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A Geographic Information System for identification of potential alternative crops utilizing soil and climatic variables in the Bighorn Basin, Wyoming

Published online by Cambridge University Press:  30 October 2009

J.A. Young
Affiliation:
GIS Analyst, USDA Natural Resources Conservation Service/U.S. Forest Service/USDI Bureau of Land Management Special Services, Pindale, WY 82941-0036;
G.F. Vance*
Affiliation:
Professors, Department of Renewable Natural Resources, University of Wyoming, Laramie, WY 82071-3354;
L.C. Munn
Affiliation:
Professors, Department of Renewable Natural Resources, University of Wyoming, Laramie, WY 82071-3354;
B.M. Christensen
Affiliation:
GIS Technician, Laramie County Conservation District, 11221 Highway 30, Cheyenne, WY 82001;
M.S. Schaad
Affiliation:
Water Rights Management Specialist, State Engineers Office, Herschler Building 4E, Cheyenne, WY 82002-0370.
*
Corresponding author is G.F. Vance ([email protected]).
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Abstract

The Bighorn Basin is an important agricultural region in Wyoming. To promote expansion of economic prospects within the Bighorn Basin, we explored the feasibility of introducing alternative crops into the area. Currently, the major crops in this region are sugar beet, barley, alfalfas, and dry beans. Diversification of agricultural cropping systems within the Bighorn Basin is an important step in enhancing the state's economy. This research provides preliminary results for evaluating diversification by determining crops that may potentially be cultivated in the Bighorn Basin region. Four of the 28 alternative crops investigated in this project include amaranth, buckwheat, canola, and faba bean. A Geographic Information System (GIS) was used to combine spatial data identifying areas with unique combinations of characteristics (e.g., soils, frost-free period, temperature, etc.) for introduction of new crops. The GIS was used to compile data layers for different soil and climatic variables. A soils data layer was developed for the study area using a predictive model based on the region's surficial geology, bedrock geology, and elevation. Monthly minimum, mean, and maximum summer temperatures, precipitation, growing degree-days and frost-free season were obtainedfrom weatherstations located in the Bighorn Basin, where 30-year averages have been collected by the National Climate Data Center. Using geostatistics, information obtainedfrom weather stations was utilized to develop continuous data layers for 31 climatic conditions related to the study area. A compilation of growth parameters for 28 alternative crops included various soil and climatic conditions that were used to identify areas with potential to support these new crops. Maps of alternative crop production areas suggested that 8 crops (amaranth, chickpea, onion, quinoa, saffiower, sesame, sorghum, and sunflower) could potentially be cultivated in eastern Bighorn Basin where temperatures are warmer, another 12 crops (broccoli, buckwheat, canola, carrot, cauliflower, crambe, Kentucky bluegrass turf seed, leek, lentil, lettuce, mint, and radish) could be produced in western Bighorn Basin where temperatures are cooler, and 8 additional crops (asparagus, beet, cabbage, cowpea, faba bean, field pea, medic seed, and tall fescue turf seed) may possibly be cultivated throughout the Bighorn Basin study area in suitable soils. The alternative crop production area maps derived from this projectwillbe useful to potential growers, land-use planners, and county and state agencies in the Bighorn Basin seeking information on different agricultural practices and new production systems.

