刘亮锋:修订间差异
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== '''性别''' == | |||
女 | |||
== '''工作单位''' == | |||
中国科学院成都生物研究所 | |||
== '''职称/职务''' == | |||
副研究员 | |||
== '''主要研究方向''' == | |||
泥炭地土壤碳过程与全球变化 | |||
== '''工作年限(从事该领域研究的起始时间)''' == | |||
6年(起始:2019) | |||
== '''论文著作''' == | == '''论文著作''' == | ||
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[3] Liu,L.,Chen,H.,He,Y.,Liu,J.,Dan,X.,Jiang,L.,Zhan,W.,2022. Carbon stock stability in drained peatland after simulated plant carbon addition: Strong dependence on deeper soil. The Science of the total environment 848,157539. | [3] Liu,L.,Chen,H.,He,Y.,Liu,J.,Dan,X.,Jiang,L.,Zhan,W.,2022. Carbon stock stability in drained peatland after simulated plant carbon addition: Strong dependence on deeper soil. The Science of the total environment 848,157539. | ||
[4] Liu,L.,Chen,H.,Jiang,L.,Zhan,W.,Hu,J.,He,Y.,Liu,J.,Xue,D.,Zhu,D.,Zhao,C.,Yang,G.,2019. Response of anaerobic mineralization of different depths peat carbon to warming on Zoige plateau. Geoderma 337,1218-1226. | [4]Liu,L.,Chen,H.,Jiang,L.,Zhan,W.,Hu,J.,He,Y.,Liu,J.,Xue,D.,Zhu,D.,Zhao,C.,Yang,G.,2019. Response of anaerobic mineralization of different depths peat carbon to warming on Zoige plateau. Geoderma 337,1218-1226. | ||
[5] Liu,L.,Chen,H.,Jiang,L.,Hu,J.,Zhan,W.,He,Y.,Zhu,D.,Zhong,Q.,Yang,G.,2018. Water table drawdown reshapes soil physicochemical characteristics in Zoige peatlands. Catena 170,119-128. | [5]Liu,L.,Chen,H.,Jiang,L.,Hu,J.,Zhan,W.,He,Y.,Zhu,D.,Zhong,Q.,Yang,G.,2018. Water table drawdown reshapes soil physicochemical characteristics in Zoige peatlands. Catena 170,119-128. | ||
[6] Liu,L.,Chen,H.,Zhu,Q.,Yang,G.,Zhu,E.,Hu,J.,Peng,C.,Jiang,L.,Zhan,W.,Ma,T.,He,Y.,Zhu,D.,2016. Responses of peat carbon at different depths to simulated warming and oxidizing. The Science of the total environment 548-549,429-440. | [6] Liu,L.,Chen,H.,Zhu,Q.,Yang,G.,Zhu,E.,Hu,J.,Peng,C.,Jiang,L.,Zhan,W.,Ma,T.,He,Y.,Zhu,D.,2016. Responses of peat carbon at different depths to simulated warming and oxidizing. The Science of the total environment 548-549,429-440. | ||
[7] Tian,J#.,Liu,L#.,Chen,H.,Zhong,L.,Zhou,X.,Jiang,L.,Zhan,W.,Wang,Y.,2022. Aerobic environments in combination with substrate additions to soil significantly reshape depth-dependent microbial distribution patterns in Zoige peatlands,China. Applied Soil Ecology 170,104252. | [7]Tian,J#.,Liu,L#.,Chen,H.,Zhong,L.,Zhou,X.,Jiang,L.,Zhan,W.,Wang,Y.,2022. Aerobic environments in combination with substrate additions to soil significantly reshape depth-dependent microbial distribution patterns in Zoige peatlands,China. Applied Soil Ecology 170,104252. | ||
2025年9月23日 (二) 14:33的版本
性别
女
工作单位
中国科学院成都生物研究所
职称/职务
副研究员
主要研究方向
泥炭地土壤碳过程与全球变化
工作年限(从事该领域研究的起始时间)
6年(起始:2019)
论文著作
[1]Liu,L.,Tian,J.,Wang,H.,Xue,D.,Huang,X.,Wu,N.,Wang,M.,Xu,X.,Peng,C.,Wang,Y.,Chen,H.,2023. Stable oxic-anoxic transitional interface is beneficial to retard soil carbon loss in drained peatland. Soil Biology and Biochemistry 181,109024.
[2] Liu,L.,Chen,H.,Tian,J.,2022. Varied response of carbon dioxide emissions to warming in oxic,anoxic and transitional soil layers in a drained peatland. Communications Earth & Environment 3(1),313.
[3] Liu,L.,Chen,H.,He,Y.,Liu,J.,Dan,X.,Jiang,L.,Zhan,W.,2022. Carbon stock stability in drained peatland after simulated plant carbon addition: Strong dependence on deeper soil. The Science of the total environment 848,157539.
[4]Liu,L.,Chen,H.,Jiang,L.,Zhan,W.,Hu,J.,He,Y.,Liu,J.,Xue,D.,Zhu,D.,Zhao,C.,Yang,G.,2019. Response of anaerobic mineralization of different depths peat carbon to warming on Zoige plateau. Geoderma 337,1218-1226.
[5]Liu,L.,Chen,H.,Jiang,L.,Hu,J.,Zhan,W.,He,Y.,Zhu,D.,Zhong,Q.,Yang,G.,2018. Water table drawdown reshapes soil physicochemical characteristics in Zoige peatlands. Catena 170,119-128.
[6] Liu,L.,Chen,H.,Zhu,Q.,Yang,G.,Zhu,E.,Hu,J.,Peng,C.,Jiang,L.,Zhan,W.,Ma,T.,He,Y.,Zhu,D.,2016. Responses of peat carbon at different depths to simulated warming and oxidizing. The Science of the total environment 548-549,429-440.
[7]Tian,J#.,Liu,L#.,Chen,H.,Zhong,L.,Zhou,X.,Jiang,L.,Zhan,W.,Wang,Y.,2022. Aerobic environments in combination with substrate additions to soil significantly reshape depth-dependent microbial distribution patterns in Zoige peatlands,China. Applied Soil Ecology 170,104252.
