The present study was carried out to assess the genetic diversity, population structure and linkage disequilibrium in Korea. In model-based population, Korean rice germplasm were classified into four subpopulaton designated as indica cultivated, japonica cultivated, indica weedy, and japonica weedy were identified. Pair-wise estimates of FST indicated a different degree of differentiation between the four model-based populations with values ranging from 0.073 (between japonica cultivated and japonica weedy) and 0.474 (between japonica weedy and indica weedy). The indica weedy population appeared to be highly differentiated as compared to other populations. The indica cultivated have the highest gene diversity (0.58), followed by japonica cultivated (0.50), japonica weedy (0.42) and indica weedy (0.35). The total number of specific alleles in indica weedy and japonica weedy populations was 39 alleles (23 markers) and 55 alleles (22 markers), respectively. An average of LD (r2) value of indica weedy and japonica weedy type was higher than two other populations, both in inter- and intra-chromosome, indicating the possible reproductive and geographical isolations of sub-populations in cultivated rice fields.