Understanding How the Replacement of Native Fish Affects Ecosystem Multifunctionality Over Eight Decades [0.03%]
外来鱼类替代如何影响生态系统八十年的多重功能研究
Rayanne Barros Setubal
Rayanne Barros Setubal
Increased Retention of Litter-Derived Organic Carbon With Increasing Initial Carbon Content in Temperate Agricultural Soils [0.03%]
温带农业土壤中 litter 源有机碳的保留量随着初始碳含量的增加而增加
Neha Begill,Steffen A Schweizer,Axel Don et al.
Neha Begill et al.
Stabilized soil organic carbon (SOC) accrual plays a crucial role in long-term atmospheric CO2 sequestration. The organic carbon in the fine silt and clay size fraction (OCfine) is typically mineral-associated and thus relatively stable. Ho...
Muhammad Shahedul Alam,Mirza Mofazzal Islam,Minh Khue Do et al.
Muhammad Shahedul Alam et al.
Recent decades have witnessed a surge in tropospheric ozone concentrations across many Asian countries, including Bangladesh, posing a significant threat to rice yields and regional food security. This study presents a comprehensive marker-...
Permafrost Thaw Accelerates Old Soil Carbon Release, Outpacing New Plant Inputs During a 13-Year Tundra Warming Experiment [0.03%]
13年苔原增温实验表明永久冻土融化加速老土壤碳释放,超出新植被输入量
Emma Lathrop,Craig See,Xanthe Walker et al.
Emma Lathrop et al.
Massive stores of ancient soil organic carbon (SOC) in permafrost can decompose with Arctic warming and accelerate global climate change. Declining SOC stocks are central to the permafrost carbon feedback, but direct measures of SOC loss ar...
Leaving no Species Behind: Moving Beyond the "Winners and Losers" Dichotomy in Climate Warming Risk Assessments [0.03%]
不让任何一个物种掉队:克服气候变暖风险评估中的“赢家和输家”二元对立思维
Katharina Ruthsatz,Natasha Kruger
Katharina Ruthsatz
Fencing the Flux: Seasonal Trends, Environmental Drivers, and Mitigation Opportunities of Methane Emissions From Farm Dams [0.03%]
养鱼池甲烷排放的季节性变化、环境驱动因素及缓解途径:排放“围栏”试验研究
Omosalewa Odebiri,Ben C Scheele,David B Lindenmayer et al.
Omosalewa Odebiri et al.
Farm dams are significant methane (CH4) sources in agricultural landscapes. Fencing them to limit livestock access reduces organic matter and nutrient inputs, thereby limiting CH4 emissions. However, existing studies on the benefits of fenc...
Effects of 13-Year Nitrogen Additions on Stoichiometric Relationship in the Plant-Soil-Microbial Continuum From Tropical to Boreal Forests [0.03%]
13年氮添加下从热带至寒带森林植物-土壤-微生物连续体的计量关系效应
Danhua Zhang,Zhengbin Yan,Di Tian et al.
Danhua Zhang et al.
Ecological stoichiometry in the plant-soil-microbial systems is crucial for regulating nutrient flow and sustaining ecosystem functions in forests. However, how rising atmospheric nitrogen (N) deposition induced by human activities impacts ...
An Artificial Intelligence-Based Framework for Modeling Vegetation Photosynthesis Anomalies in India Corresponding to Tropical Oceanic Variability [0.03%]
基于人工智能的框架 modeling 印度植被光合作用异常与热带海洋变异性之间的关系
Roma Varghese,Swadhin Behera,Mukunda Dev Behera
Roma Varghese
Climatic oscillations substantially influence the interannual variability of the land carbon cycle and global food anomalies through teleconnections, underscoring the need to understand and predict terrestrial vegetation variability in resp...
Climate-Driven Habitat Loss and Natural Fragmentation Increase Extinction Risk and Compromise Population Viability in Freshwater Fish [0.03%]
气候变化驱动的生境丧失和自然片段化增加了淡水鱼灭绝的风险并危及种群生存能力
Jessica Côte,Gaël Grenouillet,Fanny Thiéry et al.
Jessica Côte et al.
Climate change is one of the major drivers of the current extinction crisis. In this context, determining the probability of species extinction is crucial. In aquatic ecosystems, basin area is a key factor influencing extinction risk. Habit...
Effects of Biodiversity Loss on Freshwater Ecosystem Functions Increase With the Number of Stressors [0.03%]
外来物种入侵等胁迫因子增加使淡水生态系统功能丧失 biodiversity受损更加严重
Ralf B Schäfer,Daria Baikova,Helena S Bayat et al.
Ralf B Schäfer et al.
A multitude of anthropogenic stressors drive biodiversity loss and alter ecosystem functioning. Freshwaters, which contribute disproportionally to global biodiversity and biogeochemical cycles, are particularly threatened. Although the rela...
Meta-Analysis
Global change biology. 2025 Nov;31(11):e70617. DOI:10.1111/gcb.70617 2025