Grassland Restoration Drives Strong Multitrophic Biodiversity Recovery, but Climate Extremes Jeopardize Drought-Sensitive Species [0.03%]
草原恢复促进多层次生物多样性的强烈恢复,但气候极端事件危及耐旱性物种
Elisabeth Prangel,Triin Reitalu,Liis Kasari-Toussaint et al.
Elisabeth Prangel et al.
Semi-natural grasslands, Europe's most biodiverse ecosystems, are rapidly declining due to agricultural intensification, abandonment, and afforestation, leading to biodiversity loss and reduced ecosystem function. Despite their ecological v...
Shifts in Genome Size and Energy Utilization Strategies Sustain Microbial Functions Along an Aridity Gradient [0.03%]
干旱梯度下微生物功能维持过程中的基因组大小及能量利用策略的转变
Xiaojun Wang,Wancai Wang,Lei Deng et al.
Xiaojun Wang et al.
Microbes acquire energy to sustain their survival and function through the decomposition of organic carbon (C) or by oxidizing atmospheric trace gases (e.g., H2, CO, CH4). However, how these two microbial energy-acquisition strategies chang...
Forest Productivity Enhancement Over the Past Two Decades Is Associated With Plant-Microbial Interactions [0.03%]
过去二十年中森林生产力的提高与植物-微生物互作有关
Xuesen Pang,Tao Zhou,Chengjie Ren et al.
Xuesen Pang et al.
Improving forest productivity is a key natural strategy for mitigating climate warming; however, the role of soil microbiomes in large-scale temporal trends in forest productivity has been largely overlooked. Here, we conducted a national-s...
Functional Dimension Reveal Impacts of Non-Native Fishes on Native Fishes and Ecosystem Functionality [0.03%]
功能维度揭示了非本土鱼类对本土鱼类及生态系统功能性状的影响
Zhice Liang,Donald A Jackson,Jiashou Liu et al.
Zhice Liang et al.
Anthropogenic-mediated invasions of non-native species are leading to biodiversity loss in many trophic groups, with specific impacts on a wide range of ecosystem functions and services. However, the impacts of non-native species on native ...
Roots Dominate Over Extraradical Hyphae in Driving Soil Organic Carbon Accumulation During Tropical Forest Succession [0.03%]
根系而非超根菌丝驱动热带森林演替过程中土壤有机碳的积累
Xiaolin Chen,Zhijian Mou,Jing Zhang et al.
Xiaolin Chen et al.
Plant roots and their mycorrhizal symbionts regulate soil organic carbon (SOC) dynamics in tropical forests, where succession-driven shifts in mycorrhizal associations alter carbon allocation patterns. However, the relative contributions of...
From Disruption to Restoration: Global Impacts of Soil Salinity and Its Mitigation Strategies on Ecosystem Nitrogen Cycling [0.03%]
从破坏到修复:土壤盐分及其缓解策略对生态系统氮循环的全球影响
Nathan O Oduor,Ahmed S Elrys,Manal A Alnaimy et al.
Nathan O Oduor et al.
Salinity impairs soil health by disrupting microbial activity and altering soil physicochemical properties, ultimately undermining ecosystem resilience and productivity. Yet, the effect of salinity and its mitigation strategies on soil nitr...
Meta-Analysis
Global change biology. 2025 Sep;31(9):e70487. DOI:10.1111/gcb.70487 2025
Jieying Wang,Fazhu Zhao,Liyuan He et al.
Jieying Wang et al.
Soil microbes are the planet's most abundant, diverse, and functionally vital organisms, yet only a small portion of these microbes actively drive soil processes. While resource availability is known to influence microbial physiological tra...
B Ringeval,J Demay,J Helfenstein et al.
B Ringeval et al.
Phosphorus (P) is known as a major limiting factor of crop yields at the global scale. Previous estimates of the global P limitation are either based on statistical approaches or on complex global gridded crop models. Both failed to disting...
Multi-Millennial Genetic Resilience of Baltic Diatom Populations Disturbed in the Past Centuries [0.03%]
过去几个世纪的干扰下 Baltic 湖区藻类种群数千年来的基因适应力
Alexandra Schmidt,Sarah Bolius,Anna Chagas et al.
Alexandra Schmidt et al.
Little is known about the genetic diversity and stability of natural populations over millennial time scales, although the current biodiversity crisis calls for heightened understanding. Marine phytoplankton, the primary producers forming t...
Long-Term Human Disturbance Accelerates Soil Carbon Loss in Earth's Driest Ecosystems [0.03%]
长期人类干扰加速地球上最干燥生态系统中的土壤碳损失
Hua Zhang,Ganghua Li
Hua Zhang