SIMULATION OF TEMPERATURE-DEPENDENT DEVELOPMENT IN POPULATION DYNAMICS MODELS12

R. E. Stinner; G. D. Butler Jr.; J. S. Bacheler; C. Tuttle

doi:10.4039/Ent1071167-11

Abstract

The simulation of variability in temperature-dependent development is discussed. An algorithm for simulation of this variability is developed and validated under constant and variable temperature regimes for Anthonomus grandis, Trichoplusia ni, and Heliothis zea.

References

Beyer, W. H. (Ed.). 1968. Handbook of tables for probability and statistics, 2nd ed. The Chemical Rubber Co., Cleveland. 642 pp.Google Scholar

Johnson, N. L. and Kotz, S.. 1970. Continuous univariate distributions, Vol. 2. Houghton Mifflin Co., Boston. 306 pp.Google Scholar

Jones, J. W. 1974. A simulation model of boll weevil population dynamics as influenced by the cotton crop status. Ph.D. Thesis, North Carolina State University, Raleigh. 231 pp.Google Scholar

Menke, W. W. 1973. A computer simulation model: the velvetbean caterpillar in the soybean agroecosystem. Fla Ent. 56(2): 92–102.CrossRef Google Scholar

Pearson, K. (Ed.). 1968. Tables of the incomplete Beta function, 2nd ed. Cambridge University Press, London. 320 pp.Google Scholar

Ruesink, W. In press. Modeling of pest populations in the alfalfa ecosystems with special reference to the alfalfa weevil. Proc. USSR-USA Symp. on Pest Mngt. (Michigan State Univ., Nov. 1974.)Google Scholar

Stinner, R. E., Rabb, R. L.., and Bradley, J. R.. 1974 a. Population dynamics of Heliothis zea (Boddie) and H. virescens (F.) in North Carolina: A simulation model. Environ. Ent. 3(1): 163–168.CrossRef Google Scholar

Stinner, R. E., Gutierrez, A. P., and Butler, G. D. Jr., 1974 b. An algorithm for temperature-dependent growth rate simulation. Can. Ent. 106: 519–524.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Sharpe, Peter J.H. Curry, Guy L. DeMichele, Don W. and Cole, Charles L. 1977. Distribution model of organism development times. Journal of Theoretical Biology, Vol. 66, Issue. 1, p. 21.

Stinner, R. E. Jones, J. W. Tuttle, C. and Caron, R. E. 1977. POPULATION MORTALITY AND CYCLICITY AS AFFECTED BY INTRASPECIFIC COMPETITION,. The Canadian Entomologist, Vol. 109, Issue. 6, p. 879.

Curry, Guy L. Feldman, Richard M. and Smith, Kirby C. 1978. A stochastic model of a temperature-dependent population. Theoretical Population Biology, Vol. 13, Issue. 2, p. 197.

Slater, J. D. and Pritchard, G. 1979. A STEPWISE COMPUTER PROGRAM FOR ESTIMATING DEVELOPMENT TIME AND SURVIVAL OF AEDES VEXANS (DIPTERA: CULICIDAE) LARVAE AND PUPAE IN FIELD POPULATIONS IN SOUTHERN ALBERTA. The Canadian Entomologist, Vol. 111, Issue. 11, p. 1241.

Keen, Robert and Parker, David L. 1979. Determining expected duration of development under conditions of alternating temperatures. Journal of Theoretical Biology, Vol. 81, Issue. 3, p. 599.

Johnson, Dan L. and Wellington, W. G. 1980. POST-EMBRYONIC GROWTH OF THE COLLEMBOLANSFOLSOMIA CANDIDAANDXENYLLA GRISEAAT THREE TEMPERATURES. The Canadian Entomologist, Vol. 112, Issue. 7, p. 687.

Sharpe, P. J. H. Schoolfield, R. M. and Butler, G. D. 1981. DISTRIBUTION MODEL OF HELIOTHIS ZEA (LEPIDOPTERA: NOCTUIDAE) DEVELOPMENT TIMES. The Canadian Entomologist, Vol. 113, Issue. 9, p. 845.

Bellows, T. S. and Birley, M. H. 1981. Estimating developmental and mortality rates and stage recruitment from insect stage‐frequency data. Population Ecology, Vol. 23, Issue. 2, p. 232.

Régnière, Jacques 1982. A PROCESS-ORIENTED MODEL OF SPRUCE BUDWORM PHENOLOGY (LEPIDOPTERA: TORTRICIDAE). The Canadian Entomologist, Vol. 114, Issue. 9, p. 811.

FLÜCKIGER, C. R. and BENZ, G. 1982. A TEMPERATURE‐DRIVEN MODEL TO SIMULATE THE POPULATION DEVELOPMENT OF THE SUMMERFRUIT TORTRIX, ADOXOPHYES ORANA. Entomologia Experimentalis et Applicata, Vol. 32, Issue. 2, p. 161.

Wilson, L. T. 1982. Development of an optimal monitoring program in cotton: Emphasis on spidermites andHeliothis spp.. Entomophaga, Vol. 27, Issue. S1, p. 45.

Zalucki, Myron P. 1982. TEMPERATURE AND RATE OF DEVELOPMENT IN DANAUS PLEXIPPUS L. AND D. CHRYSIPPUS L. (LEPIDOPTERA:NYMPHALIDAE). Australian Journal of Entomology, Vol. 21, Issue. 4, p. 241.

Régnière, Jacques 1984. A METHOD OF DESCRIBING AND USING VARIABILITY IN DEVELOPMENT RATES FOR THE SIMULATION OF INSECT PHENOLOGY. The Canadian Entomologist, Vol. 116, Issue. 10, p. 1367.

Wagner, Terence L. Gagne, James A. Sharpe, Peter J.H. and Coulson, Robert N. 1984. A biophysical model of southern pine beetle, Dendroctonus frontalis Zimmermann (Coleoptera: Scolytidae), development. Ecological Modelling, Vol. 21, Issue. 1-2, p. 125.

Feldman, Richard M. and Curry, Guy L. 1984. Mathematical foundations for modeling poikilotherm mortality. Mathematical Biosciences, Vol. 71, Issue. 1, p. 81.

Stimac, Jerry L. and O'Neil, Robert J. 1985. Biology Control in Agriculture Ipm System. p. 323.

Shaffer, Phillip L. and Gold, Harvey J. 1985. A simulation model of population dynamics of the codling moth, Cydia pomonella. Ecological Modelling, Vol. 30, Issue. 3-4, p. 247.

Bellows, T. S. 1986. Impact of developmental variance on behavior of models for insect populations I. Models for populations with unrestricted growth. Population Ecology, Vol. 28, Issue. 1, p. 53.

Logan, J.A. and Amman, G.D. 1986. A DISTRIBUTION MODEL FOR EGG DEVELOPMENT IN MOUNTAIN PINE BEETLE. The Canadian Entomologist, Vol. 118, Issue. 4, p. 361.

Ghosh, Jay B. 1987. A rate summation model of temperature dependent development with stochastic extensions. Mathematical Modelling, Vol. 8, Issue. , p. 170.

Download full list

Article contents

SIMULATION OF TEMPERATURE-DEPENDENT DEVELOPMENT IN POPULATION DYNAMICS MODELS1 2

Abstract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

SIMULATION OF TEMPERATURE-DEPENDENT DEVELOPMENT IN POPULATION DYNAMICS MODELS12

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests

SIMULATION OF TEMPERATURE-DEPENDENT DEVELOPMENT IN POPULATION DYNAMICS MODELS1 2