Weakened connection between spring leaf-out and autumn senescence in the Northern Hemisphere [0.03%]
Northern Hemisphere春季发芽与秋季衰老之间的联系变弱
Yichen Zhang,Songbai Hong,Josep Peñuelas et al.
Yichen Zhang et al.
Vegetation autumn phenology is critical in regulating the ecosystem carbon cycle and regional climate. However, the dominant drivers of autumn senescence and their temporal shifts under climate change remain poorly understood. Here, we cond...
Food web collapse and regime shift following goldfish introduction in permanent ponds [0.03%]
鲫鱼引入永久性池塘后的食物网崩溃和生态系统状态的转变
Benjamin Lejeune,Gilles Lepoint,Mathieu Denoël
Benjamin Lejeune
In a global context of invasive alien species (IAS), native predators are often eradicated by functionally different IAS, which may induce complex cascading consequences on ecosystem functioning because of the key role predators play in str...
Land use modulates resistance of grasslands against future climate and inter-annual climate variability in a large field experiment [0.03%]
土地利用模式调节草地对未来气候和年内气候变异性抵抗力的大型田间试验
Lotte Korell,Martin Andrzejak,Sigrid Berger et al.
Lotte Korell et al.
Climate and land-use change are key drivers of global change. Full-factorial field experiments in which both drivers are manipulated are essential to understand and predict their potentially interactive effects on the structure and function...
Quantifying co-extinctions and ecosystem service vulnerability in coastal ecosystems experiencing climate warming [0.03%]
气候变化下的滨海生态系统中共同灭绝现象的量化及其生态系统服务功能的脆弱性分析
Lexi N Wilkes,Allison K Barner,Aislyn A Keyes et al.
Lexi N Wilkes et al.
Climate change is negatively impacting ecosystems and their contributions to human well-being, known as ecosystem services. Previous research has mainly focused on the direct effects of climate change on species and ecosystem services, leav...
Disentangling the drivers of urban bird diversity in the non-breeding season: A general synthesis [0.03%]
理清非繁殖季节城市鸟类多样性的驱动因素:综合分析
Israel Moreno-Contreras,Jukka Jokimäki,Marja-Liisa Kaisanlahti-Jokimäki et al.
Israel Moreno-Contreras et al.
Current knowledge about the impacts of urbanisation on bird assemblages is based on evidence from studies partly or wholly undertaken in the breeding season. In comparison, the non-breeding season remains little studied, despite the fact th...
Long-term soil warming decreases soil microbial necromass carbon by adversely affecting its production and decomposition [0.03%]
长期土壤增温通过影响其生产与分解过程降低土壤微生物残体碳储量
Xiaofei Liu,Ye Tian,Jakob Heinzle et al.
Xiaofei Liu et al.
Microbial necromass carbon (MNC) accounts for a large fraction of soil organic carbon (SOC) in terrestrial ecosystems. Yet our understanding of the fate of this large carbon pool under long-term warming is uncertain. Here, we show that 14 y...
Water addition but not reduction alters plant biomass-diversity relationship [0.03%]
浇水但不减少会改变植物生物量-多样性关系
Yan Yu,Josep Peñuelas,Jordi Sardans et al.
Yan Yu et al.
The relationship between plant aboveground biomass and diversity typically follows a unimodal pattern, showing a positive correlation in resource-poor habitats and a negative correlation in resource-rich environments. Precipitation is a cru...
Meta-Analysis
Global change biology. 2024 Jul;30(7):e17430. DOI:10.1111/gcb.17430 2024
Elevated levels of antibiotic resistance genes as a factor of human-caused global environmental change [0.03%]
抗生素抗性基因丰度增加是人类引起的全球环境变化的一个因素
Matthias C Rillig,Changchao Li,Álvaro Rodríguez Del Río et al.
Matthias C Rillig et al.
Antibiotic resistance genes (ARGs) have moved into focus as a critically important response variable in global change biology, given the increasing environmental and human health threat posed by these genes. However, we propose that elevate...
Nitrogen deposition differentially regulates the sensitivity of gross primary productivity to extreme drought versus wetness [0.03%]
氮沉降提高了生态系统总初级生产力对极端干旱的敏感性但降低了其对极端湿润的敏感性
Jinlong Peng,Fangfang Ma,Quan Quan et al.
Jinlong Peng et al.
Global hydroclimatic variability is increasing with more frequent extreme dry and wet years, severely destabilizing terrestrial ecosystem productivity. However, what regulates the consequence of precipitation extremes on productivity remain...
Canopy and understory nitrogen additions differently affect soil microbial residual carbon in a temperate forest [0.03%]
温带森林中冠层和亚 canopy 氮添加对土壤微生物遗留碳的不同影响
Yuanqi Chen,Yu Zhang,Xu Zhang et al.
Yuanqi Chen et al.
Atmospheric nitrogen (N) deposition in forests can affect soil microbial growth and turnover directly through increasing N availability and indirectly through altering plant-derived carbon (C) availability for microbes. This impacts microbi...