Responses of soil N2O emissions and their abiotic and biotic drivers to altered rainfall regimes and co‐occurring wet N deposition in a semi‐arid grassland
Y Shi, J Wang, Y Ao, J Han, Z Guo, X Liu… - Global Change …, 2021 - Wiley Online Library
Global change factors such as changed rainfall regimes and nitrogen (N) deposition
contribute to increases in the emission of the greenhouse gas nitrous oxide (N2O) from the …
contribute to increases in the emission of the greenhouse gas nitrous oxide (N2O) from the …
Differential responses of soil bacteria and fungi to altered precipitation in a meadow steppe
Soil microorganisms are essential participants in ecosystem processes, yet their
composition, diversity, and function are affected by altered precipitation. The patterns and …
composition, diversity, and function are affected by altered precipitation. The patterns and …
Seasonal variation modifies the spatial patterns of soil microbial community structure and enzyme activity in a meadow steppe
C Wang, HAL Henry, X Miao, B Shi, Y Song, Q Liang… - Applied Soil …, 2023 - Elsevier
Understanding how spatial heterogeneity in soil microbial community structure and enzyme
activities vary seasonally, and identifying the underlying mechanisms, are crucial for …
activities vary seasonally, and identifying the underlying mechanisms, are crucial for …
极端干旱对温带荒漠土壤真菌群落和生态网络的影响
徐鹏, 荣晓莹, 刘朝红, 杜芳, 尹本丰, 陶冶… - 生物多样 …, 2022 - biodiversity-science.net
评估极端干旱对温带荒漠土壤真菌群落的影响有助于进一步认识干旱导致的区域荒漠化特征.
本研究利用在古尔班通古特沙漠建立的干旱三年和干旱十年样地, 分析了长期极端干旱对温带 …
本研究利用在古尔班通古特沙漠建立的干旱三年和干旱十年样地, 分析了长期极端干旱对温带 …
Ecosystem‐level decoupling in response to reduced precipitation frequency and degradation in steppe grassland
T Yang, X Zhong, J Chen, UN Nielsen… - Functional …, 2023 - Wiley Online Library
Grasslands across arid and semi‐arid regions are predicted to experience reductions in
precipitation frequency. Besides, grassland degradation has become a serious problem in …
precipitation frequency. Besides, grassland degradation has become a serious problem in …
Effects of decreased precipitation and thinning on soil respiration in a temperate forest: A one-year field experiment in Central China
J Wang, H Liu, M Hu, Y Du, Y Liu, L Lu, S Han - Catena, 2023 - Elsevier
Silvicultural practices are essential for alleviating the impacts of drought on the health and
structure of forest ecosystems. However, it is yet uncertain how precipitation reduction and …
structure of forest ecosystems. However, it is yet uncertain how precipitation reduction and …
Soil nitrogen availability and microbial carbon use efficiency are dependent more on chemical fertilization than winter drought in a maize–soybean rotation system
W Bao, P He, L Han, X Wei, L Feng, J Zhu… - Frontiers in …, 2024 - frontiersin.org
Soil nitrogen (N) availability is one of the limiting factors of crop productivity, and it is strongly
influenced by global change and agricultural management practices. However, very few …
influenced by global change and agricultural management practices. However, very few …
[HTML][HTML] Disruption of fungal hyphae suppressed litter-derived C retention in soil and N translocation to plants under drought-stressed temperate grassland
J Li, T Zhang, B Meng, JA Rudgers, N Cui, T Zhao… - Geoderma, 2023 - Elsevier
Litter decomposition often represents the largest carbon (C) and nitrogen (N) input into the
soil and thereby supports soil nutrition cycling function. Common mycelial networks (CMNs) …
soil and thereby supports soil nutrition cycling function. Common mycelial networks (CMNs) …
Effect of nitrogen addition on leaf photosynthesis and water use efficiency of the dominant species Leymus chinensis (Trin.) Tzvelev in a semi-arid meadow steppe
Effective utilization of water is the cornerstone of maintaining plant biomass. Water use
efficiency (WUE), defined as plant carbon assimilated as biomass per unit of water input, is …
efficiency (WUE), defined as plant carbon assimilated as biomass per unit of water input, is …
Different responses of soil respiration to reduced throughfall in spring and winter under contrasting hydrological conditions in a temperate forest
J Wang, K Zhao, J Yang, Q Xu, J Wang, L Qi, M Ji… - Catena, 2024 - Elsevier
Drought events are predicted to be more frequent and severe in the future and have
significant impacts on terrestrial carbon (C) cycling. However, it is highly uncertain whether …
significant impacts on terrestrial carbon (C) cycling. However, it is highly uncertain whether …