Hostname: page-component-7479d7b7d-k7p5g Total loading time: 0 Render date: 2024-07-10T15:29:22.512Z Has data issue: false hasContentIssue false
  • English
  • Français

Composition and Diversity of Plant and Small Mammal Communities in Tebuthiuron-Treated Big Sagebrush (Artemisia tridentata)

Published online by Cambridge University Press:  12 June 2017

Kris H. Johnson ,
Richard A. Olson  and
Thomas D. Whitson
Kris H. Johnson
Affiliation:
Univ. of Wyoming, Laramie, WY 82071
Richard A. Olson
Affiliation:
Univ. of Wyoming, Laramie, WY 82071
Thomas D. Whitson
Affiliation:
Univ. of Wyoming, Laramie, WY 82071
Get access Rights & Permissions [Opens in a new window]

Abstract

Sagebrush control has historically involved mechanical and chemical (2,4-D) treatments designed for total control and which detrimentally affect nontarget plant species, resulting in decreases in native wildlife abundance and diversity. Tebuthiuron, a potentially selective herbicide with thinning capabilities, was applied at various rates to big sagebrush plots near Ten Sleep, WY in 1979 and Hyatteville, WY in 1983. Plant and small mammal communities were evaluated in 1992 and 1993. Big sagebrush cover in untreated areas was 31 ± 1% in 1992 and 34 ± 1% in 1993 at Ten Sleep, and 44 ± 4% at Hyatteville (α = 0.10). Big sagebrush control increased as application rate increased. Productivity of herbaceous species (graminoids, forbs, or both) tended to be greatest at about 11 to 17% big sagebrush cover. In general, plant community diversity tended to be greatest where sagebrush was thinned to this level. Small mammal community diversity was least at both sites where big sagebrush cover was less than 5%, and was strongly correlated with plant community diversity at Ten Sleep (R2W = 0.99; 4 degrees of freedom). In addition, greater abundance of or better habitat quality for endemic, stenotypic (habitat specialist) species was associated with about 15% big sagebrush cover. This suggests (albeit retroductively) that biodiversity at both local (alpha) and global (epsilon) scales might be conserved by thinning big sagebrush with tebuthiuron.

Keywords

Tebuthiuron, N-[5-(1,1-dimethylethyl)-1,3,4-thiadiazol-2-yl]-N-N-dimethylurea2,4-D, (2,4-dichlorophenoxy)acetic acidbig sagebrush, Artemisia tridentata Nutt. # ARTTRAster mollisbiodiversityCentrocercus urophasianuscommunityendangered speciesherbicidessagebrush thinningShannon diversity indexspatial scaleSpermophilus eleganswildlife habitat managementARTTR
Type
Symposium
Information
Weed Technology , Volume 10 , Issue 2 , June 1996 , pp. 404 - 416
Copyright
Copyright © 1996 by the Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

1. Autenrieth, R. E., 1981. Sage grouse management in Idaho. Wildl. Bull. 9. Idaho Dept. of Fish and Game, Boise. 238 p.Google Scholar
2. Barnett, J. K., and Crawford, J. A. 1993. Diet and nutrition of female sage grouse during the pre-laying period in Oregon. Trans./Proc. 1st Joint Meeting 20th Prairie Grouse Tech. Council Meeting and 18th Western States Sage/Columbian Sharp-Tailed Grouse Workshop, Fort Collins, CO, July 26–28, 1993. Abstr. p. 15.Google Scholar
