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Abstract
En el departamento del Valle del Cauca, la distribución de Bosque Seco Tropical (BsT) se ha asociado al valle geográfico del río Cauca ubicado en la zona plana. Actualmente en esta zona, su cobertura se ha reducido a pocos relictos que se encuentran bajo alguna figura de conservación y mantienen áreas representativas de las formaciones vegetales típicas de este bioma. Este trabajo se enfocó en el reconocimiento de la distribución espacial de formaciones vegetales de BsT en el departamento del Valle del Cauca. Se empleó información cartográfica secundaria para reconocer los biomas, ecosistemas y usos del suelo del área de estudio y en zonas adyacentes del piedemonte y montañas. Un modelo digital de elevaciones fue utilizado para realizar análisis altitudinales. En un sistema de información geográfico se aplicaron técnicas de geoprocesamiento y análisis geoespacial entre la información cartográfica y satelital. Los resultados evidencian que pese al avanzado deterioro de las coberturas de bosque seco en la zona plana, alrededor del 80 % se localiza en ecosistemas de montaña, específicamente en zonas de transición hacia bosques húmedos. A futuro, el potencial de estas áreas deberá evaluarse en para ser incluidas estrategias de conservación y restauración del bosque seco así como en el diseño de procesos adaptativos frente al cambio climático.
Spatial Distribution of Tropical Dry Forest in Valle Del Cauca, Colombia
The distribution of tropical dry forest in the department of Valle del Cauca, has been associated with the geographic Cauca valley. Currently in this area, dry forest coverages has been reduced to a few relicts, which are found under some protection figure and also hold representative areas of the typical vegetation of this biome. This work is focused on the spatial distribution of BsT vegetation formations in the Department of Valle del Cauca. Secondary cartographic information was used to recognize biomes, ecosystems and land uses in the study area and over adjacent areas of the piedmont and mountains. A digital elevation model was used to perform altitudinal analysis. The results showed that despite the high human disturbance of dry forest in the flat area, about 80 % is located in montain ecosystems, specially on transition zones towards humid forests. In the future, the potential of these areas to be included in dry forest conservation and restoration strategies and also adaptive mechanisms in facing climate change should be evaluated.
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