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徐昕彤
发布者:     发布日期:2024-09-20     阅读次数:

undefined基本信息

 姓名:徐昕彤

 性别:女

 导师类别

 职称:青年教授

 学位:博士

个人简历

2020.09-2024.07  南京农业大学   农业资源与环境专业  博士

2017.09-2020.07  江西农业大学   森林培育学专业      硕士

2012.09-2016.07  南京农业大学   景观学专业          学士

联系方式

E-mailxinqing0823@163.com

研究方向

 土壤碳氮循环

课题项目

[1]江苏省研究生创新工程项目,KYCX21_0618,生物质炭对稻麦轮作系统土壤团聚体分布和碳氮矿化研究,2021/03-2022/03, 主持。

[2]国家自然科学基金面上项目,4237070776,不同气候带典型菜地土壤氧化亚氮产生过程及完全氨氧化作用的相对贡献,2024/01–2027/12,参与。

[3]国家自然科学基金面上项目,41977078,菜地氧化亚氮产生过程辨析及羟胺和亚硝态氮的潜在贡献,2020/01–2023/12,参与。

论文情况(可列举部分)

[1]Xu X., Xiao C., Bi R., Jiao Y., Wang B., Dong Y., Xiong Z. 2024. Optimizing organic fertilization towards sustainable vegetable production evaluated by long-term field measurement and multi-level fuzzy comprehensive model. Agriculture, Ecosystems and Environment. 368:109008.

[2]Xu X., Bi R., Song M., Dong Y., Jiao Y., Xiong Z. 2024. Organic substitutions enhanced soil carbon stabilization and reduced carbon footprint in a vegetable farm. Soil & Tillage Research. 236:105955.

[3]Xu X., Bi R., Song M., Wang B., Dong Y., Zhang Q., Xiong Z. 2024. Optimizing organic substitution: balancing carbon sequestration and priming effects of a six-year field experiment for sustainable vegetable production. Sustainable Production and Consumption. 44: 14-24.

[4]Xu X., Xiao C., Dong Y., Zhan L., Bi R., Song M., Pan J., Xiong Z. 2024. Machine learning algorithms realized soil stoichiometry prediction and its driver identification in intensive agroecosystems across a north-south transect of eastern China. Science of the Total Environment. 906: 167488.

[5]Xu X., Zhang Q., Song M., Zhang X., Bi R., Zhan L., Dong Y., Xiong Z. 2022. Soil organic carbon decomposition responding to warming under nitrogen addition across Chinese vegetable soils. Ecotoxicology and Environmental Safety. 242: 113932.

[6]Xu X., He C., Zhong C., Zhang Q., Yuan X., Hu X., Deng W., Wang J., Du Q., Zhang L. 2022. Soil N2O emission in Cinnamomum camphora plantations along an urbanization gradient altered by changes in litter input and microbial community composition. Environmental Pollution. 299: 118876.

[7]Xu X., Yuan X., Zhang Q., Wei Q., Liu X., Deng W., Wang J., Yang W., Deng B., Zhang L. 2022. Biochar derived from spent mushroom substrate reduced N2O emissions with lower water content but increased CH4 emissions under flooded condition from fertilized soils in Camellia oleifera plantations. Chemosphere, 287: 132110.

[8]Xu X., He C., Yuan X., Zhang Q., Wang S., Wang B., Guo X., Zhang L. 2020. Rice straw biochar mitigated more N2O emissions from fertilized paddy soil with higher water content than that derived from ex situ biowaste. Environmental Pollution 263: 114477.

[9]Fang H#., Xu X#., Zhang Q., Wang S., Yu Y., Wang H., Muhammad A., Yang Y., Aly H., Hu D., Zhang L. 2024. Biochar mitigated more N2O emissions from soils with the same origin ecosystem as its feedstocks: implications for application of biochar. Journal of Soils and Sediments. 24:2458-2466.

授权专利

[1]张令、王书丽、 徐昕彤、袁希,一种气体分析装置,授权号20192056546832019.4.24 申请,2019.12.4授权。

[2张令、朱丛飞、徐昕彤、袁希、黄伟,油茶林土壤二氧化碳排放监测系统V1.0,登记号2019SR1264731

获奖情况

[1]水分调控下土壤温室气体减排增汇潜力与机制研究,登记号Y2100899,主要完成人:张令、徐昕彤、王书丽、邓文平、汪加魏、杨文亭、邓邦良;2022

[2]农林有机废弃物资源化利用对土壤碳氮过程的调控及机制,登记号J20000953,主要完成人:张令、徐昕彤、王书丽、郭晓敏;2021

称号荣誉

[1]江西省E类人才