Photosynthetic and Antioxidant Responses of Jatropha curcas Plants to Heat Stress: On the Relative Sensitivity of Shoots and Roots

This study aimed to evaluate the photosynthetic and antioxidant responses of Jatropha curcas plants exposed to heat stress applied simultaneously in both shoots and roots and solely in each tissue. Thirty-day-old plants were transferred to two growth chambers, where they were subjected to 27 or 42 °...

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Bibliographic Details
Published in:Journal of plant growth regulation 2018-03, Vol.37 (1), p.255-265
Main Authors: Silva, Evandro Nascimento, Silveira, Joaquim Albenísio Gomes, Ribeiro, Rafael Vasconcelos, Oliveira, Jarvys Êxoda, Cardoso, Ricardo Araújo
Format: Article
Language:English
Subjects:
Acclimation
Acclimatization
Agriculture
Antioxidants
Ascorbic acid
Biomedical and Life Sciences
Carbon dioxide
Catalase
Conductance
Damage
Electron transport
Exposure
Growth chambers
Heat
Heat stress
Heat tolerance
Heat treatment
High temperature
Jatropha curcas
L-Ascorbate peroxidase
Leaves
Life Sciences
Mesophyll
Metabolism
Oxidative metabolism
Peroxidase
Photochemicals
Photochemistry
Photosynthesis
Photosystem II
Plant Anatomy/Development
Plant Physiology
Plant Sciences
Plant tissues
Regeneration
Resistance
Roots
Sensitivity analysis
Shoots
Stomata
Stomatal conductance
Superoxide dismutase
Temperature effects
Transport rate
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Summary:This study aimed to evaluate the photosynthetic and antioxidant responses of Jatropha curcas plants exposed to heat stress applied simultaneously in both shoots and roots and solely in each tissue. Thirty-day-old plants were transferred to two growth chambers, where they were subjected to 27 or 42 °C. In each growth chamber, the root system was isolated and then subjected to 27 or 42 °C. Then, four groups of plants were formed according to shoot/root temperature: 27/27; 27/42; 42/27; and 42/42 °C. Plants under 27/27 °C were considered as control and plants were exposed to each thermal treatment for 12 h. The leaf CO 2 assimilation rate, stomatal conductance, and mesophyll conductance were decreased by high temperature, regardless of plant tissue. However, primary photochemistry given by effective quantum yield of PSII, electron transport rate, photochemical and non-photochemical quenchings, and maximum electron transport rate driving RuBP regeneration revealed that high shoot temperature was more deleterious for photosynthesis than high root temperature. J. curcas presented efficient mechanisms to avoid photo-damage and photo-inhibition through increases in non-photochemical quenching, maintenance of the maximum quantum yield of PSII, and increases in total superoxide dismutase, ascorbate peroxidase, and catalase activities when shoots were exposed to high temperature, regardless of root temperature. In general, our data suggest that J. curcas present an efficient antioxidant protection system in photosynthetic tissues and acclimation of PSII avoiding photo-damage and photo-inhibition under heat stress. On the other hand, high root temperature inhibits antioxidant metabolism, leading to higher oxidative damage in root tissues and affecting primary photochemistry in leaf tissues.
ISSN:0721-7595
1435-8107
DOI:10.1007/s00344-017-9723-5