[HTML][HTML] 古新世-始新世极热事件(PETM) 浅海生态系统稳态转变: 以塔里木盆地库孜贡苏剖面钙质超微浮游植物为例
梁瑞泽, 华春荣, 王亚苏, 苏虹, 姜仕军 - 第四纪研究, 2024 - dzkx.org
古新世-始新世极热事件(PETM) 发生于56 Ma 前, 因其碳释放过程与当前人类CO 2
持续排放驱动的全球变暖类似而备受世人关注. 塔里木盆地保存完好, 出露完整且连续的古近纪 …
持续排放驱动的全球变暖类似而备受世人关注. 塔里木盆地保存完好, 出露完整且连续的古近纪 …
Progress in the Study of Ecological Resilience of Vegetation under Drought Stress
W Tianye, W Ping, WU Zening, YIN Jun… - Advances in Earth …, 2023 - adearth.ac.cn
Ecological resilience, the ability of an ecosystem to absorb and adapt to environmental
change to maintain its sustainability, was first systematically introduced by the Canadian …
change to maintain its sustainability, was first systematically introduced by the Canadian …
Ecosystem regime shift in shallow marine environment during the Paleocene-Eocene Thermal Maximum (PETM): A case study of calcareous nannoplankton from the …
L Ruize, HUA Chunrong, W Yasu, SU Hong… - Quaternary …, 2024 - dzkx.org
Abstract The Paleocene-Eocene Thermal Maximum (PETM) event occurred 56 million years
ago has drawn significant attention due to its similarity to anthropogenic CO 2 driven global …
ago has drawn significant attention due to its similarity to anthropogenic CO 2 driven global …
干旱胁迫下植被生态韧性研究进展
王田野, 王平, 吴泽宁, 尹君, 于静洁, 王慧亮, 于志磊… - 地球科学进展, 2023 - adearth.ac.cn
在全球变化背景下, 全球陆地植被生态系统如何响应和适应日益加剧的干旱环境,
即干旱胁迫下植被生态韧性的空间格局和演变机理, 成为当前生态学和生态水文学研究的核心 …
即干旱胁迫下植被生态韧性的空间格局和演变机理, 成为当前生态学和生态水文学研究的核心 …
[HTML][HTML] Revisiting mid-long term ecosystem services projections: Integrating the interaction effects of future climate and land use changes
Two of the most critical issues of sustainability are how future ecosystem services (ES) will
change under natural and artificial stressors. To answer the above problems accurately with …
change under natural and artificial stressors. To answer the above problems accurately with …