Development of high-yielding varieties depends on choice of parents, include per se performance, morphological and agronomic traits, and genetic diversity as determined through geographic origin. Indicators of success can be expected from the value of genetic progress and some other important genetic parameters. The purpose of this study was to calculate the genetic heterogenity, heritability and genetic advances of some quantitative characters of rice genotypes. Experiments were conducted in the district of Kulon Progo, namely: Wates and Panjatan (irrigated condition, dry season of 2012), in Giripeni (rainfed, medium altitude, wet season of 2012/2013), Samigaluh and Kalibawang (rainfed, high altitude, wet season of 2012/2013). Each experiment was designed using a randomized complete block with three replications.Data indicated that not all environmental conditions appropriate for the selection and development of genotype due to low value heritability and expectation genetic advances of each environment was lower than the value heritability and expectation genetic advances for the combined average of the environment. Wates was suitable location for grain yield selection and development in terms of the high heritability values. Kalibawang, Giripeni and Wates have considerable heritabilty value for 1000 grain weight character, hence they can be used as suitable selection locations for these characters.

heterogeneity, genetic parameters, genotypes of rice

Baihaki A dan N Wicaksana. 2005. Interaksi genotip x lingkungan, adaptabilitas dan stabilitas hasil, dalam pengembangan tanaman varietas unggul di Indonesia. Zuriat. Jurnal Pemuliaan Indonesia 16(1) 1-8

Fehr WR. 1987. Principles of cultivar development (1). Theory and Technique, 120-129 Macmillan Publishing Co., New York. Gomez K and A Gomez. 1986. Statistical procedures for agriculturural research, 567-620.

John Wiley & Sons, New York . Islam MS, S Peng, RM Visperas, M Sultan, U Bhuiya, SMA Hossain, and AW Yulfiquar. 2010. Comparative study on yield and yield attributes of hybrids, inbred, and NPT rice genotypes in tropical irrigated ecosystem. Bangladesh Journal Agricultural Research 35, 343-353.

Khan AS, M Imran, and M Asffaq. 2009. Estimation of genetic variability and correlation for grain yield component in Oryza sativa L. American-Euras. Journal Agricultural Environtment Science 6, 585-590.

Khush GS. 2000. New plant type of rice for increasing the genetic yield potential. In Rice Breeding and genetics: Research Priorities and Challenges. J.S. Nanda (Ed.), 99-108. Science Publishers, Inc., Enfield USA.

Sabu KK, MZ Abdullah, LS Lin, and R Wickneswari. 2009. Analysis of heritability and genetic variability of agronomically important traits in Oryza sativa L. x O. rufipogon Cross. Agronomy Research 7, 97-102.

Saleem MY, JI Mirza, and MA Haq. 2008. Heritability, genetic advance, and heterosis in line x tester crosses of Basmati rice. Journal Agricultural Research 46,15-26.

Singh RK and BD Chaudhary. 1979. Biometrical methods in quantitative genetic analysis. Kalyani, Ludhiana, New Delhi. Reed. 46. 2, 390-393.

Tocker C. 2004. Estimates of broad-sense heritability for seed yield and yield criteria in faba bean (Vicia faba L.). Hereditas 140, 222-225.