 5 million smartphones to farmers.

Riaz Haq said…
Restore Pakistan’s rivers, handle floods, droughts and climate change
Managing river systems can help Pakistan manage floods, deal with droughts, create engines for a green economy, as well as help mitigate greenhouse gas emissions more effectively and more cheaply than big dams, argue Hassan Abbas and Asghar Hussain

https://www.thethirdpole.net/en/2019/07/12/restore-pakistans-rivers-handle-floods-droughts-and-climate-change/


A recent study published by Springer in 2019 – The Hindu Kush Himalaya Assessment (authored by 210 scientists from 22 countries), warns that these mountains could lose between one-third to two-thirds of its ice fields by 2100. Melting glaciers at this scale will initially result in greater river flows by 2050-60, increasing the risks of heavier floods, bigger landslides, excessive soil erosion, dam busts and silting of reservoirs etc. As the glacial melt begins to decline subsequently, that pattern is predicted to reverse, especially in the dry summer months, resulting in harsher droughts, and lower energy output from hydropower dams. But worst of all, tensions between neighboring communities and countries would likely increase over shared water resources.

Global warming due to greenhouse gas (GHG) emissions results in higher air and ocean temperatures. Warmer oceans mean more evaporation from the oceans, and warmer air means more moisture holding capacity of the air – resulting in bigger and heavier clouds, and bigger and heavier precipitation (rains and snow fall) events. Studies have also pointed out that higher energy in the atmospheric system is pushing the storms and clouds further north and south from the equator, depriving some regions which used to receive rains while increasing rains in others.

The case of Pakistan is unique due to the presence of the world’s tallest mountains in the north. On the one hand, the mountains would block the clouds from moving further north, and on the other, bigger and heavier clouds would drop heavier loads of water in the mountains, ultimately bringing more water into the rivers. Many scientific studies have predicted increased net precipitation in South Asia as a consequence of global warming.

In sum, Pakistani rivers will initially have more water in the drier summer months due to higher glacial melting until 2050-60, and thereafter much less; the wetter months, however, will see bigger and heavier clouds that would bring more water in the rivers; and, with more energy in the system, the frequency and severity of the extreme events, longer droughts and heavier flooding, would increase.

The current-day science, therefore, provides us with a basis to decide upon the dos and don’ts of a climate change strategy that has to deal with longer droughts, heavier flooding, and GHG emissions. What we need, therefore, is to (i) learn to live with larger floods; (ii) improve our capacity to survive longer droughts; and (iii) invoke engines of green economy that help reduce GHGs and enhance sequestration of atmospheric carbon dioxide.

Riaz Haq said…
Restore Pakistan’s rivers, handle floods, droughts and climate change
Managing river systems can help Pakistan manage floods, deal with droughts, create engines for a green economy, as well as help mitigate greenhouse gas emissions more effectively and more cheaply than big dams, argue Hassan Abbas and Asghar Hussain

https://www.thethirdpole.net/en/2019/07/12/restore-pakistans-rivers-handle-floods-droughts-and-climate-change/

Let us start with flood management, and specifically the lessons learnt from the floods of 2010. These brought in an estimated flood volume of 48 million acre feet (MAF) – more than four times the combined capacity of all dams in the country, which inundated 14.8 million acres to an average depth of 3.28 feet (1 metre). The inundation in most districts of (Pakistan) Punjab and Sindh lasted from three to four months. The large extent and long duration of inundation points to the fact that the natural landscape of the Indus Basin has developed in a way that does not facilitate free drainage on the one hand. On the other, the landscape lacks the natural capacity to absorb floods. The scale of these floods cannot be handled with existing or even additional dams. Moreover, the hydrological regime predicted for the future has more silt to choke reservoirs, bigger flood waves threatening dam bursts and little water in summer to generate hydropower. Under such regimes, thinking of building more dams even for hydropower, let alone control flood, is a risky affair.

Many national and international studies after that 2010 floods concluded that structural impacts such as backwater flow from barrages, restricted flood-carrying capacity of rivers due to engineered dykes and levees, high embankments of canals in the flood plains, and destruction of wetlands and riverine forests for agriculture combined to cause river avulsions and levee failures. The engineering and development of the Indus basin, in other words, exacerbated the flood damages. The structures could only avoid disasters within their design capacity, but beyond that, they made people even more vulnerable.

