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GPS and GIS for Weed Surveys and Management

Published online by Cambridge University Press:  12 June 2017

Lawrence W. Lass
Affiliation:
Dep. of Plant, Soil, and Entomol. Sci., Univ. Idaho, Moscow, ID 83843
Robert H. Callihan
Affiliation:
Dep. of Plant, Soil, and Entomol. Sci., Univ. Idaho, Moscow, ID 83843

Abstract

Global positioning systems (GPS) technology, developed by the Department of Defense, enable accurate documentation of Cartesian coordinates anywhere on the earth's surface. Surveying, mapping, positioning, and subsequent management of weed infestations can be expedited with this technology. Positions and boundaries of infestation may be located with 10-m or better accuracy while the GPS receiver is continuously moving, and with 2-m or better accuracy with brief stops for repeated sampling. GPS data agreed closely with U.S. Geological Survey data. Coordinates for a weed infestation may be relocated for treatment, evaluation or other purposes. Basic geographic information systems (GIS) map features from Digital Line Graph (DLG), Topologically Integrated Encoding and Reference Systems (TIGER) and other sources of information may be used to fully integrate delimiting survey results from GPS readings in order to develop weed management plans.

Type
Symposium
Copyright
Copyright © 1993 by the Weed Science Society of America 

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References

Literature Cited

1. Anonymous. 1991. GPS Launches Resume; SDI Losat in Same Mission. Aviation Week & Space Technol., 135:24.Google Scholar
2. Ford, W. H. 1990. Section III.–Regional Depository Libraries by State and City–October 1990. p. 4749 in A Directory of U.S. Government Depository Libraries. U.S. Government Printing Office, Washington, DC.Google Scholar
3. Marx, R. W. 1990. The Census Bureau's TIGER System. Cartogr. and Geogr. Inform. Syst. 17:1789.Google ScholarPubMed
4. Massatt, P., Rodus, W., and Rudnick, K. 1990. 2-D and 3-D Characterization of GPS Navigation Service. NATO (AGARD) Analysis Design and Synthesis Methods for Guidance and Control Systems STAR 90-293491/GAR:114–1 – 114–15.Google Scholar
5. User Services Branch. 1988. Digital Line Graphs from 1:100,000 scale maps, Data Users Guide 2 (G.I.S. Software). National Cartographic Center, Reston, VA.Google Scholar