Mostrar el registro sencillo del ítem
El recurso suelo; un análisis de las funciones, capacidad de uso e indicadores de calidad
dc.contributor | Universidad de los Llanos | es-ES |
dc.creator | Trujillo-González, Juan Manuel | |
dc.creator | Mahecha, Juan David | |
dc.creator | Torres-Mora, Marco | |
dc.date | 2018-07-05 | |
dc.date.accessioned | 2019-11-08T21:21:21Z | |
dc.date.available | 2019-11-08T21:21:21Z | |
dc.identifier | http://hemeroteca.unad.edu.co/index.php/riaa/article/view/2095 | |
dc.identifier | 10.22490/21456453.2095 | |
dc.identifier.uri | https://repository.unad.edu.co/handle/10596/29339 | |
dc.description | Históricamente el suelo fue relacionado principalmente con la agricultura, lo que permitió cambios significativos en la producción de alimentos, además fue considerado con capacidad ilimitada para asimilar contaminantes sin causar efectos nocivos inmediatos sobre el ambiente. Sin embargo, en los últimos años se vienen replanteando los enfoques de estudio en busca de demostrar la importancia del suelo a través de reconocer sus funciones y los servicios del ecosistema. En este sentido, el propósito de este estudio fue analizar aspectos de las funciones del suelo, la capacidad de uso y los indicadores para evaluar la calidad, y con esto generar una línea base conceptual que permite tener claridad para la formulación de acciones que conlleven a la sostenibilidad de este recurso. | es-ES |
dc.format | application/pdf | |
dc.format | text/html | |
dc.language | spa | |
dc.publisher | Universidad Nacional Abierta y a Distancia, UNAD | es-ES |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/view/2095/2830 | |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/view/2095/2506 | |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/downloadSuppFile/2095/222 | |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/downloadSuppFile/2095/223 | |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/downloadSuppFile/2095/224 | |
dc.relation | http://hemeroteca.unad.edu.co/index.php/riaa/article/downloadSuppFile/2095/225 | |
dc.relation | /*ref*/Alloway, Brian J. (2013) Heavy Metals in Soils, Trace Metals and Metalloids in Soils and their Bioavailability (3ra Ed.) United Kingdom. | |
dc.relation | /*ref*/Arshad, M. A., & Martin, S. (2002). Identifying critical limits for soil quality indicators in agro-ecosystems. Agriculture, Ecosystems & Environment, 88(2), 153-160. http://dx.doi.org/10.1016/S0167-8809(01)00252-3 | |
dc.relation | /*ref*/Blum, W. E. (2003). European soil protection strategy. Journal of Soils and Sediments, 3(4), 242-242. http://dx.doi. 10.1007/BF02988670 | |
dc.relation | /*ref*/Bone, J., Head, M., Barraclough, D., Archer, M., Scheib, C., Flight, D., & Voulvoulis, N. (2010). Soil quality assessment under emerging regulatory requirements. Environment International, 36(6), 609-622. http://dx.doi.org/10.1016/j.envint.2010.04.010 | |
dc.relation | /*ref*/Bone, J., Head, M., Barraclough, D., Archer, M., Scheib, C., Flight, D., & Voulvoulis, N. (2010). Soil quality assessment under emerging regulatory requirements. Environment International, 36(6), 609-622. | |
dc.relation | /*ref*/Bouma. (2012). Hydropedology as a powerful tool for environmental policy and regulations; towards sustainable land use, management and planning. In: Lin, H. (Ed.), Hydropedology: Synergistic Integration of Soil Science and Hydrology. Academic Press, Elsevier B.V., pp. 483–512. http://dx.doi.10.1016/B978-0-12-386941-8.00015-0 | |