Type
Articles
Copyright
Copyright © Cambridge University Press 2000

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References

1.AMPAC Seed Company. 1998. Kentucky bluegrass information. Tangent, OR. Web site http://www.ampacseed.com/kenblue. htm (accessed March 1999).Google Scholar
2.Ashraf, M., Loftis, J.C., and Hubbard, K.G.. 1997. Application of geostatistics to evaluate partial weather station networks. Agric. Forest Meterol. 84:255271.CrossRefGoogle Scholar
3.Barnes, R.F., Miller, D.A., and Nelson, C.J. (eds.). Forages. 5th ed. Vol. 1, An Introduction to Grassland Agriculture. Iowa State University Press, Ames.Google Scholar
4.Bennett, W.F., Maunder, A.B., and Tucker, B.B.. 1990. Modern Grain Sorghum Production. Iowa State University Press, Ames.Google Scholar
5.Canola Information Service. 1998. Clearly culinary: What is canola oil? Saskatchewan Canola Development Commission, Lloydminster, Saskatchewan, Canada. Web site http://www.canolainfo.org/html/0796canoil.html (accessed May 1998).Google Scholar
6.Cash, D., Sims, J., Bowman, H., and Smith, B.. 1995. Growing peas in Montana. Montguide 9520. Montana State University Extension Service, Bozeman. Web site http://www.montana.edu/wwwpub/pubs/mt9520.pdf (verified July 2000).Google Scholar
7.Center for New Crops and Plant Products. 1998. Welcome to NewCROP: The New Crop Resource Online Program. Purdue University, West Lafayette, IN. Web site http://www.hort.purdue.edu/newcrop/ (verified July 2000).Google Scholar
8.Christie, B.R. (ed). 1987. Handbook of Plant Science in Agriculture. Vol. 1. CRC Press, Boca Raton, FL.Google Scholar
9.Churchill, B.G. 1984. People Working Together: A 75th Anniversary Salute to Powell. Custom Printing, Powell, WY.Google Scholar
10.Dingman, S.L., Seely-Reynolds, D.M., and Reynolds, R.C. III. 1988. Application of kriging to estimating mean annual precipitation in a region of orographic influence. Water Resour. Bull. 24:329339.CrossRefGoogle Scholar
11.Field Crops Research Institute. 1998. Sorghum. Ministry of Agriculture and Cooperatives, Thailand. Web site http://www.inet.co.th/org/fcri/sorghum.htm (accessed July 1998).Google Scholar
12.Gaudiel, R. 1996. Essential oil production in Alberta. In Proceedings of the Special Crops Conference—Opportunities and Profits. Alberta Agriculture, Food and Rural Development, Edmonton, Alberta, Canada. Web site http://www.agric.gov.ab.ca/crops/special/conf/gaudiel1.html (verified July 2000).Google Scholar
13.Grieve, M. 1931. Sunflower. A Modern Herbal Home Page. Web site http://www.botanical.eom/botanical/mgmh/s/sunfl100.html (verified July 2000).Google Scholar
14.Hall, M.H. 1996. Species: Kentucky bluegrass. PSU Forage Home Page. Pennsylvania State University Agronomy Dept., University Park. Web site http://www.cas.psu.edu/docs/casdept/agronomy/forage/docs/species/kbg.html (verified July 2000).Google Scholar
15.Hevesi, J.A., Istok, J.D., and Flint, A.L.. 1992. Precipitation estimation in mountainous terrain using multivariate geostatistics. Part 1: Structural analysis. J. Appl. Meteorol. 31:661676.Google Scholar
16.Hocking, D.F. 1997. Mint growing. Agfact H8.1.33. NSW Agriculture, Orange, New South Wales, Australia. Web site http://www.agric.nsw.gov.au/Hort/Veg_pub/011999.00182.html (verified July 2000).Google Scholar
17.Hopkins Technology. 1998. Home and Garden Bull. 202. Hopkins, MN. Web site http://www.hoptechno.com/book26.html (accessed July 1998).Google Scholar
18.Iiams, J.E. 1983. Soil Survey of Washakie County, Wyoming. U.S. Dept. of Agriculture, Soil Conservation Service, Washington, DC; Wyoming Agricultural Experiment Station, Laramie.Google Scholar
19.Khosla, K. 1997. Plant profile: Leeks. National Gardening Association, Burlington, VT. Web site http://www2.garden.org/nga/EDIT/Articles/ND97/leeks.qua (accessed March 1997).Google Scholar
20.Koch, D.W., Gray, F.A., and Krall, J.M.. 1995. Nematode-resistant trap crops: A new method of pest control for Wyoming sugar beet growers. Publ. B-1029. University of Wyoming Extension Service, Laramie. Web site http://www.uwyo.edu/AG/SustainableAg/plantpathology.htm (verified July 2000).Google Scholar
21.Kravchenko, A., Zhang, R., and Tung, Y.K.. 1996. Estimation of mean annual precipitation in Wyoming using geostatistical analysis. In Morel-Seytoux, H.J. (ed.). Proceedings of the 16th Annual American Geophysical Union Hydrology Days. Hydrology Days Press, Atherton, CA. p. 271282.Google Scholar
22.Martner, B.E. 1986. Wyoming Climate Atlas. University of Nebraska Press, Lincoln.Google Scholar
