Are Tropical Mountaintop Trees Constrained in Their Distributions by Physiological Limitations? Thermal Adaptation and Acclimation to Climate Change

Singh Ramesh, Arun, Cheesman, Alexander W., Crayn, Darren M., and Cernusak, Lucas A. (2022) Are Tropical Mountaintop Trees Constrained in Their Distributions by Physiological Limitations? Thermal Adaptation and Acclimation to Climate Change. Proceedings of the Royal Society of Queensland, 131. p. 159.

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Abstract

Habitat suitability for most tree species restricted to the wet tropical mountaintops of Australia is predicted to decline with climate change. This is especially concerning because no available alternative habitat exists for species to migrate, and their growth responses to warming are understudied. We present a study investigating the effects of warming on an ecologically important taxon, Flindersia spp., distributed across an elevation gradient in the Australian Wet Tropics. We test: (a) whether tropical mountaintop tree species are constrained in their distributions by physiological limitations to their thermal environment; and (b) whether species display an ability to adapt and/or acclimate to future warming. We first explored trends in species’ in situ adaptation by studying leaf traits among congeners paired with environmental variables, and then evaluated plant physiological and growth responses under experimental soil nutrients and growth temperatures. We found that field trends in fundamental leaf traits with elevation were strongly driven by climate – decreasing temperatures, increasing soil moisture content and decreasing soil nutrient availability – and under experimental growth conditions showed increasing growth under warmer conditions, but then either declined or did not significantly change for upland and mountaintop species under resource-rich conditions. These modifications were associated with limitations in their photosynthetic biochemistry and selection of pathways favouring either growth or defence under resource-poor conditions. Our research findings have implications for conservation of these species in these fragile ecosystems under future warming.

Item ID: 83476
Item Type: Article (Abstract)
ISSN: 0080-469X
Copyright Information: This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International Licence. Individual articles may be copied or downloaded for private, scholarly and not-for-profit use. Quotations may be extracted provided that the author and The Royal Society of Queensland are acknowledged. Queries regarding republication of papers, or parts of papers such as figures and photographs, should be addressed to the Secretary of The Royal Society of Queensland (rsocqld@gmail.com).
Date Deposited: 27 Aug 2024 00:18
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