About Hydro-BID
HydroBID: una herramienta para la administración del recurso hídrico from el BID - the IDB on Vimeo.
Water resources management and planning are among the biggest challenges faced by many countries around the world, including Latin America and Caribbean (LAC) countries. Most countries in the LAC region present these common challenges:
- Evaluation, protection, management, and quality of water sources
- Lack of quantitative data
- Need to plan under changing conditions
- Design, rehabilitation, maintenance of infrastructures
- Water resources allocation
- Flood and drought risk management
To help our region overcome these challenges we created Hydro-BID:
An integrated and quantitative system to simulate hydrology and water resources management in the LAC region, under scenarios of change (e.g., climate, land use, population) which allows to evaluate the quantity and quality of water, infrastructure needs, and the design of strategies and adaptive projects in
response to these changes.
The Hydro-BID system currently includes:
- An Analytical Hydrography Dataset (AHD) representing over 230,000 catchments in the
Latin America and Caribbean (LAC) region and their corresponding topography, river
and stream segments;
- A GIS-based navigation tool to browse AHD catchments and streams with the capability
of navigating upstream and downstream;
- A user interface for specifying the area and time period to be modeled and the location at
which water availability will be modeled;
- A climate data interface to obtain rainfall and temperature inputs for the area and period
of interest;
- A rainfall-run-off model based on the Generalized Watershed Loading Factor formulation;
- A routing scheme for quantifying time of travel and cumulative flow estimates across
downstream catchments.

Why Hydro-BID?
- Covers the entire Latin America and Caribbean region: useful to organize and aggregate scarce
data
- Spatial and temporal resolution suited for planning and design of water resources
infrastructure
- Simulates basin hydrology driven by climate in a modular, flexible and scalable way; robust
hydrologic model formulation that is able to interact with just about any type of climate model
or data source
- Tailored to simulate water resources at all time-scales: near term, intra/inter-annual, decadal
and beyond
- Developed using web-based architecture: runs from a browser-like (app) interface
- Open-source: designed to be community-driven, opening the doors to a rich development and
improvement process