Scientists have greatly increased the accuracy of numerical estimates for agricultural nitrous oxide emissions, which might lead to considerable reductions in greenhouse gas emissions from agriculture.
Reducing agricultural greenhouse gases
The performance of numerical estimates for agricultural nitrous oxide emissions has been greatly improved by a team of researchers led by the University of Minnesota.
The first-of-its-kind knowledge-guided machine learning model is 1,000 times quicker than existing systems and has the potential to drastically cut agricultural greenhouse gas emissions, as per ScienceDaily.
The study was just published in Geoscientific Model Development, a non-profit worldwide scientific paper devoted to numerical Earth models.
Researchers from the University of Minnesota, the University of Illinois at Urbana-Champaign, the Lawrence Berkeley National Laboratory, and the University of Pittsburgh were part of the study.
Nitrous oxide is less well-known than greenhouse gases such as carbon dioxide and methane.
In actuality, nitrous oxide traps heat in the atmosphere 300 times more effectively than carbon dioxide.
Over the last four decades, human-caused nitrous oxide emissions (mostly from agriculture synthetic fertilizer and animal dung) have increased by at least 30%.
There is an urgent need to close the valve as fast as possible, but you simply can not afford what you can't even measure, according to Licheng Liu, the study's lead author and research associate from the University of Minnesota's Digital Agriculture Group in the Department of Bioproducts and Biosystems Engineering.
Estimating nitrous oxide emissions from agriculture is a tough endeavor since the relevant biogeochemical processes entail complicated interactions with soil, climate, crop, and human management techniques all of which are difficult to estimate.
Although scientists have devised various methods for estimating nitrous oxide emissions from cropland, the majority of existing remedies are also too imprecise while using complicated computational methods with physical, chemical, and biological rules or too pricey when going to deploy advanced equipment in the areas.
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Agricultural greenhouse gases emissions
Agriculture is indeed a sufferer and a cause of climate change. On the one hand, agricultural operations account for over 30% of total greenhouse gas emissions, owing mostly to the use of chemical fertilizers, pesticides, and animal manure.
This rate is likely to climb further as a result of increased food demand from a growing global population, increased demand for dairy and meat products, and intensification of farming methods.
These greenhouse gases, on the other hand, include nitrous oxide (N2O), carbon dioxide (CO2), and methane (CH4), all of which make a significant contribution to climate change and global warming and hence have a significant influence on the viability of agro-based production systems.
To limit nitrous oxide emissions, a greenhouse effect with a climate impact 300 times that of carbon dioxide, chemical fertilizers, insecticides, and manure must be handled with caution.
In addition, low-cost inhibitors of nitrogen processes in soils should be used.
All of this necessitates a thorough understanding of the sources of greenhouse gas generation in soil via diverse microbial activities.
Nuclear techniques provide significant benefits over traditional methods for evaluating the impact of climate change.
Scientists may use the nitrogen-15 isotopic approach to pinpoint the source of nitrous oxide generation, which is crucial for finding solutions to limit the gas's emissions.
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