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Faced with numerous challenges created by climate change, rice farmers are moving to adapt

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David Chen understands rice. While studying molecular biology in college, he researched hybrids that might make rice crops sturdier. Later he entered the business world, co-founding a company in Myanmar that did everything from supporting small-scale rice farmers to creating a brand that helped farmers sell their harvest. When the political climate in Myanmar made that endeavor untenable, he launched AgriG8 in Singapore. This new venture helps connect farmers with lenders, using technology to help growers who adopt sustainable practices avoid prohibitively high interest rates.

A scientist once told him that “the rice sector is knowledge rich but solution poor,” he says, which is why he’s focused on helping growers succeed while also adopting more-efficient, greener methods. “Effectively, we’re telling the farmers, ‘Look, if you want access to finance, you need to commit to changing to sustainable practices,’” Chen says. “‘And to go one level up, if you want access to more-affordable finances, you need to make sure that your sustainable metrics keep improving.’”

 

The stakes are unmistakably high. It’s almost impossible to overstate the significance of the global rice crop: more than half of the world’s inhabitants count the grain as a staple, and Asia grows the vast majority of the crop worldwide. For 3 billion humans, rice is intertwined with both their diets and their culture.

 

The good news is that global rice production is rising. The grain’s yield is forecast to hit a record 506 million tons for 2021–2022, although those same prognostications also put global rice consumption at a record 514 million tons. And there’s an additional cloud attached to that silver lining: rising crop yields may not be sustainable over the long term because of climate change.

 

A looming threat

 

Rice is particularly and uniquely vulnerable to the whims of a warming planet. The crop needs a lot of water and is associated with elevated greenhouse gas emissions, making it both a contributor to and a victim of climate change. Rice often grows in low-lying regions, such as deltas, which are particularly imperiled by rising seas, which makes groundwater salinity a growing headache. 

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Beauty shot of cooked rice

A scientist once told him that “the rice sector is knowledge rich but solution poor,” he says, which is why he’s focused on helping growers succeed while also adopting more-efficient, greener methods. “Effectively, we’re telling the farmers, ‘Look, if you want access to finance, you need to commit to changing to sustainable practices,’” Chen says. “‘And to go one level up, if you want access to more-affordable finances, you need to make sure that your sustainable metrics keep improving.’”

 

The stakes are unmistakably high. It’s almost impossible to overstate the significance of the global rice crop: more than half of the world’s inhabitants count the grain as a staple, and Asia grows the vast majority of the crop worldwide. For 3 billion humans, rice is intertwined with both their diets and their culture.

 

The good news is that global rice production is rising. The grain’s yield is forecast to hit a record 506 million tons for 2021–2022, although those same prognostications also put global rice consumption at a record 514 million tons. And there’s an additional cloud attached to that silver lining: rising crop yields may not be sustainable over the long term because of climate change.

 

A looming threat

 

Rice is particularly and uniquely vulnerable to the whims of a warming planet. The crop needs a lot of water and is associated with elevated greenhouse gas emissions, making it both a contributor to and a victim of climate change. Rice often grows in low-lying regions, such as deltas, which are particularly imperiled by rising seas, which makes groundwater salinity a growing headache. 

Many of the world’s rice farmers operate in regions prone to high temperatures, and waves of even more extreme heat and the resulting desertification could make it hard for them to raise viable crops, scientists say. In a recent paper, the International Rice Research Institute reported that the grain will likely be “the cultivated crop most vulnerable to future changing climates.”

 

In 2018, the Archives of Agronomy and Soil Science reported that more-frequent hotter weather could drive down yields by as much as 40 percent by the century’s end. Much of the world’s rice is already grown in areas with temperatures that are close to the ceiling of the optimum range for rice production. “Therefore,” the study reports, “any further rise in mean temperature or short episode of high temperature during sensitive growth stages will be catastrophic.”

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Aerial shot

Many of the world’s rice farmers operate in regions prone to high temperatures, and waves of even more extreme heat and the resulting desertification could make it hard for them to raise viable crops, scientists say. In a recent paper, the International Rice Research Institute reported that the grain will likely be “the cultivated crop most vulnerable to future changing climates.”

 

In 2018, the Archives of Agronomy and Soil Science reported that more-frequent hotter weather could drive down yields by as much as 40 percent by the century’s end. Much of the world’s rice is already grown in areas with temperatures that are close to the ceiling of the optimum range for rice production. “Therefore,” the study reports, “any further rise in mean temperature or short episode of high temperature during sensitive growth stages will be catastrophic.”

The coming challenges involve simple economics: many Asian farmers work at or below the poverty line and can’t afford to retool their systems. That leaves farmers, particularly smallholders in the global south, at the front line of climate change, “ill-trained and ill-equipped,” says Tim Benton, research director for emerging market risks at the think tank Chatham House.

 

Adapting to climate change may require increasing inputs (water and fertilizer), acquiring or upgrading agricultural equipment, and buying improved seeds, says Amanda Carrico, a professor in the environmental studies program at the University of Colorado, Boulder, who is now in Bangladesh examining climate change impacts on farming communities and the resulting migration patterns. She points out that shifting from familiar forms of agriculture, which in many cases have been practiced for generations, to new approaches is extremely risky. Many farmers don’t have the economic resources to absorb the risk should a new approach fail, she says.

 

“The development sector has been trying their very best to get the farmers to adopt sustainable practices,” Chen says, “but I think by now they realize that they’re doing it all wrong, because most of the smallholder farmers understand climate change, but they simply don’t have the luxury to care. They’re more worried about immediate livelihoods.”

