Your search keyword '"Mamrutha, Harohalli Masthigowda"' showing total 2 results

1. Genotype–Phenotype Relationships for High‐Temperature Tolerance: An Integrated Method for Minimizing Phenotyping Constraints in Wheat.

Author

Sharma, Davinder, Chandra Pandey, Girish, Mamrutha, Harohalli Masthigowda, Singh, Rajender, Singh, Nagendra Kumar, Singh, Gyanendra Pratap, Rane, Jagadish, and Tiwari, Ratan

Subjects

WHEAT, HIGH temperatures, GENOTYPES, HEAT

Abstract

Various attempts have been made to understand the traits and genes associated with heat stress tolerance in wheat (Triticum aestivum L.) in the field and under controlled conditions. Attempts made under controlled conditions have not been conclusive, mainly through a lack of sufficient precision in simulating the ambient temperature dynamics and microenvironments prevalent in the field. In addition, inconsistency in field phenotyping is a major concern. Hence, we attempted to develop a method for phenotyping wheat for heat stress tolerance through a novel temperature‐controlled phenotyping facility (TCPF), along with an inexpensive tool to ensure uniform crop establishment. The objective was to improve the precision of assessing plants' responses to elevated temperatures, particularly when these experiments are challenged by a large number of genotypes to be screened that show significant variations in their phenology. The study involved 75 genotypes from a recombinant inbred line population with differing responses to heat stress under three conditions: in the TCPF and in the field [regular field season and late sown (LS)] across two consecutive years. The results revealed that the yield components were different under LS and TCPF conditions. These differences reflected the plants' responses to morphophenological adaptations arising from the late planting time and were not really reflective of the heat stress response. However, greater precision in differentiating high‐temperature responses in the TCPF was evident from the repeatability in terms of growth, physiology, and productivity. This could be attributed to uniform crop establishment and improved capacity to maintain the desired temperature for phenotyping. [ABSTRACT FROM AUTHOR]

Published

2019

2. Mapping quantitative trait loci associated with grain filling duration and grain number under terminal heat stress in bread wheat ( Triticum aestivum L.).

Author

Sharma, Davinder, Singh, Rajender, Rane, Jagadish, Gupta, Vijay Kumar, Mamrutha, Harohalli Masthigowda, Tiwari, Ratan, and Bürstmayr, H.

Subjects

WHEAT breeding, PHYSIOLOGICAL effects of heat, GENOTYPES, AGRICULTURAL productivity, PLANT variation

Abstract

Terminal heat stress has the potential negative impact on wheat production across the world, especially in South Asia. Under the threat of terminal heat stress, wheat genotypes with stay green trait would suffer from high temperature stress during their long grain filling duration ( GFD). The genotypes with short GFD would be advantageous. To identify quantitative trait loci (QTL) for heat tolerance, a RIL population of K 7903 (heat tolerant) and RAJ 4014 (heat sensitive) wheat genotypes was investigated under timely and late-sown conditions. Heat susceptibility index of GFD, yield components and traits under late-sown condition were used as phenotypic data for QTL identification. Stable QTLs associated with these traits were identified on chromosomes 1B, 2B, 3B, 5A and 6B. The LOD value ranged from 2.9 to 5.0 and the corresponding phenotyping variation explained ranged from 12.0-22%. QTL for heat susceptibility index for the grain filling duration were colocalized with QTL for productive tillers under late sown and GFD under late-sown condition on chromosomes 1B and 5A, respectively. These genomic regions could be exploited for molecular wheat breeding programmes targeting heat tolerance. [ABSTRACT FROM AUTHOR]

Published

2016