| 0 | PI 693038 | 'BGEM-0025-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Andaqui from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098820 | PI 693038 |
| 1 | PI 693039 | 'BGEM-0037-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Araguito from Venezuela in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098821 | PI 693039 |
| 2 | PI 693040 | 'BGEM-0039-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Arizona from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098822 | PI 693040 |
| 3 | PI 693041 | 'BGEM-0059-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Candela from Ecuador in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098823 | PI 693041 |
| 4 | PI 693042 | 'BGEM-0061-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Capio rosado from Argentina in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098824 | PI 693042 |
| 5 | PI 693043 | 'BGEM-0073-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-high altitude accession of the race Conico Norteño from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098825 | PI 693043 |
| 6 | PI 693044 | 'BGEM-0079-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Cristalino amarallo from Argentina in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098826 | PI 693044 |
| 7 | PI 693045 | 'BGEM-0094-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Dulcillo del Noroeste from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098827 | PI 693045 |
| 8 | PI 693046 | 'BGEM-0099-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Early Caribbean from Martinique in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098828 | PI 693046 |
| 9 | PI 693047 | 'BGEM-0107-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a low-mid altitude accession of the race Elotes Occidentales from Mexico in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098829 | PI 693047 |
| 10 | PI 693048 | 'BGEM-0122-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Jora from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098830 | PI 693048 |
| 11 | PI 693049 | 'BGEM-0137-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Karapampa from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098831 | PI 693049 |
| 12 | PI 693050 | 'BGEM-0157-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Mixed Creole from Cuba in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098832 | PI 693050 |
| 13 | PI 693051 | 'BGEM-0175-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Morocho from Peru in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098833 | PI 693051 |
| 14 | PI 693053 | 'BGEM-0191-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Patillo from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098835 | PI 693053 |
| 15 | PI 693054 | 'BGEM-0200-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Perla from Peru in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098836 | PI 693054 |
| 16 | PI 693055 | 'BGEM-0213-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Pisankalla from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098837 | PI 693055 |
| 17 | PI 693056 | 'BGEM-0216-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Pojoso Chico from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098838 | PI 693056 |
| 18 | PI 693057 | 'BGEM-0218-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Pojoso Chico from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098839 | PI 693057 |
| 19 | PI 693058 | 'BGEM-0233-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Tehua from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098840 | PI 693058 |
| 20 | PI 693059 | 'BGEM-0240-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Yucatan from Colombia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098841 | PI 693059 |
| 21 | PI 693060 | 'BGEM-0244-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Yucatan from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098842 | PI 693060 |
| 22 | PI 693061 | 'BGEM-0248-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2020 | DEVELOPED | NEAR 2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Yungueño from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 2098843 | PI 693061 |
| 23 | PI 690242 | 'BGEM-0029-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Araguito from Venezuela in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982845 | PI 690242 |
| 24 | PI 690243 | 'BGEM-0036-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Araguito from Venezuela in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982846 | PI 690243 |
| 25 | PI 690244 | 'BGEM-0041-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Arizona from Peru in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982847 | PI 690244 |
| 26 | PI 690245 | 'BGEM-0042-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Avati Moroti Guapi from Paraguay in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982848 | PI 690245 |
| 27 | PI 690246 | 'BGEM-0048-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Bofo from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982849 | PI 690246 |
| 28 | PI 690247 | 'BGEM-0055-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Camelia from Chilean in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982850 | PI 690247 |
| 29 | PI 690249 | 'BGEM-0068-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Confite Puntiagudo from Peru in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982852 | PI 690249 |
| 30 | PI 690250 | 'BGEM-0071-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Conico Norteño from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982853 | PI 690250 |
| 31 | PI 690252 | 'BGEM-0088-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Dulcillo del Noroeste from Mexico in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982855 | PI 690252 |
| 32 | PI 690253 | 'BGEM-0115-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Gordo from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982856 | PI 690253 |
| 33 | PI 690255 | 'BGEM-0127-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Karapampa from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982858 | PI 690255 |
| 34 | PI 690256 | 'BGEM-0150-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Kcello Ecuatoriano from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982859 | PI 690256 |
| 35 | PI 690257 | 'BGEM-0152-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Misha from Ecuador in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982860 | PI 690257 |
| 36 | PI 690258 | 'BGEM-0161-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Montana from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982861 | PI 690258 |
| 37 | PI 690259 | 'BGEM-0174-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Morocho from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982862 | PI 690259 |