3. Best, L, B., 1972. First-year effects of sagebrush control on two sparrows. J. Wildl. Manage. 36:534544.CrossRefGoogle Scholar
4. Blaisdell, J. P., and Mueggler, W. F. 1956. Effect of 2,4-D on forbs and shrubs associated with big sagebrush. J. Range Manage. 9:3840.CrossRefGoogle Scholar
5. Bonett, D. G., 1994. Business Statistics. Kendall/Hunt Publishers, Dubuque, IA. 214 p.Google Scholar
6. Braun, C. E., Britt, T., and Wallestad, R. O. 1977. Guidelines for maintenance of sage grouse habitats. Wildl. Soc. Bull. 5:99106.Google Scholar
7. Buech, R. R., Siderits, K., Radtke, R. E., Sheldon, H. L., and Elsing, D. 1977. Small mammal populations alter a wildfire in northeast Minnesota. USDA For. Serv. Res. Paper NC-151.Google Scholar
8. Castrale, J. S., 1982. Effects of two sagebrush control methods on nongame birds. J. Wildl. Manage. 46:945952.CrossRefGoogle Scholar
9. Chang, S. C., and Stritzke, J. F. 1977. Sorption, movement, and dissipation of tebuthiuron in soils. Weed Sci. 25:184187.CrossRefGoogle Scholar
10. Clark, T. W., and Stromberg, M. R. 1987. Mammals in Wyoming. Univ. of Kansas Museum of Natural History, Lawrence. 177 p.Google Scholar
11. Connelly, J. W., Wakkinen, W. L., Apa, A. D., and Reese, K. P. 1991. Sage grouse use of nest sites in southeastern Idaho. J. Wildl. Manage. 55:521524.CrossRefGoogle Scholar
12. Cook, C. W., and Stubbendieck, J., eds. 1986. Range research: Basic problems and techniques. Soc. Range Manage. p. 287.Google Scholar
13. Cook, S. F. Jr., 1959. The effects of fire on a population of small rodents. Ecology 40:102108.CrossRefGoogle Scholar
14. Cooperrider, A. Y., 1990. Conserving biological diversity on western rangelands. p. 451461 in McCabe, R.E., ed. Trans. 55th North Am. Wildl. Nat. Resources Conf. Wildlife Manage. Inst., Washington, DC.Google Scholar
15. Crowner, A. W., and Barrett, G. W. 1979. Effects of fire on the small mammal component of an experimental grassland community. J. Mammal. 60:803813.CrossRefGoogle Scholar
16. Curtis, J. T., and McIntosh, R. P. 1951. An upland forest continuum in the prairie-forest border region of Wisconsin. Ecology 32:476496.CrossRefGoogle Scholar
17. Daubenmire, R. F., 1959. A canopy-coverage method of vegetational analysis. Northwest Sci. 33:4364.Google Scholar
18. Dewey, S. A., and Torell, J. M. 1991. What is a noxious weed? p. 14 in James, L., Evans, J. O., Ralphs, M. H., and Child, R. D., eds. Noxious Range Weeds. Westview Press, Boulder, CO.Google Scholar
19. DowElanco. 1994. Big sagebrush (Artemisia tridentata) management with Spike 20P herbicide (tebuthiuron). Quad IV, 9002 Purdue Road, Indianapolis, IN 46268–1189.Google Scholar
20. Franklin, J. F. 1988. Structural and functional diversity in temperate forests. p. 166175 in Wilson, E. O. and Peter, F. M., eds. Biodiversity. National Academy Press, Washington, DC.Google Scholar
21. Frischknecht, N. C., and Baker, M. F. 1972. Voles can improve sagebrush rangelands. J. Range Manage. 25:466486.CrossRefGoogle Scholar
22. Gashwiler, J. S., 1970. Plant and small mammal changes on a clearcut in west-central Oregon. Ecology 51:10181026.CrossRefGoogle Scholar
23. Gurnell, J., and Flowerdew, J. R. 1982. Live trapping small mammals: A practical guide. Occas. Publ. Mammal Soc., Burkshire, UK. 24 p.Google Scholar
