A novel strategy to discover and use climate-adapted germplasm
Between 2012 and 2015, 150 researchers, research managers, gene bank managers, extension agents, university professors and staff of non-government organizations from Bhutan, Burkina Faso, Costa Rica, Côte d’Ivoire, Guatemala, Nepal, Rwanda, Uganda, Zambia and Zimbabwe acquired new knowledge and skil...
| Main Authors: | , , , , , , , , , , , , , , |
|---|---|
| Format: | Brief |
| Language: | Inglés |
| Published: |
Bioversity International
2015
|
| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/68477 |
| _version_ | 1855533700721147904 |
|---|---|
| author | Vernooy, Ronnie Otieno, G. Bessette, Guy Fadda, Carlo Galluzzi, G. Gevel, Jeske M.J, van de Halewood, Michael López Noriega, Isabel Mathur, P.N. Mittra, S. Rudebjer, P.G. Steinke, J. Sthapit, B.R. Etten, Jacob van Zonneveld, Maarten van |
| author_browse | Bessette, Guy Etten, Jacob van Fadda, Carlo Galluzzi, G. Gevel, Jeske M.J, van de Halewood, Michael López Noriega, Isabel Mathur, P.N. Mittra, S. Otieno, G. Rudebjer, P.G. Steinke, J. Sthapit, B.R. Vernooy, Ronnie Zonneveld, Maarten van |
| author_facet | Vernooy, Ronnie Otieno, G. Bessette, Guy Fadda, Carlo Galluzzi, G. Gevel, Jeske M.J, van de Halewood, Michael López Noriega, Isabel Mathur, P.N. Mittra, S. Rudebjer, P.G. Steinke, J. Sthapit, B.R. Etten, Jacob van Zonneveld, Maarten van |
| author_sort | Vernooy, Ronnie |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Between 2012 and 2015, 150 researchers, research managers, gene bank managers, extension agents, university professors and staff of non-government organizations from Bhutan, Burkina Faso, Costa Rica, Côte d’Ivoire, Guatemala, Nepal, Rwanda, Uganda, Zambia and Zimbabwe acquired new knowledge and skills about the use of climate and crop modelling tools and data sources including the climate analogue tool introduced through the CGIAR research programme on Climate Change, Agriculture and Food Security (CCAFS). Applying these tools and data to their national context, they assessed the changing needs for national and foreign-sourced plant genetic resources for food and agriculture in the context of climate change adaptation. Research teams are now designing strategies to deploy germplasm that is better adapted to future climate changes and that could contribute to increased food security. They are integrating these strategies into organizational agenda’s that will be implemented with own resources. |
| format | Brief |
| id | CGSpace68477 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2015 |
| publishDateRange | 2015 |
| publishDateSort | 2015 |
| publisher | Bioversity International |
| publisherStr | Bioversity International |
| record_format | dspace |
| spelling | CGSpace684772025-11-05T08:24:43Z A novel strategy to discover and use climate-adapted germplasm Vernooy, Ronnie Otieno, G. Bessette, Guy Fadda, Carlo Galluzzi, G. Gevel, Jeske M.J, van de Halewood, Michael López Noriega, Isabel Mathur, P.N. Mittra, S. Rudebjer, P.G. Steinke, J. Sthapit, B.R. Etten, Jacob van Zonneveld, Maarten van climate change adaptation germplasm plant genetic resources food security data management Between 2012 and 2015, 150 researchers, research managers, gene bank managers, extension agents, university professors and staff of non-government organizations from Bhutan, Burkina Faso, Costa Rica, Côte d’Ivoire, Guatemala, Nepal, Rwanda, Uganda, Zambia and Zimbabwe acquired new knowledge and skills about the use of climate and crop modelling tools and data sources including the climate analogue tool introduced through the CGIAR research programme on Climate Change, Agriculture and Food Security (CCAFS). Applying these tools and data to their national context, they assessed the changing needs for national and foreign-sourced plant genetic resources for food and agriculture in the context of climate change adaptation. Research teams are now designing strategies to deploy germplasm that is better adapted to future climate changes and that could contribute to increased food security. They are integrating these strategies into organizational agenda’s that will be implemented with own resources. 