Climate change has added a layer of uncertainty on the estimation of engineering design parameters such as ‘maximum probable floods’, which are generally based on historical data. Putting cascades of dams along the rivers and constructing higher dykes to restrict river’s flooding would only increase the damages in case of failure.

See Indus cascade – a disaster in the making

See Indus cascade a Himalayan blunder

Restoring capacity of riverine corridors

Management of riverine corridors and active flood plains is the key to managing large and frequent floods. What we need is to restore the capacities of riverine corridors to pass bigger floods, rehabilitate lost wetlands to absorb flood peaks, and regenerate forests in floodplains to break flood velocities and complement aquifer recharge. The estimated area of Pakistan’s riverine corridors and active floodplains is approximately 21,000 square kilometres as shown on the map. These areas are government-owned lands along 3,186 kilometres of the rivers with an average width of 6.6 kilometres. With proper management of wetlands and forests in this area, it could hold and recharge between 30 to 50 MAF of water during a flood.
Riaz Haq said…
The changing world means changing spending patterns and living habits at home as well as abroad. Pakistan is now the world’s fastest-growing retail market, partly thanks to the fact that disposable income has doubled since 2010. The number of retail stores, which is forecast to rise by 50 per cent between 2017 and 2021, is also being driven by the two-thirds of the populace under the age of thirty—and by the changing attitude to money among the young, who want to enjoy a good lifestyle now rather than save to enjoy one later.

Frankopan, Peter. The New Silk Roads (pp. 14-15). Knopf Doubleday Publishing Group. Kindle Edition.

Water is also a problem in South Asia, where India’s construction of the Kishanganga dam and hydroelectric plant has been a source of great concern for the government of Pakistan, who argue that these projects violate the treaty of 1960 that split the water resources of the Indus River between Pakistan and India. Anxieties about the dam, which was formally opened in May 2018, have been heightened by proposals to build as many as twelve hydroelectric plants on the River Kabul in Afghanistan—which would put further pressure on the resources of cities like Karachi, whose population is growing at more than 5 per cent per year and whose water board is only able to supply 50 per cent of its needs as it is.43 Not surprisingly, the Kishanganga

Frankopan, Peter. The New Silk Roads (p. 37). Knopf Doubleday Publishing Group. Kindle Edition.

dam has been referred to the International Court for Arbitration, and, perhaps equally unsurprisingly, the dispute has resulted in recriminations, soul-searching and suspicions of sabotage and conspiracy in the press in both India and Pakistan.44 Then there is the impact of climate change, which according to recent research will cause the Urumqi Glacier No. 1 to lose some 80 per cent of its ice volume in the next three decades—which will have obvious implications for Central Asia as well as for western China, where this and other glaciers play an important role in providing water for rivers but also as standby resources in times of drought.45

Frankopan, Peter. The New Silk Roads (p. 37). Knopf Doubleday Publishing Group. Kindle Edition.
Riaz Haq said…
Tending orchards in Thar desert — without flowing water
A farmer is using clay pitchers to irrigate his orchard and crops, using 70 per cent less water than conventional methods.

https://www.dawn.com/news/1571967



Most of the inhabitants of the Thar desert can grow crops only after a downpour has transformed the arid land into lush greenery. But Allahrakhio Khoso, a 60-year-old farmer, does not need to wait for rain.

In the city of Nagarparkar, in the shadow of the Karoonjhar mountains, Khoso has made an orchard in the desert a reality by using matkas or pitchers — an everyday object more commonly found in the home than in the field.

After eight years, Khoso has 400 berry trees, 70 lemon trees, three mango trees and four pomegranate trees. He grows vegetables such as okra, bitter melon, onions, chilies and tinda (a type of squash), as well as watermelon, on his land in the district of Tharparkar.

Khoso can grow berries, lemons, mangoes, pomegranates, watermelon and vegetables. — Photo by Zulfiqar Khoso
In pitcher irrigation, a large clay pot with a wide bottom and narrow top is buried in the ground and filled with water. The water is slowly released into the surrounding soil and absorbed by the roots of nearby plants, minimising the amount of precious liquid lost to evaporation.

