Identification of microsatellite markers associated with root traits for drought tolerance in rice (Oryza sativa L.)

dc.contributor.advisorBeena, R
dc.contributor.authorRejeth, R
dc.contributor.authorKAU
dc.date.accessioned2019-12-24T05:53:08Z
dc.date.available2019-12-24T05:53:08Z
dc.date.issued2017
dc.descriptionPGen_US
dc.description.abstractThe present investigation entitled “Identification of microsatellite markers associated with root traits for drought tolerance in rice (Oryza sativa L.)” was conducted at Department of Plant Physiology, College of Agriculture, Vellayani during 2016-17. The objective of the study was to validate the role of root traits in rice for drought tolerance and to identify the microsatellite markers associated with root traits for drought tolerance in rice. The extend of variation for water stress indicators, physio-morphological and yield components were assessed by evaluating 35 rice genotypes collected from RARS, Pattambi under water stress and irrigated conditions in the rainout shelter. The rice accessions grown in polythene tubes of 1 meter height were exposed to water stress at panicle initiation stage for a period of 15 days along with irrigated control. The physio-morphological, biochemical and yield components were recorded on completion of stress period. Significant variation was observed for these traits and ten drought tolerant and ten drought susceptible genotypes were selected. The genomic DNA was isolated from these rice genotypes and were pooled into drought tolerant and susceptible bulks. Bulked line analysis was carried out to identify microsatellite markers linked to drought tolerance in rice. The result of the study revealed that physiological parameters such as Relative Water Content (RWC), photosynthetic rate, transpiration rate and stomatal conductance decreased where as proline content and leaf temperature increased significantly in most of the genotypes under water stress condition. Highest leaf rolling (score – 9) was observed in Ptb–7 and Ptb-13 while the genotypes Ptb–29 and Ptb-30 showed no leaf rolling symptoms (score – 1). Among the genotypes, the RWC was recorded to be highest in Ptb–4 while the lowest was recorded in Ptb–13 under water stress condition. The percentage decrease in RWC compared to irrigated control was less in Ptb–15. Membrane stability index was more in Ptb–29 (98.5 %) and Ptb-10 (98.1 %) as compared to other genotypes under water stress condition. Maximum leaf temperature was observed in Ptb–1(31.70C) and minimum in Ptb–7 (27.80C) under water stress condition. Among the genotypes, stomatal conductance was recorded to be highest in Ptb–30 (674 m moles m-2 s-1) while the lowest in Ptb– 20 (92 m moles m-2 s-1). The photosynthetic rate decreased significantly under water stress condition with maximum in Ptb–30 (15.2 μ moles m-2 s-1) and minimum in Ptb–6 (3.4 μ moles m-2 s-1). Under water stress condition, maximum transpiration rate was observed in Ptb–4 (1.4 m moles m-2 s-1) and minimum in Ptb–31 (0.05 m moles m-2 s-1). Proline content increased at 50% flowering stage in water stress condition with maximum accumulation in Ptb–27 and minimum in Ptb–22. At flowering stage highest root length was noticed in Ptb-15 and lowest for Ptb–3 and Ptb-8 under water stress condition. Root volume differed significantly in several genotypes with maximum in Ptb–21 and minimum in Ptb-31. Root dry weight decreased in water stress compared to control in most of the genotypes with highest in Ptb-13 and lowest in Ptb-31. Root shoot ratio was found to be highest in Ptb-29 and Ptb-30 and lowest in Ptb-31. The plant height at maturity was observed to be highest in Ptb-1 and lowest in Ptb-34 under water stress condition. Days to 50% flowering reduced in most of the genotypes under water stress condition compared to irrigated control. Productive tiller number of most of the genotypes significantly reduced in water stress condition with maximum reduction in Ptb-28. Maximum yield under water stress was recorded in Ptb-55 and minimum in Ptb-21. Number of filled grains and unfilled grains were observed as major attributes affected drastically under water stress condition. The spikelet fertility percentage was highest in Ptb-25 and lowest in Ptb-1. Ptb-28 had maximum 1000 grain weight under water stress and minimum was for Ptb-17. Correlation study revealed that grain yield per plant under water stress condition was positively correlated with parameters such as relative water content, membrane stability index, proline content, stomatal conductance, photosynthetic rate, transpiration rate, root length, root shoot ratio, spikelet fertility % and 1000 grain weight where as negatively correlated with leaf temperature, leaf rolling score, root volume, root dry weight, plant height, days to 50% flowering and panicle length. In Bulked Line Analysis, out of the 150 microsatellite primers screened only one marker i.e., RM 474 showed polymorphism between the tolerant and susceptible bulks. The same primer showed similar product size (252bp) among the individual lines which constituted respective bulks. In summary, there was significant variation for physio-morphological and yield components among rice genotypes under water stress condition. Genotypes having higher root length and root shoot ratio were found to be tolerant to drought. The genotypes identified as drought tolerant viz Ptb-29, Ptb-30, Ptb-15, Ptb-1, Ptb-55 etc. can be used in breeding programmes to improve drought tolerance in rice. Microsatellite marker RM 474 which could distinguish drought tolerant and susceptible bulks can be used for marker assisted selection for drought tolerance in rice.en_US
dc.identifier.urihttp://krishikosh.egranth.ac.in/handle/1/5810138750
dc.keywordsPlant Physiology, Drought, Riceen_US
dc.language.isoenen_US
dc.pages158en_US
dc.publisherDepartment of Plant Technology, College of Agriculture, Vellayanien_US
dc.subPlant Physiologyen_US
dc.subjectnullen_US
dc.themedrought tolerance in riceen_US
dc.these.typeM.Scen_US
dc.titleIdentification of microsatellite markers associated with root traits for drought tolerance in rice (Oryza sativa L.)en_US
dc.typeThesisen_US
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