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It is known as "laughing gas", it is used as an oxidizer in rocket propellants, it is adopted in motor racing to increase the power output of engines. Yet, it is also a major greenhouse gas and air pollutant. 

Nitrous oxide or N2O, is produced naturally in the soil during the microbial processes of nitrification and denitrification. It is a greenhouse gas with a large global warming potential (GWP). When compared to carbon dioxide (CO2), N2O has 298 times the ability per molecule of gas to trap heat in the atmosphere. 

Scientists have been working for decades to find solutions to reduce N2O emissions, including adding biochar. However, the effect of biochar amendment on soil N2O emissions during freeze-thaw cycle (FTC) is still rarely known by people. 

Soil FTC is a process caused by phase transition of soil water. It is a common process during the non-growing season in mid-high latitude regions. China is a country with large areas at mid and high latitude and high altitude where FTC occurs frequently. Thus it means a lot for researches on finding ways to reduce N2O emissions especially in these areas.  

Scientists at the Xinjiang Institute of Ecology and Geography (XIEG) may have recently found an answer to this question. They created a man-made soil FTC through laboratory simulation, and used it in their research on the effect of biochar amendments on N2O emissions. 

Analysis showed that soil N2O emissions could be reduced by adding biochar during FTC. Biochar amendments also had a positive effect on retaining soil urease and protease activities.  

Their study indicates that biochar amendment can be a potential method to reduce soil N2O emissions during freeze-thaw periods.  

“The loss of N from soils will also decrease N availability to crops and affect crop productivity negatively. Hence, new agricultural management practices are needed to reduce N2O emission as well as maintain N availability of soils,” said LIU Xiang, a researcher from the team. 

Their research was published on Scientific Reports, entitled “Response of N2O emissions to biochar amendment in a cultivated sandy loam soil during freeze-thaw cycles”. 

The findings were published in the journal Scientific Reports. For more details, please refer to http://www.nature.com/articles/srep35411. 

 

 
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