In pitcher irrigation, a large clay pot is buried in the ground near a plant and filled with water. — Photo by Zulfiqar Khoso
Water in the desert
Rich in coal but poor in water, Thar is the largest desert zone in the province of Sindh. Its residents depend on rainfall; most people fetch their daily water from wells and store rainwater in water tanks. In summer, many wells run dry and groundwater becomes brackish.

To this day, some wells are dug without modern machinery. Recently four workers dieddigging a well when the walls fell in on them.

Water is so important a commodity that it even features in marriage negotiations; before a proposal is accepted, the parents of a bride will ask the groom’s family how close the nearest well is. In greetings, people also ask about sweet water wells.

Nevertheless, living in the desert does not mean thirst and poverty are inevitable.

How does pitcher irrigation work?
"Many years back, one of my friends came to visit our village and he discussed pitcher irrigation," said Khoso. "I got the idea and started working on it. In the beginning, it was quite hard but now it looks very simple. I thought that if I could make my farm green without rainwater, then I should go for it."

Khoso has made an orchard in the desert a reality. — Photo by Zulfiqar Khoso
To install a new pitcher, Khoso first makes a small hole in the bottom of a pitcher. He puts a rope through the hole, then buries the pitcher, packing mud and sand tightly around it. This leaves only the mouth of the pitcher exposed, which Khoso fills with water. The water seeps through the porous clay and soaks through the rope into the sand, where it is absorbed by the roots of the crops he has planted close by. As well as natural fertilisers, Khoso uses mud from Virawah, a city near Nagarparkar where there is an ancient lake.

Each pitcher is two to three feet wide and holds 10 litres of water, which will irrigate the soil for 15 to 20 days. New pitchers are better for irrigation because they are more porous and, once in place, will last three years. Khoso fetches water roughly every 10 days — there is a well on his farm, and another nearby.

For trees, Khoso uses one pitcher per plant; sometimes two pitchers for mango trees, planting trees 25 feet (7.6 metres) apart. The amount of water needed depends on the crop, with trees requiring more pitchers. Khoso now has 400 pitchers irrigating his orchard.

Riaz Haq said…
A century of groundwater accumulation in Pakistan and northwest India

https://www.nature.com/articles/s41561-022-00926-1

The groundwater systems of northwest India and central Pakistan are among the most heavily exploited in the world. However, recent, and well-documented, groundwater depletion has not been historically contextualized. Here, using a long-term observation-well dataset, we present a regional analysis of post-monsoon groundwater levels from 1900 to 2010. We show that human activity in the early twentieth century increased groundwater availability before large-scale exploitation began in the late twentieth century. Net groundwater accumulation in the twentieth century, calculated in areas with sufficient data, was at least 420 km3 at ~3.6 cm yr–1. The development of the region’s vast irrigation canal network, which increased groundwater recharge, played a defining role in twentieth-century groundwater accumulation. Between 1970 and 2000, groundwater levels stabilized because of the contrasting effects of above-average rainfall and the onset of tubewell development for irrigation. Due to a combination of low rainfall and increased tubewell development, approximately 70 km3 of groundwater was lost at ~2.8 cm yr–1 in the first decade of the twenty-first century. Our results demonstrate how human and climatic drivers have combined to drive historical groundwater trends.
Riaz Haq said…
WAPDA
@wapda_pr
Alhmdulillah! Hub Dam filled to max level of 339.15 ft with 6,87,000 AF water storage; sufficient to release water for Karachi & Balochistan for 3 years. Safe passage of additional water through spillways in operation being monitored by Water Resources Ministry & WAPDA & Teams.

https://twitter.com/wapda_pr/status/1548573564546138112?s=20&t=gpIdgi1_4lPDmRp00u6aiA
Riaz Haq said…
The World Bank’s Board of Executive Directors today approved $200 million in financing to support Pakistan in transforming the agricultural sector by adopting climate-smart technologies to improve water-use efficiency, build resilience to extreme weather events and increase incomes of small farmers.

https://www.worldbank.org/en/news/press-release/2022/07/15/world-bank-supports-pakistan-to-increase-agricultural-resilience-and-protect-small-farmers-from-climate-change-impacts-i

The agricultural sector in Punjab is central to the Pakistan’s economy and food security as it accounts for 73 percent of the country’s total food production. The Punjab Resilient and Inclusive Agriculture Transformation Project (PRIAT) will increase agricultural productivity through efficient and equitable access to water for small farms. It will support farmers at the community and household levels to adopt climate-smart farming practices and technologies that improve crop yields and conserve water resources in Punjab.

