Arequipa's Water in the Short Future: a Hydrologic Outlook in an Arid Peruvian Andes Region Utilizing Hyperresolution RCM and CREST-VEC Model Simulations Under SSP5-8.5
Chen, Mengye, et al.
This study provides a comprehensive hydrologic outlook for Arequipa, an arid region in the Peruvian Andes, utilizing hyperresolution Regional Climate Model (RCM) and CREST-VEC model simulations under the SSP5-8.5 climate scenario. The research offers critical insights into future water availability and hydrological changes in this water-stressed region.
AQUAH: Automatic Quantification and Unified Agent in Hydrology
Yan, Songkun, et al.
This paper introduces AQUAH, an innovative framework for automatic quantification and unified agent applications in hydrology. The system combines advanced machine learning techniques with hydrological modeling to provide comprehensive water resource analysis and management solutions.
Cross-examining precipitation products by rain gauge, remote sensing, and wrf simulations over a south american region across the pacific coast and andes
Chen, Mengye, et al.
This study cross-examines precipitation products using rain gauge data, remote sensing observations, and Weather Research and Forecasting (WRF) simulations over a South American region spanning the Pacific coast and Andes mountains. The research provides comprehensive validation and comparison of different precipitation estimation methods across complex topographic regions.