Now, an international team led by researchers at the University of Minnesota Institute on the Environment has developed new data and methods that not only boost our ability to accurately estimate how much N2O is being generated by current fertilizer practices around the world, but also shows where fertilizer application could be increased or decreased to maximize the benefits while minimizing the climate downsides.
- The work was published today in the scientific journal Global Change Biology, led by James Gerber, co-director of IonE’s Global Landscapes Initiative.
- The researchers developed new data and methods that can be used to improve calculation of N2O emissions associated with synthetic fertilizer and manure.
- The study presents the first worldwide sub-national crop-specific N2O emissions estimates.
- Using the new data and models, the researchers conclude that global N2O emissions are likely 16–33 percent lower than previously estimated.
The researchers identify regions and crops for which a small decrease in nitrogen application could lead to a large decrease in N2O emissions, as well as regions where increasing nitrogen fertilizer application would have relatively small impact on N2O emissions. For example reducing nitrogen fertilizer application 5 percent in Shandong province in China would cut N2O emissions there 9 percent, while increasing nitrogen fertilizer 5 percent in sub-Saharan Africa would increase N2O emissions in that region only 2.7 percent.
“This work represents a major improvement in our ability to develop strategies to minimize greenhouse gas emissions while maintaining global food security,” said Gerber. “Having such a detailed map of the N2O emissions associated with regions and crops helps target policy and management to achieve these multiple goals. Even more important, the improved accuracy of the new emissions model allows policy-makers to calculate trade-offs of changing fertilizer application rates in different regions.”
The release of this paper coincides with the meeting of the Subsidiary Body for Scientific and Technological Advice of the United Nations Framework Convention on Climate Change, which will be advancing the application of science to reducing greenhouse gas emissions. Co-authors include researchers from the University of Aberdeen, CSIRO (Australia), IIASA (Austria), INRA (France), the University of Hawaii, Harvard University and the University of California Berkeley.
This paper will appear in the same issue of Global Change Biology as a paper led by Lini Wollenberg of the University of Vermont on reducing emissions from agriculture.
“These studies provide great insights into how agricultural lands can both provide food and be part of the solution to reduce climate change,” said GLI co-director Paul West, who served as co-author on both studies.
The University of Minnesota’s Institute on the Environment seeks lasting solutions to Earth’s biggest challenges through research, partnerships and leadership development. For more information, visit environment.umn.edu.