4.6 Article

Plant strategies for maximizing growth during water stress and subsequent recovery in Solanum melongena L. (eggplant)

Journal

PLOS ONE
Volume 16, Issue 9, Pages -

Publisher

PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0256342

Keywords

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Funding

  1. FulbrightPhilippine Agriculture Advance Research Grant - Philippine Department of Agriculture
  2. US Department of State, Bureau of Educational and Cultural Affairs
  3. Philippine American Educational Foundation
  4. USDA Agricultural Research Service [NP211 3012-13000-010-00D]

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The study identified hydraulic traits associated with high productivity under water stress in different eggplant genotypes, with some showing water-spender strategy and others adopting a water-saver strategy. Despite negative impact on biomass traits, physiological traits showed recovery after a week, indicating eggplant's strong capacity for rebounding from short-term deficits. These traits should be considered in selection and breeding of eggplant hybrids for future agricultural outlooks.
Climate change is projected to increase the incidence of severe drought in many regions, potentially requiring selection for different traits in crop species to maintain productivity under water stress. In this study, we identified a suite of hydraulic traits associated with high productivity under water stress in four genotypes of S. melongena L. We also assessed the potential for recovery of this suite of traits from drought stress after re-watering. We observed that two genotypes, PHL 4841 and PHL 2778, quickly grew into large plants with smaller, thicker leaves and increasingly poor hydraulic status (a water-spender strategy), whereas PHL 2789 and Mara maintained safer water status and larger leaves but sacrificed large gains in biomass (a water-saver strategy). The best performing genotype under water stress, PHL 2778, additionally showed a significant increase in root biomass allocation relative to other genotypes. Biomass traits of all genotypes were negatively impacted by water deficit and remained impaired after a week of recovery; however, physiological traits such as electron transport capacity of photosystem II, and proportional allocation to root biomass and fine root length, and leaf area recovered after one week, indicating a strong capacity for eggplant to rebound from short-term deficits via recovery of physiological activity and allocation to resource acquiring tissues. These traits should be considered in selection and breeding of eggplant hybrids for future agricultural outlooks.

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