Severe Water Shortages Strain Wheat Harvest in Iraq

A combine harvester at the middle of a wheat field harvesting crops in Yousifiyah, Iraq Tuesday, May. 24, 2022. (AP)
A combine harvester at the middle of a wheat field harvesting crops in Yousifiyah, Iraq Tuesday, May. 24, 2022. (AP)
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Severe Water Shortages Strain Wheat Harvest in Iraq

A combine harvester at the middle of a wheat field harvesting crops in Yousifiyah, Iraq Tuesday, May. 24, 2022. (AP)
A combine harvester at the middle of a wheat field harvesting crops in Yousifiyah, Iraq Tuesday, May. 24, 2022. (AP)

Salah Chelab crushed a husk of wheat plucked from his sprawling farmland south of Baghdad and inspected its seeds in the palm of one hand. They were several grams lighter than he hoped.

"It’s because of the water shortages," he said, the farm machine roaring behind him, cutting and gathering his year’s wheat harvest.

Chelab had planted most of his 10 acres (4 hectares) of land, but he was only able to irrigate a quarter of it after the Agriculture Ministry introduced strict water quotas during the growing season, he said. The produce he was growing on the rest of it, he fears, "will die without water."

At a time when worldwide prices for wheat have soared due to Russia’s invasion of Ukraine, Iraqi farmers say they are paying the price for a government decision to cut irrigation for agricultural areas by 50%.

The government took the step in the face of severe water shortages arising from high temperatures and drought - believed to be fueled by climate change - and ongoing water extraction by neighboring countries from the Tigris and Euphrates rivers. All those factors have heavily strained wheat production.

Wrestling with the water shortage, Iraq’s government has been unable to tackle other long-neglected issues.

Desertification has been blamed as a factor behind this year’s relentless spate of sandstorms. At least 10 have hit the country in the past few months, covering cities with a thick blanket of orange dust, grounding flights and sending thousands to hospitals.

"We need water to solve the problem of desertification, but we also need water to secure our food supplies," said Essa Fayadh, a senior official at the Environment Ministry. "We don’t have enough for both."

Iraq relies on the Tigris and Euphrates rivers for nearly all of its water needs. Both flow into Iraq from Turkey and Iran. Those countries have constructed dams that have either blocked or diverted water, creating major shortages in Iraq.

Water Resources Minister Mahdi Rasheed told The Associated Press that river levels were down 60% compared to last year.

For Chelab, less water has meant a smaller grain size and lower crop yields.

In 2021, Chelab produced 30,000 tons of wheat, the year before that 32,000, receipts from Trade Ministry silos show. This year, he expects no more than 10,000.

His crops are both rain-fed and irrigated via a channel from the Euphrates. Due to low precipitation levels, he has had to rely on the river water during the growing season, he said.

Government officials say change is necessary.

The current system has been inefficient and unsustainable for decades. Water scarcity is leaving them no choice but to push to modernize antiquated and wasteful farming techniques.

"We have a strategic plan to face drought considering the lack of rain, global warming, and the lack of irrigation coming from neighboring countries as we did not get our share of water entitlements," said Hamid al-Naif, spokesman at the Agriculture Ministry.

The ministry took measures to devise new types of drought-resistant wheat and introduce methods to increase crop yields.

"We are still dealing with irrigation systems of the 1950s. It has nothing to do with the farmers," he said. "The state must make it efficient, we must force the farmer to accept it."

Iraqi farmers have historically been heavily dependent on the state in the production of food, a reliance that policymakers and experts said drains government funds.

The Agriculture Ministry supports farmers by providing everything from harvesting tools, seeds, fertilizers and pesticides at a subsidized rate or for free. Water diverted from rivers for irrigation is given at no cost. The Trade Ministry then stores or buys produce from farmers and distributes it to markets.

Wheat is a key strategic crop, accounting for 70% of total cereal production in the country.

Planting starts in October and harvest typically begins in April and extends to June in some areas. Last year, the Agriculture Ministry slashed subsidies for fertilizers, seeds and pesticides, a move that has angered farmers.

Local demand for the staple is between 5-6 million tons a year. But local production is shrinking with each passing year. In 2021, Iraq produced 4.2 million tons of wheat, according to the Agriculture Ministry. In 2020, it was 6.2 million tons.

"Today we might get 2.5 million tons at best," said al-Naif. That would require Iraq to drive up imports.

Most of the wheat harvest is usually sold to the Trade Ministry. In a sign of the low harvest, so far there are currently only 373,000 tons of wheat available in Trade Ministry storehouses, al-Naif said.

To meet demands amid the recent global crisis in the grain market, the government recently changed a policy to allow all Iraqi farmers to sell their produce to the Trade Ministry silos. Previously, this was limited to farmers who operated within the government plan.

Back in Chelab’s farm, the wheat is ready to be transported to the silo.

"It’s true we need to develop ourselves," he said. "But the change should be gradual, not immediate."



