Thermal Stress Impacts on Reproductive Development and Grain Yield in Grain Legumes

Nirmali Gogoi; Muhammad Farooq; Sharmistha Barthakur; Bhaswatee Baroowa; Sreyashi Paul; Nandita Bharadwaj; Sunkar Ramanjulu

doi:10.1007/s12374-018-0130-7

Thermal Stress Impacts on Reproductive Development and Grain Yield in Grain Legumes

Nirmali Gogoi, Muhammad Farooq, Sharmistha Barthakur, Bhaswatee Baroowa^*, Sreyashi Paul, Nandita Bharadwaj, Sunkar Ramanjulu

^*Corresponding author for this work

Plant Sciences

Research output: Contribution to journal › Review article › peer-review

18 Citations (Scopus)

Abstract

Temperature stress (cold, heat) during reproductive development is one of the serious constraints to the productivity of grain legumes as their cultivation is expanding to warmer environments and temperature variability is increasing due to climate change. Grain legumes exposed to temperature below 10-15°C or above 30°C show flower abortion, pollen and ovule infertility, impaired fertilization, and reduced seed filling, leading to substantial reduction in grain yield. For managing these effects of temperature extremes, it is important to improve the resistance of grain legumes by using improved breeding and genetic engineering tools. In this review article, the impact of both high and low temperature stress on different phases of the reproductive stage, from meiosis to grain filling, and the sensitivity of different reproductive organs to temperature extremes are discussed. The review also covers the management options to improve resistance to temperature stress in grain legumes. Furthermore, innovative breeding, genetic and molecular strategies in grain legumes against temperature stress are also discussed.

Original language	English
Pages (from-to)	265-291
Number of pages	27
Journal	Journal of Plant Biology
Volume	61
Issue number	5
DOIs	https://doi.org/10.1007/s12374-018-0130-7
Publication status	Published - Oct 1 2018

Keywords

Breeding
Genetic engineering
Grain development
Grain legumes
Omics approaches
Temperature stress

ASJC Scopus subject areas

Plant Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1007/s12374-018-0130-7

Cite this

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title = "Thermal Stress Impacts on Reproductive Development and Grain Yield in Grain Legumes",

abstract = "Temperature stress (cold, heat) during reproductive development is one of the serious constraints to the productivity of grain legumes as their cultivation is expanding to warmer environments and temperature variability is increasing due to climate change. Grain legumes exposed to temperature below 10-15°C or above 30°C show flower abortion, pollen and ovule infertility, impaired fertilization, and reduced seed filling, leading to substantial reduction in grain yield. For managing these effects of temperature extremes, it is important to improve the resistance of grain legumes by using improved breeding and genetic engineering tools. In this review article, the impact of both high and low temperature stress on different phases of the reproductive stage, from meiosis to grain filling, and the sensitivity of different reproductive organs to temperature extremes are discussed. The review also covers the management options to improve resistance to temperature stress in grain legumes. Furthermore, innovative breeding, genetic and molecular strategies in grain legumes against temperature stress are also discussed.",

keywords = "Breeding, Genetic engineering, Grain development, Grain legumes, Omics approaches, Temperature stress",

author = "Nirmali Gogoi and Muhammad Farooq and Sharmistha Barthakur and Bhaswatee Baroowa and Sreyashi Paul and Nandita Bharadwaj and Sunkar Ramanjulu",

note = "Publisher Copyright: {\textcopyright} 2018, Korean Society of Plant Biologists and Springer-Verlag GmbH Germany, part of Springer Nature.",

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doi = "10.1007/s12374-018-0130-7",

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AU - Gogoi, Nirmali

AU - Farooq, Muhammad

AU - Barthakur, Sharmistha

AU - Baroowa, Bhaswatee

AU - Paul, Sreyashi

AU - Bharadwaj, Nandita

AU - Ramanjulu, Sunkar

PY - 2018/10/1

Y1 - 2018/10/1

N2 - Temperature stress (cold, heat) during reproductive development is one of the serious constraints to the productivity of grain legumes as their cultivation is expanding to warmer environments and temperature variability is increasing due to climate change. Grain legumes exposed to temperature below 10-15°C or above 30°C show flower abortion, pollen and ovule infertility, impaired fertilization, and reduced seed filling, leading to substantial reduction in grain yield. For managing these effects of temperature extremes, it is important to improve the resistance of grain legumes by using improved breeding and genetic engineering tools. In this review article, the impact of both high and low temperature stress on different phases of the reproductive stage, from meiosis to grain filling, and the sensitivity of different reproductive organs to temperature extremes are discussed. The review also covers the management options to improve resistance to temperature stress in grain legumes. Furthermore, innovative breeding, genetic and molecular strategies in grain legumes against temperature stress are also discussed.

AB - Temperature stress (cold, heat) during reproductive development is one of the serious constraints to the productivity of grain legumes as their cultivation is expanding to warmer environments and temperature variability is increasing due to climate change. Grain legumes exposed to temperature below 10-15°C or above 30°C show flower abortion, pollen and ovule infertility, impaired fertilization, and reduced seed filling, leading to substantial reduction in grain yield. For managing these effects of temperature extremes, it is important to improve the resistance of grain legumes by using improved breeding and genetic engineering tools. In this review article, the impact of both high and low temperature stress on different phases of the reproductive stage, from meiosis to grain filling, and the sensitivity of different reproductive organs to temperature extremes are discussed. The review also covers the management options to improve resistance to temperature stress in grain legumes. Furthermore, innovative breeding, genetic and molecular strategies in grain legumes against temperature stress are also discussed.

KW - Breeding

KW - Genetic engineering

KW - Grain development

KW - Grain legumes

KW - Omics approaches

KW - Temperature stress

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ER -

Thermal Stress Impacts on Reproductive Development and Grain Yield in Grain Legumes

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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