Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP).
Plant breeding consists in the creation and selection of new genotypes. This involves not only keeping records across generations and environments but also accommodating data of increasing resolution on genotypes, phenotypes, and growth environments. Some such high-resolution characterization method...
| Main Authors: | , , , , , , , , |
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| Format: | Poster |
| Language: | Inglés |
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2014
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/68638 |
| _version_ | 1855539171566813184 |
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| author | Simon, R. Córdova, R. Hualla, V. Salas, E. Tejada, S.T. Flores, M.R. Polreich, S. Haan, Stef de Bonierbale, Merideth W. |
| author_browse | Bonierbale, Merideth W. Córdova, R. Flores, M.R. Haan, Stef de Hualla, V. Polreich, S. Salas, E. Simon, R. Tejada, S.T. |
| author_facet | Simon, R. Córdova, R. Hualla, V. Salas, E. Tejada, S.T. Flores, M.R. Polreich, S. Haan, Stef de Bonierbale, Merideth W. |
| author_sort | Simon, R. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Plant breeding consists in the creation and selection of new genotypes. This involves not only keeping records across generations and environments but also accommodating data of increasing resolution on genotypes, phenotypes, and growth environments. Some such high-resolution characterization methods are Near-Infrared spectroscopy, metabolomics, next-generation sequencing and high resolution spatial-temporal-spectral photos. A first need is the integration and retrieval of this information. Such an integrated and complete set can be described in breeder’s terms in six dimensions: a plant phenotype (P) is the result of a genotypes (G) interaction with its environment (E) given certain field management (M) practices. In addition, data on the administrative (A) context should be kept including staff involved, objectives and, if applicable, projects and donors; as well as on data documentation standards (S) like ontologies. The latter play an important part in exchanging and aggregating information. Here we describe the adoption of the ‘Biomart’ database for this purpose. While Biomart was developed originally to accommodate gene and sequencing data at a genomic scale we describe here how it can be used for breeding program data. This is being illustrated by current data warehousing in the potato breeding program at the International Potato Center (CIP). Particularly, genotype and phenotype can be transparently combined for further analysis in the decision process for the selection of new genotypes. |
| format | Poster |
| id | CGSpace68638 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2014 |
| publishDateRange | 2014 |
| publishDateSort | 2014 |
| record_format | dspace |
| spelling | CGSpace686382025-11-06T14:13:32Z Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). Simon, R. Córdova, R. Hualla, V. Salas, E. Tejada, S.T. Flores, M.R. Polreich, S. Haan, Stef de Bonierbale, Merideth W. phenotypes environment genotypes breeding Plant breeding consists in the creation and selection of new genotypes. This involves not only keeping records across generations and environments but also accommodating data of increasing resolution on genotypes, phenotypes, and growth environments. Some such high-resolution characterization methods are Near-Infrared spectroscopy, metabolomics, next-generation sequencing and high resolution spatial-temporal-spectral photos. A first need is the integration and retrieval of this information. Such an integrated and complete set can be described in breeder’s terms in six dimensions: a plant phenotype (P) is the result of a genotypes (G) interaction with its environment (E) given certain field management (M) practices. In addition, data on the administrative (A) context should be kept including staff involved, objectives and, if applicable, projects and donors; as well as on data documentation standards (S) like ontologies. The latter play an important part in exchanging and aggregating information. Here we describe the adoption of the ‘Biomart’ database for this purpose. While Biomart was developed originally to accommodate gene and sequencing data at a genomic scale we describe here how it can be used for breeding program data. This is being illustrated by current data warehousing in the potato breeding program at the International Potato Center (CIP). Particularly, genotype and phenotype can be transparently combined for further analysis in the decision process for the selection of new genotypes. 2014-04-06 2015-10-22T14:51:53Z 2015-10-22T14:51:53Z Poster https://hdl.handle.net/10568/68638 en Open Access application/pdf Simon, R.; Cordova, R.; Hualla, V.; Salas, E.; Tejada, S.T.; Flores, M.R.; Pollreich, S.; Haan, S. de.; Bonierbale, M. 2014. Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). 7. International Biocuration Conference: Bridging the gap between genomes and phenomes. Toronto (Canada). 6-9 Apr 2014. 1 p. |
| spellingShingle | phenotypes environment genotypes breeding Simon, R. Córdova, R. Hualla, V. Salas, E. Tejada, S.T. Flores, M.R. Polreich, S. Haan, Stef de Bonierbale, Merideth W. Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title | Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title_full | Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title_fullStr | Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title_full_unstemmed | Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title_short | Integrating and sharing accession-level and omics-size genotype, phenotype and environmental data: Experiences at the International Potato Center (CIP). |
| title_sort | integrating and sharing accession level and omics size genotype phenotype and environmental data experiences at the international potato center cip |
| topic | phenotypes environment genotypes breeding |
| url | https://hdl.handle.net/10568/68638 |
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