23.Mining Company Web Search Engine. Broccoli production in the home garden. Web site http://vegetablegarden.miningco.com/library/weekly/aa022797.htm (accessed June 1998).Google Scholar
24.Munn, L.C., and Arneson, C.S.. 1998. Soils of Wyoming: A digital statewide map at l:500,000-scale. Agric. Exp. Stn. Rep. B-1069. University of Wyoming, College of Agriculture, Laramie. Available at Web site http://www.uwyo.edu/ag/ces/plantsci.htm (verified July 2000).Google Scholar
25.Nielsen, G.A., Caprio, J.M., McDaniel, P.A., Snyder, R.D., and Montagne, C.. 1990. MAPS: A GIS for land resource management in Montana. J. Soil Water Conserv. 45:450453.Google Scholar
26.North Dakota State University Extension Service. Alternative Agriculture Publications. Fargo, ND. Web site http://www.ext.nodak.edu/extpubs/alt-ag.htm (accessed June 1998).Google Scholar
27.NPDC. 1998. PLANTS Database. U.S. Dept. of Agriculture, Natural Resources Conservation Service, National Plant Data Center, Baton Rouge, LA. Web site http://plants.usda.gov (accessed June 1998).Google Scholar
28.Ohio State University Extension. 1998. Vegetables. Ohioline Yard and Garden. Columbus, OH. Web site http://www.ag.ohio-state.edu/ohioline (accessed July 1998.).Google Scholar
29.Prashar, P., and Graper, D.F.. 1993. Growing asparagus. Extension Extra 6009. South Dakota State University Cooperative Extension Service, Brookings. Web site http://www.abs.sdstate.edu/hort/asparag.htm (verified July 2000).Google Scholar
30.Sanders, D.C. 1998. Home garden asparagus production. Horticulture Information Leaflets: Home Gardening 8002. North Carolina Cooperative Extension Service, Raleigh. Web site http://www.ces.ncsu.edu/depts/hort/hil/hil-8002.html (accessed July 1998).Google Scholar
31.Saskatchewan Agriculture and Food. 1998. Amaranth production. Regina, Saskatchewan, Canada. Web site http://www.gov.sk.ca/agfood/farmfact/sca0190.htm (accessed June 1998).Google Scholar
32.Siddique, K.H.M., Pritchard, I.A., and Collins, D.A.. 1997. Growing lentils in the wheatbelt: Varieties. Farmnote. Agriculture Western Australia, South Perth, Western Australia. Web site http://www.agric.wa.gov.au/agency/pubns/farmnote/1994/f11794.htm (verified July 2000).Google Scholar
33.Smith, H.A., Rust, C.H., Baldridge, D.E., and Cash, D.. 1993. Buckwheat: A potential Montana specialty crop. Montguide 8909. Montana State University Extension Service, Bozeman.Google Scholar
34.Smith, H.A., Rust, C.H., Baldridge, D.E., Lockerman, R.H., and Jackson, G.D.. 1989. Fababeans: A Montana specialty crop. Montguide 8906. Montana State University Extension Service, Bozeman.Google Scholar
35.Sooby, J. 1998. Research technician, High Plains Agricultural Laboratory, Sidney, NE. Personal communication (26 June).Google Scholar
36.Spatial Data and Visualization Center. 1998. Wyoming Natural Resources Data Clearinghouse. University of Wyoming, Laramie. Web site http://www.sdvc.uwyo.edu/clearinghouse/ (accessed March 1998).Google Scholar
37.IIITabious, G.Q., and Salas, J.D.. 1985. A comparative analysis of techniques for spatial interpolation of precipitation. Water Resour. Bull. 21:365380.Google Scholar
38.Texas Agricultural Extension Service. 1998. PLANTanswers vegetable information. College Station. Web site http://aggie-horticulture.tamu.edu/plantanswers/vegetables/veg.html (accessed June 1998).Google Scholar
39.UC SAREP. 1998. Online cover crop resource page. UC SAREP Online Cover Crop Database. University of California, Sustainable Agriculture Research and Education Program, Davis. Web site http://www.sarep.ucdavis.edu/ccrop/ (accessed July 1998).Google Scholar
40.Virginia Cooperative Extension. 1998. Root crops. Blacksburg, VA. Web site http://www.ext.vt.edu/pubs/envirohort/426-422/426-422.html&L3 (accessed June 1998).Google Scholar
41.Walsh, M. 1998. Ph.D. student, Plant Science, University of Wyoming, Laramie. Personal communication (May).Google Scholar
42.Weber, L.E. 1987. Amaranth Grain Production Guide. Rodale Press, Emmaus, PA.Google Scholar
43.Western Regional Climate Center. 1998. Wyoming climate summaries. Reno, NV. Web site http://www.wrcc.dri.edu/summary/climsmwy.html (accessed July 1998).Google Scholar
44.Wyoming Agricultural Statistics Service. 1998. Wyoming Agricultural Statistics 1998. Wyoming Dept. of Agriculture, Cheyenne; University of Wyoming, College of Agriculture, Laramie.Google Scholar
45.Wyoming Transportation Commission. 1998. Official Highway Map of Wyoming. Cheyenne, WY.Google Scholar
46.Young, J.A. 1999. Geographic Information System Evaluation of Suitable Soil and Climatic Parameters for Alternative Crop Production in the Bighorn Basin, Wyoming. M.S. thesis. University of Wyoming, Laramie.Google Scholar