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Xiaoming Li
Researcher at Henan University
Publications - 3
Citations - 395
Xiaoming Li is an academic researcher from Henan University. The author has contributed to research in topics: Biosphere & Ecosystem. The author has an hindex of 3, co-authored 3 publications receiving 191 citations.
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Journal ArticleDOI
A meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global change
Jian Song,Jian Song,Shiqiang Wan,Shiqiang Wan,Shilong Piao,Shilong Piao,Alan K. Knapp,Aimée T. Classen,Sara Vicca,Philippe Ciais,Mark J. Hovenden,Sebastian Leuzinger,Claus Beier,Paul Kardol,Jianyang Xia,Qiang Liu,Jingyi Ru,Zhenxing Zhou,Yiqi Luo,Dali Guo,J. Adam Langley,Jakob Zscheischler,Jakob Zscheischler,Jeffrey S. Dukes,Jianwu Tang,Jiquan Chen,Kirsten S. Hofmockel,Kirsten S. Hofmockel,Lara M. Kueppers,Lara M. Kueppers,Lindsey E. Rustad,Lingli Liu,Melinda D. Smith,Pamela H. Templer,R. Quinn Thomas,Richard J. Norby,Richard P. Phillips,Shuli Niu,Simone Fatichi,Ying-Ping Wang,Pengshuai Shao,Hongyan Han,Dandan Wang,Lingjie Lei,Jiali Wang,Xiaona Li,Qian Zhang,Xiaoming Li,Fanglong Su,Bin Liu,Fan Yang,Gaigai Ma,Guoyong Li,Yanchun Liu,Yinzhan Liu,Zhongling Yang,Kesheng Zhang,Yuan Miao,Hu Mengjun,Chuang Yan,Ang Zhang,Mingxing Zhong,Yan Hui,Ying Li,Mengmei Zheng +64 more
TL;DR: There is an urgent need to explore the interactions among multiple global change drivers in underrepresented regions such as semi-arid ecosystems, forests in the tropics and subtropics, and Arctic tundra when forecasting future terrestrial carbon-climate feedback.
Journal ArticleDOI
Responses of soil nematodes to water and nitrogen additions in an old-field grassland
TL;DR: In this article, a field manipulation experiment was established to investigate the responses of soil nematode communities to water and nitrogen (N) additions in an old-field grassland ecosystem.
Journal ArticleDOI
More replenishment than priming loss of soil organic carbon with additional carbon input
Junyi Liang,Junyi Liang,Zhenghu Zhou,Changfu Huo,Zheng Shi,James R. Cole,Lei Huang,Konstantinos T. Konstantinidis,Xiaoming Li,Bo Liu,Zhongkui Luo,C. Ryan Penton,Edward A. G. Schuur,James M. Tiedje,Ying-Ping Wang,Liyou Wu,Jianyang Xia,Jizhong Zhou,Jizhong Zhou,Jizhong Zhou,Yiqi Luo,Yiqi Luo,Yiqi Luo +22 more
TL;DR: It is shown that the magnitude of replenishment is greater than that of priming, resulting in a net increase in SOC by a mean of 32% of the added new C, and a two-pool interactive model is a parsimonious model to represent the SOC decomposition with priming and replenishment.