研究中亚东部干旱荒漠植被演化的藜科新花粉分类

IF 3.7
Kai-Qing Lu, Min Li, Guo-hong Wang, Lian‐Sheng Xu, D. Ferguson, Anjali Trivedi, Jing Xuan, Ying Feng, Jin-Feng Li, G. Xie, Yi-Feng Yao, Yu-Fei Wang
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引用次数: 12

摘要

藜科的成员是中亚沙漠中最主要的元素。本科的不同属和种在荒漠植被类型中很常见。如果证明有可能将这个科的花粉类型与特定的沙漠植被联系起来,那么在地质历史上追踪植被演替将是可行的。然而,藜科花粉粒的形态相似性很少允许在属水平上进行鉴定。虽然已经提出了一些藜科植物的花粉分类,但都没有将花粉类型与特定的荒漠植被类型联系起来,以探讨其生态意义。根据中亚东部藜科13属24种的花粉形态特征,提出了藜科6种花粉类型的新分类,并将其与以藜科植物为主的温带矮半乔木荒漠(Haloxylon型)、温带多肉盐生矮半灌木荒漠(Suaeda、Kalidium和Atriplex型)、温带一年生禾草荒漠(Kalidium型)、植物群落(Kalidium型)、植物群落(Kalidium型)联系起来。温带半灌木和矮灌木沙漠(Kalidium、Iljini和Haloxylon类型)和高山缓冲矮灌木半灌木沙漠(Krascheninnikovia类型)。这些发现为探测中亚东部特定荒漠植被类型和破译生态系统演化提供了新的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New pollen classification of Chenopodiaceae for exploring and tracing desert vegetation evolution in eastern arid central Asia
Members of the Chenopodiaceae are the most dominant elements in the central Asian desert. The different genera and species within this family are common in desert vegetation types. Should it prove possible to link pollen types in this family to specific desert vegetation, it would be feasible to trace vegetation successions in the geological past. Nevertheless, the morphological similarity of pollen grains in the Chenopodiaceae rarely permits identification at the generic level. Although some pollen classifications of Chenopodiaceae have been proposed, none of them tried to link pollen types to specific desert vegetation types in order to explore their ecological significance. Based on the pollen morphological characters of 13 genera and 24 species within the Chenopodiaceae of eastern central Asia, we provide a new pollen classification of this family with six pollen types and link them to those plant communities dominated by Chenopodiaceae, for example, temperate dwarf semi‐arboreal desert (Haloxylon type), temperate succulent halophytic dwarf semi‐shrubby desert (Suaeda, Kalidium, and Atriplex types), temperate annual graminoid desert (Kalidium type), temperate semi‐shrubby and dwarf semi‐shrubby desert (Kalidium, Iljini, and Haloxylon types), and alpine cushion dwarf semi‐shrubby desert (Krascheninnikovia type). These findings represent a new approach for detecting specific desert vegetation types and deciphering ecosystem evolution in eastern central Asia.
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