| 0 | GSOR 301054 | Ghati Kamma Nangarhar | Oryza sativa L. | Afghanistan | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882678 | GSOR 301054 |
| 1 | GSOR 301069 | Jaya | Oryza sativa L. | India | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882693 | GSOR 301069 |
| 2 | GSOR 301071 | Jhona 349 | Oryza sativa L. | India | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882695 | GSOR 301071 |
| 3 | GSOR 301090 | L-202 | Oryza sativa L. | United States | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882714 | GSOR 301090 |
| 4 | GSOR 301122 | Phudugey | Oryza sativa L. | Bhutan | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882744 | GSOR 301122 |
| 5 | GSOR 301123 | Rathuwee | Oryza sativa L. | Sri Lanka | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882745 | GSOR 301123 |
| 6 | GSOR 301143 | T 1 | Oryza sativa L. | India | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882765 | GSOR 301143 |
| 7 | GSOR 301157 | Tsipala 421 | Oryza sativa L. | Madagascar | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882779 | GSOR 301157 |
| 8 | GSOR 301159 | Vary Vato 462 | Oryza sativa L. | Madagascar | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882781 | GSOR 301159 |
| 9 | GSOR 301169 | ARC 6578 | Oryza sativa L. | India | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882790 | GSOR 301169 |
| 10 | GSOR 301197 | Rojofotsy 738 | Oryza sativa L. | Madagascar | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882817 | GSOR 301197 |
| 11 | GSOR 301219 | CA 902/B/2/1 | Oryza sativa L. | Chad | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882838 | GSOR 301219 |
| 12 | GSOR 301244 | Hon Chim | Oryza sativa L. | Hong Kong | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882863 | GSOR 301244 |
| 13 | GSOR 301336 | Karkati 87 | Oryza sativa L. | Bangladesh | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882955 | GSOR 301336 |
| 14 | GSOR 301357 | Coarse | Oryza sativa L. | Pakistan | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882975 | GSOR 301357 |
| 15 | GSOR 301376 | La 110 | Oryza sativa L. | United States | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1882994 | GSOR 301376 |
| 16 | GSOR 301407 | Shufeng 121-1655 | Oryza sativa L. | China | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1883015 | GSOR 301407 |
| 17 | GSOR 301414 | Jing 185-7 | Oryza sativa L. | China | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1883022 | GSOR 301414 |
| 18 | GSOR 301415 | Rondo (4484-1693) | Oryza sativa L. | China | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1883023 | GSOR 301415 |
| 19 | GSOR 301416 | RT0034 | Oryza sativa L. | United States | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1883024 | GSOR 301416 |
| 20 | GSOR 301420 | C101A51 | Oryza sativa L. | Philippines | GSOR |  | | 2007 | DEVELOPED | 2011 | | | | | Genetic material | To represent the range of genetic diversity found in cultivated Asian rice, 409 Oryza sativa accessions were selected from around the world. They cover the full geographic and ecological range of rice- from Indonesian paddy terraces, to the harsh upland soils of northern Thailand; from rapidly rising Chinese riverbeds to African mangrove environments. The 409 O. sativa accessions represent all five sub-populations of rice: indica, aus, tropical japonica, temperate japonica and Group V (sometimes called aromatic or basmati) varieties. The diverse set of rice accessions also includes a wide range of important economic phenotypes, including varieties known to be resistant to diseases and insects or tolerant to flooding, drought, high salt concentrations, low mineral nutrition. There are also varieties with varying cooking qualities, such as different grain colors, lengths, textures, and fragrance. The accessions were chosen to build upon several previous studies, including a subset of the varieties used by Garris et al. (2005) to evaluate sub-population structure in O. sativa. Approximately 200 of our accessions overlap with the 3,000 analyzed for diversity within the internationally-funded Generation Challenge Program (GCP) and 159 overlap with the USDA-ARS rice core collection. This Rice Diversity Panel was fingerprinted with 36 simple sequence repeat (SSR) markers and evaluated for 18 agro-morphological traits. The rice diversity panel with the accompanying genetic and phenotypic information provides a valuable foundation for association mapping, understanding the basis of both genotypic and phenotypic differences within and between subpopulations, and rice improvement programs. | 1883028 | GSOR 301420 |
| 21 | GSOR 311462 | 'DALIDAO' | Oryza sativa L. | China | GSOR |  | | 1996 | DEVELOPED | | | | | | Cultivar | Core Accession from PI 614983. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742376 | GSOR 311462 |
| 22 | GSOR 311480 | 'GUICHAO NO. 2' | Oryza sativa L. | China | GSOR |  | | 1996 | DEVELOPED | | | | | | Cultivar | Core Accession from PI 615013. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742394 | GSOR 311480 |