dc.relation | /*ref*/Brevik, E. C. (2010). Soil health and productivity. Soils, Plant Growth and Crop Production-Volume I, 106. | |
dc.relation | /*ref*/Brevik, E. C., & Sauer, T. J. (2015). The past, present, and future of soils and human health studies. Soil, 1(1), 35. | |
dc.relation | /*ref*/Brevik, E. C., Cerdà, A., Mataix-Solera, J., Pereg, L., Quinton, J. N., Six, J., & Van Oost, K. (2015). The interdisciplinary nature of SOIL. Soil, 1(1), 117. | |
dc.relation | /*ref*/Bridges, E. M., & Catizzone, M. (1996). Soil science in a holistic framework: discussion of an improved integrated approach. Geoderma, 71(3), 275-287. | |
dc.relation | /*ref*/Burger, J. A., & Kelting, D. L. (1999). Using soil quality indicators to assess forest stand management. Forest Ecology and Management, 122(1), 155-166. | |
dc.relation | /*ref*/Cardoso, E.J.B.N., Vasconcellos, R.L.F., Bini, D., Miyauchi, M.Y.H., Santos, A.C., Alves, P.R.L.A.,de Paula, A.M., Nakatani, A.S., Pereira, J.M. & Nogueira, M.A., (2013).Soil health: lookingfor suitable indicators. What should be considered to assess the effects of use andmanagement on soil health? Sci. Agric. 70, 274–289. | |
dc.relation | /*ref*/Cherubin, M. R., Karlen, D. L., Cerri, C. E., Franco, A. L., Tormena, C. A., Davies, C. A., & Cerri, C. C. (2016). Soil Quality Indexing Strategies for Evaluating Sugarcane Expansion in Brazil. PloS one, 11(3), e0150860. | |
dc.relation | /*ref*/Churchman, G. J. (2010). The philosophical status of soil science. Geoderma, 157(3), 214-221. | |
dc.relation | /*ref*/Commission of the European Communities (CEC). (2006). Communication from the Commission to the Council, the European Parliament, the European Economic and Social Committee and the Committee of the Regions. Thematic Strategy for Soil Protection.COM 231 Final, Brussels. | |
dc.relation | /*ref*/Daily, G. (1997). Nature's services: societal dependence on natural ecosystems. Island Press. | |
dc.relation | /*ref*/Doran, J. W. (2002). Soil health and global sustainability: translating science into practice. Agriculture, ecosystems & environment, 88(2), 119-127. | |
dc.relation | /*ref*/Doran, J. W., & Zeiss, M. R. (2000). Soil health and sustainability: managing the biotic component of soil quality. Applied Soil Ecology, 15(1), 3-11. | |
dc.relation | /*ref*/Doran, J. W., Safley, M., Pankhurst, C., Doube, B. M., & Gupta, V. V. S. R. (1997). Defining and assessing soil health and sustainable productivity. Biological indicators of soil health., 1-28. | |
dc.relation | /*ref*/Doran, J.W. and T.B. & Parkin. (1994). Defining and assessing soil quality. In J.W. Doran, D. C. Coleman, D.F. Bezdicek and B.A. Stewart, eds. Defining Soil Quality for a Sustainable Environment. SSSA, Inc., Madison, Wisconsin, USA | |
dc.relation | /*ref*/Duval, M. E., Galantini, J. A., Iglesias, J. O., Canelo, S., Martinez, J. M., & Wall, L. (2013). Analysis of organic fractions as indicators of soil quality under natural and cultivated systems. Soil and Tillage Research, 131, 11-19. | |
dc.relation | /*ref*/FAO. (1976). A framework for land evaluation. Soils Bulletin 32. Food and Agriculture Organization of the United Nations, Rome, Italy. | |
dc.relation | /*ref*/Gil-Sotres, F., Trasar-Cepeda, C., Leirós, M. C., & Seoane, S. (2005). Different approaches to evaluating soil quality using biochemical properties. Soil Biology and Biochemistry, 37(5), 877-887 | |
