Study creates most precise map yet of agricultural emissions, charts path to reduce hotspots

(Press-News.org) Study creates most precise map yet of agricultural emissions, charts path to reduce hotspots

New map breaks down agricultural emissions by crop and source East Asia and Pacific contributed to about half of the total agricultural greenhouse gas Rice alone contributed 43% of cropland emissions Regions that produce a lot of food are often high emitters Authors says that mitigation planning should take productivity into account ITHACA, N.Y. – To lower agricultural emissions, policymakers and communities first need to pinpoint the sources. Not just by country but crop by crop, field by field. In a study published Feb. 13 in Nature Climate Change, researchers have synthesized data from multiple ground sources and models to map global cropland emissions at high resolution – down to about 10 kilometers – while breaking down emissions by crop and source and identifying regions for more precise mitigation.

“This is an absolute global synthesis of all the information you need, by country, by production system, for calculating greenhouse gas emissions – it’s been a significant undertaking,” said senior author Mario Herrero, Cornell University professor of global development in the College of Agriculture and Life Sciences.

Croplands constitute 12% of land use globally and account for 25% of greenhouse gas emissions within the agricultural sector. But the last effort to map global cropland emissions dates to 2000. Since then, the sector has grown, management practices have changed, and researchers have many more tools to model complex systems.

The new and improved maps incorporate historical data and models, ground and remote sensing, inventory surveys, hydrological information and more. With this integrated data set, the researchers calculated that croplands emitted the greenhouse gas equivalent of 2.5 gigatons of carbon dioxide in 2020, with East Asia and Pacific contributing about half of the total, followed by South Asia, Europe and Central Asia, which collectively contributed 30%.

The data captured emissions across 46 crop classes, but four crops – rice, maize, oil palm and wheat – accounted for nearly three-quarters of cropland emissions, with rice leading at 43%. The source of the emissions differed depending on the crop; the main culprits were drained peatlands for palm oil production (35%), flooded rice paddies (35%) and synthetic fertilizer used in high-production areas (23%).

The researchers said the data highlights the need to tailor mitigation strategies depending on the crop and emissions source, writing that controlled rewetting of peatlands, shifts in the management of flooded rice paddies and optimized fertilizer use could significantly reduce emissions in their respective regions and contexts.

And the biggest hotspots are in Asia, Herrero said.

“It’s all about rice. That’s where the biggest sources and the biggest opportunities are,” said Herrero, also a senior faculty fellow and scholar with the Cornell Atkinson Center for Sustainability. “Some of the more nutritious foods, fruits and vegetables, have way lower footprints. I was surprised by the importance of peatland areas, too, which was much larger than expected.”

The data underscored a correlation between high food production and emissions: Regions that produce a lot of food were often high emitters, and the authors argue that mitigation planning should take productivity into account.

“A lot of studies find the regional hotspot and then say that we need to target this region for mitigation, but we think that may be unfair without considering the production side,” said first author and postdoctoral researcher Peiyu Cao. “One of the innovations of this paper is that we link the food production to the emissions to show how efficient the production system is.”

Herrero said the maps will ultimately allow countries and communities to address emissions at a hyper-local level.

“It’s really local people who have to act,” he said. “What’s unprecedented here is that these maps provide really a crucial subnational analysis on where you have mitigation opportunities, which is important: Funds for mitigation are scarce, and we need to prioritize.”

Cornell University has dedicated television and audio studios available for media interviews.

-30-

END