Lack of Tradeoff between Leaf Hydraulic Efficiency and Safety across Six Contrasting Water-Stress Tolerant Fruit Tree Species

Garrido, Marco; Vergara, Sebastián

doi:10.3390/agronomy12102351

Cited by 2 publications

References 63 publications

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Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

Opazo,

Pimentel,

Salvatierra

et al. 2024

Irrig Sci

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Compare water stress tolerance traits between different fruit tree species under the same experimental conditions can provide valuable information for understanding the mechanisms underlying water stress tolerance. This work aimed to determine and compare the water stress tolerance of six fruit tree species typically cultivated in Mediterranean regions and evaluate its association with water use and growth under water de cit. Six fruit tree species were used in this study: pomegranate, g, mandarin, avocado, and two Prunus species ('R40' and 'R20'). Iso-anisohydric behavior (low to high water stress tolerance) was assessed through a multi-trait approach and associated with growth and water use under wellwatered and water de cit conditions. Avocado and mandarin were classi ed as species with more strict stomatal control over water potential, while pomegranate, g, and Prunus spp. showed less stomatal control. This classi cation was supported by the multi-traits analysis, which showed that avocado and mandarin, in contrast to the rest of the species, were characterized by higher gas-exchange thresholds (more sensitive). A more isohydric behavior was associated with lower water, but higher root hydraulic conductivity, and a lower growth capacity. Some traits, such as the FTSW threshold to the drop of relative transpiration, root hydraulic conductivity, and residual soil water content, provide valuable information to discriminate between species or genotypes that are better adapted to water de cits. These traits explain the position of the species in the iso-anisohydric spectrum and allow us to understand and develop better strategies for water management in agricultural systems.

show abstract

Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

Opazo,

Pimentel,

Salvatierra

et al. 2024

Irrig Sci

Self Cite

View full text Add to dashboard Cite

show abstract

Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

Opazo,

Pimentel,

Salvatierra

et al. 2023

Preprint

View full text Add to dashboard Cite

Compare water stress tolerance traits between different fruit tree species under the same experimental conditions can provide valuable information for understanding the mechanisms underlying water stress tolerance. This work aimed to determine and compare the water stress tolerance of six fruit tree species typically cultivated in Mediterranean regions and evaluate its association with water use and growth under water deficit. Six fruit tree species were used in this study: pomegranate, fig, mandarin, avocado, and two Prunus species ('R40' and 'R20'). Iso-anisohydric behavior (low to high water stress tolerance) was assessed through a multi-trait approach and associated with growth and water use under well-watered and water deficit conditions. Avocado and mandarin were classified as species with more strict stomatal control over water potential, while pomegranate, fig, and Prunus spp. showed less stomatal control. This classification was supported by the multi-traits analysis, which showed that avocado and mandarin, in contrast to the rest of the species, were characterized by higher gas-exchange thresholds (more sensitive). A more isohydric behavior was associated with lower water, but higher root hydraulic conductivity, and a lower growth capacity. Some traits, such as the FTSWthreshold to the drop of relative transpiration, root hydraulic conductivity, and residual soil water content, provide valuable information to discriminate between species or genotypes that are better adapted to water deficits. These traits explain the position of the species in the iso-anisohydric spectrum and allow us to understand and develop better strategies for water management in agricultural systems.

show abstract

Lack of Tradeoff between Leaf Hydraulic Efficiency and Safety across Six Contrasting Water-Stress Tolerant Fruit Tree Species

Cited by 2 publications

References 63 publications

Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

Water stress tolerance is coordinated with water use capacity and growth under water deficit across six fruit tree species

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