“In recent years Pakistan’s agriculture sector has suffered from losses in crop yields and livestock, damage to irrigation infrastructure, and food shortages due to climate change, particularly severe droughts in the Punjab province,” said Najy Benhassine, World Bank Country Director for Pakistan. “This project aligns with the Punjab Agriculture Policy 2018, which promotes massive expansion of water conservation efforts, enhancing sustainability and resilience in the wake of climate change, and private sector participation to help boost the productivity of the sector.”

PRIAT will support farmers implement innovative, climate-smart technologies to help the Punjab government achieve economies of scale to transform the agricultural sector. The project will engage the private sector in sourcing appropriate technologies and providing training tailored for water user associations and individual households to improve water conservation practices and agriculture productivity.

“The agriculture sector has a huge opportunity to both build climate resilience and improve economic conditions by generating access to domestic and international markets,” said Guo Li, Task Team Leader for the project. “PRIAT will help accelerate the government’s efforts to transform the agri-food system through market-oriented production activities that add value, increase competitiveness and generate higher incomes for farmers.”

The project will benefit about 190,000 small, family-owned farms and 1.4 million acres of irrigated land in rural communities in the province. It will also provide training to small- and medium-sized farm owners on water conservation and more sustainable, climate-resilient agricultural practices, including for women. About 74 percent of women in the province rely on agriculture as a source of livelihood.

The World Bank in Pakistan

Pakistan has been a member of the World Bank since 1950. Since then, the World Bank has provided $40 billion in assistance. The World Bank’s program in Pakistan is governed by the Country Partnership Strategy for FY2015-2020 with four priority areas of engagement: energy, private sector development, inclusion, and service delivery. The current portfolio has 60 projects and a total commitment of $14.2 billion.


Riaz Haq said…
The Balochistan government has declared 10 districts of the province as calamity-hit areas in view of casualties and losses to businesses and infrastructure by recent torrential rains and floods.

https://www.dawn.com/news/1700021/10-districts-of-balochistan-declared-as-calamity-hit


An official notification issued by the office of the Relief Commissioner and Provincial Disaster Management Authority here on Saturday said that the 10 districts are Loralai, Kalat, Mastung, Kachhi, Sibi, Qila Saifullah, Barkhan, Duki, Panjgur and Lasbela.

Meanwhile, heavy rains continued in different districts of northern and central Balochistan, causing more damages and rendering the people homeless. A large number of villages in Sibi, Lasbela, Bolan, Qila Saifullah and Loralai districts were washed away or submerged due to floods and overflowing rivers.

Over 30 houses were damaged in villages located on the outskirts of Sibi on Friday night.

“Our rescue teams and Levies personnel were making all-out efforts to clear water from areas where flood and rainwater has accumulated,” Sibi Deputy Commissioner Mansoor Qazi told Dawn, adding that residents deprived of their homes were provided with shelter and relief goods.

“Though floodwater is reducing in the three main rivers, more flooding cannot be ruled out in view of more rains,” he said.

Lasbela district was also getting more rains in different areas which caused damages to homes in Winder, Kanraj and Bela areas where standing cotton and other crops were badly damaged. “A cotton field was completely destroyed in heavy rains and flash flood,” officials of the local administration said.

“Around a dozen people were stranded in a village in Lakhra area. They were rescued by the local administration with the help of Navy personnel,” Rohana Kakar, additional deputy commissioner, said, adding that the Hub dam was almost filled to capacity and its water level wa being continuously monitoring.

Meanwhile, the death toll of the rain-related incident in the province has reached 77. Over 1,000 houses were washed away and 500 heads of cattle were swept away in the floodwater.

The National Disaster Management Authority has sent 1,000 tents to Balochistan for the rain-stricken people.

