Genetic Loci Governing Grain Yield and Root Development under Variable Rice Cultivation Conditions

Drought is the major abiotic stress to rice grain yield under unpredictable changing climatic scenarios. The widely grown, high yielding but drought susceptible rice varieties need to be improved by unraveling the genomic regions controlling traits enhancing drought tolerance. The present study was...

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Bibliographic Details
Published in:	Frontiers in plant science Vol. 8; p. 1763
Main Authors:	Catolos, Margaret, Sandhu, Nitika, Dixit, Shalabh, Shamsudin, Noraziya A A, Naredo, Ma E B, McNally, Kenneth L, Henry, Amelia, Diaz, Ma G, Kumar, Arvind
Format:	Journal Article
Language:	English
Published:	Switzerland Frontiers Media S.A 16-10-2017
Subjects:	drought food security grain yield Plant Science QTL rice root traits QTL root traits grain yield rice drought food security
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Summary:	Drought is the major abiotic stress to rice grain yield under unpredictable changing climatic scenarios. The widely grown, high yielding but drought susceptible rice varieties need to be improved by unraveling the genomic regions controlling traits enhancing drought tolerance. The present study was conducted with the aim to identify quantitative trait loci (QTLs) for grain yield and root development traits under irrigated non-stress and reproductive-stage drought stress in both lowland and upland situations. A mapping population consisting of 480 lines derived from a cross between Dular (drought-tolerant) and IR64-21 (drought susceptible) was used. QTL analysis revealed three major consistent-effect QTLs for grain yield ( , and ) under non-stress and reproductive-stage drought stress conditions, and 2 QTLs for root traits ( for root-growth angle and for multiple root traits, i.e., seedling-stage root length, root dry weight and crown root number). The genetic locus was identified as hotspot for grain yield and yield-related agronomic and root traits. The study identified significant positive correlations among numbers of crown roots and mesocotyl length at the seedling stage and root length and root dry weight at depth at later stages with grain yield and yield-related traits. Under reproductive stage drought stress, the grain yield advantage of the lines with QTLs ranged from 24.1 to 108.9% under upland and 3.0-22.7% under lowland conditions over the lines without QTLs. The lines with QTL combinations + showed the highest mean grain yield advantage followed by lines having + and + + , across upland/lowland reproductive-stage drought stress. The identified QTLs for root traits, mesocotyl length, grain yield and yield-related traits can be immediately deployed in marker-assisted breeding to develop drought tolerant high yielding rice varieties.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by: Henry T. Nguyen, University of Missouri, United States Reviewed by: Raveendran Muthurajan, Tamil Nadu Agricultural University, India; Prasanta Kumar Subudhi, Louisiana State University, United States; Rupesh Kailasrao Deshmukh, Laval University, Canada This article was submitted to Plant Abiotic Stress, a section of the journal Frontiers in Plant Science
ISSN:	1664-462X 1664-462X
DOI:	10.3389/fpls.2017.01763