Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-24T14:43:24.887Z Has data issue: false hasContentIssue false
  • English
  • Français

COMPARISON OF AGE STRUCTURE OF THREE MELANOPLUS SPP. (ORTHOPTERA: ACRIDIDAE) IN WINTER WHEAT AND ADJACENT RANGELAND

Published online by Cambridge University Press:  31 May 2012

Robert L. Gillespie  and
William P. Kemp
Robert L. Gillespie
Affiliation:
Washington State University, Cooperative Extension, Courthouse, Box 37, Ephrata, Washington, USA 98823
William P. Kemp
Affiliation:
Rangeland Insect Laboratory, U.S. Department of Agriculture, Agricultural Research Service, Bozeman, Montana, USA 59717-0366
Get access Rights & Permissions [Opens in a new window]

Abstract

Significant differences in age structure of grasshopper populations [Melanoplus sanguinipes (Fabricius), M. bivittatus (Say), and M. packardii Scudder] occurred in winter wheat and adjacent rangeland. In 1988, age structure differences were associated with density shifts in winter wheat between sample periods suggesting that older instars dispersed into the crop but younger instars remained in rangeland. In 1989 there was some partitioning of age classes between the two habitats, but no pattern emerged as in 1988. In 1990, significantly more older instars were collected in winter wheat than in rangeland. There were shifts in percentage density of the three grasshopper species in winter wheat but again no patterns emerged.

Résumé

Des différences significatives de la structure en fonction de l’âge ont été enregistrées chez les populations de trois espèces de Melanoplus [M. sanguinipes (Fabricius), M. bivittatus (Say) et M. packardii Scudder] dans des cultures de blé d’hiver et dans les zones de pâturage adjacentes. En 1988, les différences de structure en fonction de l’âge étaient associées aux changements de densité du blé entre les périodes d’échantillonnage, ce qui indique que les stades avancés se sont dispersés dans la récolte, mais que les stades plus jeunes sont restés dans les zones de pâturage. En 1989, il y avait bien séparation des classes d’âge entre les deux habitats, mais il n’y avait pas de pattern très défini comme en 1988. En 1990, un nombre significativement plus élevé d’individus des stades avancés ont été récoltés dans le blé d’hiver que dans les pâturages avoisinants; la densité (en pourcentage) des trois espèces s’était modifiée dans le blé d’hiver, mais il n’y avait pas de ségrégation définie comme en 1988.

[Traduit par la Rédaction]

Type
Articles
Information
The Canadian Entomologist , Volume 126 , Issue 6 , December 1994 , pp. 1277 - 1285
Copyright
Copyright © Entomological Society of Canada 1994

