Generalized aphid population growth models with immigration and cumulative-size dependent dynamics. (English) Zbl 1147.92325
Summary: Mechanistic models in which the per-capita death rate of a population is proportional to the cumulative past size have been shown to describe adequately the population size curves for a number of aphid species. Such previous cumulative-sized based models have not included immigration. The inclusion of immigration is suggested biologically as local aphid populations are initiated by migration of winged aphids and as reproduction is temperature-dependent. This paper investigates two models with constant immigration, one with continuous immigration and the other with restricted immigration. Cases of the latter are relatively simple to fit to data. The results from these two immigration models are compared for data sets on the mustard aphid in India.
Software:
EasyFitReferences:
| [1] | Metcalf, R. L.; Metcalf, R. A., Destructive and Useful Insects (1995), McGraw-Hill: McGraw-Hill New York |
| [2] | Dixon, A. F.G., Aphid Ecology (1985), Chapman and Hall: Chapman and Hall New York |
| [3] | Matis, J. H.; Kiffe, T. R.; Matis, T. I.; Stevenson, D. E., Nonlinear stochastic modeling of aphid population growth, Math. Biosci., 198, 148 (2005) · Zbl 1090.92051 |
| [4] | Matis, J. H.; Kiffe, T. R.; Matis, T. I.; Stevenson, D. E., Application of population growth models based on cumulative size to pecan aphids, J. Ag. Biol. Environ. Stat., 11, 1 (2006) |
| [5] | Matis, J. H.; Kiffe, T. R.; Matis, T. I.; Jackman, J. A.; Singh, H., Population size models based on cumulative size, with application to aphids, Ecol. Model., 205, 81 (2007) |
| [6] | T.I. Matis, M.N. Parajulee, J.H. Matis, R.B. Shrestra. A mechanistic model based analysis of cotton aphid population dynamics data, Ag. Forest. Ento. in press.; T.I. Matis, M.N. Parajulee, J.H. Matis, R.B. Shrestra. A mechanistic model based analysis of cotton aphid population dynamics data, Ag. Forest. Ento. in press. |
| [7] | T.I. Matis, J.H. Matis, G.J. Michels Jr., M.N. Parajulee, Using the cumulative-size mechanistic model for analyzing insect data., Proc. 2007 Conf. Appl. Stat. Agr., Kansas State Dept. Stat., Manhattan, KS, 2008.; T.I. Matis, J.H. Matis, G.J. Michels Jr., M.N. Parajulee, Using the cumulative-size mechanistic model for analyzing insect data., Proc. 2007 Conf. Appl. Stat. Agr., Kansas State Dept. Stat., Manhattan, KS, 2008. |
| [8] | Matis, J. H.; Kiffe, T. R.; Matis, T. I.; Stevenson, D. E., Stochastic modeling of aphid population growth with nonlinear, power-law dynamics, Math. Biosci., 208, 469 (2007) · Zbl 1119.92052 |
| [9] | Kindlemann, P., A model of aphid population with age structure, (Capasso, V.; Grosso, E.; Paveri-Fontana, S. L., Mathematics in Biology and Medicine, Proceedings, Bari, 1983. Mathematics in Biology and Medicine, Proceedings, Bari, 1983, Lecture Notes in Biomathematics (1985), Springer: Springer Berlin), 72 |
| [10] | Kindlemann, P.; Arditi, R.; Dixon, A. F.G., A simple aphid population model, (Simon, J. C.; Dedryver, C. A.; Rispe, C.; Hulle, M., Aphids in a New Millennium (2004), INRA: INRA Paris), 325 |
| [11] | Prajneshu, A nonlinear statistical model for aphid population growth, J. Indian Soc. Agric. Stat., 51, 73 (1998) · Zbl 1188.62317 |
| [12] | Matis, J. H.; Kiffe, T. R.; Matis, T. I.; Jackman, J. A.; Grant, W. E.; Singh, H., On the use of growth rate parameters for projecting population sizes: application to aphids, Ecol. Model., 213, 133 (2008) |
| [13] | Johnson, N. L.; Kotz, S., Continuous Univariate Distributions - 1 (1970), Wiley: Wiley New York · Zbl 0213.21101 |
| [14] | Riley, J. R.; Reynolds, D. R.; Mukhopadhyay, S.; Ghosh, M. R.; Sarkar, T. K., Long-distance migration of aphids and other small insects in northeast India, Eur. J. Ento., 92, 639 (1995) |
| [15] | Srivastava, A.; Kashyap, N. P., Population build-up of mustard aphid, Lipaphis erysimi (Kalt.) on brassica in relation to weather factors, J. Insect Sci., 12, 141 (1999) |
| [16] | Prasad, S. K.; Phadke, K. G.; Mehrotra, K. N., Forecasting of mustard aphid, Lipaphis erysimi Kaltenbach on rapeseed crop, Proc. Indian Natl. Sci. Acad. (B), 50, 146 (1984) |
| [17] | Phadke, K. G., Ecological factors affecting aphid Lipaphis erysimi incidence on mustard crop, (Phadke, K. G., Aphidology in India (1986), A.R. Printers: A.R. Printers Calcutta), 37 |
| [18] | Roy, S. K.; Baral, K., Role of weather parameters on population build up of mustard aphid Lipaphis erysimi (Kaltenbach), J. Oilseeds Res., 19, 86 (2002) |
| [19] | Campbell, A.; Mackauer, M., Reproduction and population growth of the pea aphid (Homoptera: Aphididae) under laboratory conditions, Can. Ento., 109, 277 (1977) |
| [20] | McVean, R. I.K.; Dixon, A. F.G.; Harrington, T., Causes of regional and yearly variation in pea aphid numbers in eastern England, J. Appl. Ento., 123, 495 (1999) |
| [21] | Liu, T. X.; Yue, B., Comparison of some life history parameters between alate and apterous forma of turnip aphid (Homoptera: Aphididae) on cabbage under constant temperatures, Florida Ento., 84, 239 (2001) |
| [22] | Kac, M., Some mathematical models in science, Science, 166, 695 (1969) |
| [23] | EasyFit, MathWave Technologies, (www.mathwave.com; EasyFit, MathWave Technologies, (www.mathwave.com |
| [24] | SPSS. SPSS 11.0 for Macintosh. SPSS Inc., Chicago, IL, 2002.; SPSS. SPSS 11.0 for Macintosh. SPSS Inc., Chicago, IL, 2002. |
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
