Ciencias de la Atmósfera e Hidrósfera
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Esta comunidad contiene estudios interdisciplinarios en los campos de la Atmósfera e Hidrósfera (climatología, física atmosférica, hidrología y suelos, oceanografía).
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Browsing Ciencias de la Atmósfera e Hidrósfera by Author "Alarco, Glory"
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Item Open Access Ocurrencia de incendios forestales en el Perú durante eventos El Niño(Instituto Geofísico del Perú, 2019-05) Zubieta Barragán, Ricardo; Prudencio, Fernando; Alarco, Glory; Reupo, JorgeEl objetivo principal de este estudio es documentar los incendios forestales y analizar la influencia de eventos El Niño, manifestados en cambios de la temperatura superficial del mar (TSM). Este estudio permitirá generar nuevos conocimientos acerca de posibles impactos de El Niño y asociar patrones regionales a quemas o incendios. Con esta evidencia científica se puede contribuir con el desarrollo de políticas sólidas de gestión y/o regulación para la quema de biomasa en regiones Andino-amazónicas a nivel nacional.Item Restricted Potential conditions for fire occurrence in vegetation in the Peruvian Andes(CSIRO Publishing, 2021-10-12) Zubieta Barragán, Ricardo; Prudencio, Fernando; Ccanchi, Yerson; Saavedra Huanca, Miguel; Sulca Jota, Juan Carlos; Reupo Vélez, Jorge Antonio; Alarco, GloryFire activity in the Peruvian Andes has increased significantly in recent decades, but climatic parameters associated with drought, which may indirectly contribute to the occurrence of severe forest fires, have not yet been investigated. Because fire prevention tools are scarce, strategies for deterring burning are necessary in order to reduce impacts in regions where forest fires usually result from human activity. This study explores the conditions conducive to forest fire in the Andes of Peru. Daily precipitation and temperature observed data from the PISCO gridded dataset for the 2002–2016 period were used. In addition, MODIS satellite images (MOD09A1 product) were collected to characterise Andean vegetation using spectral indices. Analysis of daily temperature and rainfall indicates that climatic parameters such as cumulative precipitation, dry-day frequency and hot-day frequency are statistically associated with conditions that could contribute to increased forest fire occurrence. Our findings suggest that a decrease in the water content of vegetation, estimated by the Global Vegetation Moisture Index during the dry period and wet period onset, can be used to identify potential conditions for forest fire occurrence. This study suggests that forest managers should consider implementing prevention strategies that include continuous monitoring of climate and vegetation parameters.