Zhenong Jin,Licheng Liu,Qi Yang et al.
Zhenong Jin et al.
Global change ecology demands predictive models that reconcile data-driven learning with mechanistic theory to address complex, interconnected ecosystem challenges. Traditional process-based approaches struggle with spatiotemporal parameter...
Dexun Qiu,Bo Xiao,Tadeo Saez-Sandino et al.
Dexun Qiu et al.
Biocrusts are a critical component of terrestrial environments, playing vital roles in soil stability, carbon and nitrogen cycling, and ecosystem functioning, particularly in drylands. Yet their responses to global change stressors remain p...
Meta-Analysis
Global change biology. 2026 Jan;32(1):e70723. DOI:10.1111/gcb.70723 2026
Sarah Worden,Rong Fu,A Anthony Bloom et al.
Sarah Worden et al.
The Congo Basin and its contiguous forests harbor globally significant carbon stocks, estimated at 65 gigatons of C (GtC) above and belowground. Despite rising temperatures and intensifying droughts, they have remained a carbon sink, albeit...
Multiple Global Change Stressors Boost Soil Greenhouse Gas Emissions Worldwide [0.03%]
全球多重变化驱动因子提升土壤温室气体排放量
Chen Chen,Manuel Delgado-Baquerizo,Guiyao Zhou et al.
Chen Chen et al.
Soil carbon greenhouse gas (GHG) emissions are integral to climate security worldwide. Global change is known to impact soil GHG emissions; yet, the contribution of an increasing number of global change factors (GCFs) to the rates of carbon...
Soil Protist Diversity and Biotic Interactions Shape Ecosystem Functions Under Climate Change [0.03%]
土壤原生动物多样性及生物互作影响全球变化下的生态系统功能
Hongwei Liu,Catarina S C Martins,Guiyao Zhou et al.
Hongwei Liu et al.
Soil protists significantly influence ecosystem multifunctionality (EMF) through their roles in microbial predation, parasitism, and organic matter decomposition. However, the multifaceted contributions of protist diversity, along with its ...
Decoupled Stability of Above- and Belowground Productivity Across Global Change Drivers [0.03%]
全球变化驱动因子下地上地下生产力的分离式稳定性分析
Ze Zhang,Hongyan Liu,Zidong Li et al.
Ze Zhang et al.
Grassland ecosystems play essential roles in global carbon cycling and biodiversity conservation, yet it remains unclear whether belowground productivity is less sensitive to environmental change than aboveground productivity. Previous stud...
Warming Amplifies Responses of Soil Organic Carbon to Multiple Global Change Drivers [0.03%]
变暖放大了全球变化驱动因素对土壤有机碳的多重响应
Yuan Sun,Xinli Chen,Chen Chen et al.
Yuan Sun et al.
Soil organic carbon (SOC) is the largest terrestrial C reservoir on Earth, which plays a critical role in climate regulation. While global warming is a defining feature of anthropogenic climate change, its interactive effects with other glo...
Meta-Analysis
Global change biology. 2025 Nov;31(11):e70612. DOI:10.1111/gcb.70612 2025
Can Oxygen Isotopes in Tree Rings Be Used to Detect Stomatal Responses to Global Change? [0.03%]
树木年轮中的氧同位素能否用于检测气孔对全球变化的响应?
Imogen Carter,Roel Brienen,Manuel Gloor
Imogen Carter
Stomatal conductance (gs) regulates CO2 and water fluxes of plants. Although experiments have shown that gs decreases with elevated CO2, it is unclear how gs is responding in situ to long-term exposures to rising CO2 and a changing climate....
Ecological and Evolutionary Dynamics of Invasive Species Under Global Change [0.03%]
全球变化下的入侵物种的生态与进化动态研究进展
Aibin Zhan,Dan Bock,Elizabeta Briski et al.
Aibin Zhan et al.
Future Projections of Biodiversity Under Global Change Need to Include Genetic Diversity [0.03%]
全球变化下生物多样性的未来预测需纳入遗传多样性考量
Roslyn C Henry
Roslyn C Henry
This perspective argues that current methods for predicting biodiversity loss from future land use and climate change models are incomplete without incorporating projections of genetic diversity. Without methods to estimate current and futu...