Genomics Associated Interventions for Heat Stress Tolerance in Cool Season Adapted Grain Legumes

Cool season grain legumes occupy an important place among the agricultural crops and essentially provide multiple benefits including food supply, nutrition security, soil fertility improvement and revenue for farmers all over the world. However, owing to climate change, the average temperature is st...

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Veröffentlicht in:	International journal of molecular sciences 2021-12, Vol.23 (1), p.399
Hauptverfasser:	Kumar, Jitendra, Mir, Reyazul Rouf, Shafi, Safoora, Sen Gupta, Debjyoti, Djalovic, Ivica, Miladinovic, Jegor, Kumar, Rahul, Kumar, Sachin, Kumar, Rajeev
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural production Broad beans Chickpeas Climate Cool season Crop diseases Cultivars Developing countries Edible Grain - genetics Fabaceae - genetics Fabaceae - physiology Food Gene mapping Genes Genomics Genotyping Grain Heat Heat stress High temperature LDCs Legumes Lentils Nutrition Physiology Plant breeding Quantitative trait loci Quantitative Trait Loci - genetics Review Seasons Sensors Soil fertility Soil improvement Sorghum Thermotolerance - genetics Unmanned aerial vehicles
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creator	Kumar, Jitendra Mir, Reyazul Rouf Shafi, Safoora Sen Gupta, Debjyoti Djalovic, Ivica Miladinovic, Jegor Kumar, Rahul Kumar, Sachin Kumar, Rajeev
description	Cool season grain legumes occupy an important place among the agricultural crops and essentially provide multiple benefits including food supply, nutrition security, soil fertility improvement and revenue for farmers all over the world. However, owing to climate change, the average temperature is steadily rising, which negatively affects crop performance and limits their yield. Terminal heat stress that mainly occurred during grain development phases severely harms grain quality and weight in legumes adapted to the cool season, such as lentils, faba beans, chickpeas, field peas, etc. Although, traditional breeding approaches with advanced screening procedures have been employed to identify heat tolerant legume cultivars. Unfortunately, traditional breeding pipelines alone are no longer enough to meet global demands. Genomics-assisted interventions including new-generation sequencing technologies and genotyping platforms have facilitated the development of high-resolution molecular maps, QTL/gene discovery and marker-assisted introgression, thereby improving the efficiency in legumes breeding to develop stress-resilient varieties. Based on the current scenario, we attempted to review the intervention of genomics to decipher different components of tolerance to heat stress and future possibilities of using newly developed genomics-based interventions in cool season adapted grain legumes.
doi_str_mv	10.3390/ijms23010399
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subjects	Agricultural production Broad beans Chickpeas Climate Cool season Crop diseases Cultivars Developing countries Edible Grain - genetics Fabaceae - genetics Fabaceae - physiology Food Gene mapping Genes Genomics Genotyping Grain Heat Heat stress High temperature LDCs Legumes Lentils Nutrition Physiology Plant breeding Quantitative trait loci Quantitative Trait Loci - genetics Review Seasons Sensors Soil fertility Soil improvement Sorghum Thermotolerance - genetics Unmanned aerial vehicles
title	Genomics Associated Interventions for Heat Stress Tolerance in Cool Season Adapted Grain Legumes
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