2015 2015-10-09T12:54:25Z 2015-10-09T12:54:25Z Brief https://hdl.handle.net/10568/68477 en Open Access application/pdf Bioversity International Vernooy, R.; Otieno, G.; Bessette, G.; Fadda, C.; Galluzzi, G.; van de Gevel, J.; Halewood, M.; Lopez-Noriega, I.; Mathur, P.; Mittra, S.; Rudebjer, P.; Steinke, J.; Sthapit, B.; van Etten, J.; van Zonneveld, M. (2015) A novel strategy to discover and use climate-adapted germplasm. Bioversity International 4 p. |
| spellingShingle | climate change adaptation germplasm plant genetic resources food security data management Vernooy, Ronnie Otieno, G. Bessette, Guy Fadda, Carlo Galluzzi, G. Gevel, Jeske M.J, van de Halewood, Michael López Noriega, Isabel Mathur, P.N. Mittra, S. Rudebjer, P.G. Steinke, J. Sthapit, B.R. Etten, Jacob van Zonneveld, Maarten van A novel strategy to discover and use climate-adapted germplasm |
| title | A novel strategy to discover and use climate-adapted germplasm |
| title_full | A novel strategy to discover and use climate-adapted germplasm |
| title_fullStr | A novel strategy to discover and use climate-adapted germplasm |
| title_full_unstemmed | A novel strategy to discover and use climate-adapted germplasm |
| title_short | A novel strategy to discover and use climate-adapted germplasm |
| title_sort | novel strategy to discover and use climate adapted germplasm |
| topic | climate change adaptation germplasm plant genetic resources food security data management |
| url | https://hdl.handle.net/10568/68477 |
| work_keys_str_mv | AT vernooyronnie anovelstrategytodiscoveranduseclimateadaptedgermplasm AT otienog anovelstrategytodiscoveranduseclimateadaptedgermplasm AT bessetteguy anovelstrategytodiscoveranduseclimateadaptedgermplasm AT faddacarlo anovelstrategytodiscoveranduseclimateadaptedgermplasm AT galluzzig anovelstrategytodiscoveranduseclimateadaptedgermplasm AT geveljeskemjvande anovelstrategytodiscoveranduseclimateadaptedgermplasm AT halewoodmichael anovelstrategytodiscoveranduseclimateadaptedgermplasm AT lopeznoriegaisabel anovelstrategytodiscoveranduseclimateadaptedgermplasm AT mathurpn anovelstrategytodiscoveranduseclimateadaptedgermplasm AT mittras anovelstrategytodiscoveranduseclimateadaptedgermplasm AT rudebjerpg anovelstrategytodiscoveranduseclimateadaptedgermplasm AT steinkej anovelstrategytodiscoveranduseclimateadaptedgermplasm AT sthapitbr anovelstrategytodiscoveranduseclimateadaptedgermplasm AT ettenjacobvan anovelstrategytodiscoveranduseclimateadaptedgermplasm AT zonneveldmaartenvan anovelstrategytodiscoveranduseclimateadaptedgermplasm AT vernooyronnie novelstrategytodiscoveranduseclimateadaptedgermplasm AT otienog novelstrategytodiscoveranduseclimateadaptedgermplasm AT bessetteguy novelstrategytodiscoveranduseclimateadaptedgermplasm AT faddacarlo novelstrategytodiscoveranduseclimateadaptedgermplasm AT galluzzig novelstrategytodiscoveranduseclimateadaptedgermplasm AT geveljeskemjvande novelstrategytodiscoveranduseclimateadaptedgermplasm AT halewoodmichael novelstrategytodiscoveranduseclimateadaptedgermplasm AT lopeznoriegaisabel novelstrategytodiscoveranduseclimateadaptedgermplasm AT mathurpn novelstrategytodiscoveranduseclimateadaptedgermplasm AT mittras novelstrategytodiscoveranduseclimateadaptedgermplasm AT rudebjerpg novelstrategytodiscoveranduseclimateadaptedgermplasm AT steinkej novelstrategytodiscoveranduseclimateadaptedgermplasm AT sthapitbr novelstrategytodiscoveranduseclimateadaptedgermplasm AT ettenjacobvan novelstrategytodiscoveranduseclimateadaptedgermplasm AT zonneveldmaartenvan novelstrategytodiscoveranduseclimateadaptedgermplasm |