Fungal Panzootic Increasingly Threatens Temperate Amphibian Species While Impact Has Stabilised in Equatorial Regions [0.03%]
一个真菌性流行病正日益威胁着温带地区的两栖动物物种 而其在赤道地区的影响已经趋于稳定
Luke E B Goodyear,Deanna H Olson,Kathryn L Ronnenberg et al.
Luke E B Goodyear et al.
Global amphibian declines outpace the loss of most organisms on Earth. The panzootic fungal disease chytridiomycosis, caused by Batrachochytrium dendrobatidis (Bd), is widely regarded as a predominant driver behind amphibian biodiversity er...
Monthly Soil Respiration in China's Forests: Spatiotemporal Patterns and Drivers Over 21 Years [0.03%]
中国森林土壤呼吸的月变化模式及驱动因子:基于21年的观测数据分析
Jiaming Chang,Ni Huang,Li Wang et al.
Jiaming Chang et al.
Forests play a critical role as terrestrial carbon sinks in mitigating climate change. However, accurate quantification of soil respiration (Rs)-the primary CO2 efflux from forests-remains challenging due to existing studies' overreliance o...
Hidden Vulnerability: Extreme Drought Threatens Dryland Plant Communities Under Climate Change [0.03%]
隐匿的脆弱性:气候变化下的极端干旱威胁旱地植物群落
Samuel W Wilson,Rachel R Renne,Ingrid C Burke et al.
Samuel W Wilson et al.
Extreme heat and drought are becoming more frequent, altering the distribution and disturbance cycles of plant communities. These weather events have caused widespread mortality of woody plant species globally. We investigated the environme...
Synergistic Effects of a Microbial Amendment and Crushed Basalt: Soil Geochemical and Microbial Responses [0.03%]
微生物改良剂和玄武岩粉对土壤地球化学及微生物的协同效应
Yun-Ya Yang,Clifton P Bueno de Mesquita,Corey R Lawrence et al.
Yun-Ya Yang et al.
Over geologic timescales, the natural weathering of silicate minerals in soils and regolith regulates atmospheric CO2. Although this process is slow relative to anthropogenic emissions, several strategies have been proposed to accelerate th...
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...
Widespread Phenological Shifts With Temperature in Alaska's Marine Fishes [0.03%]
气候变化下阿拉斯加海洋鱼类物候期的普遍变化
Lauren A Rogers,Kelia E Axler,Jennifer S Bigman
Lauren A Rogers
Changes in the timing of fish spawning and early life stage development can affect the temporal match or mismatch of larvae with production of preferred prey as well as their availability to predators, with potential consequences for recrui...
Taller Trees Experienced Less Crown Damage During a Severe Hurricane in a Tropical Forest [0.03%]
在热带森林中,一棵大树在严重飓风中的树冠受损程度较低
Tao Han,António Ferraz,Dingyi Fang et al.
Tao Han et al.
Hurricanes strongly regulate vegetation structure and dynamics in coastal tropical forests by causing tree mortality and damaging the crowns of surviving trees. Despite the importance of this damage for long-term forest demography and carbo...
Reversibility of Interannual Tree Growth Variability in Southern Boreal Forest [0.03%]
气候变化下高纬度 boreal 区树木生长的不可逆性的研究
Yang Tang,Enzai Du,Baolin Xue et al.
Yang Tang et al.
The southern boreal forest has experienced a profound shift in growth pattern because of climate change. However, it remains underexplored whether climate variation has increased interannual tree growth variability and if this trend is reve...
Global Warming Drives Phenological Shifts and Hinders Reproductive Success in a Temperate Octocoral [0.03%]
全球变暖促使温带八放珊瑚的物候变化并影响其繁殖成功案例研究
Núria Viladrich,Andrea Gori,Pol Capdevila et al.
Núria Viladrich et al.
Global warming is profoundly reshaping biodiversity. Until now, most research has focused on the impacts of extreme temperature events. However, in many ecosystems, it is becoming increasingly apparent that climate change is accelerating th...
Co-Invasion by Distantly Related Invasive Plants Drives Invasional Meltdown via Synergistic Increases in Putative Soil Fungal Pathogens [0.03%]
远缘入侵植物的共侵入通过拟态土壤真菌病原体的协同增加驱动入侵瓦解事件
Changchao Shen,Zhibin Tao,Kaoping Zhang et al.
Changchao Shen et al.
Biological invasion is a major component of global change, and co-invasion of multiple invasive species is becoming increasingly common under accelerating globalization, climate warming, and land-use change. Such co-invasions can generate n...