Digital map of chemical fertility of soils of continental Ecuador
Digital tools are transforming and accelerating innovation in agriculture. Digital soil maps are important tools for better-informed decision-making supported by data and science. The maps permit addressing site-specific strategies needed by fertile and healthy soils to minimize the impacts of land...
| Main Authors: | , , , , |
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| Format: | Conjunto de datos |
| Language: | Español |
| Published: |
2023
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/130558 |
| _version_ | 1855514577638260736 |
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| author | Martin López, Javier Mauricio Jimenez, Wilmer Calahorrano, Oscar Caicedo Flaker, Juan D. Silva, Mayesse Aparecida da |
| author_browse | Caicedo Flaker, Juan D. Calahorrano, Oscar Jimenez, Wilmer Martin López, Javier Mauricio Silva, Mayesse Aparecida da |
| author_facet | Martin López, Javier Mauricio Jimenez, Wilmer Calahorrano, Oscar Caicedo Flaker, Juan D. Silva, Mayesse Aparecida da |
| author_sort | Martin López, Javier Mauricio |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Digital tools are transforming and accelerating innovation in agriculture. Digital soil maps are important tools for better-informed decision-making supported by data and science. The maps permit addressing site-specific strategies needed by fertile and healthy soils to minimize the impacts of land use change, increase productivity without generating degradation and deforestation, and to deal with climate challenges..
To contribute to the diagnosis, monitoring, and control of soil degradation in Ecuador, the digital Map of Chemical Fertility of Soils of continental Ecuador and continuous soil properties maps of organic matter (%), pH (Un), available phosphorus (mg/kg), available potassium (cmol/kg), cation exchange capacity (cmol/kg), base sum (cmol/kg), base saturation (%), electrical conductivity (dS/m), clay (%) and sand (%) were developed by using digital soil mapping approaches, 13,552 soil profile data, and 46 environmental covariables..
The maps generated in this service are also available, the Geoportal of the Ministry of Agriculture and Livestock of Ecuador. |
| format | Conjunto de datos |
| id | CGSpace130558 |
| institution | CGIAR Consortium |
| language | Español |
| publishDate | 2023 |
| publishDateRange | 2023 |
| publishDateSort | 2023 |
| record_format | dspace |
| spelling | CGSpace1305582024-04-25T06:00:18Z Digital map of chemical fertility of soils of continental Ecuador Martin López, Javier Mauricio Jimenez, Wilmer Calahorrano, Oscar Caicedo Flaker, Juan D. Silva, Mayesse Aparecida da soil soil fertility soil degradatation agricultural sciences ecosystem services food security land degradation ecuador soil degradation organic matter ph electrical conductivity cation exchange capacity base saturation Digital tools are transforming and accelerating innovation in agriculture. Digital soil maps are important tools for better-informed decision-making supported by data and science. The maps permit addressing site-specific strategies needed by fertile and healthy soils to minimize the impacts of land use change, increase productivity without generating degradation and deforestation, and to deal with climate challenges.. To contribute to the diagnosis, monitoring, and control of soil degradation in Ecuador, the digital Map of Chemical Fertility of Soils of continental Ecuador and continuous soil properties maps of organic matter (%), pH (Un), available phosphorus (mg/kg), available potassium (cmol/kg), cation exchange capacity (cmol/kg), base sum (cmol/kg), base saturation (%), electrical conductivity (dS/m), clay (%) and sand (%) were developed by using digital soil mapping approaches, 13,552 soil profile data, and 46 environmental covariables.. The maps generated in this service are also available, the Geoportal of the Ministry of Agriculture and Livestock of Ecuador. 2023-03 2023-05-31T19:03:01Z 2023-05-31T19:03:01Z Dataset https://hdl.handle.net/10568/130558 es Open Access Martín-López, J.M.; Jimenez, W.; Calahorrano, O.; Caicedo, Flaker, J.D.; Mayesse, Da Silva, (2023) Digital map of chemical fertility of soils of continental Ecuador. 10.7910/DVN/PHIQXV, Harvard Dataverse, V1, |
| spellingShingle | soil soil fertility soil degradatation agricultural sciences ecosystem services food security land degradation ecuador soil degradation organic matter ph electrical conductivity cation exchange capacity base saturation Martin López, Javier Mauricio Jimenez, Wilmer Calahorrano, Oscar Caicedo Flaker, Juan D. Silva, Mayesse Aparecida da Digital map of chemical fertility of soils of continental Ecuador |
| title | Digital map of chemical fertility of soils of continental Ecuador |
| title_full | Digital map of chemical fertility of soils of continental Ecuador |
| title_fullStr | Digital map of chemical fertility of soils of continental Ecuador |
| title_full_unstemmed | Digital map of chemical fertility of soils of continental Ecuador |
| title_short | Digital map of chemical fertility of soils of continental Ecuador |
| title_sort | digital map of chemical fertility of soils of continental ecuador |
| topic | soil soil fertility soil degradatation agricultural sciences ecosystem services food security land degradation ecuador soil degradation organic matter ph electrical conductivity cation exchange capacity base saturation |
| url | https://hdl.handle.net/10568/130558 |
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