Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground
The application of geophysical detection techniques to mapping the underground of agricultural and forest fields has accelerated in recent years. Geophysical imaging provides an alternative or complement to traditional methods of collecting subsurface variables over time and space. Where previously...
| Hauptverfasser: | , |
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| Format: | Online |
| Sprache: | spa |
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Instituto de Ecología, A.C.
2021
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| Online Zugang: | https://myb.ojs.inecol.mx/index.php/myb/article/view/2172 |
| _version_ | 1799769415451934720 |
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| author | Rodríguez-Robles, Ulises Arredondo Moreno, J. Tulio |
| author_facet | Rodríguez-Robles, Ulises Arredondo Moreno, J. Tulio |
| author_sort | Rodríguez-Robles, Ulises |
| collection | MYB |
| description | The application of geophysical detection techniques to mapping the underground of agricultural and forest fields has accelerated in recent years. Geophysical imaging provides an alternative or complement to traditional methods of collecting subsurface variables over time and space. Where previously the standard was soil sampling and laboratory analysis to assess the condition of a soil for its various purposes, in situ detection techniques are proving to be a very effective way to assess variation in soil / underground properties. This work is a review of the state of the art related to the most applied geophysical techniques in the detection of underground components and processes that can influence the productivity and functioning of forest ecosystems and agricultural systems. This review highlights the opportunities, applications and challenges presented by geophysical images (radargrams and tomograms) in the multidisciplinary fields of Biogeosciences. Both geophysical research techniques are very attractive to the scientific community, allowing the underground to be accurately mapped, plot rooting, monitor water content, identify sales movement and agrochemicals. Agronomists, foresters, and the scientific community would benefit from adopting these minimally invasive, scalable imaging technologies to the underground and advance our collective research. |
| format | Online |
| id | oai:oai.myb.ojs.inecol.mx:article-2172 |
| institution | Madera y Bosques |
| language | spa |
| publishDate | 2021 |
| publisher | Instituto de Ecología, A.C. |
| record_format | ojs |
| spelling | oai:oai.myb.ojs.inecol.mx:article-21722022-11-29T22:29:17Z Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground Geofísica para la prospección agrícola y forestal: guía para interpretar imágenes del subsuelo Rodríguez-Robles, Ulises Arredondo Moreno, J. Tulio mapeo de raíces métodos no-invasivos radargramas sistemas semi-áridos técnicas geofísicas tomogramas root mapping non-invasive methods radargrams semi-arid systems geophysical techniques tomograms The application of geophysical detection techniques to mapping the underground of agricultural and forest fields has accelerated in recent years. Geophysical imaging provides an alternative or complement to traditional methods of collecting subsurface variables over time and space. Where previously the standard was soil sampling and laboratory analysis to assess the condition of a soil for its various purposes, in situ detection techniques are proving to be a very effective way to assess variation in soil / underground properties. This work is a review of the state of the art related to the most applied geophysical techniques in the detection of underground components and processes that can influence the productivity and functioning of forest ecosystems and agricultural systems. This review highlights the opportunities, applications and challenges presented by geophysical images (radargrams and tomograms) in the multidisciplinary fields of Biogeosciences. Both geophysical research techniques are very attractive to the scientific community, allowing the underground to be accurately mapped, plot rooting, monitor water content, identify sales movement and agrochemicals. Agronomists, foresters, and the scientific community would benefit from adopting these minimally invasive, scalable imaging technologies to the underground and advance our collective research. La aplicación de técnicas de detección geofísica para mapear el subsuelo de campos agrícolas y forestales se ha acelerado en los últimos años. La obtención de imágenes geofísicas proporciona una alternativa o complemento a los métodos tradicionales para recopilar variables subsuperficiales a lo largo del tiempo y el espacio. Donde anteriormente el estándar era el muestreo de suelos y el análisis de laboratorio para evaluar la condición de un suelo para diversos propósitos, las técnicas de detección in situ están demostrando ser una forma muy efectiva para evaluar la variación de las propiedades del suelo / subsuelo. Este trabajo es una revisión del estado del arte relacionada con las técnicas geofísicas más aplicadas en la detección de las características y propiedades del subsuelo que influyen en la productividad y el funcionamiento de los ecosistemas forestales y sistemas agrícolas. En esta revisión se destacan las oportunidades, aplicaciones y retos que presentan las imágenes geofísicas (radargramas y tomogramas) en los campos multidisciplinarios de las biogeociencias. Las dos técnicas de investigación geofísica son muy atractivas para la comunidad científica, pues permiten mapear con precisión el subsuelo, graficar enraizamiento y monitorear contenidos de agua, identificar movimiento de sales y agroquímicos. Los agrónomos, silvicultores y la comunidad científica, podrían beneficiarse de la adopción de estas tecnologías de imágenes escalables y mínimamente invasivas para explorar el subsuelo y avanzar en nuestra investigación colectiva. Instituto de Ecología, A.C. 2021-07-09 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Revisión bibliográfica evaluada por pares application/pdf text/xml https://myb.ojs.inecol.mx/index.php/myb/article/view/2172 10.21829/myb.2021.2712172 Madera y Bosques; Vol. 27 No. 1 (2021): Spring 2021 Madera y Bosques; Vol. 27 Núm. 1 (2021): Primavera 2021 2448-7597 1405-0471 spa https://myb.ojs.inecol.mx/index.php/myb/article/view/2172/2228 https://myb.ojs.inecol.mx/index.php/myb/article/view/2172/2242 10.21829/myb.2017.233321 10.21829/myb.2018.243358 Derechos de autor 2021 Madera y Bosques http://creativecommons.org/licenses/by-nc-sa/4.0 |
| spellingShingle | Rodríguez-Robles, Ulises Arredondo Moreno, J. Tulio Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title | Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title_full | Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title_fullStr | Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title_full_unstemmed | Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title_short | Geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| title_sort | geophysics for agricultural and forestry surveying: guide to interpreting images of the underground |
| url | https://myb.ojs.inecol.mx/index.php/myb/article/view/2172 |
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