dc.relation | /*ref*/Greenland, D. J. (1991). The contributions of soil science to society-past, present, and future. Soil Science, 151(1), 19-23. | |
dc.relation | /*ref*/Gutiérrez, C., Fernández, C., Escuer, M., Campos-Herrera, R., Rodríguez, M. E. B., Carbonell, G., & Martín, J. A. R. (2016). Effect of soil properties, heavy metals and emerging contaminants in the soil nematodes diversity. Environmental Pollution, 213, 184-194. | |
dc.relation | /*ref*/Harris, R. F., Karlen, D. L., Mulla, D. J., Doran, J. W., & Jones, A. J. (1996). A conceptual framework for assessment and management of soil quality and health. Methods for assessing soil quality., 61-82. | |
dc.relation | /*ref*/Hartemink, A. E., & McBratney, A. (2008). A soil science renaissance. Geoderma, 148(2), 123-129. | |
dc.relation | /*ref*/Herrick, J. E. 2000. Soil quality: an indicator of sustainable land management?. Applied Soil Ecology, 15(1), 75-83. | |
dc.relation | /*ref*/Instituto de Hidrología, Meteorología y Estudios Ambientales –IDEAM. (2016). Monitoreo y seguimiento del estado de la calidad de los suelos. Recuperado de: http://www.ideam.gov.co/web/ecosistemas/monitoreo-seguimiento-estado-calidad-suelos Consultado en Marzo 2016. | |
dc.relation | /*ref*/Jamioy-Orozco, David, D., Menjivar Flores, J. C., & Rubiano Sanabria, Y. (2015). Chemical soil quality indicators in productive systems of Colombian Piedmont Eastern Plains. Acta Agronómica, 64(4), 302-307. | |
dc.relation | /*ref*/Jenny, H. (1994). Factors of soil formation: a system of quantitative pedology. Courier Corporation. | |
dc.relation | /*ref*/Karlen, D. L., Andrews, S. S., & Doran, J. W. (2001). Soil quality: current concepts and applications. Advances in agronomy, 74, 1-40. | |
dc.relation | /*ref*/Karlen, D. L., Mausbach, M. J., Doran, J. W., Cline, R. G., Harris, R. F., & Schuman, G. E. (1997). Soil quality: a concept, definition, and framework for evaluation (a guest editorial). Soil Science Society of America Journal, 61(1), 4-10. | |
dc.relation | /*ref*/Keesstra, S. D., Quinton, J. N., van der Putten, W. H., Bardgett, R. D., & Fresco, L. O. (2016). The significance of soils and soil science towards realization of the United Nations Sustainable Development Goals. Soil, 2(2), 111. | |
dc.relation | /*ref*/Lal, R. 2010. Managing soils and ecosystems for mitigating anthropogenic carbon emissions and advancing global food security. BioScience, 60(9), 708-721. | |
dc.relation | /*ref*/Larson, W.E. & F.J. Pierce. (1991). Conservation and enhancement of soil quality. Evaluation of Sustainable Land Management in the Developing World, International Board for Soil Research and Management, Bangkok, Thailand | |
dc.relation | /*ref*/MADS. (2016). Política para la Gestión Sostenible del Suelo. Ministerio de Ambiente y Desarrollo Sostenible. Bogotá, D.C.: Colombia., 94 p | |
dc.relation | /*ref*/Mahecha-Pulido, J.D., Trujillo-González, J.M., & Torres-Mora, M.A. (2015). Contenido de metales pesados en suelos agrícolas de la región del Ariari, Departamento del Meta. Orinoquia, 19(1), 118-122. http://dx.doi.org/10.22579/20112629.345 | |
dc.relation | /*ref*/Malagón-Castro, D. (1998). El recurso suelo en Colombia: Inventario y problemática. Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales, 22(82), 13-52. | |
