Physiological and Molecular Aspects of Tolerance to Environmental Constraints in Grain and Forage Legumes

Despite the agronomical and environmental advantages of the cultivation of legumes, their production is limited by various environmental constraints such as water or nutrient limitation, frost or heat stress and soil salinity, which may be the result of pedoclimatic conditions, intensive use of agri...

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Veröffentlicht in:	International journal of molecular sciences 2015-08, Vol.16 (8), p.18976-19008
Hauptverfasser:	Adnane, Bargaz, Mainassara, Zaman-Allah, Mohamed, Farissi, Mohamed, Lazali, Jean-Jacques, Drevon, Rim, Maougal T, Georg, Carlsson
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation, Physiological Agricultural Science Biodiversity and Ecology Crops, Agricultural - genetics Crops, Agricultural - microbiology Crops, Agricultural - physiology Drought Droughts Environment Environmental Sciences Fabaceae - genetics Fabaceae - microbiology Fabaceae - physiology Jordbruksvetenskap Legumes Phosphorus Review Salinity Soil - chemistry
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container_title	International journal of molecular sciences
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creator	Adnane, Bargaz Mainassara, Zaman-Allah Mohamed, Farissi Mohamed, Lazali Jean-Jacques, Drevon Rim, Maougal T Georg, Carlsson
description	Despite the agronomical and environmental advantages of the cultivation of legumes, their production is limited by various environmental constraints such as water or nutrient limitation, frost or heat stress and soil salinity, which may be the result of pedoclimatic conditions, intensive use of agricultural lands, decline in soil fertility and environmental degradation. The development of more sustainable agroecosystems that are resilient to environmental constraints will therefore require better understanding of the key mechanisms underlying plant tolerance to abiotic constraints. This review provides highlights of legume tolerance to abiotic constraints with a focus on soil nutrient deficiencies, drought, and salinity. More specifically, recent advances in the physiological and molecular levels of the adaptation of grain and forage legumes to abiotic constraints are discussed. Such adaptation involves complex multigene controlled-traits which also involve multiple sub-traits that are likely regulated under the control of a number of candidate genes. This multi-genetic control of tolerance traits might also be multifunctional, with extended action in response to a number of abiotic constraints. Thus, concrete efforts are required to breed for multifunctional candidate genes in order to boost plant stability under various abiotic constraints.
doi_str_mv	10.3390/ijms160818976
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The development of more sustainable agroecosystems that are resilient to environmental constraints will therefore require better understanding of the key mechanisms underlying plant tolerance to abiotic constraints. This review provides highlights of legume tolerance to abiotic constraints with a focus on soil nutrient deficiencies, drought, and salinity. More specifically, recent advances in the physiological and molecular levels of the adaptation of grain and forage legumes to abiotic constraints are discussed. Such adaptation involves complex multigene controlled-traits which also involve multiple sub-traits that are likely regulated under the control of a number of candidate genes. This multi-genetic control of tolerance traits might also be multifunctional, with extended action in response to a number of abiotic constraints. 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subjects	Adaptation, Physiological Agricultural Science Biodiversity and Ecology Crops, Agricultural - genetics Crops, Agricultural - microbiology Crops, Agricultural - physiology Drought Droughts Environment Environmental Sciences Fabaceae - genetics Fabaceae - microbiology Fabaceae - physiology Jordbruksvetenskap Legumes Phosphorus Review Salinity Soil - chemistry
title	Physiological and Molecular Aspects of Tolerance to Environmental Constraints in Grain and Forage Legumes
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