The impact of climate change-induced abiotic stresses on the nutritional quality of legume seeds

Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops and improved soil health. Despite their recognized advantages, challenges such as technological lock-ins, limited breeding resources, and adverse environmental conditio...

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Published inJournal of experimental botany Vol. 76; no. 12; pp. 3288 - 3310
Main Authors Machado, Joana, Nunes da Silva, Marta, Vasconcelos, Marta W, Santos, Carla S
Format Journal Article
LanguageEnglish
Published England 21.08.2025
Subjects
Climate Change
Crops, Agricultural
Droughts
Fabaceae - physiology
Nutritive Value
Seeds - chemistry
Seeds - physiology
Stress, Physiological
Carbohydrates
Amino acids
Oil
Bioactive compounds
Protein
Combined stresses
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Abstract Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops and improved soil health. Despite their recognized advantages, challenges such as technological lock-ins, limited breeding resources, and adverse environmental conditions pose threats to their cultivation. In this review, the complex interaction between climate change stressors, specifically drought, high temperatures, and elevated CO2 levels, and their individual and combined impacts on the nutritional quality of legumes will be discussed. This topic has not been thoroughly reviewed across multiple legume crops despite its importance under climate change. Here, we critically examine the impacts of environmental stresses on the nutritional quality of legume seeds and explore the underlying regulatory mechanisms, encompassing protein, amino acids, minerals, carbohydrates, lipids, and bioactive compounds. Key insights indicate a general need to shift legume cultivation practices, and the necessity of field studies beyond controlled environments for results that are more readily translated to the target population of environments for legume cultivation.
AbstractList Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops to improved soil health. Despite their recognized advantages, challenges such as technological lock-ins, limited breeding resources, and adverse environmental conditions pose threats to their cultivation. Herein, the complex interaction between climate change stressors - specifically drought, high temperatures, and elevated CO2 levels - and their individual and combined impacts on the nutritional quality of legumes will be discussed. This topic has not been reviewed very often for multiple legume crops, despite its importance under climate change. This review critically examines the impact of environmental stresses on the nutritional quality of legume seeds and explores the underlying regulatory mechanisms, encompassing protein, amino acids, minerals, carbohydrates, lipids, and bioactive compounds. Key insights indicate a general need to shift legume cultivation practices, and the necessity of field studies beyond controlled environments for results that are more readily translated to the target population of environments for legume cultivation.Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops to improved soil health. Despite their recognized advantages, challenges such as technological lock-ins, limited breeding resources, and adverse environmental conditions pose threats to their cultivation. Herein, the complex interaction between climate change stressors - specifically drought, high temperatures, and elevated CO2 levels - and their individual and combined impacts on the nutritional quality of legumes will be discussed. This topic has not been reviewed very often for multiple legume crops, despite its importance under climate change. This review critically examines the impact of environmental stresses on the nutritional quality of legume seeds and explores the underlying regulatory mechanisms, encompassing protein, amino acids, minerals, carbohydrates, lipids, and bioactive compounds. Key insights indicate a general need to shift legume cultivation practices, and the necessity of field studies beyond controlled environments for results that are more readily translated to the target population of environments for legume cultivation.
Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops and improved soil health. Despite their recognized advantages, challenges such as technological lock-ins, limited breeding resources, and adverse environmental conditions pose threats to their cultivation. In this review, the complex interaction between climate change stressors, specifically drought, high temperatures, and elevated CO2 levels, and their individual and combined impacts on the nutritional quality of legumes will be discussed. This topic has not been thoroughly reviewed across multiple legume crops despite its importance under climate change. Here, we critically examine the impacts of environmental stresses on the nutritional quality of legume seeds and explore the underlying regulatory mechanisms, encompassing protein, amino acids, minerals, carbohydrates, lipids, and bioactive compounds. Key insights indicate a general need to shift legume cultivation practices, and the necessity of field studies beyond controlled environments for results that are more readily translated to the target population of environments for legume cultivation.
Author Nunes da Silva, Marta
Santos, Carla S
Vasconcelos, Marta W
Machado, Joana
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Keywords Carbohydrates
Amino acids
Oil
Bioactive compounds
Protein
Combined stresses
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Snippet Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops and improved soil health....
Legumes are integral to agricultural sustainability, offering multifaceted benefits ranging from enhanced yields to companion crops to improved soil health....
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StartPage 3288
SubjectTerms Climate Change
Crops, Agricultural
Droughts
Fabaceae - physiology
Nutritive Value
Seeds - chemistry
Seeds - physiology
Stress, Physiological
Title The impact of climate change-induced abiotic stresses on the nutritional quality of legume seeds
URI https://www.ncbi.nlm.nih.gov/pubmed/40226957
https://www.proquest.com/docview/3189921722
Volume 76
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