| 38 | PI 690260 | 'BGEM-0182-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Onaveño from Mexico in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982863 | PI 690260 |
| 39 | PI 690261 | 'BGEM-0190-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Patillo from Ecuador in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982864 | PI 690261 |
| 40 | PI 690262 | 'BGEM-0205-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Pisankalla from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982865 | PI 690262 |
| 41 | PI 690263 | 'BGEM-0223-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race San Geronimo Huancavelicano from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982866 | PI 690263 |
| 42 | PI 690264 | 'BGEM-0226-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Semidentado Paulista from Paraguay in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982867 | PI 690264 |
| 43 | PI 690265 | 'BGEM-0236-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Vandeño from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982868 | PI 690265 |
| 44 | PI 690266 | 'BGEM-0239-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Yucatan from Colombia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982869 | PI 690266 |
| 45 | PI 690267 | 'BGEM-0243-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2019 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Yucatan from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1982870 | PI 690267 |
| 46 | PI 685991 | 'BGEM-0001-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Altiplano from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947540 | PI 685991 |
| 47 | PI 685994 | 'BGEM-0023-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Andaqui from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947543 | PI 685994 |
| 48 | PI 685995 | 'BGEM-0044-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Blanco Blandito from Ecuador in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947544 | PI 685995 |
| 49 | PI 685996 | 'BGEM-0045-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Bofo from Mexico in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947545 | PI 685996 |
| 50 | PI 685997 | 'BGEM-0063-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Chandelle from Cuban in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947546 | PI 685997 |
| 51 | PI 685998 | 'BGEM-0080-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Cristalino Amarillo from Argentinian in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947547 | PI 685998 |
| 52 | PI 685999 | 'BGEM-0085-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Cuzco from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947548 | PI 685999 |
| 53 | PI 686000 | 'BGEM-0089-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Dulcillo del Noroeste from Mexico in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947549 | PI 686000 |
| 54 | PI 686001 | 'BGEM-0097-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race from the Caribbean in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947550 | PI 686001 |
| 55 | PI 686002 | 'BGEM-0118-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Gordo from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947551 | PI 686002 |
| 56 | PI 686003 | 'BGEM-0121-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | Not Available | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Jora from Peru in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947552 | PI 686003 |
| 57 | PI 686004 | 'BGEM-0140-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Kcello from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947553 | PI 686004 |
| 58 | PI 686006 | 'BGEM-0158-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Montana from Colombia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947555 | PI 686006 |
| 59 | PI 686007 | 'BGEM-0164-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Morado from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947556 | PI 686007 |
| 60 | PI 686008 | 'BGEM-0165-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Morado from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947557 | PI 686008 |
| 61 | PI 686009 | 'BGEM-0172-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Morado Canteño from Peru in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947558 | PI 686009 |
| 62 | PI 686011 | 'BGEM-0188-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Onaveño from Mexico in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947560 | PI 686011 |
| 63 | PI 686012 | 'BGEM-0196-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Patillo Grande from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947561 | PI 686012 |
| 64 | PI 686013 | 'BGEM-0202-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Pira from Colombia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947562 | PI 686013 |
| 65 | PI 686014 | 'BGEM-0209-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Pisankalla from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947563 | PI 686014 |
| 66 | PI 686015 | 'BGEM-0228-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a accession of the race accession BR105 from Brazilian in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947564 | PI 686015 |
| 67 | PI 686016 | 'BGEM-0235-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a lowland accession of the race Tuxpeño from Guatemala in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947565 | PI 686016 |
| 68 | PI 686017 | 'BGEM-0247-N' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Yungueño from Bolivia in a non-stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947566 | PI 686017 |
| 69 | PI 686018 | 'BGEM-0250-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a mid-altitude accession of the race Yungueño from Bolivia in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947567 | PI 686018 |
| 70 | PI 686019 | 'BGEM-0252-S' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 2017 | DEVELOPED | 01/2014 | | | | | Cultivar | This doubled haploid line was developed as part of the USDA-ARS GEM Allelic Diversity project in partnership with Iowa State University to capture genes and traits from a highland accession of the race Yunquilano from Ecuador in a stiff stalk temperate elite background. It is derived from a backcross to the temperate elite parent without agronomic trait selection. In theory, 25% of its alleles may derive from the exotic parent. | 1947568 | PI 686019 |
| 71 | PI 601322 | 'PHZ51' | Zea mays L. subsp. mays | Iowa, United States | NC7 |  | | 1986 | DEVELOPED | 1986 | Johnston, Iowa, USA. | | | | Cultivar | | 1170383 | PI 601322 |
| 72 | PI 601009 | 'PHB47' | Zea mays L. subsp. mays | Minnesota, United States | NC7 |  | | 1983 | DEVELOPED | 1983 | Mankato, Minnesota, USA. | | | | Cultivar | | 1157410 | PI 601009 |