Genetic Diversity of Asian Rice (Oryza sativa L.) Germplasm for Direct Seeding in Response to Soil Salinity Stress at Germination Stage

Abstract

Abstract Salinity is one of the major devastating factors restricting the rice yield particularly at germination stage. Direct seeding is an alternative approach to avoid the excessive water use for rice production. Till date, limited efforts have been conducted for rice germplasm to screen for direct seeding method against soil salinity stress. In present study, a total of 40 rice genotypes were screened using 59 microsatellite markers across the rice genome to identify the genetic diversity against salinity stress. The genotyping identified 287 alleles. The number of alleles averaged at 4.86 per locus, and ranged from 2 to 9. The polymorphic information content (PIC) ranged from 4–8. The markers RM21, RM481 RM566, RM488, RM9, RM217, RM333, RM242, RM209, RM38, RM539, RM475, RM267, RM279 and RM430 were found highly polymorphic with PIC value > 0.7 and contains the highest number of alleles (≥ 6). Model based and distance based population structure both inferred the presence of 3 clusters in studied rice germplasm. Based on cluster analysis, Shiroodi, Hashemi Tarom and BAS2000 were found as weak salt tolerant varieties. MR211 and MR219 are two Malaysian varieties found to be highly tolerant and have a high potential for direct seeding methods. AMOVA test suggested that 95% genetic diversity was within the population, which implies that significant genetic variation was present in rice germplasm to be used to select parents for future breeding programs.