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Climate change can cover up to 60% of wheat land desertification

Climate change can cover up to 60% of wheat land desertification.
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GFMM desk: A study published online by Science Advances on September 25, 2019 showed that 5% of the world’s current wheat cultivation area could face prolonged drought by the end of this century.

In present-day weather patterns, severe drought simultaneously could affect up to 15% of wheat-growing areas, according to the study, which also listed strategies to reduce the impacts of water shortages on wheat production. The strategies included shifting the wheat growing season, implementing full or partial irrigation, increasing the efficiency of water use, and using wheat varieties with enhanced drought and heat tolerance.

Wheat, the world’s largest rain-fed crop in terms of harvested area, supplies about 20% of all calories that people consume. A sustained annual yield increase of 2.4%, which compares to the current rate of 0.9%, is needed to meet the projected increase in global food demand, according to the study.

Wheat producers, according to the study, will have to cope with warmer temperatures that will accelerate crop development and lead to earlier maturity, which creates higher water demand per day. The study found a close relationship historically between the total area affected by severe drought worldwide and food prices.

“If only one country or region sees a drought, there is less impact, but if multiple regions are affected simultaneously, it can affect global production and food prices and lead to food insecurity,” said Song Feng, associate professor of geosciences at the University of Arkansas in Fayetteville and one of the study’s authors.

Miroslav Trnka, Ph.D, a professor at the Global Change Research Institute in the Czech Republic, was another author.

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Global warming is expected to increase the frequency and intensity of severe water scarcity events, according to the study.  The study’s projections show climate change stabilization in line with the Paris Agreement substantially would reduce the negative effects of climate change, but the effects still could double between 2041 and 2070.

The researchers developed a method to quantify severe water scarcity over the world’s wheat-growing areas and to calculate the probabilities of multiple/sequential severe water scarcity events for baseline and future climates. The increase in the average area affected by severe water scarcity per decade was 0.4 percentage point between 1911 and 2000. The rate per decade increased to 2.9 percentage points between 2011 and 2016, which coincided with a global increase in wheat prices.

Ten wheat-producing regions account for 54% of the global wheat-growing area, 57% of the global wheat production and more than 92% of global wheat exports. The top 10 exporting regions are the European Union, Russia, Canada, the United States, Ukraine, Australia, Kazakhstan, Argentina, Turkey and Brazil.

Severe water scarcity by the middle of this century likely is to occur in an almost continuous belt from the Iberian Peninsula in the west to Anatolia and Pakistan in the east, according to the study. Significant increases in severe water scarcity is likely to affect southeastern Ukraine, southern regions of Russia, western parts of the United States and Mexico, southwestern Australia and South Africa. Wheat-growing areas in South America will be affected marginally. The study examined strategies to reduce the impacts of water shortages. The full report is here.

Source: online/SZK

 

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