ABSTRACT:

This file provides both the dataset and the computer code in Python that are necessary for analysis in the paper "The Roles of Climate Forcing and its Variability on Streamflow at Daily, Monthly, Annual, and Long-Term Scales".

ABSTRACT:

This file provides the derivate data set that are necessary for analysis in the paper "Climatic and Landscape Controls on Long-Term Baseflow".

ABSTRACT:

This file provides the dataset used in the paper "Climatic Control on Mean Annual Groundwater Evapotranspiration in a Three-Stage Precipitation Partitioning Framework". Within the spreadsheet, Tab 1 provides detailed data of three-stage partitioning fluxes and depth to water table for each of the 33 gauged basins. Tab 2 provides the data of Figure 6a regarding climate variability impacts on ET and groundwater ET. Tab 3 provides the data of Figure 6b, which includes mean annual groundwater ET values at each climate scale (i.e., sub-daily, daily, monthly, annual, long-term) and the groundwater ET changes caused by different climate variabilities (i.e., inter-annual, intra-annual, intra-monthly and sub-daily).

ABSTRACT:

This file provides the dataset used in the paper "A Three-Stage Partitioning Framework for Modeling Mean Annual Groundwater Evapotranspiration in Florida". Within the spreadsheet, Tab 1 provides detailed data of mean annual potential evapotranspiration, precipitation, available water, groundwater ET, and total ET for each of the 31 gauged basins.

ABSTRACT:

The Integrated Northern Tampa Bay (INTB) model provides an advanced, deterministic, physically-based, hydrologic simulation tool which supports ongoing and future water management responsibilities of Tampa Bay Water and the Southwest Florida Water Management District. Development of the Integrated Hydrologic Model (IHM) simulation engine and the calibrated INTB model application is the result of a partnership between the two agencies.

ABSTRACT:

The Integrated Hydrologic Model (IHM) User Guide provides guidance to install the IHM and to organize, conceptualize, design, develop, modify, simulate, postprocess, calibrate, and troubleshoot an IHM application. The User Guide assumes the reader has basic knowledge of HSPF and MODFLOW or will use other documentation of these two models to gather the basic knowledge.