Late 21st-Century Climate and Land Use Driven Loss of Plant Diversity in African Mountains [0.03%]
21世纪末非洲山地植物多样性的丧失及其与气候和土地利用变化的关系
João de Deus Vidal Junior,Alexandre Antonelli,Clinton Carbutt et al.
João de Deus Vidal Junior et al.
With the 1.5°C-5°C increase in global temperature projected for this century, many plant species are expected to shift their distribution ranges to track their environmental requirements. Across several mountain regions, responses to clim...
Enhanced Rock Weathering Promotes Soil Organic Carbon Accumulation: A Global Meta-Analysis Based on Experimental Evidence [0.03%]
增强型岩石风化促进土壤有机碳积累:基于实验证据的全球元分析
Tongtong Xu,Huiwen Li,Sara Vicca et al.
Tongtong Xu et al.
Enhanced rock weathering (ERW) has emerged as a promising carbon dioxide removal (CDR) strategy with the potential to modulate soil carbon sequestration, yet empirical assessments of its impacts remain limited. Here, we address this knowled...
Meta-Analysis
Global change biology. 2025 Sep;31(9):e70483. DOI:10.1111/gcb.70483 2025
Soil Carbon-to-Nitrogen Ratio Can Predict the Grassland Biodiversity-Productivity Relationship: Evidence From Local, Regional, and Global Scales [0.03%]
土壤碳氮比可以预测草地生物多样性-生产力关系:基于本地、区域和全球尺度的证据
Hongjin Zhang,Lin Jiang,Wei Wang
Hongjin Zhang
Soil elemental stoichiometry serves as an inherent link between soil biogeochemistry and the structure and processes within plant communities, and thus is at the core of ecosystem functions. Yet, the regulatory role of soil stoichiometry, p...
Cover Crop Root Channels Promote Bacterial Adaptation to Drought in the Maize Rhizosphere [0.03%]
覆盖作物根通道促进干旱条件下玉米 rhizophere 细菌适应性响应
Debjyoti Ghosh,Yijie Shi,Iris M Zimmermann et al.
Debjyoti Ghosh et al.
Increasing drought frequency poses a significant threat to agricultural productivity. A promising strategy to enhance crop resilience against drought is the utilisation of root channels left by winter cover crops, which can improve access t...
Translocated Species Exceed Alien Species in Homogenizing Freshwater Fish Assemblages [0.03%]
被转移物种在同质化淡水鱼类群落方面超过入侵异域物种
Jie Wang,Juan Tao,Sébastien Brosse et al.
Jie Wang et al.
Human-driven introductions of nonnative species are accelerating biotic homogenization, threatening the distinctiveness of biota worldwide. However, the patterns and drivers of homogenization caused by nonnatives originating from other ecor...
Climate-Driven Variability in Flowering Phenology Changes Across Subtropical Mountains: Traits, Elevation Shifts, and Biogeographic Patterns [0.03%]
气候变暖背景下亚热带山地植物花期物候变化的海拔梯度格局及其性状和成因分析
Kuiling Zu,Zhiheng Wang,Fusheng Chen et al.
Kuiling Zu et al.
Flowering phenology has major impacts on physiological processes, survival, and reproductive success in angiosperms, serving as a critical biological indicator of climate change impacts. However, changes in flowering phenology and their det...
Soil Microbiota From Warmer and Drier Grasslands Are More Vulnerable to Drought Stress [0.03%]
来自温暖而干燥草地的土壤微生物体更容易受到干旱压力的影响
Xihang Yang,Yong Zhang,Xinyue Zhang et al.
Xihang Yang et al.
The stability of soil microbial communities under drought stress is critical for sustaining ecosystem function in a changing climate. However, it remains unclear whether long-term exposure to arid environments strengthens microbial drought ...
Mapping the Potential Risk of Coronavirus Spillovers in a Global Hotspot [0.03%]
绘制全球热点地区冠状病毒溢出风险潜势图
R Sedricke Lapuz,Ada Chornelia,Alice C Hughes
R Sedricke Lapuz
Bats harbor approximately a third of known mammal viruses, including the recent coronaviruses SARS-CoV-1 and SARS-CoV-2 that likely spilled over in Asia. As spillover risk increases due to habitat loss and fragmentation, we identified poten...
Arctic Soil C and N Cycling Are Linked With Microbial Adaptations During Drought [0.03%]
干旱条件下北极土壤碳氮循环与微生物适应有关
Theis Thomsen,Morten Dencker Schostag,Anders Priemé et al.
Theis Thomsen et al.
Climate change increases the frequency and intensity of drought events, yet the mechanisms of microbe-mediated soil carbon (C) and nitrogen (N) cycling under drought are poorly understood. We conducted a microcosm experiment with a Greenlan...
Drought Intensity Shapes Soil Legacy Effects on Grassland Plant and Soil Microbial Communities and Their Responses to Future Drought [0.03%]
干旱强度决定了土壤遗留效应塑造草地植物和土壤微生物及其对未来干旱的响应
Natalie J Oram,Nadine Praeg,Richard D Bardgett et al.
Natalie J Oram et al.
Drought can have long-lasting legacy effects on terrestrial ecosystems via persistent shifts in soil microbial community structure and function. Yet, the role drought intensity plays in the formation of soil-mediated drought legacies and in...