4.5 Article

Antecedent Drought Condition Affects Responses of Plant Physiology and Growth to Drought and Post-drought Recovery

Journal

FRONTIERS IN FORESTS AND GLOBAL CHANGE
Volume 4, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/ffgc.2021.704470

Keywords

Eucalyptus camaldulensis; drought; non-structural carbohydrate; photosynthesis; stem growth; post-drought recovery

Funding

  1. Science and Industry Endowment Fund [RP04-122]
  2. Innovation team in Ecology of Minzu University of China [2020CXTD]

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The findings suggest that antecedent water stress conditions can affect plant responses to drought and recovery dynamics, particularly in the recovery process from mild to severe drought stress. Slow regrowth rates in trees with antecedent water limitations may result from insufficient carbon reserves and impaired hydraulic transport, dependent on the intensity of drought stress.
Antecedent environmental conditions may have a substantial impact on plant response to drought and recovery dynamics. Saplings of Eucalyptus camaldulensis were exposed to a range of long-term water deficit pre-treatments (antecedent conditions) designed to reduce carbon assimilation to approximately 50 (A(50)) and 10% (A(10)) of maximum photosynthesis of well-watered plants (A(100)). Thereafter, water was withheld from all plants to generate three different levels of water stress before re-watering. Our objective was to assess the role of antecedent water limitations in plant physiology and growth recovery from mild to severe drought stress. Antecedent water limitations led to increased soluble sugar content and depletion of starch in leaves of A(50) and A(10) trees, but there was no significant change in total non-structural carbohydrate concentration (NSC; soluble sugar and starch), relative to A(100) plants. Following re-watering, A(50) and A(10) trees exhibited faster recovery of physiological processes (e.g., photosynthesis and stomatal conductance) than A(100) plants. Nonetheless, trees exposed to the greatest water stress (-5.0 MPa) were slowest to fully recover photosynthesis (A(max)) and stomatal conductance (g(s)). Moreover, post-drought recovery of photosynthesis was primarily limited by g(s), but was facilitated by biochemistry (V-cmax and J(max)). During recovery, slow regrowth rates in A(50) and A(10) trees may result from insufficient carbon reserves as well as impaired hydraulic transport induced by the antecedent water limitations, which was dependent on the intensity of drought stress. Therefore, our findings suggest that antecedent water stress conditions, as well as drought severity, are important determinants of physiological recovery following drought release.

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