Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming

Rong Zhou; Xiaqing Yu; Xiangnan Li; Thayna Mendanha dos Santos; Eva Rosenqvist; Carl Otto Ottosen

doi:10.1016/j.plaphy.2020.03.011

Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming

Rong Zhou^*, Xiaqing Yu, Xiangnan Li, Thayna Mendanha dos Santos, Eva Rosenqvist, Carl Otto Ottosen

^*Corresponding author for this work

Department of Food Science - Plant, Food & Climate

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

48 Citations (Scopus)

Abstract

Light and temperature are two primary environmental factors for plant growth and development. The response of plants to multiple stresses of high light intensity and heat stress are complex. The priming effects of high light and heat stress on improving heat tolerance of plants need to be further illuminated. This study aimed to explain the effect of high light intensity, high temperature and their combination on tomato and clarify the response of tomato to heat stress after priming. Tomato plants were treated under control, high light, heat stress and the combination for the first-round treatments, followed by recurring heat stress as the second-round treatments. For the first-round treatments, the net photosynthetic rate (P_N) of the plants at individual high light and individual high temperature on day four significantly increased and decreased, respectively, as compared with control. Combined stress caused significant reduction in F_v/F_m (maximum quantum efficiency of photosystem II) and chlorophyll content as well as increase in carotenoids and carbohydrates content. No significant difference in the P_N was observed in tomato with and without priming; however, heat priming did improve the heat avoidance ability by increasing evaporation and decreasing leaf temperature. Overall, the high light affected the physiological response of tomatoes at heat stress. The tomato plants developed their defense systems including chlorophyll loss and synthesis of carotenoids to protect themselves from multiple stresses. Our work provided new insights into the understanding of plants response to high light and heat stress.

Original language	English
Journal	Plant Physiology and Biochemistry
Volume	151
Pages (from-to)	1-9
Number of pages	9
ISSN	0981-9428
DOIs	https://doi.org/10.1016/j.plaphy.2020.03.011
Publication status	Published - Jun 2020

Keywords

Gas exchange
Heat stress
High light
Leaf cooling
Stress memory
Tomato

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10.1016/j.plaphy.2020.03.011

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title = "Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming",

abstract = "Light and temperature are two primary environmental factors for plant growth and development. The response of plants to multiple stresses of high light intensity and heat stress are complex. The priming effects of high light and heat stress on improving heat tolerance of plants need to be further illuminated. This study aimed to explain the effect of high light intensity, high temperature and their combination on tomato and clarify the response of tomato to heat stress after priming. Tomato plants were treated under control, high light, heat stress and the combination for the first-round treatments, followed by recurring heat stress as the second-round treatments. For the first-round treatments, the net photosynthetic rate (PN) of the plants at individual high light and individual high temperature on day four significantly increased and decreased, respectively, as compared with control. Combined stress caused significant reduction in Fv/Fm (maximum quantum efficiency of photosystem II) and chlorophyll content as well as increase in carotenoids and carbohydrates content. No significant difference in the PN was observed in tomato with and without priming; however, heat priming did improve the heat avoidance ability by increasing evaporation and decreasing leaf temperature. Overall, the high light affected the physiological response of tomatoes at heat stress. The tomato plants developed their defense systems including chlorophyll loss and synthesis of carotenoids to protect themselves from multiple stresses. Our work provided new insights into the understanding of plants response to high light and heat stress.",

keywords = "Gas exchange, Heat stress, High light, Leaf cooling, Stress memory, Tomato",

author = "Rong Zhou and Xiaqing Yu and Xiangnan Li and {Mendanha dos Santos}, Thayna and Eva Rosenqvist and Ottosen, {Carl Otto}",

year = "2020",

month = jun,

doi = "10.1016/j.plaphy.2020.03.011",

language = "English",

volume = "151",

pages = "1--9",

journal = "Plant Physiology and Biochemistry",

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Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming. / Zhou, Rong; Yu, Xiaqing; Li, Xiangnan et al.
In: Plant Physiology and Biochemistry, Vol. 151, 06.2020, p. 1-9.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming

AU - Zhou, Rong

AU - Yu, Xiaqing

AU - Li, Xiangnan

AU - Mendanha dos Santos, Thayna

AU - Rosenqvist, Eva

AU - Ottosen, Carl Otto

PY - 2020/6

Y1 - 2020/6

N2 - Light and temperature are two primary environmental factors for plant growth and development. The response of plants to multiple stresses of high light intensity and heat stress are complex. The priming effects of high light and heat stress on improving heat tolerance of plants need to be further illuminated. This study aimed to explain the effect of high light intensity, high temperature and their combination on tomato and clarify the response of tomato to heat stress after priming. Tomato plants were treated under control, high light, heat stress and the combination for the first-round treatments, followed by recurring heat stress as the second-round treatments. For the first-round treatments, the net photosynthetic rate (PN) of the plants at individual high light and individual high temperature on day four significantly increased and decreased, respectively, as compared with control. Combined stress caused significant reduction in Fv/Fm (maximum quantum efficiency of photosystem II) and chlorophyll content as well as increase in carotenoids and carbohydrates content. No significant difference in the PN was observed in tomato with and without priming; however, heat priming did improve the heat avoidance ability by increasing evaporation and decreasing leaf temperature. Overall, the high light affected the physiological response of tomatoes at heat stress. The tomato plants developed their defense systems including chlorophyll loss and synthesis of carotenoids to protect themselves from multiple stresses. Our work provided new insights into the understanding of plants response to high light and heat stress.

AB - Light and temperature are two primary environmental factors for plant growth and development. The response of plants to multiple stresses of high light intensity and heat stress are complex. The priming effects of high light and heat stress on improving heat tolerance of plants need to be further illuminated. This study aimed to explain the effect of high light intensity, high temperature and their combination on tomato and clarify the response of tomato to heat stress after priming. Tomato plants were treated under control, high light, heat stress and the combination for the first-round treatments, followed by recurring heat stress as the second-round treatments. For the first-round treatments, the net photosynthetic rate (PN) of the plants at individual high light and individual high temperature on day four significantly increased and decreased, respectively, as compared with control. Combined stress caused significant reduction in Fv/Fm (maximum quantum efficiency of photosystem II) and chlorophyll content as well as increase in carotenoids and carbohydrates content. No significant difference in the PN was observed in tomato with and without priming; however, heat priming did improve the heat avoidance ability by increasing evaporation and decreasing leaf temperature. Overall, the high light affected the physiological response of tomatoes at heat stress. The tomato plants developed their defense systems including chlorophyll loss and synthesis of carotenoids to protect themselves from multiple stresses. Our work provided new insights into the understanding of plants response to high light and heat stress.

KW - Gas exchange

KW - Heat stress

KW - High light

KW - Leaf cooling

KW - Stress memory

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JO - Plant Physiology and Biochemistry

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ER -

Combined high light and heat stress induced complex response in tomato with better leaf cooling after heat priming

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Keywords

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