Author:
Burkart Michael R.,Buhler Douglas D.
Abstract
This paper presents a framework in which the spatial and temporal domain of weed populations can be analyzed using geographically referenced information. The regional framework for analysis is based on the premise that the domain of a weed species or an assemblage of species can be described in terms of the space and time in which they survive. Published maps of the spatial distribution of individual weed species were converted to digital records defining their geographic domain. Digital records were imported into a geographically referenced data system. Assemblage maps were produced by intersecting domains of individual species. The assemblage maps show areas with similar intensity of the occurrence of species selected for analysis. The most intense occurrence of summer annual species, for example, exists in a relatively small area of the Midwest. The framework presented in this paper is a concept for a tool to evaluate, manage, and manipulate weed distribution data at the regional scale. Analysis at the regional scale is a perspective substantially different from the plot or field-scale analysis traditionally used to study and manage weed populations. Regional analysis has application to weed science by increasing the understanding of regional patterns of weed infestation and the factors that regulate them. This information will be useful to the herbicide industry, plant ecologists, resource managers, and agricultural policy makers.
Publisher
Cambridge University Press (CUP)
Subject
Plant Science,Agronomy and Crop Science
Reference22 articles.
1. Coupling Geographic Information Systems and Models for Weed Control and Groundwater Protection
2. Weedy adaptation in Setaria spp;Wang;II. Genetic diversity and population genetic structure in S. glauca, S. geniculata, and S. faberi (Poaceae). Am. J. Bot.,1995b
3. Weedy adaptation in Setaria spp;Wang;I. Isozyme analysis of genetic diversity and population genetic structure in Setaria viridis. Am. J. Bot.,1995a
4. Weed Eradication Using Geographic Information Systems
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