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Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length

Publication ,  Journal Article
Holtzman, N; Sloan, B; Potkay, A; Katul, G; Feng, X; Konings, AG
Published in: AGU Advances
April 1, 2024

Stomatal optimization theory is a commonly used framework for modeling how plants regulate transpiration in response to the environment. Most stomatal optimization models assume that plants instantaneously optimize a reward function such as carbon gain. However, plants are expected to optimize over longer timescales given the rapid environmental variability they encounter. There are currently no observational constraints on these timescales. Here, a new stomatal model is developed and is used to analyze the timescales over which stomatal closure is optimized. The proposed model assumes plants maximize carbon gain subject to the constraint that they cannot draw down soil moisture below a critical value. The reward is integrated over time, after being weighted by a discount factor that represents the timescale (τ) that a plant considers when optimizing stomatal conductance to save water. The model is simple enough to be analytically solvable, which allows the value of τ to be inferred from observations of stomatal behavior under known environmental conditions. The model is fitted to eddy covariance data in a range of ecosystems, finding the value of τ that best predicts the dynamics of evapotranspiration at each site. Across 82 sites, the climate metrics with the strongest correlation to τ are measures of the average number of dry days between rainfall events. Values of τ are similar in magnitude to the longest such dry period encountered in an average year. The results here shed light on which climate characteristics shape spatial variations in ecosystem-level water use strategy.

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Published In

AGU Advances

DOI

EISSN

2576-604X

Publication Date

April 1, 2024

Volume

5

Issue

2

Related Subject Headings

  • 3709 Physical geography and environmental geoscience
  • 3705 Geology
  • 3702 Climate change science
 

Citation

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Holtzman, N., Sloan, B., Potkay, A., Katul, G., Feng, X., & Konings, A. G. (2024). Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length. AGU Advances, 5(2). https://doi.org/10.1029/2023AV001113
Holtzman, N., B. Sloan, A. Potkay, G. Katul, X. Feng, and A. G. Konings. “Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length.” AGU Advances 5, no. 2 (April 1, 2024). https://doi.org/10.1029/2023AV001113.
Holtzman N, Sloan B, Potkay A, Katul G, Feng X, Konings AG. Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length. AGU Advances. 2024 Apr 1;5(2).
Holtzman, N., et al. “Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length.” AGU Advances, vol. 5, no. 2, Apr. 2024. Scopus, doi:10.1029/2023AV001113.
Holtzman N, Sloan B, Potkay A, Katul G, Feng X, Konings AG. Ecosystem Water-Saving Timescale Varies Spatially With Typical Drydown Length. AGU Advances. 2024 Apr 1;5(2).

Published In

AGU Advances

DOI

EISSN

2576-604X

Publication Date

April 1, 2024

Volume

5

Issue

2

Related Subject Headings

  • 3709 Physical geography and environmental geoscience
  • 3705 Geology
  • 3702 Climate change science