Coupling Vadose Zone Models with GIS: Emerging Trends and Potential Bottlenecks

Abstract: The capabilities of geographic information systems (GIS) to capture, edit, manipulate, analyze, and display spatial and nonspatial data have long been recognized. Since its initial development in the 1960s, GIS technology has been used extensively to generate and spatially organize large volumes of data to support modeling of contaminant transport in the vadose zone. In the literature, however, two constantly recurring themes have been, on one hand, the opportunities that GIS provide for sophisticated analysis… Show more

“…The use of computer models to forecast naturally occurring conditions (e.g., daily precipitation and hurricane paths) have become prevalent in the decision-making process of today's society. Models have been proven valuable in cases where data are limited or unavailable (Tim, 1996). Computer simulation can reduce time, is relatively inexpensive, and is an environmentally safe technique to evaluate the effects of agricultural management practices on surface and subsurface water sources (Mahmood et al, 2002).…”

Evaluation of Nutrient Management Plans Using an Integrated Modeling Approach

“…The use of computer models to forecast naturally occurring conditions (e.g., daily precipitation and hurricane paths) have become prevalent in the decision-making process of today's society. Models have been proven valuable in cases where data are limited or unavailable (Tim, 1996). Computer simulation can reduce time, is relatively inexpensive, and is an environmentally safe technique to evaluate the effects of agricultural management practices on surface and subsurface water sources (Mahmood et al, 2002).…”

Evaluation of Nutrient Management Plans Using an Integrated Modeling Approach

“…Functional mechanisms offered by GIS packages: macro languages, interface programs written in standard program languages, and libraries of user callable routines are maintained [39]. As such, risk analysis routines may be utilized to identify sensitive receptors after a spill incident by querying GIS layers generated by the spill dispersion models (CAMEO and W2).…”

Development of a GIS-based Spill Management Information System

“…One example of a watershed-scale model is the Agricultural Non-Point Source (AGNPS) pollution model, developed by the U.S. Department of Agriculture in response to the complex problem of managing non-point sources of pollution (Young and others, 1995). Today there are a number of interfaces that use GIS and the AGNPS model to simplify the process of watershed analysis, but only a few that have been created for the Microsoft Windows operating system (Tim, 1996; Liao and Tim, 1997; He and others, 2001; Mankin and others, 2002;Bhuyan and others, 2002). We created a unique windows-based GIS-AGNPS interface for the ERDAS Imagine software package (a Leica Geosystems product).…”

An Interface between the Agricultural Non-Point Source (AGNPS) Pollution Model and the ERDAS Imagine Geographic Information System (GIS)