Probe ordered into poor construction of breached dams

Balochistan Chief Minister Abdul Qudoos Bizenjo has ordered a probe into the alleged use of sub-standard construction material after at least 21 dams either gave way or were greatly damaged due to floods, especially in northern districts.

He has ordered inspection teams to survey these dams along with experts.

The irrigation department surveyed 503 big and small dams in 34 districts on the chief minister’s orders and found that most of them have been filled to capacity, including Hub, Mirani, Ankara Kur, Shadi Kur and Subakzai dams.

The report said the water storage level in the dams across the province had reached 1,208,872 acre-feet after rains compared to a capacity of 1,637,084 acre-feet.
Riaz Haq said…
Tarbela Dam is 96 feet away from touching its maximum level of 1550 feet as it has already attained level of 1494 feet on Friday against 1398 feet a day earlier, said sources from Pakistan Meteorological Department (PMD).

https://www.brecorder.com/news/40186234


They said the Dam had registered a gain of 96 feet in last 10 days. It may be noted that the Dam was at the level of 1405 feet on 1st of July when monsoon weather had hit the country. In other words, said the sources, the Dam was possessing one percent storage of its total capacity on 1st of May which has risen to 49.34 percent on Friday. The dam has been filled by half, they added.

Mangla Dam, on the other hand, was carrying 4.57 percent storage of its capacity, which has reached 13.24 percent on Friday. So far as the water level is concerned, Mangla was at the level of 1098 feet, which has reached 1126.7 feet. The maximum conservation level of Mangla Dam is 1242 feet.

Director PMD Shahid Abbas confirmed the development, saying that Mangla has been filled by 13 percent and Tarbela by 49 percent. According to him, Tarbela could be filled to the maximum conservation level before 20th of July as there is no need of irrigation water for the agriculture of Sindh and Balochistan provinces due to heavy spells of rains.

At present, he said, 150,000 cusecs water is being released from the dam on daily basis, which is more than the agricultural need of the two provinces. The other purpose being met by this huge release of water is to generation of some 3000 plus megawatt electricity from the Dam, he added.

According to him, since the relevant authorities have no idea as how water is expected from the hilly sources, therefore, they are not in a hurry to fill it up. An early filling up of this dam may lead to heavy release of water in case of flood like situation after heavy rains in the hilly areas, he added. He said, another reason of releasing excessive water is the non-availability of storage capacity. He said the water being released at present is enough to fill another two dams of similar capacity in the country.

Meanwhile, the monsoon waves have proceeded to Sindh, particularly Karachi, to shower rain from Saturday night. Also, Director PMD said, the current monsoon waves would bring heavy downpour in Balochistan and lower parts of Southern Punjab for the next three days. The monsoon waves are likely to revert to the catchment areas of all the five rivers from 20th July until 22nd of July, including central Punjab and upper parts of the country.

Riaz Haq said…
Shrinking Indus Delta attracts UN’s attention

https://www.brecorder.com/news/40236204

The shrinking delta of Mighty River Indus of Pakistan has emerged on the United Nations radar after it accepted to create a global convention on all deltas of the world to ensure its protection against rising climate change impacts casting serious impact on its nature and habitat.

The development occurred after a strong international civil society nexus of experts, academicians, policy makers and stakeholders unanimously raised their voice for an international UN Convention for the Conservation River Delta (UN-CCRD) on the sequel of its UN Human Rights Declaration, UN Geneva Pact and many others to ensure that all the major deltas of the world were dying due to adverse impacts of climate change and environmental degradation namely sea intrusion, sea level rise, droughts, depleting water flows, shrinking creeks and others.

The African Centre for Climate Actions and Rural Development Initiative (ACCARD) in collaboration with the Nigeria’s Bayelsa State Government, the Institute for Environmental Diplomacy and Security at the University of Vermont, the Consortium for Capacity Building at the University of Colorado, Transboundary Water In-Cooperation Network (TWIN), Water Environment Forum-Pakistan, Center for the Advancement of Public Action (CAPA) Bennington College; Vietnam National University, Hanoi, Vietnam and Center for Environment and Sustainable Livelihood Projects (CESLP), among others hosted a side event at the UN Water conference titled “Integrative Highland to Ocean (H2O) Action for Disappearing Deltas: Towards a UN Convention on Conserving River Deltas.