24. Hallsten, G. P., Skinner, Q. D., and Beetle, A. A. 1987. Grasses of Wyoming. Univ. of Wyoming Agric. Exp. Station Res. J. 202.Google Scholar
25. Halstvedt, M. B., 1994. Big sagebrush (Artemisia tridentata) management with reduced rates of tebuthiuron. p. 1013 in Big sagebrush (Artemisia tridentata) management with Spike 20P herbicide (tebuthiuron). DowElanco, Indianapolis, IN.Google Scholar
26. Heady, H. F., and Child, R. D. 1992. Rangeland Ecology and Management, 2nd ed. McGraw-Hill Publishing Company, New York. (Draft.) 361 p.Google Scholar
27. Hitchcock, C. L., and Cronquist, A., eds. 1973. Flora of the Pacific Northwest. Univ. of Washington Press, Seattle. 730 p.Google Scholar
28. Hull, A. C. Jr., Kissinger, N. A. Jr., and Vaughn, W. T. 1952. Chemical control of big sagebrush in Wyoming. J. Range Manage. 5:398402.CrossRefGoogle Scholar
29. Humberg, N. E., Colby, S. R., Hill, E. R., Kitchen, L. M., Lym, R. G., McAvoy, W. J., and Prasad, R., eds. 1989. Herbicide Handbook of the Weed Science Society of America, 6th ed. Weed Sci. Soc. Am., Champaign. IL. 301 p.Google Scholar
30. Hyder, D. N., and Sneva, F. A. 1956. Herbage response to sagebrush spraying. J. Range Manage. 9:3438.CrossRefGoogle Scholar
31. Johnson, D. R., and Hansen, R. M. 1969. Effects of range treatment with 2,4-D on rodent populations. J. Wildl. Manage. 33:125132.CrossRefGoogle Scholar
32. Johnson, K. H., 1994. Composition and diversity of plant and small mammal communities in tebuthiuron-treated sagebrush (Artemisia tridentata). . Univ. of. Wyoming, Laramie. 127 p.Google Scholar
33. Klebenow, D. A., 1970. Sage grouse versus sagebrush control in Idaho. J. Wildl. Manage. 23:396400.Google Scholar
34. Klebenow, D. A., and Beall, R. C. 1977. Fire impacts on birds and mammals on Great Basin rangelands. p. 5962 in Proc. 1977 Rangeland Manage, and Fire Symp., Casper, WY [stet].Google Scholar
35. Krebs, C. J., 1989. Ecological Methodology. Harper and Row, Publ., NY. 654 p.Google Scholar
36. Lensink, C. J., Skoog, R. O., and Buckley, J. L. 1955. Hood habits of martens in Interior Alaska and their significance. J. Wildl. Manage. 19:364368.CrossRefGoogle Scholar
37. Lovell, D. C., Choate, J. R., and Bissell, S. J. 1985. Succession of mammals in a disturbed area of the Great Plains. Southwest. Nat. 30:335342.CrossRefGoogle Scholar
38. Lowe, P. O., 1975. Potential wildlife benefits of fire in ponderosa pine forests. . Univ. of Arizona, Tucson. 131 p.Google Scholar
39. Magurran, A. E., 1988. Ecological Diversity and its Measurement. Princeton University Press, Princeton, NJ. 179 p.Google Scholar
40. Martin, N. S., 1970. Sagebrush control related to habitat and sage grouse occurrence. J. Wildl. Manage. 34:313–20.CrossRefGoogle Scholar
41. McAdoo, J. K., and Klebenow, D. A. 1978. Native faunal relationship in sagebrush ecosystems. p. 5061 in The Sagebrush Ecosystem: A Symp. Utah Stale Univ., Logan.Google Scholar
42. Menkens, G. E., and Anderson, S. H. 1988. Estimation of small mammal population size. Ecology 69:19521959.CrossRefGoogle Scholar
