Metapopulation dynamics (original) (raw)

References

1. Nicholson, A. J. The balance of animal populations. J. Anim. Ecol. 2, 132–178 (1933).
   Article Google Scholar
2. Andrewartha, H. G. & Birch, L. C. The Distribution and Abundance of Animals(University of Chicago Press, Chicago, (1954)).
   Google Scholar
3. Wright, S. Evolution in Mendelian populations. Genetics 16, 97–159 (1931).
   CAS PubMed PubMed Central Google Scholar
4. Wright, S. The roles of mutation, inbreeding, crossbreeding and selection in evolution. Proc. Sixth Int. Congr. Genet. 1, 356–366 (1932).
   Google Scholar
5. Hanski, I. & Gilpin, M. E. Metapopulation Biology: Ecology, Genetics, and Evolution(Academic, San Diego, (1997)).
   MATH Google Scholar
6. Tilman, D. & Kareiva, P. Spatial Ecology(Princeton University Press, Princeton, (1997)).
   Google Scholar
7. Bascompte, J. & Solé, R. V. Modeling Spatiotemporal Dynamics in Ecology(Springer, New York, (1998)).
   Google Scholar
8. Durrett, R. & Levin, S. A. Stochastic spatial models: a user's guide to ecological applications. Phil. Trans. R. Soc. Lond. B 343, 329–350 (1994).
   Article ADS Google Scholar
9. Forman, R. T. T. Some general principles of landscape and regional ecology. Landscape Ecology 10, 133–142 (1995).
   Article Google Scholar
10. Wiens, J. A. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 43–68 (Academic, San Diego, (1997)).
    Book Google Scholar
11. Kareiva, P. & Wennergren, U. Connecting landscape patterns to ecosystem and population processes. Nature 373, 299–302 (1995).
    Article ADS CAS Google Scholar
12. Wilson, H. B. et al. in Modeling Spatiotemporal Dynamics in Ecology(eds Bascompte, J. & Solé, R. V.) 63–82 (Springer, New York, (1998)).
    Google Scholar
13. Nee, S., May, R. M. & Hassell, M. P. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 123–148 (Academic, San Diego, (1997)).
    Book Google Scholar
14. Harrison, S. in Large-scale Ecology and Conservation Biology(eds Edwards, P. J., May, R. M. & Webb, N. R.) 111–128 (Blackwell Scientific, Oxford, (1994)).
    Google Scholar
15. Settele, J. Species Survival in Fragmented Landscapes(Kluwer, Dordrecht, (1996)).
    Book Google Scholar
16. McCullough, D. L. Metapopulations and Wildlife Conservation(Island, Washington DC, (1997)).
    Google Scholar
17. Levins, R. Some demographic and genetic consequences of environmental heterogeneity for biological control. Bull. Entomol. Soc. Am. 15, 237–240 (1969).
    Google Scholar
18. Anderson, R. M. & May, R. M. Infectious Diseases of Humans: Dynamics and Control(Oxford University Press, Oxford, (1991)).
    Google Scholar
19. Grenfell, B. & Harwood, J. (Meta)population dynamics of infectious diseases. Trends Ecol. Evol. 12, 395–404 (1997).
    Article CAS Google Scholar
20. Bartlett, M. S. Measles periodicity and community size. J. R. Stat. Soc. A 120, 48–70 (1957).
    Article Google Scholar
21. Hanski, I. Metapopulation Ecology(Oxford University Press, Oxford, in the press).
22. Hanski, I. Single-species metapopulation dynamics: concepts, models and observations. Biol. J. Linn. Soc. 42, 17–38 (1991).
    Article Google Scholar
23. Gyllenberg, M., Hanski, I. & Hastings, A. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 93–122 (Academic, San Diego, (1997)).
    Book Google Scholar
24. Hanski, I. Patch-occupancy dynamics in fragmented landscapes. Trends Ecol. Evol. 9, 131–135 (1994).
    Article CAS Google Scholar
25. Hanski, I. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 69–92 (Academic, San Diego, (1997)).
    Book Google Scholar
26. Hanski, I., Moilanen, A. & Gyllenberg, M. Minimum viable metapopulation size. Am. Nat. 147, 527–541 (1996).
    Article Google Scholar
27. Chesson, P. in Modeling Spatiotemporal Dynamics in Ecology(eds Bascompte, J. & Solé, R. V.) 151–166 (Springer, New York, (1998)).
    Google Scholar
28. Thomas, C. D. & Hanski, I. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 359–386 (Academic, San Diego, (1997)).
