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      Thermography captures the differential sensitivity of dryland functional types to changes in rainfall event timing and magnitude

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          Summary

          • Drylands of the southwestern United States are rapidly warming, and rainfall is becoming less frequent and more intense, with major yet poorly understood implications for ecosystem structure and function. Thermography‐based estimates of plant temperature can be integrated with air temperature to infer changes in plant physiology and response to climate change. However, very few studies have evaluated plant temperature dynamics at high spatiotemporal resolution in rainfall pulse‐driven dryland ecosystems.

          • We address this gap by incorporating high‐frequency thermal imaging into a field‐based precipitation manipulation experiment in a semi‐arid grassland to investigate the impacts of rainfall temporal repackaging.

          • All other factors held constant, we found that fewer/larger precipitation events led to cooler plant temperatures (1.4°C) compared to that of many/smaller precipitation events. Perennials, in particular, were 2.5°C cooler than annuals under the fewest/largest treatment.

          • We show these patterns were driven by: increased and consistent soil moisture availability in the deeper soil layers in the fewest/largest treatment; and deeper roots of perennials providing access to deeper plant available water. Our findings highlight the potential for high spatiotemporal resolution thermography to quantify the differential sensitivity of plant functional groups to soil water availability. Detecting these sensitivities is vital to understanding the ecohydrological implications of hydroclimate change.

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          Most cited references71

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          Support-vector networks

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            A biochemical model of photosynthetic CO2 assimilation in leaves of C 3 species.

            Various aspects of the biochemistry of photosynthetic carbon assimilation in C3 plants are integrated into a form compatible with studies of gas exchange in leaves. These aspects include the kinetic properties of ribulose bisphosphate carboxylase-oxygenase; the requirements of the photosynthetic carbon reduction and photorespiratory carbon oxidation cycles for reduced pyridine nucleotides; the dependence of electron transport on photon flux and the presence of a temperature dependent upper limit to electron transport. The measurements of gas exchange with which the model outputs may be compared include those of the temperature and partial pressure of CO2(p(CO2)) dependencies of quantum yield, the variation of compensation point with temperature and partial pressure of O2(p(O2)), the dependence of net CO2 assimilation rate on p(CO2) and irradiance, and the influence of p(CO2) and irradiance on the temperature dependence of assimilation rate.
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              Increasing drought under global warming in observations and models

              Aiguo Dai (2013)
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                Author and article information

                Contributors
                (View ORCID Profile)
                (View ORCID Profile)
                Journal
                New Phytologist
                New Phytologist
                Wiley
                0028-646X
                1469-8137
                October 2023
                July 11 2023
                October 2023
                : 240
                : 1
                : 114-126
                Affiliations
                [1 ] School of Natural Resources and the Environment University of Arizona Tucson AZ 85721 USA
                [2 ] Southwest Watershed Research Center USDA Agricultural Research Service Tucson AZ 85719 USA
                [3 ] Schmid College of Science and Technology Chapman University Orange CA 92866 USA
                [4 ] Southwest Biological Science Center, US Geological Survey Moab UT 84532 USA
                [5 ] Biology Department SUNY Buffalo State Buffalo NY 14222 USA
                [6 ] Western Geographic Science Center, US Geological Survey Moffett Field CA 94035 USA
                [7 ] Biospheric Sciences Laboratory NASA Goddard Space Flight Center Greenbelt MD 20771 USA
                [8 ] NASA Postdoctoral Program NASA Goddard Space Flight Center Greenbelt MD 20771 USA
                Article
                10.1111/nph.19127
                8796218b-7d83-4910-bebb-828c1d6b8fcf
                © 2023

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