43. Miller, R. F., Svejcar, T. J., and West, N. E. 1994. Implications of livestock grazing in the Intermountain sagebrush region: Plant composition. p. 101146 in Vavra, M., Laycock, W. A., and Pieper, R. D., eds. Ecological Implications of Livestock Herbivory in the West. Soc. Range Manage. Denver, CO.Google Scholar
44. Morton, D. M., and Hoffman, D. G. 1976. Metabolism of new herbicide tebuthiuron (1(5-1-dimethyl-1,2,3-thiadiazol-2-yl)-1,3-dimethylurea) in mouse, rat, rabbit, dog, duck, and fish. J. Toxicol. Environ. Health. 1:757768.CrossRefGoogle Scholar
45. Paramenter, R. P., and MacMahon, J. A. 1983. Factors determining the abundance and distribution of rodents in a shrub-steppe ecosystem: The role of shrubs. Oecologia 59:145156.CrossRefGoogle Scholar
46. Pechanec, J. F., and Pickford, G. D. 1937. A weight estimate method for determination of range or pasture production. J. Am. Soc. Agron. 29:894904.CrossRefGoogle Scholar
47. Pieper, R. D., 1994. Ecological implications of livestock grazing. p. 177211 in Vavra, M., Laycock, W. A., and Pieper, R. D., eds. Ecological Implications of Livestock Herbivory in the West. Soc. Range Manage. Denver, CO.Google Scholar
48. Primack, R. B., 1993. Essentials of Conservation Biology. Sinauer Associates, Inc., Sunderland, MA. 50 p.Google Scholar
49. Risser, P. G., 1988. Diversity in and among grasslands. p. 176180 in Wilson, E. O. and Peter, F. M., eds. Biodiversity. National Academy Press, Washington. DC.Google Scholar
50. Ritchie, M.E., Wolfe, M.L., and Danvir, R. 1994. Predation of artificial sage grouse nests in treated and untreated sagebrush. Great Basin Nat. 54:122–29.Google Scholar
51. SAS Institute Inc. 1991. SAS/ETS® software: Applications Guide 1, Version 6, 1st ed.: Time series modeling and forecasting, financial reporting, and loan analysis. SAS Institute Inc., Cary, NC.Google Scholar
52. Schneegas, E. R., 1967. Sage grouse and sagebrush control. Trans. North Am. Wildl. Nat. Res. Conf. 32:270274.Google Scholar
53. Schroeder, M. H., and Sturges, D. L. 1975. The effect on Brewer's sparrow of spraying big sagebrush. J. Range Manage. 28:294297.CrossRefGoogle Scholar
54. Seber, G.A.F., 1982. The Estimation of Animal Abundance and Related Parameters, 2nd ed. Charles Griffin and Company Limited, London. 506 p.Google Scholar
55. Shown, L. M., Miller, R. F., and Branson, F. A. 1969. Sagebrush conversion to grassland as affected by precipitation, soil, and cultural practices. J. Range Manage. 22:303311.CrossRefGoogle Scholar
56. Stubbendieck, J., Hatch, S. L., and Hirsch, K. J. 1989. North American Range Plants, 3rd ed. Univ. of Nebraska Press, Lincoln. 465 p.Google Scholar
57. Sturges, D. L., 1975. Hydrologic relations on undisturbed and converted big sagebrush lands: The status of our knowledge. USDA Res. Paper RM-140.Google Scholar
58. Sturges, D. L., 1993. Soil-water and vegetation dynamics through 20 years after big sagebrush control. J. Range Manage. 46:161169.CrossRefGoogle Scholar
59. Sveum, C. M., Crawford, J. A., Edge, W. D., and Cadwell, L. L. 1993. Sage grouse nesting habits in southcentral Washington. Trans./Proc. 1st Joint Meeting 20th Prairie Grouse Tech. Council Meeting and 18th Western States Sage/Columbian Sharp-Tailed Grouse Workshop, Fort Collins, CO, July 26–28, 1993. Abstr. p. 16.Google Scholar