    Book Google Scholar
29. Saccheri, I. J. et al. Inbreeding and extinction in a butterfly metapopulation. Nature 392, 491–494 (1998).
    Article ADS CAS Google Scholar
30. Lande, R. Genetics and demography in biological conservation. Science 241, 1455–1460 (1988).
    Article ADS CAS Google Scholar
31. Lande, R. Risks of population extinction from demographic and environmental stochasticity and random catastrophes. Am. Nat. 142, 911–927 (1993).
    Article Google Scholar
32. Foley, P. Predicting extinction times from environmental stochasticity and carrying capacity. Cons. Biol. 8, 124–137 (1994).
    Article Google Scholar
33. Royama, T. Analytical Population Dynamics(Chapman & Hall, London, (1992)).
    Book Google Scholar
34. Turchin, P. in Population Dynamics: New Approaches and Synthesis(eds Cappuccino, N. & Price, P.) 19–40 (Academic, London, (1995)).
    Book Google Scholar
35. den Boer, P. J. Seeing the tree for the wood: random walks or bounded fluctuations of population size? Oecologia 86, 484–491 (1991).
    Article ADS CAS Google Scholar
36. Tilman, D. et al. Habitat destruction and the extinction debt. Nature 371, 65–66 (1994).
    Article ADS Google Scholar
37. Hastings, A. & Harrison, S. Metapopulation dynamics and genetics. Annu. Rev. Ecol. Syst. 25, 167–188 (1994).
    Article Google Scholar
38. Hassell, M. P., Comins, H. N. & May, R. M. Species coexistence and self-organizing spatial dynamics. Nature 370, 290–292 (1994).
    Article ADS Google Scholar
39. Barton, N. H. & Whitlock, M. C. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 183–214 (Academic, San Diego, (1997)).
    Book Google Scholar
40. Hedrick, P. W. & Gilpin, M. E. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 166–182 (Academic, San Diego, (1997)).
    Google Scholar
41. Olivieri, I. & Gouyon, P.-H. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 293–324 (Academic, San Diego, (1997)).
    Book Google Scholar
42. Murphy, D. D., Freas, K. S. & Weiss, S. B. An environment-metapopulation approach to the conservation of an endangered invertebrate. Cons. Biol. 4, 41–51 (1990).
    Article Google Scholar
43. Coyne, J. A., Barton, N. H. & Turelli, M. Acritique of Wright's shifting balance theory of evolution. Evolution 51, 643–671 (1997).
    Article Google Scholar
44. Leimar, O. & Nordberg, U. Metapopulation extinction and genetic variation in dispersal-related traits. Oikos 80, 448–458 (1997).
    Article Google Scholar
45. Wahlberg, N., Moilanen, A. & Hanski, I. Predicting the occurrence of endangered species in fragmented landscapes. Science 273, 1536–1538 (1996).
    Article ADS CAS Google Scholar
46. Ims, R. A. & Yoccoz, N. G. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 247–266 (Academic, San Diego, (1997)).
    Book Google Scholar
47. Turchin, P. Quantitative Analysis of Movement: Measuring and Modelling Population Redistribution in Animals and Plants(Sinaur, Sunderland, MA, (1998)).
    Google Scholar
48. Hanski, I. Apractical model of metapopulation dynamics. J. Anim. Ecol. 63, 151–162 (1994).
    Article Google Scholar
49. ter Braak, J. F., Hanski, I. A. & Verboom, J. in Modeling Spatiotemporal Dynamics in Ecology(eds Bascompte, J. & Solé, R. V.) 167–188 (Springer, New York, (1998)).
    Google Scholar
50. Moilanen, A. Patch occupancy models of metapopulation dynamics: efficient parameter estimation with implicit statistical inference. Ecology(in the press).
51. Moilanen, A., Smith, A. T. & Hanski, I. A. Long-term dynamics in a metapopulation of the American pika. Am. Nat. 152, 530–542 (1998).
    CAS PubMed Google Scholar
52. Hanski, I. Inferences from ecological incidence functions. Am. Nat. 139, 657–662 (1992).
    Article Google Scholar
53. Pacala, S. W. & Levin, S. A. in Spatial Ecology(eds Tilman, D. & Kareiva, P.) 204–232 (Princeton University Press, Princeton, (1997)).
    Google Scholar
54. Cain, M. L. et al. Neighbourhood models of clonal growth in the white glover Trifolium repens. Am. Nat. 145, 888–917 (1995).