Former Senator and federal minister for information and broadcasting and Chairman World Environment Forum, a civil society organization working to protect water resources and environment participated virtually to represent Pakistan in the sideline event whereas Freeman Elohor Oluowo of ACCARD and Prof. Dr. Asim Zia, Director, Institute for Environmental Diplomacy, Vermont physically participated in the session.

The global convention would help in achieving the UN Sustainable Development Goals (SDGs) to be achieved by 2030 namely SDG-6 demanding “Clean Water”, SDG-13 “Climate Action”, and SDG-14 “Conserving and sustainably using the oceans, seas and marine resources”.

The announcement has came after successful campaign of the above mentioned coalition of non-governmental and civil society organizations who started the drive for a global convention of UN to protect deltas.

The speakers, and experts discussed deltas starting from Nigerian Niger Delta, Indus Delta of Pakistan, Mekong River, Colorado, Nile and St. Lawrence transboundary river basins.

Each of these deltas possessed varying risks owing to spiking up sea level rise and salt water intrusion from the oceans, and rapidly melting glaciers, increasing dams and shifting rainfall patterns in the highlands.

The UN had accepted that all the world deltas were under threat and sea level rise and intrusion was causing damage to soil and water ecosystems. It is not only nature but rather the communities, the livelihood opportunities and human lives that were diminishing and demanded the world to respond for their protection.

There will be various activities in Delta countries towards achieving the UN Convention for the Conservation River Delta.
Riaz Haq said…
SenatorSherryRehman
@sherryrehman
Good news for Pakistan! Our Recharge Pakistan project, which will be implemented over the next 7 years, has been approved today for funding of 77.8 M USD. These include GCF resources of 66 M USD and co-financing of around USD 11.8 M. This adaptation project aims to initiate ecosystem-based adaptation (EBA) interventions that will store flood water in wetlands, floodplains and depressions (green infrastructure) at several priority sites, build community resilience at these sites, and enable the Government of Pakistan, including all lead provinces and stakeholders to implement & replicate such nature-based solutions for climate resilience.

https://twitter.com/sherryrehman/status/1678625444176822275?s=20

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Funding of $77.8 million has been approved for Recharge Pakistan, a project that aims to build the country’s climate resilience and water security, Federal Minister for Climate Change Sherry Rehman announced on Tuesday.

https://www.brecorder.com/news/40252003/778mn-funding-secured-for-recharge-pakistan-project-sherry-rehman

“Good news for Pakistan! Our Recharge Pakistan project, which will be implemented over the next seven years, has been approved today for funding of $77.8mn,” said Rehman in a post on Twitter.

The minister highlighted that the funding includes $66 million from Green Climate Fund (GCF) resources and co-financing of around $11.8 million.

GCF was established in 2010 by 194 countries party to the UN Framework Convention on Climate Change. It is designed as an operating entity of the Convention’s financial mechanism and is headquartered in South Korea.

“This adaptation project aims to initiate ecosystem-based adaptation interventions that will store flood water in wetlands, floodplains and depressions (green infrastructure) at several priority sites,” said Rehman.

Recharge Pakistan is a joint collaboration by GCF, World Wildlife Fund (WWF) and the Government of Pakistan. As per information available on the WWF website, the project aims to build Pakistan’s climate resilience and water security through cost-effective ecosystem-based adaptation.

“The project will increase water storage and recharge through wetlands, floodplains, and hill-torrents management; promote climate-adapted community-based natural resource management and livelihoods; and forge a paradigm shift to scale up this approach,” read the website.

Last week, Rehman during a high-level meeting with a delegation led by Sultan Ahmed Al Jaber, President-designate of COP28 and UAE’s Minister of Industry and Advanced Technology, said a “critical gap” in resources for adaptation and mitigation has been identified by multilateral agencies -amounting to $348 billion or 10.7% of cumulative GDP by 2030.

Despite this, Pakistan is committed to a green energy transition, whereby it will transfer 60% of its energy needs to renewables by 2030 and reduce its projected emissions by 50% until 2030, Rehman said.

Pakistan is actively involved in transitioning the country towards the renewable energy sector and is seeking partnerships in the alternative and renewable energy sector, the minister added.

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