60. Swenson, J. E., Simmons, C. A., and Eustace, C. D. 1987. Decrease in sage grouse Centrocercus urophasianus after ploughing of sagebrush steppe. Biol. Conserv. 41:125132.CrossRefGoogle Scholar
61. U.S. Dep. of the Interior Fish and Wildlife Serv. 1993. Doc. ES-61411.Google Scholar
62. Vale, T. R., 1974. Sagebrush conversion projects: An element of contemporary environmental change in the Western United States. Biol. Conserv. 6:274284.CrossRefGoogle Scholar
63. Vale, T. R., 1975. Presettlement vegetation in the sagebrush-grass area of the Intermountain West. J. Range Manage. 28:3236.CrossRefGoogle Scholar
64. Vitousek, P. M., 1988. Diversity and biological invasions of oceanic islands. p. 181189 in Wilson, E. O. and Peter, F. M., eds. Biodiversity. National Academy Press, Washington, DC.Google Scholar
65. Wallestad, R. O., and Pyrah, D. B. 1974. Movement and nesting of sage grouse hens in central Montana. J. Wildl. Manage. 38:630633.CrossRefGoogle Scholar
66. Wallestad, R., 1975. Male sage grouse responses to sagebrush treatment. J. Wildl. Manage. 39:482484.CrossRefGoogle Scholar
67. Weber, J. B., 1980. Ionization of buthiadazole, Vel 3510, tebuthiuron, fluridone, metribuzin, and prometryn. Weed Sci. 28:467474.CrossRefGoogle Scholar
68. West, N. E., 1993. Biodiversity of rangelands. J. Range Manage. 46:213.CrossRefGoogle Scholar
69. Whitaker, J. O. Jr., 1980. The Audubon Society Field Guide to North American Mammals. Alfred A. Knopf, New York. 745 p.Google Scholar
70. Whitson, T. D., and Alley, H. P. 1984. Tebuthiuron effects on Artemisia spp. and associated grasses. Weed Sci. 32:180184.CrossRefGoogle Scholar
71. Whitson, T. D., Ferrel, M. A., and Alley, H. P. 1988. Changes in rangeland canopy seven years after tebuthiuron application, Weed Technol. 2:486489.CrossRefGoogle Scholar
72. Whitson, T. D., 1991. Sagebrush: Classification, distribution, ecology, and control. p. 334341 in James, L., Evans, J. O., Ralphs, M. H., and Child, R. D., eds. Noxious Range Weeds. Westview Press. Boulder, CO.Google Scholar
73. Wilm, H. G., Costello, D. F., and Klipple, G. E. 1944. Estimating forage yield by the double sampling method. J. Am. Soc. Agron. 36:194203.CrossRefGoogle Scholar
74. Wright, H. A., and Bailey, A. W. 1982. Fire Ecology: United States and Southern Canada. John Wiley and Sons, NY. 501 p.Google Scholar
75. Young, J. A., Evans, R. A., and Major, J. J. 1972. Alien plants in the Great Basin. J. Range Manage. 25:194201.CrossRefGoogle Scholar
76. Young, J. A., Eckert, R. E. Jr., and Evans, R. A. 1979. Historical perspectives regarding the sagebrush ecosystem. p. 113 in The sagebrush ecosystem: A symposium. Utah State Univ., Logan.Google Scholar
77. Young, J. A., Evans, R. A., and Eckert, R. E. Jr., 1981. Environmental quality and the use of herbicides on Artemisia/grasslands of the U.S. Intermountain area. Agric. Environ. 6:5361.CrossRefGoogle Scholar
78. Zar, J. H., 1984. Biostatistical Analysis, 2nd ed. Prentice Hall, Englewood Cliff's, NJ. 718 p.Google Scholar
79. Zou, J., Flinders, J. T., Black, H. L., and Whisenant, S. G. 1989. Influence of experimental habitat manipulations on a desert rodent population in southern Utah. Great Basin Nat. 49:435–4.Google Scholar