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

Begon, M., Harper, J.L., and Townsend, C.R.. 1990. Ecology: Individuals, Populations, and Communities. Blackwell Scientific Publications, London. 958 pp.Google Scholar
Chapman, R.F. 1982. The Insects: Structure and Function, 3rd ed. Harvard University Press, Cambridge, MA.919 pp.Google Scholar
Dempster, J.P. 1963. The population dynamics of grasshoppers and locusts. Biological Review 38: 490529.CrossRefGoogle Scholar
Geiger, R. 1965. The Climate near the Ground. Harvard University Press, Cambridge, MA.611 pp.Google Scholar
Hamilton, A.G. 1936. The relation of humidity and temperature to the development of three species of African locust. Locusta migratoria migratoroides R. & F., Schistocerca gregaria Forsk and Nomadacris septemfasciata Serv. Transactions of Royal Entomological Society of London 85: 160.Google Scholar
Hamilton, A.G. 1950. Further studies on the relations of humidity and temperature on development of two species of African locusts. Locusts migratoria migratoroides R. & F. and Schistocerca gregaria Forsk. Transactions of Royal Entomological Society of London 101: 158.Google Scholar
Kemp, W.P., and Dennis, B.. 1989. Development of two rangeland grasshoppers at constant temperatures: Development thresholds revisited. The Canadian Entomologist 121: 363371.Google Scholar
Kemp, W.P., Harvey, S.J., and O'Neill, K.M.. 1990 a. Habitat and insect biology revisited: The search for patterns. American Entomologist 36: 4449.CrossRefGoogle Scholar
Kemp, W.P., Harvey, S.J., and O'Neill, K.M.. 1990 b. Patterns of vegetation and grasshopper community composition. Oecologia 83: 299308.CrossRefGoogle ScholarPubMed
Kemp, W.P., and Sanchez, N.E.. 1987. Differences in post-diapause thermal requirements for eggs of two rangeland grasshoppers. The Canadian Entomologist 119: 653661.CrossRefGoogle Scholar
Lund, R.E. 1991. MSUSTAT. Statistical Analysis Package, version 5.00. Research and Development Institute Inc., Montana State University, Bozeman, MT.200 pp.Google Scholar
Mueggler, W.F., and Stewart, W.L.. 1980. Grasslands and Shrubland Habitat Types of Western Montana. USDA Forest Service GTR INT-66: 48 pp.Google Scholar
Onsager, J.A. 1991. Toward an optimum strategy for estimating density of grasshoppers (Orthoptera: Acrididae) from a Poisson Distribution. Environmental Entomology 20(3): 939944.CrossRefGoogle Scholar
Parker, J.R. 1930. Some Effects of Temperature and Moisture upon Melanoplus mexicanus mexicanus (Saussure) and Camnula pellucida (Orthoptera). Bulletin 223: 132 pp. Agricultural Experiment Station Montana State University, Bozeman, MT.Google Scholar
Parker, R., Newton, R.C., and Shotwell, R.L.. 1955. Observations on Mass Flights and Other Activities of the Migratory Grasshopper. USDA Technical Bulletin 1109: 46 pp.Google Scholar
Pepper, J.H., and Hastings, E.. 1952. The effects of solar radiation on grasshopper temperatures and activities. Ecology 33(1): 96103.CrossRefGoogle Scholar
Pfadt, R.E. 1949. Food plants as factors in the ecology of the lesser migratory grasshopper Melanoplus mexicanus mexicanus (Sauss). Wyoming Agriculture Experiment Station Bulletin 290.Google Scholar
Pickford, R. 1958. Observations on the reproductive potential of Melanoplus bilituratus (Wlk.) (Orthoptera: Acrididae) reared on different food plants in the laboratory. The Canadian Entomologist 90: 483485.CrossRefGoogle Scholar
Pickford, R. 1962. Development, survival and reproduction of Melanoplus bilituratus (Wlk.) (Orthoptera: Acrididae) reared on various food plants. The Canadian Entomologist 94(8): 859869.Google Scholar
Pickford, R. 1963. Wheat crops and native prairie in relation to nutritional ecology of Camnula pellucida (Scudder) (Orthoptera: Acrididae) in Saskatchewan. The Canadian Entomologist 95: 764770.Google Scholar
Putnam, L.G. 1962. Experiments with some native and introduced plants as foods for Camnula pellucida (Scudder) (Orthoptera: Acrididae) in western Canada. Canadian Journal of Plant Science 42: 589595.CrossRefGoogle Scholar
Richards, O.W., and Waloff, N.. 1954. Studies on the Biology and Population Dynamics of British Grasshoppers. Anti-Locust Bulletin 17: 124148. Anti-Locust Research Centre, London, England.Google Scholar
Riegert, P.W., Pickford, R., and Putnam, L.G.. 1965. Outbreaks of Camnula pellucida (Scudder), (Orthoptera: Acrididae), in relation to native grasslands and cereal crops in Saskatchewan. The Canadian Entomologist 97: 508514.Google Scholar
Rosenberg, N.J. 1974. Microclimate: The Biological Environment. John Wiley and Sons, New York, NY. 315 pp.Google Scholar
Shotwell, R.L. 1941. Life Histories and Habits of Some Grasshoppers of Economic Importance on the Great Plains. Technical Bulletin 774: 47 pp. USDA, Washington, DC.Google Scholar
Smith, D.S. 1959. Utilization of food plants by the migratory grasshopper, Melanoplus bilituratus (Walker) (Orthoptera: Acrididae), with some observations on the nutritional value of the plants. Annals of the Entomological Society of America 52: 674680.CrossRefGoogle Scholar
Smith, D.S. 1960. Effects of changing the phosphorus content of the food plant on the migratory grasshopper, Melanoplus bilituratus (Walker) (Orthoptera: Acrididae). The Canadian Entomologist 92: 103107.CrossRefGoogle Scholar
Smith, D.S., Handford, R.H., and Chefurka, W.. 1952. Some effects of various food plants on Melanoplus mexicanus mexicanus (Sauss) (Orthoptera: Acrididae). The Canadian Entomologist 84: 113117.Google Scholar
Smith, D.S., and Northcott, F.E.. 1951. The effects on the grasshoppers Melanoplus mexicanus mexicanus (Sauss) (Orthoptera: Acrididae) of varying the nitrogen content in its food plant. Canadian Journal of Zoology 29: 297304.Google Scholar