Temperature explains intraspecific functional trait variation in Phragmites australis more effectively than soil properties

Temperature explains intraspecific functional trait variation in Phragmites australis more effectively than soil properties

Common reed ( ) is a widespread grass species that exhibits a high degree of intraspecific variation for functional traits along environmental gradients. However, the mechanisms underlying intraspecific variation and adaptation strategies in response to environmental gradients on a regional scale re...

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Published in:Frontiers in plant science Vol. 14; p. 1285588
Main Authors: Xu, Zhichao, Liu, Huamin, Wen, Lu, Zhang, Jinghui, Xin, Xiaoyun, Hu, Jinpeng, Kou, Xin, Liu, Dongwei, Zhuo, Yi, Wang, Lixin
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 2023
Subjects:
functional traits
intraspecific variation
lakeshore wetland
Phragmites australis
plant economics spectrum
spatial scales
plant economics spectrum
spatial scales
Phragmites australis
lakeshore wetland
functional traits
intraspecific variation
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Summary:Common reed ( ) is a widespread grass species that exhibits a high degree of intraspecific variation for functional traits along environmental gradients. However, the mechanisms underlying intraspecific variation and adaptation strategies in response to environmental gradients on a regional scale remain poorly understood. In this study, we measured leaf, stem, and root traits of common reed in the lakeshore wetlands of the arid and semi-arid regions of the Inner Mongolia Plateau aiming to reveal the regional-scale variation for functional traits in this species, and the corresponding potentially influencing factors. Additionally, we aimed to reveal the ecological adaptation strategies of common reed in different regions using the plant economics spectrum (PES) theory. The results showed that functional-trait variation followed significant latitudinal and longitudinal patterns. Furthermore, we found that these variations are primarily driven by temperature-mediated climatic differences, such as aridity, induced by geographical distance. In contrast, soil properties and the combined effects of climate and soil had relatively minor effects on such properties. In the case of common reed, the PES theory applies to the functional traits at the organ, as well as at the whole-plant level, and different ecological adaptation strategies across arid and semi-arid regions were confirmed. The extent of utilization and assimilation of resources by this species in arid regions was a conservative one, whereas in semi-arid regions, an acquisition strategy prevailed. This study provides new insights into intraspecific variations for functional traits in common reed on a regional scale, the driving factors involved, and the ecological adaptation strategies used by the species. Moreover, it provided a theoretical foundation for wetland biodiversity conservation and ecological restoration.
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ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2023.1285588