| 23 | GSOR 310773 | ECIA76-S89-1 | Oryza sativa L. | Cuba | GSOR |  | | 1996 | DEVELOPED | | | | | | Breeding material | Core Accession from PI 602654. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Site C7. Season DS. Nursery Remnant. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741688 | GSOR 310773 |
| 24 | GSOR 310757 | RP2151-173-1-8 | Oryza sativa L. | India | GSOR |  | | 1993 | DEVELOPED | | | | | | Breeding material | Core Accession from PI 596941. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: 89 days to heading. 109 cm plant height. 4 pacp at maturity. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741672 | GSOR 310757 |
| 25 | GSOR 311417 | CNTLR80076-44-1-1-1 | Oryza sativa L. | Thailand | GSOR |  | | 1993 | DEVELOPED | | | | | | Breeding material | Core Accession from PI 596902. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: 87 days to heading. 93 cm plant height. 3 pacp at maturity. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742331 | GSOR 311417 |
| 26 | GSOR 311380 | BR24 | Oryza sativa L. | Bangladesh | GSOR |  | | 1993 | DEVELOPED | | | | | | Cultivar | Core Accession from PI 574680. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Early, upland, drought tolerant. BRRI-developed variety. Season: Upland Aus. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742294 | GSOR 311380 |
| 27 | GSOR 311401 | 'EL PASO L-144' | Oryza sativa L. | Uruguay | GSOR |  | | 1993 | DEVELOPED | | | | | | Cultivar | Core Accession from PI 584663. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742315 | GSOR 311401 |
| 28 | GSOR 311373 | Santa Julia | Oryza sativa L. | Cundinamarca, Colombia | GSOR |  | | 1990 | COLLECTED | | | 5.00000000, -74.16666667 | | | Cultivated material | Core Accession from PI 560297. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Cultivated by BORA Indians. Reportedly resistant to pathogens and other pests. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742287 | GSOR 311373 |
| 29 | GSOR 310653 | CH 242-32 | Oryza sativa L. | BiobĂo, Chile | GSOR |  | | 1980 | DEVELOPED | | | | | | Breeding material | Core Accession from PI 439109. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Cold tolerant. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741568 | GSOR 310653 |
| 30 | GSOR 310610 | Egypt 5 | Oryza sativa L. | Egypt | GSOR |  | | 1978 | COLLECTED | | | 27.00000000, 30.00000000 | | | Cultivated material | Core Accession from PI 431162. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741525 | GSOR 310610 |
| 31 | GSOR 310615 | Dichroa Alef Uslkij | Oryza sativa L. | Kazakhstan | GSOR |  | | 1978 | COLLECTED | | | 48.00000000, 68.00000000 | | | Cultivated material | Core Accession from PI 431210. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741530 | GSOR 310615 |
| 32 | GSOR 310616 | Zeraschcivica Sroches Krothearny Snij | Oryza sativa L. | Former, Soviet Union | GSOR |  | | 1978 | COLLECTED | | | | | | Cultivated material | Core Accession from PI 431212. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741531 | GSOR 310616 |
| 33 | GSOR 311277 | Ghoal Champa | Oryza sativa L. | Iran | GSOR |  | | 1978 | COLLECTED | | | 32.00000000, 53.00000000 | | | Cultivated material | Core Accession from PI 431087. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742191 | GSOR 311277 |
| 34 | GSOR 311289 | Peroz | Oryza sativa L. | Iran | GSOR |  | | 1978 | COLLECTED | | | 32.00000000, 53.00000000 | | | Cultivated material | Core Accession from PI 431227. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742203 | GSOR 311289 |
| 35 | GSOR 310566 | 'INIAP 7' | Oryza sativa L. | Ecuador | GSOR |  | | 1977 | DEVELOPED | | | | | | Cultivar | Core Accession from PI 420960. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741481 | GSOR 310566 |
| 36 | GSOR 311223 | KN-1 B-361-BLK-2 | Oryza sativa L. | Indonesia | GSOR |  | | 1976 | DEVELOPED | | | | | | Breeding material | Core Accession from PI 413929. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742137 | GSOR 311223 |
| 37 | GSOR 311180 | Sapundali Local | Oryza sativa L. | India | GSOR |  | | 1975 | COLLECTED | | | 20.00000000, 77.00000000 | | | Cultivated material | Core Accession from PI 402673. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1742094 | GSOR 311180 |
| 38 | GSOR 310846 | Kao Chio Lin Chou | Oryza sativa L. | Taiwan | GSOR |  | | 1962 | COLLECTED | | | 23.50000000, 121.00000000 | | | Cultivated material | Core Accession from CIor 12492. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection produced in 2007 is deposited in the GSOR DNA extracted from the selected plant has been analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection has been developed and fingerprinted with 155 SSR markers, averaging one marker every 10 cM in the genome. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. | 1741760 | GSOR 310846 |