Physiological and molecular implications of multiple abiotic stresses on yield and quality of rice

Beena Radha; Nagenahalli Chandrappa Sunitha; Rameswar P. Sah; Md Azharudheen Md; G. K. Krishna; Deepika Kumar Umesh; Sini Thomas; Chandrappa Anilkumar; Sameer Upadhyay; Awadhesh Kumar; Manikanta Ch L. N; Behera S; Bishnu Charan Marndi; Kadambot H.M. Siddique

doi:10.3389/fpls.2022.996514

Physiological and molecular implications of multiple abiotic stresses on yield and quality of rice

Beena Radha, Nagenahalli Chandrappa Sunitha, Rameswar P. Sah, Md Azharudheen Md, G. K. Krishna, Deepika Kumar Umesh, Sini Thomas, Chandrappa Anilkumar, Sameer Upadhyay, Awadhesh Kumar, Manikanta Ch L. N, Behera S, Bishnu Charan Marndi, Kadambot H.M. Siddique

Institute of Agriculture

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

56 Citations (Scopus)

Abstract

Abiotic stresses adversely affect rice yield and productivity, especially under the changing climatic scenario. Exposure to multiple abiotic stresses acting together aggravates these effects. The projected increase in global temperatures, rainfall variability, and salinity will increase the frequency and intensity of multiple abiotic stresses. These abiotic stresses affect paddy physiology and deteriorate grain quality, especially milling quality and cooking characteristics. Understanding the molecular and physiological mechanisms behind grain quality reduction under multiple abiotic stresses is needed to breed cultivars that can tolerate multiple abiotic stresses. This review summarizes the combined effect of various stresses on rice physiology, focusing on grain quality parameters and yield traits, and discusses strategies for improving grain quality parameters using high-throughput phenotyping with omics approaches.

Original language	English
Article number	996514
Number of pages	19
Journal	Frontiers in Plant Science
Volume	13
DOIs	https://doi.org/10.3389/fpls.2022.996514
Publication status	Published - 11 Jan 2023

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10.3389/fpls.2022.996514Licence: CC BY

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Radha, B., Sunitha, N. C., Sah, R. P., Md, M. A., Krishna, G. K., Umesh, D. K., Thomas, S., Anilkumar, C., Upadhyay, S., Kumar, A., Ch L. N, M., S, B., Marndi, B. C., & Siddique, K. H. M. (2023). Physiological and molecular implications of multiple abiotic stresses on yield and quality of rice. Frontiers in Plant Science, 13, Article 996514. https://doi.org/10.3389/fpls.2022.996514

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abstract = "Abiotic stresses adversely affect rice yield and productivity, especially under the changing climatic scenario. Exposure to multiple abiotic stresses acting together aggravates these effects. The projected increase in global temperatures, rainfall variability, and salinity will increase the frequency and intensity of multiple abiotic stresses. These abiotic stresses affect paddy physiology and deteriorate grain quality, especially milling quality and cooking characteristics. Understanding the molecular and physiological mechanisms behind grain quality reduction under multiple abiotic stresses is needed to breed cultivars that can tolerate multiple abiotic stresses. This review summarizes the combined effect of various stresses on rice physiology, focusing on grain quality parameters and yield traits, and discusses strategies for improving grain quality parameters using high-throughput phenotyping with omics approaches.",

keywords = "drought, eCO2, high temperature, multiple abiotic stresses, physiology, salinity, sensitivity, tolerance",

author = "Beena Radha and Sunitha, {Nagenahalli Chandrappa} and Sah, {Rameswar P.} and Md, {Md Azharudheen} and Krishna, {G. K.} and Umesh, {Deepika Kumar} and Sini Thomas and Chandrappa Anilkumar and Sameer Upadhyay and Awadhesh Kumar and {Ch L. N}, Manikanta and Behera S and Marndi, {Bishnu Charan} and Siddique, {Kadambot H.M.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 Radha, Sunitha, Sah, T. P., Krishna, Umesh, Thomas, Anilkumar, Upadhyay, Kumar, Ch L. N., S., Marndi and Siddique.",

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T1 - Physiological and molecular implications of multiple abiotic stresses on yield and quality of rice

AU - Radha, Beena

AU - Sunitha, Nagenahalli Chandrappa

AU - Sah, Rameswar P.

AU - Md, Md Azharudheen

AU - Krishna, G. K.

AU - Umesh, Deepika Kumar

AU - Thomas, Sini

AU - Anilkumar, Chandrappa

AU - Upadhyay, Sameer

AU - Kumar, Awadhesh

AU - Ch L. N, Manikanta

AU - S, Behera

AU - Marndi, Bishnu Charan

AU - Siddique, Kadambot H.M.

PY - 2023/1/11

Y1 - 2023/1/11

N2 - Abiotic stresses adversely affect rice yield and productivity, especially under the changing climatic scenario. Exposure to multiple abiotic stresses acting together aggravates these effects. The projected increase in global temperatures, rainfall variability, and salinity will increase the frequency and intensity of multiple abiotic stresses. These abiotic stresses affect paddy physiology and deteriorate grain quality, especially milling quality and cooking characteristics. Understanding the molecular and physiological mechanisms behind grain quality reduction under multiple abiotic stresses is needed to breed cultivars that can tolerate multiple abiotic stresses. This review summarizes the combined effect of various stresses on rice physiology, focusing on grain quality parameters and yield traits, and discusses strategies for improving grain quality parameters using high-throughput phenotyping with omics approaches.

AB - Abiotic stresses adversely affect rice yield and productivity, especially under the changing climatic scenario. Exposure to multiple abiotic stresses acting together aggravates these effects. The projected increase in global temperatures, rainfall variability, and salinity will increase the frequency and intensity of multiple abiotic stresses. These abiotic stresses affect paddy physiology and deteriorate grain quality, especially milling quality and cooking characteristics. Understanding the molecular and physiological mechanisms behind grain quality reduction under multiple abiotic stresses is needed to breed cultivars that can tolerate multiple abiotic stresses. This review summarizes the combined effect of various stresses on rice physiology, focusing on grain quality parameters and yield traits, and discusses strategies for improving grain quality parameters using high-throughput phenotyping with omics approaches.

KW - drought

KW - eCO2

KW - high temperature

KW - multiple abiotic stresses

KW - physiology

KW - salinity

KW - sensitivity

KW - tolerance

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U2 - 10.3389/fpls.2022.996514

DO - 10.3389/fpls.2022.996514

M3 - Review article

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SN - 1664-462X

VL - 13

JO - Frontiers in Plant Science

JF - Frontiers in Plant Science

M1 - 996514

ER -

Physiological and molecular implications of multiple abiotic stresses on yield and quality of rice

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