Morpho-Physiological Traits Linked to High Temperature Stress Tolerance in Tomato <i>(S. lycopersicum L.)</i>

"Morpho-Physiological Traits Linked to High Temperature Stress Tolerance in Tomato (S. lycopersicum L.)"
written by Muhammed Alsamir, Nabil M. Ahmad, Tariq Mahmood, Richard Trethowan,
published by American Journal of Plant Sciences, Vol.8 No.11, 2017

has been cited by the following article(s):

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[4]	Screening of Tomato (Lycopersicon esculentum Mill.) Germplasm for Chilling Stress Tolerance during Two Growing Seasons.
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[6]	Individual effects of high temperature and tropospheric ozone on tomato: a review
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[8]	Application of in vitro selection technique towards improvement for cold stress resistance in field peas.
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[9]	Effects of High-Temperature Stress during Plant Cultivation on Tomato (Solanum lycopersicum L.) Fruit Nutrient Content
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[10]	Research Article Effects of High-Temperature Stress during Plant Cultivation on Tomato (Solanum lycopersicum L.) Fruit Nutrient Content
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[11]	Investigations on Heat and Salt Stress Tolerance in Tomato Solanum lycopersicum
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[12]	Effects of High‐Temperature Stress during Plant Cultivation on Tomato (Solanum lycopersicum L.) Fruit Nutrient Content
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[13]	An overview of heat stress in tomato (Solanum lycopersicum L.)
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[14]	トマトの高温耐性に関する研究
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[15]	Genotype–Phenotype Relationships for High-Temperature Tolerance: An Integrated Method for Minimizing Phenotyping Constraints in Wheat
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[16]	Genetic and physiological analysis of tomato (Solanum lycopersicum L.) adaption under heat and disease stress
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[17]	Genotype–Phenotype Relationships for High‐Temperature Tolerance: An Integrated Method for Minimizing Phenotyping Constraints in Wheat
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[18]	A, Bano and G. Jellani. 2022. Screening of tomato (Lycopersicon esculentum Mill.) germplasm for chilling stress tolerance during two growing seasons


[19]	PHYSIOLOGICAL AND BIOCHEMICAL TRAITS CONTRIBUTING FOR HIGH TEMPERATURE TOLERANCE IN TOMATO (Solanum lycopersicum L.)

[1]	Leveraging phenomics to enhance heat stress tolerance in tomato cultivars: a promising approach to climate change adaptation Plant Physiology Reports, 2025 DOI:10.1007/s40502-025-00850-7

[2]	The Role of Exogenously Applied Polyamines to Improve Heat Tolerance in Tomatoes: A Review Agriculture, 2025 DOI:10.3390/agriculture15090988

[3]	Fluctuation of ambient day-night temperature influences morphological traits, floral characters, fruit yield and quality of summer tomato genotypes grown in hydroponics New Zealand Journal of Crop and Horticultural Science, 2025 DOI:10.1080/01140671.2025.2504209

[4]	Silicon improves the drought tolerance in pepper plants through the induction of secondary metabolites, GA biosynthesis pathway, and suppression of chlorophyll degradation Plant Physiology and Biochemistry, 2024 DOI:10.1016/j.plaphy.2024.108919

[5]	High temperature stress induced changes in physiological, biochemical, hormonal and gene expression patterns in contrasting tomato genotypes Plant Physiology Reports, 2024 DOI:10.1007/s40502-024-00829-w

[6]	Photosynthesis Characteristics of Tomato Plants and Its’ Responses to Microclimate in New Solar Greenhouse in North China Horticulturae, 2023 DOI:10.3390/horticulturae9020197

[7]	Individual Effects of High Temperature and Tropospheric Ozone on Tomato: A Review Journal of Plant Growth Regulation, 2022 DOI:10.1007/s00344-022-10678-2

[8]	Assessing the heat stress tolerance potential of tomato lines under poly-house and open field conditions Cogent Food & Agriculture, 2022 DOI:10.1080/23311932.2022.2115665

[9]	Effects of High-Temperature Stress during Plant Cultivation on Tomato (Solanum lycopersicum L.) Fruit Nutrient Content Journal of Food Quality, 2021 DOI:10.1155/2021/7994417

[10]	An overview of heat stress in tomato (Solanum lycopersicum L.) Saudi Journal of Biological Sciences, 2020 DOI:10.1016/j.sjbs.2020.11.088

[11]	Genotype–Phenotype Relationships for High‐Temperature Tolerance: An Integrated Method for Minimizing Phenotyping Constraints in Wheat Crop Science, 2019 DOI:10.2135/cropsci2019.01.0055

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