Your search keyword '"Avramova, Viktoriya"' showing total 2 results

1. The carbon isotopic signature of C4 crops and its applicability in breeding for climate resilience.

Author

Eggels, Stella, Blankenagel, Sonja, Schön, Chris-Carolin, and Avramova, Viktoriya

Subjects

PLANT breeding, SORGHUM, CARBON isotopes, ISOTOPIC signatures, WATER efficiency, CARBON fixation, SORGHUM farming, CORN breeding

Abstract

Key message: Carbon isotope discrimination is a promising trait for indirect screening for improved water use efficiency of C4 crops. In the context of a changing climate, drought is one of the major factors limiting plant growth and yield. Hence, breeding efforts are directed toward improving water use efficiency (WUE) as a key factor in climate resilience and sustainability of crop production. As WUE is a complex trait and its evaluation is rather resource consuming, proxy traits, which are easier to screen and reliably reflect variation in WUE, are needed. In C3 crops, a trait established to be indicative for WUE is the carbon isotopic composition (δ13C) of plant material, which reflects the preferential assimilation of the lighter carbon isotope 12C over 13C during photosynthesis. In C4 crops, carbon fixation is more complex and δ13C thus depends on many more factors than in C3 crops. Recent physiological and genetic studies indicate a correlation between δ13C and WUE also in C4 crops, as well as a colocalization of quantitative trait loci for the two traits. Moreover, significant intraspecific variation as well as a medium to high heritability of δ13C has been shown in some of the main C4 crops, such as maize, sorghum and sugarcane, indicating its potential for indirect selection and breeding. Further research on physiological, genetic and environmental components influencing δ13C is needed to support its application in improving WUE and making C4 crops resilient to climate change. [ABSTRACT FROM AUTHOR]

Published

2021

2. Carbon isotope composition, water use efficiency, and drought sensitivity are controlled by a common genomic segment in maize.

Author

Avramova, Viktoriya, Meziane, Adel, Bauer, Eva, Blankenagel, Sonja, Eggels, Stella, Gresset, Sebastian, Grill, Erwin, Niculaes, Claudiu, Ouzunova, Milena, Poppenberger, Brigitte, Presterl, Thomas, Rozhon, Wilfried, Welcker, Claude, Yang, Zhenyu, Tardieu, François, and Schön, Chris-Carolin

Subjects

*DROUGHTS, *CARBON isotopes, *INTROGRESSION (Genetics), *CORN, *PLANT physiology

Abstract

Key message: A genomic segment on maize chromosome 7 influences carbon isotope composition, water use efficiency, and leaf growth sensitivity to drought, possibly by affecting stomatal properties.Abstract: Climate change is expected to decrease water availability in many agricultural production areas around the globe. Therefore, plants with improved ability to grow under water deficit are urgently needed. We combined genetic, phenomic, and physiological approaches to understand the relationship between growth, stomatal conductance, water use efficiency, and carbon isotope composition in maize (Zea mays L.). Using near-isogenic lines derived from a maize introgression library, we analysed the effects of a genomic region previously identified as affecting carbon isotope composition. We show stability of trait expression over several years of field trials and demonstrate in the phenotyping platform Phenodyn that the same genomic region also influences the sensitivity of leaf growth to evaporative demand and soil water potential. Our results suggest that the studied genomic region affecting carbon isotope discrimination also harbours quantitative trait loci playing a role in maize drought sensitivity possibly via stomatal behaviour and development. We propose that the observed phenotypes collectively originate from altered stomatal conductance, presumably via abscisic acid. [ABSTRACT FROM AUTHOR]

Published

2019