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Selected Papers
钟磊
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Associate professor
Selected Papers
[1]Zhu, G., Shi, H., Zhong, L., He, G., Wang, B., Shan, J., ... & Zhu, Y. G. (2025). Nitrous oxide sources, mechanisms and mitigation. Nature Reviews Earth & Environment, 6(9), 574-592.
[2]Zhong L, Zhou XQ et al. Mixed grazing and clipping is beneficial to ecosystem recovery but would increase the potential N2O emission in semi-arid grasslands. [J]. Soil Biology and Biochemistry, 2017, 114: 42-51.
[3]Zhong L, Du R, Ding K, et al. Effects of grazing on N2O production potential and abundance of nitrifying and denitrifying microbial communities in meadow-steppe grassland in northern China[J]. Soil Biology and Biochemistry, 2014, 69: 1-10.
[4]Tang L1, Zhong L1, Xue K, et al. Warming counteracts grazing effects on the functional structure of the soil microbial community in a Tibetan grassland[J]. Soil Biology and Biochemistry, 2019.
[5]Zhong, L., Song, Y., Cai, X., Wang, P., Yu, G., Liu, J., ... & Xu, X. (2025). Biodegradable microplastics increase fungi-mediated N2O emission by rapidly releasing dissolved organic matters. Applied Soil Ecology, 215, 106444.
[6]Zhong, L., Wang, P., Gu, Z., Song, Y., Cai, X., Yu, G., ... & Kuzyakov, Y. (2025). Biochar reduces N2O emission from fertilized cropland soils: a meta-analysis. Carbon Research, 4(1), 31.
[7]Zhong, L., Wang, P., Gu, Z., Song, Y., Cai, X., Yu, G., ... & Kuzyakov, Y. (2025). Biochar reduces N2O emission from fertilized cropland soils: a meta-analysis. Carbon Research, 4(1), 31.
[8]Zhong L, Bowatte S, Newton P C D, et al. An increased ratio of fungi to bacteria indicates greater potential for N2O production in a grazed grassland exposed to elevated CO2, Agriculture, Ecosystems & Environment, 2018, 254: 111-116.
[9]Zhong L, Hoogendoorn C J, Bowatte S, et al. Slope class and grazing intensity effects on microorganisms and nitrogen transformation processes responsible for nitrous oxide emissions from hill pastures[J]. Agriculture, Ecosystems & Environment, 2016, 217: 70-78.
[10]Ouyang, H., Song, Y., Yu, Q*, Zhou, Y., Zhang, F., Wang, H., & Zhong, L* (2025)Biogas Residue Carbonization Rather Than Biogas Residue Promoted the Yield of Pakchoi and Reduced the N2O Production Potential in Horticultural Soil. Land Degradation & Development.
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