Climate warming shortens the time interval between stem-girth and wood biomass production in twelve temperate tree species [0.03%]
变暖缩短了茎周长和木质生物量生产之间的时间间隔(以十二种温带树种为例)
Nipeng Qian,Linxu Wang,Gangdun Li et al.
Nipeng Qian et al.
Climate warming is reshaping the phenology of plants in recent decades, with potential implications for forest productivity, carbon sequestration, and ecosystem functioning. While the effects of warming on secondary growth phenology is beco...
Georg Miehe,Kangshan Mao,Shabeh Ul Hasson et al.
Georg Miehe et al.
The conversion of forests to pastures is the most important human intervention that has shaped the natural landscape into the Anthropocene environment. The Qinghai-Tibet Plateau (QTP), which has both forest drought-lines and alpine treeline...
Simulated climate warming strongly constrains the seedling establishment of alpine cushion Arenaria oreophila [0.03%]
气候变暖对高山垫状拟韶子属植物种群幼苗建群的影响研究
Renyu Zhou,Pengfei Yang,Xufang Chen et al.
Renyu Zhou et al.
Population shrinkage of alpine cushion plants with ongoing climate warming has been empirically confirmed. Since cushion plants play important roles in sustaining alpine plant community and ecosystem functions, their population dynamics may...
The first haplotype-resolved genome assembly of Prunus s.l. subgenus Laurocerasus (Prunus spinulosa) [0.03%]
刺芒野杏(李属Laurocerasus亚属)的第一个单倍体型基因组组装
Sining Zhang,Jun Chen,Pan Li
Sining Zhang
Prunus spinulosa (2n = 4x = 32) is an evergreen species of significant medicinal usage and ecological value. However, the lacking of a high-quality genome of P. spinulosa has obstructed further exploration of its ecological study and phylog...
Geographical patterns and drivers of plant productivity and species diversity in the Qinghai-Tibet Plateau [0.03%]
青藏高原植物生产力和物种多样性及其驱动因素的地理格局
Yun-Long Pan,Hai-Ping Tang,Dong Liu et al.
Yun-Long Pan et al.
The Qinghai-Tibet Plateau (QTP) has three main grassland types: alpine meadow, alpine steppe, and alpine desert steppe. In this study, we asked how plant productivity and species diversity vary with altitude, longitude and latitude in alpin...
A rapid transition from spruce-fir to pine-broadleaf forests in response to disturbances and climate warming on the southeastern Qinghai-Tibet Plateau [0.03%]
青藏高原东南部森林群落遭受干扰和气候变暖下的快速更替响应研究
Lin Zhang,Xiao-Ming Lu,Hua-Zhong Zhu et al.
Lin Zhang et al.
A better understanding of the structure and dynamics of disturbed forests is key for forecasting their future successional trajectories. Despite vulnerability of subalpine forests to warming climate, little is known as to how their communit...
Human agricultural activities influence the flowering time of turnip in the Qinghai-Tibet Plateau [0.03%]
人类农事活动影响下青藏高原地区萝卜的开花期日期变迁研究
Yan Zheng,Landi Luo,Xieshengyang Li et al.
Yan Zheng et al.
Tibetan turnip and oilseeds are the most important vegetables cultivated in the Qinghai-Tibet Plateau. Our field observations identified a dominant early-bolting phenotype at the vegetative growth stage in the Tibetan turnip, which was poss...
Species invasion and phylogenetic relatedness of vascular plants on the Qinghai-Tibet Plateau, the roof of the world [0.03%]
青藏高原作为世界屋脊的植物入侵及亲缘关系研究
Hong Qian,Tao Deng
Hong Qian
The Qinghai-Tibet Plateau (QTP) is the highest and one of the most extensive plateaus in the world. Investigating naturalized non-native plant species composition, phylogenetic relationships among naturalized plant species, and phylogenetic...
Changes in plant diversity on the Qinghai-Tibet Plateau since the Anthropocene [0.03%]
人类世以来青藏高原植物多样性的变化
Hang Sun,Yongping Yang,Weibang Sun et al.
Hang Sun et al.
•Since the Anthropocene, both climate change and human activities have exerted increasingly profound impacts on QTP plant diversity.•This special section compiles research and reviews on changes in plant diversity across the QTP during th...
The Qinghai-Tibet Plateau: Climate change, human activity, and plant diversity [0.03%]
青藏高原的气候变化、人类活动及其植物多样性
Yang Yang,Jianguo Chen,Bo Song et al.
Yang Yang et al.
As the highest and largest plateau in the world, the Qinghai-Tibet Plateau (QTP) covers wide geological, topographical and climatic gradients and thus acts as a major center for biodiversity and houses a diverse array of high elevation ecos...