Particle films improve photosynthesis of citrus trees under excess irradiance by reducing leaf temperature

High irradiance and increased air temperature during extreme weather conditions affect tree crops and impact the yield and quality of fruits. Moreover, flowering and fruit set of Citrus are likely impaired by UV radiation and/or reduced carbon assimilation, which increase reactive oxygen species pro...

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Bibliographic Details
Published in:Physiologia plantarum 2023-01, Vol.175 (1), p.e13844-n/a
Main Authors: Bernardi, Lucas G. P., Boaretto, Rodrigo M., Blain, Gabriel Constantino, Mattos‐Jr, Dirceu
Format: Article
Language:English
Subjects:
Air temperature
Aluminum
Assimilation
Calcium carbonate
Carbon dioxide
Carotenoids
Citrus
Citrus fruits
Citrus trees
Climate change
Cloth
Coating
Coatings
Extreme weather
Flowering
Fruit set
Fruit trees
Fruits
Incident light
Irradiance
Kaolin
Kaolin - pharmacology
Leaves
Oranges
Oxidative stress
Photosynthesis
Photosynthesis - radiation effects
Photosynthetic apparatus
Photosystem II
Plant Leaves - physiology
Plants (botany)
Polymer films
Reactive oxygen species
Sunlight
Temperature
Tree crops
Trees
Trees - physiology
Ultraviolet radiation
Weather
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Summary:High irradiance and increased air temperature during extreme weather conditions affect tree crops and impact the yield and quality of fruits. Moreover, flowering and fruit set of Citrus are likely impaired by UV radiation and/or reduced carbon assimilation, which increase reactive oxygen species production and damage the leaf photosynthetic apparatus. Particle coating films sprayed on leaves have been offered as a way to minimize crop losses due to the climate change scenario, even though the extent of leaf protection is not characterized. We evaluated the use of two protective films on the oxidative stress and leaf photosynthesis of sweet orange trees exposed to varying daylight levels. Trees were maintained under full sun light, sprayed or not (control) with kaolin or calcium carbonate, and under reduced irradiance using either aluminum shade cloth 50% or anti‐UV transparent plastic. Kaolin or calcium carbonate reflected 20%–30% of the incident light on the leaf surface compared to leaves not sprayed and under full sunlight. Leaves with coating exhibited improved CO2 assimilation and photosystem II efficiency, and lower leaf temperatures over time. In addition, the coating protected leaves against excess irradiance due to dissipation of excess energy into the photosynthetic apparatus (NPQt). Nonenzymatic mechanisms for UV protection, such as carotenoids, were higher in full sun control plants than in leaf‐coated plants. Comparable responses were observed on trees maintained covered either by the cloth or the plastic film. Finally, we conclude that the use of suspension particles mitigates the harmful effects of excess UV irradiance and temperature in sweet orange trees.
ISSN:0031-9317
1399-3054
DOI:10.1111/ppl.13844