Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum
Lianas are predicted to perform better than trees during seasonal drought among tropical forests, which has substantial implications for tree and forest dynamics. Here, we use whole-plant trait comparison to test whether lianas allocated on the resource acquisitive end of the continuum of woody plan...
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th-mahidol.729322022-08-04T10:32:47Z Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum Zhenhua Sun Nujaree Prachanun Arunkamon Sonsuthi Wirong Chanthorn Warren Y. Brockelman Anuttara Nathalang Luxiang Lin Frans Bongers University of Chinese Academy of Sciences Kasetsart University Chinese Academy of Sciences Helmholtz Zentrum für Umweltforschung Xishuangbanna Tropical Botanical Garden Chinese Academy of Sciences Institute of Molecular Biosciences, Mahidol University Thailand National Science and Technology Development Agency Wageningen University & Research Agricultural and Biological Sciences Lianas are predicted to perform better than trees during seasonal drought among tropical forests, which has substantial implications for tree and forest dynamics. Here, we use whole-plant trait comparison to test whether lianas allocated on the resource acquisitive end of the continuum of woody plant strategies. We measured morphological and biomass allocation traits for seedlings of 153 species of trees and lianas occurring in a tropical forest in Thailand during the dry season. We first compared trait differences between lianas and trees directly, and then classified all species based on their trait similarities. We found that liana seedlings had significantly higher specific leaf areas and specific stem lengths than co-occurring tree seedlings. Trait similarity classification resulted in a liana-dominated cluster and a tree-dominated cluster. Compared to the tree-dominated cluster, species in the liana-dominated cluster were characterized by a consistent pattern of lower dry matter content and cheaper and more efficient per dry mass unit investment in both above-and below-ground organs. The consistency of all organs operating in tandem for dry matter content, together with optimized investment in them per mass unit, implied that the lianas and trees can be highly overlapped on the strategy gradient of the resource acquisition continuum. 2022-08-04T03:32:47Z 2022-08-04T03:32:47Z 2022-07-01 Article Forests. Vol.13, No.7 (2022) 10.3390/f13070990 19994907 2-s2.0-85133243719 https://repository.li.mahidol.ac.th/handle/123456789/72932 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85133243719&origin=inward |
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Agricultural and Biological Sciences Zhenhua Sun Nujaree Prachanun Arunkamon Sonsuthi Wirong Chanthorn Warren Y. Brockelman Anuttara Nathalang Luxiang Lin Frans Bongers Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
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Lianas are predicted to perform better than trees during seasonal drought among tropical forests, which has substantial implications for tree and forest dynamics. Here, we use whole-plant trait comparison to test whether lianas allocated on the resource acquisitive end of the continuum of woody plant strategies. We measured morphological and biomass allocation traits for seedlings of 153 species of trees and lianas occurring in a tropical forest in Thailand during the dry season. We first compared trait differences between lianas and trees directly, and then classified all species based on their trait similarities. We found that liana seedlings had significantly higher specific leaf areas and specific stem lengths than co-occurring tree seedlings. Trait similarity classification resulted in a liana-dominated cluster and a tree-dominated cluster. Compared to the tree-dominated cluster, species in the liana-dominated cluster were characterized by a consistent pattern of lower dry matter content and cheaper and more efficient per dry mass unit investment in both above-and below-ground organs. The consistency of all organs operating in tandem for dry matter content, together with optimized investment in them per mass unit, implied that the lianas and trees can be highly overlapped on the strategy gradient of the resource acquisition continuum. |
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University of Chinese Academy of Sciences |
| author_facet |
University of Chinese Academy of Sciences Zhenhua Sun Nujaree Prachanun Arunkamon Sonsuthi Wirong Chanthorn Warren Y. Brockelman Anuttara Nathalang Luxiang Lin Frans Bongers |
| format |
Article |
| author |
Zhenhua Sun Nujaree Prachanun Arunkamon Sonsuthi Wirong Chanthorn Warren Y. Brockelman Anuttara Nathalang Luxiang Lin Frans Bongers |
| author_sort |
Zhenhua Sun |
| title |
Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
| title_short |
Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
| title_full |
Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
| title_fullStr |
Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
| title_full_unstemmed |
Whole-Plant Seedling Functional Traits Suggest Lianas Also Support “Fast-Slow” Plant Economics Spectrum |
| title_sort |
whole-plant seedling functional traits suggest lianas also support “fast-slow” plant economics spectrum |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/72932 |
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1763493019200258048 |