Este portal de ciencias de la tierra explora la geografía física de los valles aluviales fértiles (vegas) y el impacto de las variables térmicas e hídricas ("th" como abreviatura de temperatura y humedad). Analizamos la evaporación del agua en las cuencas de los ríos, la formación de microclimas húmedos en zonas áridas y la adaptación de la flora de ribera a las olas de calor veraniegas. Es un recurso académico para geógrafos e investigadores del clima, celebrando la resiliencia de los ecosistemas hídricos y proporcionando mapas de balance de humedad terrestre.
Contacto: 9525 Mckayla Squares Apt. 179 · +1-352-841-1928 · info@vegas-th.com
Microclima húmedo
28°C / 68% HR
Vega del río · balance hídrico positivo
Evapotranspiración
4.2 mm/día
+12%
Humedad relativa en vegas vs. zonas áridas
38 °C
Umbral de estrés térmico en flora de ribera
47
Cuencas monitoreadas (balance hídrico)
Access our latest research on water balance mapping and riparian ecosystem resilience under extreme heat conditions.
A "vega" refers to a fertile alluvial plain or valley floor, typically located along a river. These areas are characterized by rich, nutrient-dense soils deposited by floodwaters, making them highly productive for agriculture and biodiversity. Our research focuses on the microclimatic and hydrological dynamics that sustain these ecosystems.
Riparian plants in arid regions face extreme temperature fluctuations and water scarcity. Thermal stress can reduce photosynthetic efficiency, increase evapotranspiration, and lead to leaf desiccation. However, many species have adapted through deep root systems and heat-shock proteins. Our studies map these adaptive responses to better predict ecosystem resilience under climate change.
The "th" stands for temperature and humidity, two critical variables in our analysis of river basin microclimates. By examining the interplay between thermal radiation and atmospheric moisture, we can model evaporation rates, dew formation, and the cooling effects of water bodies on surrounding landscapes.
We use a combination of satellite remote sensing (e.g., NDVI and thermal infrared data), in-situ soil moisture sensors, and hydrological models. These tools allow us to track water input from precipitation and river flow versus losses through evaporation and plant transpiration, providing a comprehensive moisture budget for each study site.
While our primary audience includes geographers, climatologists, and environmental scientists, we also welcome students, policy makers, and anyone interested in earth sciences. All data and maps are presented with clear explanations to facilitate interdisciplinary understanding and practical application in land management and conservation.
Interactive maps of fertile alluvial valleys with detailed thermal and hydrological variables for academic research.
Real-time data on temperature and humidity stress affecting riparian flora during summer heat waves.
Advanced models tracking water evaporation in river basins and microclimate formation in arid zones.
Investigadora principal · Climatología de vegas fluviales
Estrés térmico en vegas del Guadalquivir · 12 publicaciones · 3 proyectos activos