R
Rongzhong Ye
Researcher at Clemson University
Publications - 46
Citations - 1356
Rongzhong Ye is an academic researcher from Clemson University. The author has contributed to research in topics: Soil water & Soil carbon. The author has an hindex of 16, co-authored 41 publications receiving 910 citations. Previous affiliations of Rongzhong Ye include University of Florida & University of California.
Papers
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Journal ArticleDOI
pH controls over anaerobic carbon mineralization, the efficiency of methane production, and methanogenic pathways in peatlands across an ombrotrophic–minerotrophic gradient
Rongzhong Ye,Qusheng Jin,Brendan J. M. Bohannan,Jason K. Keller,Steven A. McAllister,Scott D. Bridgham +5 more
TL;DR: Low pH inhibits CH4 production through direct inhibition of both methanogenesis pathways and indirectly through its effects on fermentation, but the direct effects are stronger.
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Higher yields and lower methane emissions with new rice cultivars.
Yu Jiang,Kees Jan van Groenigen,Kees Jan van Groenigen,Shan Huang,Bruce A. Hungate,Chris van Kessel,Shuijin Hu,Shuijin Hu,Jun Zhang,Lianhai Wu,Xiao-jun Yan,Li-li Wang,Jin Chen,Xiaoning Hang,Yi Zhang,William R. Horwath,Rongzhong Ye,Bruce A. Linquist,Zhenwei Song,Chengyan Zheng,Aixing Deng,Weijian Zhang +21 more
TL;DR: It is shown in a series of experiments that high-yielding rice cultivars actually reduce CH4 emissions from typical paddy soils, and suggests that modern rice breeding strategies for high-Yielding cultivars can substantially mitigate paddy CH4 emission in China and other rice growing regions.
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Rice rhizodeposits affect organic matter priming in paddy soil: The role of N fertilization and plant growth for enzyme activities, CO 2 and CH 4 emissions
Zhenke Zhu,Tida Ge,Shoulong Liu,Yajun Hu,Rongzhong Ye,Mouliang Xiao,Chengli Tong,Yakov Kuzyakov,Jinshui Wu +8 more
TL;DR: In this paper, the authors investigated the effect of rhizosphere priming on CO2 and CH4 emissions and their dependence from N fertilization in a 13CO2 continuous labelling experiment.
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Soil microbial biomass size and soil carbon influence the priming effect from carbon inputs depending on nitrogen availability
TL;DR: In this paper, the priming effect of plant residue inputs on organic carbon mineralization was investigated in the same soil with a 23-year history of crops and grass cover with contrasting organic carbon contents.
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A genomic perspective on stoichiometric regulation of soil carbon cycling.
TL;DR: The results suggest that patterns of soil C turnover may reflect community-dependent metabolic shifts driven by resource allocation strategies, analogous to growth rate–stoichiometry coupling in animal and plant communities.