Use of LANDSAT MSS Imagery and Soil Type in a Geographic Information System to Assess Site-Specific Risk of Fascioliasis on Red River Basin Farms in Louisiana
Autor: | John B. Malone, Dennis P. Fehler, Stanley H. Zukowski, Alvin F. Loyacano |
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Rok vydání: | 1992 |
Předmět: |
Hydrology
Soil map Fascioliasis geography geography.geographical_feature_category General Neuroscience Drainage basin Soil classification Trematode Infections Louisiana Soil type General Biochemistry Genetics and Molecular Biology Multispectral Scanner Soil History and Philosophy of Science Hydric soil Risk Factors Soil water Prevalence Telecommunications Animals Environmental science Paramphistomatidae Soil conservation Remote sensing |
Zdroj: | Annals of the New York Academy of Sciences. 653:389-397 |
ISSN: | 1749-6632 0077-8923 |
DOI: | 10.1111/j.1749-6632.1992.tb19667.x |
Popis: | A geographic information system (GIS) was constructed in an ERDAS environment using maps of soil types from the USDA Soil Conservation Service, LANDSAT satellite multispectral scanner data (MSS), boundaries for 25 study farms, and slope and hydrologic features shown in a two-quadrangle (USGS, 7.5') area in the Red River Basin near Alexandria, Louisiana. Fecal sedimentation examinations were done in the fall of 1989, spring of 1990, and fall and winter of 1990-1991 on 10-16 random samples per herd. Fecal egg shedding rates for F. hepatica ranged from 10-100% prevalence and 0.3-21.7 eggs per two grams of feces (EP2G). For Paramphistomum spp., a rumen fluke also transmitted by F. bulimoides but not affected by flukicides, egg shedding rates ranged from 10-91% prevalence and 0.1-42.8 EP2G. Soil types present ranged from sandy loams to hydric, occasionally flooded clays. Herd Paramphistomum spp. egg shedding rates increased with the proportion of hydric clays present, adjusted for slope and major hydrologic features. F. hepatica infection intensity followed a similar trend, but were complicated by differing treatment practices. Results suggest that earth observation satellite data and soil maps can be used, with an existing climate forecast based on the Thornthwaite water budget, to develop a second generation model that accounts for both regional climate variation and site-specific differences in fascioliasis risk based on soils prone to snail habitat. |
Databáze: | OpenAIRE |
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