柴达木盆地中的砂楔及其意义

冰楔假形和原生砂楔是指示古冻土发育的重要证据。两者虽然具有相似的外观形态，但形成过程不同，在反映古气候、古环境和古冻土演化等方面具有不同的指示意义。在利用地层中的楔形构造推测古环境时，确定其类型是正确解读其环境意义的前提。本文讨论了柴达木盆地发现的楔形构造，通过楔形围岩和充填物中的一些微结构判断其属于原生砂楔，进而探讨了这些砂楔代表的环境意义和多年冻土发育状况。柴达木盆地中的砂楔主要形成在末次冰消期的Heinrich1（H1）和YoungerDrays两次降温事件期间。这表明，末次冰消期，柴达木盆地地表几乎全部被风沙覆盖，处于极端干旱的沙漠环境，年平均气温较现在降低6℃左右，多年冻土下界较现在下降了约1000m。然而，多年冻土并没有占据整个盆地，在盆地中部和南部保留着大片融区，据此推测，即使末次冰期时期，柴达木盆地仍然保留一定面积的融区。末次冰期以来，青藏高原主体和祁连山两大现代多年冻土区并没有通过柴达木盆地连成一片。

Vegetation Changes from 2014 to 2023 in the Mongolian Plateau Permafrost Region under Climate Change

The permafrost region is one of the most sensitive areas to climate change.With global warming,the Mongolian Plateau permafrost is rapidly degrading,and its vegetation ecosystem is seriously threatened.To address this challenge,it is essential to understand the impact of climate change on vegetation at different permafrost degradation stages on the Mongolian Plateau.Based on the general permafrost distribution,in this study,we divided different permafrost regions and explored the response of vegetation to climate change at different stages of permafrost degradation by the idea of“space instead of time”from 2014 to 2023.The results of the study showed that:(1)Normalized difference vegetation index(NDVI)values showed a decreasing trend,and the proportion of the decreasing region was in the order of sporadic permafrost region>isolated and sparse permafrost region>continuous and discontinuous permafrost regions.(2)The main controlling factors of vegetation growth in permafrost regions are different,air temperature is the main controlling factor of vegetation growth in isolated and sparse permafrost region(r=-0.736)and sporadic permafrost regions(r=-0.522),and precipitation is the main controlling factor of vegetation growth in continuous and discontinuous permafrost region(r=-0.498).(3)The response of NDVI to climate change varies at different stages of permafrost degradation.In the early stages of permafrost degradation,increased land surface temperature(LST)and air temperature favored vegetation growth and increased vegetation cover,whereas increased precipitation impeded vegetation growth;as the permafrost degraded,increased LST and air temperature impeded vegetation growth,whereas increased precipitation promoted vegetation growth.