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- Title
Linking stomatal traits and expression of slow anion channel genes HvSLAH1 and HvSLAC1 with grain yield for increasing salinity tolerance in barley.
- Authors
Xiaohui Liu; Mak, Michelle; Babla, Mohammad; Feifei Wang; Guang Chen; Veljanoski, Filip; Gang Wang; Shabala, Sergey; Meixue Zhou; Zhong-Hua Chen
- Abstract
Soil salinity is an environmental and agricultural problem in many parts of the world. One of the keys to breeding barley for adaptation to salinity lies in a better understanding of the genetic control of stomatal regulation. We have employed a range of physiological (stomata assay, gas exchange, phylogenetic analysis, QTL analysis), and molecular techniques (RT-PCR and qPCR) to investigate stomatal behavior and genotypic variation in barley cultivars and a genetic population in four experimental trials. A set of relatively efficient and reliable methods were developed for the characterization of stomatal behavior of a large number of varieties and genetic lines. Furthermore, we found a large genetic variation of gas exchange and stomatal traits in barley in response to salinity stress. Salt-tolerant cultivar CM72 showed significantly larger stomatal aperture under 200mM NaCl treatment than that of salt-sensitive cultivar Gairdner. Stomatal traits such as aperture width/length were found to significantly correlate with grain yield under salt treatment. Phenotypic characterization and QTL analysis of a segregating double haploid population of the CM72/Gairdner resulted in the identification of significant stomatal traits-related QTLs for salt tolerance. Moreover, expression analysis of the slow anion channel genes HvSLAH1 and HvSLAC1 demonstrated that their up-regulation is linked to higher barley grain yield in the field.
- Subjects
SOIL salinity; AGRICULTURE; BARLEY breeding; PLANT physiology; PHYLOGENY; CULTIVARS; PLANT population genetics
- Publication
Frontiers in Plant Science, 2014, Vol 5, p1
- ISSN
1664-462X
- Publication type
Article
- DOI
10.3389/fpls.2014.00634