Reference "Population Structure and Breeding Patterns of 145 U.S. Rice Cultivars Based on SSR Marker Analysis"

Reference ID

11139

Title

Population Structure and Breeding Patterns of 145 U.S. Rice Cultivars Based on SSR Marker Analysis

Source

Crop Science, 2005, vol. 45, pp. 66-76

Authors (6)

Lu-H	Redus-M-A
Coburn-J-R	Rutger-J-N
McCouch-S-R	Tai-T-H

Abstract

This study was undertaken to investigate the population structure of U.S. rice
(Oryza sativa L.). A total of 115 U.S. rice cultivars and 30 ancestral
accessions introduced from Asia were genotyped by means of 169 simple sequence
repeat (SSR) markers that are well distributed throughout the rice genome. SSR-
based clustering analysis identified three groups of U.S. rice cultivars that
were recognizable as temperate japonica with short to medium grains, tropical
japonica with medium grains, and tropical japonica with long grains. Indica
cultivars were represented among ancestral accessions, but always clustered
independently. Indica germplasm has been used for cultivar improvement, but
never directly in U.S. rice production. Cluster analysis of cultivars based on
four time periods representing their first release date or introduction
(1900�1929, 1930�1959, 1960�1979, and 1980�2000) resulted in the identification
of the same three groups. This suggests that the population structure in U.S.
rice was established before 1930 and remains essentially intact today, despite a
large amount of controlled crossing and artificial selection as a part of the
breeding process. Fifty-seven percent of U.S. rice cultivars were developed from
intragroup crosses, indicating the availability of substantial genetic
variability within each group. Similar results were obtained using genetic distance-
based and model-based clustering methods. Information about population structure
and associated phenotypic characteristics recognized by geneticists and breeders
paves the way for coordinated association mapping studies in the future.