Iran’s Centrifuges: The Long Road Towards a Nuclear Bomb

This photo released on Nov. 5, 2019, by the Atomic Energy Organization of Iran shows centrifuge machines in the Natanz uranium enrichment facility in central Iran. (Atomic Energy Organization of Iran via AP, File)
This photo released on Nov. 5, 2019, by the Atomic Energy Organization of Iran shows centrifuge machines in the Natanz uranium enrichment facility in central Iran. (Atomic Energy Organization of Iran via AP, File)
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Iran’s Centrifuges: The Long Road Towards a Nuclear Bomb

This photo released on Nov. 5, 2019, by the Atomic Energy Organization of Iran shows centrifuge machines in the Natanz uranium enrichment facility in central Iran. (Atomic Energy Organization of Iran via AP, File)
This photo released on Nov. 5, 2019, by the Atomic Energy Organization of Iran shows centrifuge machines in the Natanz uranium enrichment facility in central Iran. (Atomic Energy Organization of Iran via AP, File)

The UN nuclear agency has confirmed that Iran plans to install around 6,000 new centrifuges to enrich uranium, according to a report seen by AFP on Friday.

“Iran informed the Agency that it intended to feed” around 6,000 centrifuges at its sites in Fordo and Natanz to enrich uranium to up to five percent, higher than the 3.67 percent limit Tehran had agreed to in 2015.

The Iranian decision came in response to a resolution adopted on November 21 by the UN nuclear watchdog that censures Tehran for what the agency called lack of cooperation.

On Thursday, Iran had threatened to end its ban on acquiring nuclear weapons if Western sanctions are reimposed.

The country’s foreign minister, Abbas Araghchi, said in an interview that the nuclear debate inside Iran is likely to shift towards the possession of its own weapons if the west goes ahead with a threat to reimpose all UN sanctions,

What are centrifuges?

They are precise devices with cylinders that rotate much faster than the speed of sound, to collect enriched uranium atoms.

To explain how centrifugation works, rotating cylinders are much like medical laboratory equipment used to test blood.

The high rotation speeds exert a rotational force that separates the various components of blood as a function of their density and quantity in the sample.

In the case of uranium, the centrifuge operates using the familiar principle of centrifugal force. This force separates two gases of unequal masses in a spinning cylinder or tube. The heavier uranium-238 isotope collects at the outer edges of the cylinder while the lighter uranium-235 collects near the axis of rotation at the center.

Around 20 kg of uranium enriched to a 90% purity level would be needed for a single nuclear weapon. It would take about 1,500 SWU to produce a weapon-equivalent of 90 percent-enriched uranium from this enriched uranium.

At Fordo, Iran is currently using the two only operating cascades of IR-6 centrifuges there to enrich to 60% from 20%.

There are 1,044 centrifuges active at the Fordo uranium enrichment plant, Iran's President Masoud Pezeshkian said.

He had earlier asked the Iran Atomic Energy Agency to begin inserting uranium gas into newly activated advanced centrifuges.

Early this month, a spokesperson for the US State Department said Iran's expansion of uranium enrichment activities in defiance of key nuclear commitments is "a big step in the wrong direction”.

His statement came after Tehran announced it would start injecting uranium gas into centrifuges at Fordo.

Dispute

The Nuclear Non-Proliferation Treaty, signed in 2015 between Tehran and Western countries, says advanced centrifuges for uranium enrichment could operate until January 2027.

The difference between the first generation of centrifuges (IR-1) and the other generations is speed. The latest generation, IR-6, could enrich uranium up to 10 times faster than the first-generation IR-1, according to Iranian officials.

During the heyday of its nuclear program, Iran operated a total of 10,204 first-generation IR-1 centrifuges at the Natanz and Fordo facilities. But under the deal, Iran's commitments included operating no more than 5,060 IR-1 centrifuges for a period of 10 years.

Although the centrifuges that Iran installed before the 2015 nuclear deal were of the first generation, Tehran’s recent uranium enrichment activity at nuclear sites has reached disturbingly advanced levels, potentially increasing the nuclear proliferation risk.

Major centrifuge activities in Iran

May 2008: Iran installed several centrifuges including more modern models.

March 2012: Iranian media announced 3,000 centrifuges at Natanz.

August 2012: The International Atomic Energy Agency announced that Iran had installed large parts of the centrifuges at Fordo.

November 2012: An IAEA report confirmed that all advanced centrifuges had been installed at Fordo, although there were only four working centrifuges, and another four fully equipped, vacuum tested, and ready to go.

February 2013: IAEA says Iran has operated 12,699 IR-1 centrifuges at the Natanz site.

June 2018: Iran’s supreme leader revealed Tuesday that it ultimately wants 190,000 nuclear centrifuges — a figure 30 times higher than world powers allowed under the 2015 deal.

September 2019: Iran mounted 22 IR-4, one IR-5, 30 IR-6, and three IR-6 for testing, outside the treaty boundaries.

September 2019: Iran announced it started operating advanced and fast centrifuges to enrich uranium.

November 2024: Iranian Foreign Minister Abbas Araghchi announces that his country will operate several thousand advanced centrifuges.

November 2024: Iranian state television broadcasts AEOI Chief Mohammad Eslami announcing that “gasification of a few thousands of new generation centrifuges has been started.”