Phenotypic, Physiological and Biochemical Delineation of Wheat Genotypes Under Different Stress Conditions

Suman Devi; Vikram Singh; Shikha Yashveer; Anil Kumar Poonia; Paras; Rukoo Chawla; Deepak Kumar; Darya Khan Akbarzai

doi:10.1007/s10528-023-10579-3

Phenotypic, Physiological and Biochemical Delineation of Wheat Genotypes Under Different Stress Conditions

Biochem Genet. 2023 Dec 15. doi: 10.1007/s10528-023-10579-3. Online ahead of print.

Authors

Suman Devi¹, Vikram Singh², Shikha Yashveer³, Anil Kumar Poonia³, Paras², Rukoo Chawla², Deepak Kumar², Darya Khan Akbarzai²

Affiliations

¹ Genetics and Plant Breeding Department, CCS HAU, Hisar, Haryana, India. sumanchaudhary304@gmail.com.
² Genetics and Plant Breeding Department, CCS HAU, Hisar, Haryana, India.
³ Department of Molecular Biology and Biotechnology, CCS HAU, Hisar, Haryana, India.

PMID: 38100038
DOI: 10.1007/s10528-023-10579-3

Abstract

Wheat is a vital crop, providing calories, nutrients and versatility in the food industry. However, the combination of heat and drought stress, exacerbated by climate change, poses a significant threat to wheat production, leading to potential yield losses. To ensure the sustainability of wheat production it is crucial to prioritize research on developing stress-tolerant wheat genotypes. The current study focused on identifying the traits that are important for developing stress-tolerant wheat varieties under timely sown irrigated, drought stress, heat stress, and combined stress conditions. It addresses the knowledge gap regarding the combined effects of heat and drought stress on wheat physiology and yield, aiming to shed light on the intricate interactions between these stresses. The experiment was conducted at CCS HAU, Hisar, during the Rabi seasons of 2019-2020 and 2020-2021. By evaluating variability parameters, conducting correlation analysis, and path coefficient analysis among 80 diverse wheat genotypes, this research identifies genetic factors contributing to stress tolerance and helps select plants with desirable characteristics. The results showed that traits i.e., malendialdehyde, wax covering on blade, wax covering on sheath and wax covering on spike had high potential for improvement through selection among genotypes for grain yield and its component traits. The study also highlighted the importance of selecting wheat varieties with early maturity to mitigate the risk of yield loss under combined stress conditions. Moreover, the interaction between drought and heat stress can increase oxidative stress, leading to elevated malondialdehyde levels. Selecting varieties with lower malondialdehyde and optimal canopy temperature is important. Understanding the complex response of wheat to heat, drought, and their combined stress is essential for improving crop quality and production potential. Overall, this research contributes to the field of plant breeding by facilitating the development of wheat varieties with high and stable yields in challenging environments.

Keywords: Correlation coefficient analysis; Drought; Heat; Path coefficient analysis; Stress; Wheat.