Research briefing: Changing What We Eat Could Offset Years of Climate-Warming Emissions

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» Research briefing: Changing What We Eat Could Offset Years of Climate-Warming Emissions

 

A new piece of research published today suggests that drastically shifting agricultural production from animals to plant-sourced foods could remove more than a decade of our carbon dioxide emissions from the atmosphere. 

Plant protein foods—like lentils, beans, and nuts—can provide vital nutrients using a small fraction of the land required to produce meat and dairy. By shifting to these foods, much of the remaining land could support ecosystems that absorb CO2, according to a new study appearing in the journal Nature Sustainability.

In their study, the researchers analysed and mapped areas where extensive production of animal-sourced food, which requires 83 percent of Earth’s agricultural land, suppresses native vegetation, including forests.

The study highlights places where changing what people grow and eat could free space for ecosystems to regrow, offsetting our CO2 emissions in the process.

“The greatest potential for forest regrowth, and the climate benefits it entails, exists in high- and upper-middle income countries, places where scaling back on land-hungry meat and dairy would have relatively minor impacts on food security,” says Matthew Hayek, the principal author of the study and an assistant professor in New York University’s Department of Environmental Studies.

Burning fossil fuels for energy emits CO2, warming the planet. When warming reaches 1.5 °C (2.7 °F) above pre-industrial levels, more severe impacts like droughts and sea level rise are expected. Scientists describe how much fossil fuel we can burn before hitting that limit using the global “carbon budget”.

According to the authors’ findings, vegetation regrowth could remove as much as 9 to 16 years of global fossil fuel CO2 emissions, if demand for meat were to drastically plummet in the coming decades along with its massive land requirements. That much CO2 removal would effectively double Earth’s rapidly shrinking carbon budget. Author Hayek notes that:

“We can think of shifting our eating habits toward land-friendly diets as a supplement to shifting energy, rather than a substitute... Restoring native forests could buy some much-needed time for countries to transition their energy grids to renewable, fossil-free infrastructure.”

In their report, the authors emphasise that their findings are designed to assist locally tailored strategies for mitigating climate change. These considerations will be important as countries attempt to develop their economies sustainably, according to Colorado State University’s Nathan Mueller, one of the study’s co-authors and assistant professor in the Department of Ecosystem Science and Sustainability and the Department of Soil and Crop Sciences:

“Ultimately, our findings can help target places where restoring ecosystems and halting ongoing deforestation would have the largest carbon benefits.”

Recent proposals to cover much of Earth’s surface in forests have generated controversy as a climate solution. Physically planting upward of a trillion trees would require a substantial physical effort. Additionally, poor planning could encourage uniform tree plantations, limit biodiversity, or deplete dwindling water in dry areas. Lastly, challenges lie in finding enough land to keep trees safe from logging or burning in the future, releasing stored carbon back into the atmosphere as CO2.

However, the researchers kept these potential problems in mind when devising their study.

“We only mapped areas where seeds could disperse naturally, growing and multiplying into dense, biodiverse forests and other ecosystems that work to remove CO2­ for us,” Hayek says. “Our results revealed over 7 million square kilometers where forests would be wet enough to regrow and thrive naturally, collectively an area the size of Russia.”

Technological fixes for climate change may soon be on the horizon, like machinery that removes CO2 directly from the atmosphere or power plant exhaust pipes. Placing too much confidence in these technologies could prove dangerous, however, according to study co-author Helen Harwatt, a fellow of the Harvard Law School:

“Restoring native vegetation on large tracts of low yield agricultural land is currently our safest option for removing CO2...There’s no need to bet our future solely on technologies that are still unproven at larger scales.”

 

But the benefits of cutting back on meat and dairy reach far beyond addressing climate change. As William Ripple, a co-author on the study and a professor of ecology at Oregon State University notes:

“Reduced meat production would also be beneficial for water quality and quantity, wildlife habitat and biodiversity,” 

Recent events have also shone a spotlight on the importance of healthy ecosystems in preventing pandemic diseases with animal origins, such as COVID-19, as Harwatt notes:

"We now know that intact, functioning ecosystems and appropriate wildlife habitat ranges help reduce the risk of pandemics...Our research shows that there is potential for giving large areas of land back to wildlife. Restoring native ecosystems not only helps the climate; when coupled with reduced livestock populations, restoration reduces disease transmission from wildlife to pigs, chickens and cows, and ultimately to humans.”

 

Hayek, M.N., Harwatt, H., Ripple, W.J. et al. The carbon opportunity cost of animal-sourced food production on land. Nat Sustain (2020).

Full text can be accessed here

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