Patterns and driving factors of functional traits of desert species with different elevational distributions in the Tibetan Plateau and adjacent areas
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Published:2024-05-09
Issue:1
Volume:24
Page:
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ISSN:1471-2229
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Container-title:BMC Plant Biology
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language:en
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Short-container-title:BMC Plant Biol
Author:
Hu Ya,Li Xiangyun,Wang Shaokun,Lv Peng,Yue Ping,Chen Min,Zuo Xiaoan
Abstract
AbstractVariations in functional traits serve as measures of plants’ ability to adapt to environment. Exploring the patterns of functional traits of desert plants along elevational gradients is helpful to understand the responses and adaptation strategies of species to changing environments. However, it is unknown whether the relationship between functional traits and elevation is affected by differences in the species’ elevational distributions (elevation preference and species’ range). Importantly, most researches have concerned with differences in mean trait values and ignored intraspecific trait variation. Here, we measured functional traits of desert plants along a wide elevational gradient in the Tibetan Plateau and adjacent areas and explored functional trait patterns over elevation in species with different elevational distributions. We decomposed trait variation and further investigated characterizations of intraspecific variation. Ultimately, the main drivers of trait variation were identified using redundancy analysis. We found that species’ elevational distributions significantly influenced the relationship of functional traits such as plant height, leaf dry matter content, leaf thickness, leaf nitrogen and carbon content with elevation. Species with a lower elevational preference showed greater trait variation than species with a higher elevational preference, suggesting that species that prefer high elevation are more conservative facing environmental changes. We provide evidence that interspecific trait variation in leaf thickness and leaf carbon content decreased with increasing species’ range, indicating that increased variations in resistance traits within species make greater responsiveness to environmental changes, enabling species a wider range. Elevation, temperature and precipitation were the main drivers of trait variation in species with a low elevational preference, while the effect of precipitation on trait variation in species with a high elevational preference was not significant. This study sheds new insights on how plants with different elevational distributions regulate their ecological strategies to cope with changing environments.
Funder
CAS “Light of West China” Program Second Tibetan Plateau Scientific Expedition and Research program National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
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