Lei Cheng
Title
Cited by
Cited by
Year
Arbuscular Mycorrhizal Fungi Increase Organic Carbon Decomposition Under Elevated CO2
L Cheng, FL Booker, C Tu, KO Burkey, L Zhou, HD Shew, TW Rufty, S Hu
Science 337 (6098), 1084-1087, 2012
3692012
Root morphology and mycorrhizal symbioses together shape nutrient foraging strategies of temperate trees
Weile Chen, Roger T. Koide,Tom S. Adams, Jared L. DeForest, Lei Cheng, David ...
Proc. Natl. Acad. Sci. USA 113, 8741-8746, 2016
160*2016
Tundra soil carbon is vulnerable to rapid microbial decomposition under climate warming
K Xue, MM Yuan, ZJ Shi, Y Qin, Y Deng, L Cheng, L Wu, Z He, ...
Nature Climate Change 6 (6), 595-600, 2016
1582016
Soil microbial community responses to a decade of warming as revealed by comparative metagenomics.
C Luo, LM Rodriguez-R, ER Johnston, L Wu, L Cheng, K Xue, Q Tu, ...
Applied and environmental microbiology 80, 1777-1786, 2014
1212014
开放系统中农作物对空气 CO 2 浓度增加的响应
朱建国, 程磊
应用生态学报 10, 2002
922002
Long-term impact of farming practices on soil organic carbon and nitrogen pools and microbial biomass and activity
Y Wang, C Tu, L Cheng, C Li, LF Gentry, GD Hoyt, X Zhang, S Hu
Soil and Tillage Research 117, 8-16, 2011
852011
Atmospheric CO2 enrichment facilitates cation release from soil
L Cheng, J Zhu, G Chen, X Zheng, NH Oh, TW Rufty
Ecology letters 13 (3), 284-291, 2010
812010
Warming enhances old organic carbon decomposition through altering functional microbial communities
Lei Cheng, Naifang Zhang, Mengting Yuan, Jing Xiao, Yujia Qin, Ye Deng ...
ISME J 11, 1825-1835, 2017
682017
Can the co-cultivation of rice and fish help sustain rice production?
L Hu, J Zhang, W Ren, L Guo, Y Cheng, J Li, K Li, Z Zhu, J Zhang, S Luo, ...
Scientific reports 6 (1), 1-7, 2016
452016
A new explanation of the N concentration decrease in tissues of rice (Oryza sativa L.) exposed to elevated atmospheric pCO2
J Pang, JG Zhu, ZB Xie, G Liu, YL Zhang, GP Chen, Q Zeng, L Cheng
Environmental and experimental botany 57 (1), 98-105, 2006
422006
Mycorrhizal fungi and roots are complementary in foraging within nutrient patches
L Cheng, W Chen, TS Adams, X Wei, L Li, ML McCormack, JL DeForest, ...
Ecology 97, 2815-2823, 2016
382016
Soil microbial responses to elevated CO2 and O3 in a nitrogen-aggrading agroecosystem
L Cheng, FL Booker, KO Burkey, C Tu, HD Shew, TW Rufty, EL Fiscus, ...
PLoS One 6 (6), e21377, 2011
332011
The PathoChip, a functional gene array for assessing pathogenic properties of diverse microbial communities
YJ Lee, JD van Nostrand, Q Tu, Z Lu, L Cheng, T Yuan, Y Deng, ...
The ISME Journal 7, 1974-1984, 2013
272013
开放式空气 CO2 浓度增高条件下 C3 作物 (水稻) 与 C4 杂草 (稗草) 的竞争关系
曾青, 朱建国, 刘刚, 韩勇, 张雅莉, 谢祖彬, 马红亮, 程磊
应用生态学报 13 (10), 1231-1234, 2002
252002
CO2 浓度升高对水稻抽穗期根系有关性状及根碳氮比的影响
陈改苹, 朱建国, 庞静, 程磊, 谢祖彬, 曾青
中国水稻科学 20 (001), 53-57, 2006
202006
NCycDB: a curated integrative database for fast and accurate metagenomic profiling of nitrogen cycling genes
Q Tu, L Lin, L Cheng, Y Deng, Z He
Bioinformatics 35 (6), 1040-1048, 2019
192019
高 CO2 浓度下根系分泌物的研究进展 ①
陈改苹, 朱建国, 程磊
土壤 (Soils) 37 (6), 602-606, 2005
182005
砷在土壤中的形态分布与青菜的生物学效应
李道林, 程磊
安徽农业大学学报 27 (002), 131-134, 2000
182000
Common mycorrhizal networks influence the distribution of mineral nutrients between an invasive plant, Solidago canadensis, and a native plant, Kummerowa striata
A Awaydul, W Zhu, Y Yuan, J Xiao, H Hu, X Chen, RT Koide, L Cheng
Mycorrhiza 29 (1), 29-38, 2019
152019
Soil carbon, nitrogen and microbial dynamics of pasturelands: impacts of grazing intensity and planting systems
W Yi, D Wen-Xia, C Tu, S Washburn, L Cheng, S Hu
Pedosphere 24 (3), 408-416, 2014
122014
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