    Article Google Scholar
55. Turchin, P. et al. in Modeling Spatiotemporal Dynamics in Ecology(eds Bascompte, J. & Solé, R. V.) 199–213 (Springer, New York, (1998)).
    Google Scholar
56. Maron, J. L. & Harrison, S. Spatial pattern formation in an insect host-parasitoid system. Science 278, 1619–1621 (1998).
    Article ADS Google Scholar
57. Hanski, I. & Gyllenberg, M. Two general metapopulation models and the core-satellite species hypothesis. Am. Nat. 142, 17–41 (1993).
    Article Google Scholar
58. Temple, S. A. The problem of avian extinctions. Curr. Ornithol. 3, 453–485 (1986).
    Article Google Scholar
59. Akçakaya, H. R. & Ferson, S. RAMAS/Space User Manual: Spatially Structured Population Models for Conservation Biology(Applied Biomathematics, New York, (1992)).
    Google Scholar
60. Possingham, H. P. & Noble, I. R. in Research Consultancy for the Research Assessment Commission, Forest and Timber Inquiry(Canberra, (1991)).
    Google Scholar
61. Sjögren-Gulve, P. & Ray, C. in Metapopulations and Wildlife Conservation(ed McCullough, D. R.) 111–138 (Island, Washington DC, (1997)).
    Google Scholar
62. Andrén, H. in Mosaic Landscapes and Ecological Processes(eds Hansson, L., Fahrig, L. & Merriam, G.) 225–255 (Chapman & Hall, London, (1995)).
    Book Google Scholar
63. Nee, S. & May, R. M. Dynamics of metapopulations: Habitat destruction and competitive coexistence. J. Anim. Ecol. 61, 37–40 (1992).
    Article Google Scholar
64. Caswell, H. & Cohen, J. E. Disturbance, interspecific interaction and diversity in metapopulations. Biol. J. Linn. Soc. 42, 193–218 (1991).
    Article Google Scholar
65. Holt, R. D. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 149–165 (Academic, San Diego, (1997)).
    Book Google Scholar
66. Hanski, I. & Gyllenberg, M. Uniting two general patterns in the distribution of species. Science 275, 397–400 (1997).
    Article CAS Google Scholar
67. MacArthur, R. H. & Wilson, E. O. The Theory of Island Biogeography(Princeton University Press, Princeton, (1967)).
    Google Scholar
68. Lawton, J. H. Range, population abundance and conservation. Trends Ecol. Evol. 8, 409–413 (1993).
    Article CAS Google Scholar
69. Moilanen, A. & Hanski, I. Metapopulation dynamics: effects of habitat quality and landscape structure. Ecology 79, 2503–2515 (1998).
    Article Google Scholar
70. Hanski, I. & Simberloff, D. in Metapopulation Biology(eds Hanski, I. & Gilpin, M. E.) 5–26 (Academic, San Diego, (1997)).
    Book Google Scholar
71. Thomas, C. D. in Aspects of the Genesis and Maintenance of Biological Diversity(eds Hochberg, M. E., Clobert, J. & Barbault, R.) 292–307 (Oxford University Press, Oxford, (1996)).
    Google Scholar
72. Pressey, R. L., Possingham, H. P. & Day, J. R. Effectiveness of alternative heuristic algorithms for identifying indicative minimum requirements for conservation reserves. Biol. Cons. 80, 207–219 (1997).
    Article Google Scholar
73. With, K. A., Gardner, R. H. & Turner, M. G. Landscape connectivity and population distributions in heterogeneous landscapes. Oikos 78, 151–169 (1997).
    Article Google Scholar
74. Weiss, S. J., Murphy, D. D. & White, R. R. Sun, slope and butterflies: topographic determinants of habitat quality in Euphydryas editha. Ecology 69, 1486–1496 (1988).
    Article Google Scholar
75. Kindvall, O. The impact of extreme weather on habitat preference and survival in a metapopulation of the bush cricket Metrioptera bicolor in Sweden. Biol. Cons. 73, 51–58 (1995).
    Article Google Scholar
76. Doak, D. F. & Mills, L. S. Auseful role for theory in conservation. Ecology 75, 615–626 (1994).
    Article Google Scholar
77. Gyllenberg, M. & Hanski, I. Habitat deterioration, habitat destruction and metapopulation persistence in a heterogeneous landscape. Theor. Pop. Biol. 52, 198–215 (1997).
    Article CAS Google Scholar
78. Hanski, I. et al. Multiple equilibria in metapopulation dynamics. Nature 377, 618–621 (1995).
    Article ADS CAS Google Scholar

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