Franklin, O. ORCID: https://orcid.org/0000-0002-0376-4140, Fransson, P., Hofhansl, F. ORCID: https://orcid.org/0000-0003-0073-0946, Jansen, S., & Joshi, J. (2023). Optimal balancing of xylem efficiency and safety explains plant vulnerability to drought. Ecology Letters 26 1485-1496. 10.1111/ele.14270.
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Abstract
In vast areas of the world, forests and vegetation are water limited and plant survival depends on the ability to avoid catastrophic hydraulic failure. Therefore, it is remarkable that plants take hydraulic risks by operating at water potentials (ψ) that induce partial failure of the water conduits (xylem). Here we present an eco-evolutionary optimality principle for xylem conduit design that explains this phenomenon based on the hypothesis that conductive efficiency and safety are optimally co-adapted to the environment. The model explains the relationship between the tolerance to negative water potential (ψ50) and the environmentally dependent minimum ψ (ψmin) across a large number of species, and along the xylem pathway within individuals of two species studied. The wider hydraulic safety margin in gymnosperms compared to angiosperms can be explained as an adaptation to a higher susceptibility to accumulation of embolism. The model provides a novel optimality-based perspective on the relationship between xylem safety and efficiency.
Item Type: | Article |
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Uncontrolled Keywords: | conductivity; embolism; functional traits; optimality; tracheids; trees; vessels; vulnerability; xylem |
Research Programs: | Advancing Systems Analysis (ASA) Advancing Systems Analysis (ASA) > Exploratory Modeling of Human-natural Systems (EM) Biodiversity and Natural Resources (BNR) Biodiversity and Natural Resources (BNR) > Agriculture, Forestry, and Ecosystem Services (AFE) Biodiversity and Natural Resources (BNR) > Biodiversity, Ecology, and Conservation (BEC) |
Depositing User: | Luke Kirwan |
Date Deposited: | 19 Jun 2023 07:31 |
Last Modified: | 15 Apr 2024 14:09 |
URI: | https://pure.iiasa.ac.at/18855 |
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