Extreme, Cold-Season Climatic Events Can Decimate Wildlife and Imperil Population Persistence [0.03%]
极端的季节性气候事件可以消灭野生动物并威胁种群生存
Adele K Reinking,Katherine B Gura
Adele K Reinking
The Dual Role of NPP in Mediating and Moderating Climate-Soil Carbon Pathways Under Warming and Drought Across European Ecosystems [0.03%]
欧洲生态系统中增温与干旱条件下NPP在气候-土壤碳途径的中介作用和调节作用的双重性研究
Yang Lu,Lin Yang,Chenghu Zhou
Yang Lu
Soil carbon dynamics in response to climate change hold critical implications for global carbon cycling and ecosystem resilience. Net primary productivity (NPP), the dominant source of soil carbon inputs, serves dual functions: it mediates ...
Trade-Offs Between Carbon and Water Fluxes Along a Land Use Intensity Gradient in Southeast Asian Forests and Plantations [0.03%]
东南亚森林和人工林土地利用强度梯度上的碳水资源权衡关系分析
Bayu Budi Hanggara,Christian Stiegler,Yoshiaki Hata et al.
Bayu Budi Hanggara et al.
Land use intensity (LUI) significantly influences the biophysical and biogeochemical properties of the global landscape. The impact of LUI is exceptionally strong in Southeast Asia (SEA), where forests are increasingly being replaced by int...
Fertilization and Aridity Legacies Determine Soil Microbial Necromass Persistence Across Climates [0.03%]
气候下的施肥和干旱遗赠决定了土壤微生物尸体残留的持久性
Li-Xin Xu,Guang-Hui Yu,Cong-Qiang Liu et al.
Li-Xin Xu et al.
Microbial necromass-mineral interactions are vital for soil organic carbon (C) persistence, but their response to concurrent climate and fertilization legacies in croplands remains unclear. Using six long-term field sites (27-38 years) acro...
Soil Invertebrate Body Size Groups and Effect Magnitude Jointly Influence Global Soil CO2 Emissions [0.03%]
土壤无脊椎动物体型和影响程度共同影响全球土壤二氧化碳排放量
Cheng Liu,Catherine L Parr,Benoit Guénard et al.
Cheng Liu et al.
Soil invertebrates represent vital components of belowground biodiversity and play pivotal roles in regulating key carbon (C) cycling processes, particularly soil respiration. Despite the recognised effects of invertebrates on soil respirat...
Claudia Colesie,Kevin K Newsham
Claudia Colesie
Harmonizing Terrestrial Carbon Cycle Observations Over CONUS NEON Sites: Assessing the Information Contributions of Multiple Data Constraints [0.03%]
整合CONUS区域NEON站点陆地碳循环观测数据:评估多重数据限制下的信息贡献
Dongchen Zhang,Qianyu Li,Alexis Helgeson et al.
Dongchen Zhang et al.
Accurate inventories of terrestrial carbon pools and fluxes are crucial for understanding ecosystem processes, tracking climate change impacts, and meeting the monitoring, reporting, and verification (MRV) requirements in international trea...
Uniting Range and Phenological Shifts to Better Understand Effects of Climate Change on Communities [0.03%]
结合气候范围和物候变化以更好地理解气候变化对群落的影响
Clayton W Hale,Megan L DeMarche
Clayton W Hale
Coupled Temperature Sensitivity of Microbial Carbon and Nitrogen Use Efficiencies in Forest Soils on a Continental Scale [0.03%]
大陆尺度森林土壤微生物碳氮利用效率的温度敏感性及其耦合关系
Yang Zhang,Lingrui Qu,Jian Wang et al.
Yang Zhang et al.
Microbial carbon and nitrogen use efficiencies (CUE and NUE) are critical regulators of soil carbon and nitrogen cycling, with their temperature sensitivities playing a pivotal role in mediating biogeochemical feedbacks under global warming...
Low N Deposition Coupled With Climate Warming Promote Soil Asymbiotic N Fixation via Increasing Microbial Specialists in Alpine Grassland [0.03%]
低氮沉降与气候变暖通过增加高山草甸土壤专性固氮微生物促进大气氮固定
Ke Zhang,Yaoming Li,Ran Zhang et al.
Ke Zhang et al.
Biological nitrogen fixation (BNF) is a vital process for introducing new N into natural ecosystems, and this process has been demonstrated to be suppressed by high N deposition. However, the net ecological effect and underlying mechanisms ...