dc.relation | /*ref*/Mataix-Solera, J., Guerrero, C., García-Orenes, F., Bárcenas, G. M., & Torres, M. P. (2009). Forest fire effects on soil microbiology. Fire effects on soils and restoration strategies, 5, 133-175. | |
dc.relation | /*ref*/McBratney, A., Field, D. J., & Koch, A. (2014). The dimensions of soil security. Geoderma, 213, 203-213. | |
dc.relation | /*ref*/Millennium Ecosystem Assessment: Ecosystems and HumanWell- being: Synthesis, 2005. Island Press,Washington, DC, 2005. | |
dc.relation | /*ref*/Molano, J. (1998). Biogeografía de la Orinoquia colombiana. Universidad Nacional de Colombia. Colombia | |
dc.relation | /*ref*/Rippstein, G., Escobar, G., & Motta, F. M. (2001). Agroecología y biodiversidad de las sabanas en los Llanos Orientales de Colombia (No. 322). Ciat. | |
dc.relation | /*ref*/Rossiter, D. G. (1996). A theoretical framework for land evaluation. Geoderma, 72(3), 165-190. | |
dc.relation | /*ref*/Salomé, C., Coll, P., Lardo, E., Metay, A., Villenave, C., Marsden, C., ... & Le Cadre, E. (2016). The soil quality concept as a framework to assess management practices in vulnerable agroecosystems: A case study in Mediterranean vineyards. Ecological Indicators, 61, 456-465. | |
dc.relation | /*ref*/Salome, C., Coll, P., Lardo, E., Villenave, C., Blanchart, E., Hinsinger, P., Marsden, C., Le Cadre, E., (2014). Relevance of use-invariant soil properties to assess soil quality of vulnerable ecosystems: the case of Mediterranean vineyards. Ecol. Indic. 43, 83–93. | |
dc.relation | /*ref*/Sarmiento, G. (1994). Sabanas naturales, génesis y ecología. Sabanas Naturales de Colombia. Cali: Banco de Occidente, 17-56. | |
dc.relation | /*ref*/Seybold, C. A., Mausbach, M. J., Karlen, D. L., & Rogers, H. H. (1997). Quantification of soil quality. Soil processes and the carbon cycle, 387-404. | |
dc.relation | /*ref*/Tinker, P. B. (1985). Soil science in a changing world*. Journal of soil science, 36(1), 1-8. | |
dc.relation | /*ref*/Trujillo-González, J.M., Mahecha-Pulido, J.D., Torres-Mora, M.A., Brevik, E.C., Keesstra, S.D. & Jiménez-Ballesta, R. (2017). Impact of Potentially Contaminated River Water on Agricultural Irrigated Soils in an Equatorial Climate. Agriculture, 7(7), 52; doi:10.3390/agriculture7070052 | |
dc.relation | /*ref*/Zornoza, R., Acosta, J. A., Bastida, F., Domínguez, S. G., Toledo, D. M., & Faz, A. (2015). Identification of sensitive indicators to assess the interrelationship between soil quality, management practices and human health. Soil, 1(1), 173. | |
dc.rights | Copyright (c) 2018 Revista de Investigación Agraria y Ambiental | es-ES |
dc.rights | http://creativecommons.org/licenses/by-nc-sa/4.0 | es-ES |
dc.source | Revista de Investigación Agraria y Ambiental; Vol. 9, Núm. 2 (2018); 31 - 38 | en-US |
dc.source | Revista de Investigación Agraria y Ambiental; Vol. 9, Núm. 2 (2018); 31 - 38 | es-ES |
dc.source | 2145-6453 | |
dc.source | 2145-6097 | |
dc.subject | Degradación; Funciones del suelo, Índice d; calidad de suelo; Servicios ecosistémicos | es-ES |
dc.title | El recurso suelo; un análisis de las funciones, capacidad de uso e indicadores de calidad | es-ES |
dc.type | info:eu-repo/semantics/article | |
dc.type | info:eu-repo/semantics/publishedVersion | |
dc.type | Área Agrícola | es-ES |
Ficheros en el ítem
Ficheros | Tamaño | Formato | Ver |
---|---|---|---|
No hay ficheros asociados a este ítem. |
Este ítem aparece en la(s) siguiente(s) colección(ones)
-
Revista RIAA [1073]