ABSTRACT
RESUMEN El cambio en el uso del suelo y el fuego como mecanismo utilizado para el mismo han creado perturbaciones ecológicas a grandes escalas, como lo son la fragmentación y aislamiento de ecosistemas importantes en paisajes tropicales. En el presente estudio, analizamos los cambios de uso del suelo entre los años 2012-2016 y los eventos de fuego entre los años 2016-2018, para identificar la dinámica de cambio espaciotemporal en la Serranía de la Lindosa, Guaviare, a partir de información oficial y sensores remotos. Para 2016 la cobertura boscosa se redujo en un 17 % correspondiendo con el aumento de vegetación secundaria y pastizales en el área. Los focos de fuego detectados estuvieron concentrados en el noroeste y sureste de la serranía, puntos coincidentes en zonas de bosque primario y zonas de pastizal consolidadas. Estos resultados indican que existe un proceso activo de deforestación en la serranía, que fragmenta la matriz boscosa dejando parches de bosque aislados, lo cual tendría repercusiones sobre la biodiversidad allí presente. Asimismo, la sinergia entre dicho proceso y el uso de fuego se muestra como amenaza constante, a diferentes escalas, sobre los diferentes ecosistemas. Esta información se presenta como herramienta para elaborar estrategias puntuales para evitar mayores repercusiones negativas sobre la serranía, que actualmente se encuentra en estado vulnerable.
ABSTRACT The change in land use and fire as a mechanism used for this change, have created ecological disturbances at large scales, such as the fragmentation and isolation of essential ecosystems within tropical landscapes. In the present study, we analyze the land-use changes along 2012-2016 and fire events between 2016-2018, to identify the dynamics of spatial-temporal change in the Serranía La Lindosa, Guaviare using official information and remote sensors. Forest cover was reduced by 17 %, during 2012-2016, corresponding to an increase in secondary vegetation and pastures in the area. The fire-hotspots detected were concentrated on the northwest and southeast of the mountain range, coinciding with areas of primary forest and consolidated pasture areas. These results show that there is an active process of deforestation in La Lindosa, leaving a fragmented matrix and isolated forest patches, which would have repercussions on the local biodiversity. Besides, the synergy between this process and the use of fire, represent a constant threat, at different scales, on the different ecosystems. This information is presented as a resource to elaborate punctual strategies in order to avoid greater negative repercussions on the mountain range area, which is currently in a vulnerable state.
ABSTRACT
ABSTRACT An automated procedure is here presented that allows identifying and dating burned areas in Portugal using values of daily reflectance from near-infrared and middle-infrared bands, as obtained from the MODIS instrument. The algorithm detects persistent changes in monthly composites of the so-called (V,W) Burn-Sensitive Index and the day of maximum change in daily time series of W is in turn identified as the day of the burning event. The procedure is tested for 2005, the second worst fire season ever recorded in Portugal. Comparison between the obtained burned area map and the reference derived from Landsat imagery resulted in a Proportion Correct of 95.6%. Despite being applied only to the months of August and September, the algorithm is able to identify almost two-thirds of all scars that have occurred during the entire year of 2005. An assessment of the temporal accuracy of the dating procedure was also conducted, showing that 75% of estimated dates presented deviations between -5 and 5 days from dates of hotspots derived from the MODIS instrument. Information about location and date of burning events as provided by the proposed procedure may be viewed as complementary to the currently available official maps based on end-of-season Landsat imagery.