 

New ways forward

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A person walking on terrain

The coming challenges involve simple economics: many Asian farmers work at or below the poverty line and can’t afford to retool their systems. That leaves farmers, particularly smallholders in the global south, at the front line of climate change, “ill-trained and ill-equipped,” says Tim Benton, research director for emerging market risks at the think tank Chatham House.

 

Adapting to climate change may require increasing inputs (water and fertilizer), acquiring or upgrading agricultural equipment, and buying improved seeds, says Amanda Carrico, a professor in the environmental studies program at the University of Colorado, Boulder, who is now in Bangladesh examining climate change impacts on farming communities and the resulting migration patterns. She points out that shifting from familiar forms of agriculture, which in many cases have been practiced for generations, to new approaches is extremely risky. Many farmers don’t have the economic resources to absorb the risk should a new approach fail, she says.

 

“The development sector has been trying their very best to get the farmers to adopt sustainable practices,” Chen says, “but I think by now they realize that they’re doing it all wrong, because most of the smallholder farmers understand climate change, but they simply don’t have the luxury to care. They’re more worried about immediate livelihoods.”

 

New ways forward

Agricultural and market experts continue to debate potential solutions. Some have turned to alternate wetting and drying (AWD), a technique that reduces water use, increases water efficiency, and cuts greenhouse gas emissions while maximizing the use of inputs. But since maintaining flooded paddy fields helps suppress weeds, the reduced flooding resulting from AWD means more labor is needed to remove the weeds, Carrico says. Many farmers have no control over water-release schedules, making adoption of the practice challenging.

           

Chen believes that a larger shift may eventually be in order: radical as it may sound, people may need to see rice as less of a staple and more of a luxury item, so that farmers can reap higher paychecks for their yields. “Carrico, worried that market upheavals will lead to hunger, has a more nuanced approach: “I don’t believe we can leave this to markets. We need policies that ensure at least basic access to sufficient affordable and nutritious foods.”

Smallholder rice farmer
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Smallholder rice farmer

Agricultural and market experts continue to debate potential solutions. Some have turned to alternate wetting and drying (AWD), a technique that reduces water use, increases water efficiency, and cuts greenhouse gas emissions while maximizing the use of inputs. But since maintaining flooded paddy fields helps suppress weeds, the reduced flooding resulting from AWD means more labor is needed to remove the weeds, Carrico says. Many farmers have no control over water-release schedules, making adoption of the practice challenging.

           

Chen believes that a larger shift may eventually be in order: radical as it may sound, people may need to see rice as less of a staple and more of a luxury item, so that farmers can reap higher paychecks for their yields. “Carrico, worried that market upheavals will lead to hunger, has a more nuanced approach: “I don’t believe we can leave this to markets. We need policies that ensure at least basic access to sufficient affordable and nutritious foods.”

While doing research in South Asia, Carrico has seen progress. In Sri Lanka, some farmers are responding to climate change by establishing agro-wells (wells specially constructed for agricultural needs), converting to new rice varieties, or switching away from rice altogether. The government has adapted agricultural infrastructure by developing and rehabilitating irrigation systems and redistributing water resources during periods of scarcity (for example, alternating between using it for energy and for cultivation). In Bangladesh, some people are leaving agricultural lives and moving from the countryside to cities. Others are migrating seasonally from region to region in order to plant where the climate is hospitable.

 

But more needs to happen, Carrico says. “I believe there is much more that could have been done up to this point by governments and other institutions to support farmers and also to adapt infrastructure,” she says. Climate change is coming, and in many rice growing areas, it is already here. Adapting to it will take urgent collective effort.

 

SOURCES

 

https://www.eco-business.com/news/what-does-the-future-of-climate-resilient-rice-look-like/

https://www.voanews.com/a/rising-salinity-threatens-rice-crops-on-southeast-asia-s-sinking-coast-/6729518.html

https://www.scientificamerican.com/article/wake-up-call-climate-change-threatens-rice-farming/

https://www.researchgate.net/publication/323325858_Consequences_of_high_temperature_under_changing_climate_optima_for_rice_pollen_characteristics-concepts_and_perspectives

Small-scale irrigation system
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Small-scale irrigation system

While doing research in South Asia, Carrico has seen progress. In Sri Lanka, some farmers are responding to climate change by establishing agro-wells (wells specially constructed for agricultural needs), converting to new rice varieties, or switching away from rice altogether. The government has adapted agricultural infrastructure by developing and rehabilitating irrigation systems and redistributing water resources during periods of scarcity (for example, alternating between using it for energy and for cultivation). In Bangladesh, some people are leaving agricultural lives and moving from the countryside to cities. Others are migrating seasonally from region to region in order to plant where the climate is hospitable.

 

But more needs to happen, Carrico says. “I believe there is much more that could have been done up to this point by governments and other institutions to support farmers and also to adapt infrastructure,” she says. Climate change is coming, and in many rice growing areas, it is already here. Adapting to it will take urgent collective effort.

 

SOURCES

 

https://www.eco-business.com/news/what-does-the-future-of-climate-resilient-rice-look-like/

https://www.voanews.com/a/rising-salinity-threatens-rice-crops-on-southeast-asia-s-sinking-coast-/6729518.html

https://www.scientificamerican.com/article/wake-up-call-climate-change-threatens-rice-farming/

https://www.researchgate.net/publication/323325858_Consequences_of_high_temperature_under_changing_climate_optima_for_rice_pollen_characteristics-concepts_and_perspectives

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