Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero
An attempt was made to characterize the nutritional status of the principal “latosols” of Costa Rica using the missing element technique In the greenhouse as a quick biological method oss analysis. In general these “latosols” gave the highest response to P and N, medium response to K, S and minor e...
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| Formato: | Artículo |
| Lenguaje: | Español |
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Instituto Interamericano de Cooperación para la Agricultura (IICA)
2025
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| Acceso en línea: | https://repositorio.catie.ac.cr/handle/11554/13380 |
| _version_ | 1855489644745981952 |
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| author | Martini, J.A. |
| author_browse | Martini, J.A. |
| author_facet | Martini, J.A. |
| author_sort | Martini, J.A. |
| collection | Repositorio CATIE |
| description | An attempt was made to characterize the nutritional status of the principal “latosols” of Costa Rica using the missing element technique In the greenhouse as a quick biological method oss analysis.
In general these “latosols” gave the highest response to P and N, medium response to K, S and minor elements and least to Mg and Ca.
When the results are analyzed by horizon it is evident that while soils and subsoils are always deficient in P and N, surface soils also tend to respond better to S and minor elements and least to Ca and Mg and subsoils respond more to K and Ca and least to S and minor elements. This suggests that both soil depth and crop root penetration may determine to some extent the nutritional deficiencies of a particular soil. In general surface soils responded less to fertilization than subsoils.
The effect of climate, parent material and degree of weathering also became evident. Thus, the “latosols” from the Atlantic side with higher rainfall and no definite dry season were less deficient in N but more deficient in K and Mg. The soils from the North Pacific side with less rainfall and longest dry season and developed on calcareous materials were most deficient in N and least deficient in Ca, Mg and minor elements. The more weathered soils from the South Pacific with moderate rainfall and developed on old alluvial terraces were most deficient in Ca, S and minor elements.
Soil analytical results were correlated with plan top dry weights and optimum soil nutrient levels were determined from the first derivative of the quadratic regression equation. Optimum levels for tomato plant growth were: N = 0,5 and 0,6 per cent; K = 0,6 and 0,4 me/100 g; Ca = 5,0 and 7,0 me/100 g; and Mg = 3,5 and 4,5 me/100 g for soils and subsoils, respectively.
It was felt that this greenhouse biological method for assessing soil fertility gave an adequate preliminary characterization of the soil fertility status since both plant top dry weights and visual deficiency symptoms presented by tomato as indicator plant correlated well with soil analysis |
| format | Artículo |
| id | RepoCATIE13380 |
| institution | Centro Agronómico Tropical de Investigación y Enseñanza |
| language | Español |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | Instituto Interamericano de Cooperación para la Agricultura (IICA) |
| publisherStr | Instituto Interamericano de Cooperación para la Agricultura (IICA) |
| record_format | dspace |
| spelling | RepoCATIE133802025-07-27T00:25:30Z Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero Martini, J.A. Caracterización||characterization||caracterização||caractérisation Estado nutricional||nutritional status||estado da nutrição||état nutritionnel Invernadero||greenhouses||estufa||serre Costa Rica||Costa Rica||Costa Rica||Costa Rica Sede Central An attempt was made to characterize the nutritional status of the principal “latosols” of Costa Rica using the missing element technique In the greenhouse as a quick biological method oss analysis. In general these “latosols” gave the highest response to P and N, medium response to K, S and minor elements and least to Mg and Ca. When the results are analyzed by horizon it is evident that while soils and subsoils are always deficient in P and N, surface soils also tend to respond better to S and minor elements and least to Ca and Mg and subsoils respond more to K and Ca and least to S and minor elements. This suggests that both soil depth and crop root penetration may determine to some extent the nutritional deficiencies of a particular soil. In general surface soils responded less to fertilization than subsoils. The effect of climate, parent material and degree of weathering also became evident. Thus, the “latosols” from the Atlantic side with higher rainfall and no definite dry season were less deficient in N but more deficient in K and Mg. The soils from the North Pacific side with less rainfall and longest dry season and developed on calcareous materials were most deficient in N and least deficient in Ca, Mg and minor elements. The more weathered soils from the South Pacific with moderate rainfall and developed on old alluvial terraces were most deficient in Ca, S and minor elements. Soil analytical results were correlated with plan top dry weights and optimum soil nutrient levels were determined from the first derivative of the quadratic regression equation. Optimum levels for tomato plant growth were: N = 0,5 and 0,6 per cent; K = 0,6 and 0,4 me/100 g; Ca = 5,0 and 7,0 me/100 g; and Mg = 3,5 and 4,5 me/100 g for soils and subsoils, respectively. It was felt that this greenhouse biological method for assessing soil fertility gave an adequate preliminary characterization of the soil fertility status since both plant top dry weights and visual deficiency symptoms presented by tomato as indicator plant correlated well with soil analysis 2025-07-25T13:32:08Z 2025-07-25T13:32:08Z 1969-07 Artículo https://repositorio.catie.ac.cr/handle/11554/13380 openAccess es Turrialba; Vol.19, no. 3 15 páginas application/pdf Instituto Interamericano de Cooperación para la Agricultura (IICA) |
| spellingShingle | Caracterización||characterization||caracterização||caractérisation Estado nutricional||nutritional status||estado da nutrição||état nutritionnel Invernadero||greenhouses||estufa||serre Costa Rica||Costa Rica||Costa Rica||Costa Rica Sede Central Martini, J.A. Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title | Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title_full | Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title_fullStr | Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title_full_unstemmed | Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title_short | Caracterización del estado nutricional de los principales "latosoles" de Costa Rica, mediante la técnica del elemento faltante en el invernadero |
| title_sort | caracterizacion del estado nutricional de los principales latosoles de costa rica mediante la tecnica del elemento faltante en el invernadero |
| topic | Caracterización||characterization||caracterização||caractérisation Estado nutricional||nutritional status||estado da nutrição||état nutritionnel Invernadero||greenhouses||estufa||serre Costa Rica||Costa Rica||Costa Rica||Costa Rica Sede Central |
| url | https://repositorio.catie.ac.cr/handle/11554/13380 |
| work_keys_str_mv | AT martinija caracterizaciondelestadonutricionaldelosprincipaleslatosolesdecostaricamediantelatecnicadelelementofaltanteenelinvernadero |