Theoretical Ecology: Principles and ApplicationsRobert McCredie May, Angela R. McLean Oxford University Press, 2007 - 257 من الصفحات Robert May's seminal book has played a central role in the development of ecological science. Originally published in 1976, this influential text has overseen the transition of ecology from an observational and descriptive subject to one with a solid conceptual core. Indeed, it is a testament to its influence that a great deal of the novel material presented in the earlier editions has now been incorporated into standard undergraduate textbooks. It is now a quarter of a century since the publication of the second edition, and a thorough revision is timely. Theoretical Ecology provides a succinct, up-to-date overview of the field set in the context of applications, thereby bridging the traditional division of theory and practice. It describes the recent advances in our understanding of how interacting populations of plants and animals change over time and space, in response to natural or human-created disturbance. In an integrated way, initial chapters give an account of the basic principles governing the structure, function, and temporal and spatial dynamics of populations and communities of plants and animals. Later chapters outline applications of these ideas to practical issues including fisheries, infectious diseases, tomorrow's food supplies, climate change, and conservation biology. Throughout the book, emphasis is placed on questions which as yet remain unanswered. The editors have invited the top scientists in the field to collaborate with the next generation of theoretical ecologists. The result is an accessible, advanced textbook suitable for senior undergraduate and graduate level students as well as researchers in the fields of ecology, mathematical biology, environmental and resources management. It will also be of interest to the general reader seeking a better understanding of a range of global environmental problems. |
من داخل الكتاب
النتائج 1-3 من 55
الصفحة 190
... global greenhouse gas emission [ and to ] recognize that delayed action will increase the risk of adverse environmental effects and will likely incur a greater cost ' . Global warming caused by elevated greenhouse gas levels is ...
... global greenhouse gas emission [ and to ] recognize that delayed action will increase the risk of adverse environmental effects and will likely incur a greater cost ' . Global warming caused by elevated greenhouse gas levels is ...
الصفحة 214
... Global hectares per person 2 10 0 319 390 337 520 334 3 407 810 connection with Figure 15.1 . Figure 15.2 shows , for the planet's major regions , the average EF per person ( the height of the respective area ) and the total population ...
... Global hectares per person 2 10 0 319 390 337 520 334 3 407 810 connection with Figure 15.1 . Figure 15.2 shows , for the planet's major regions , the average EF per person ( the height of the respective area ) and the total population ...
الصفحة 231
... global distribution of biodiversity inferred from cliamtic constraints : results from a process - based modelling study . Global Change Biology 6 : 507-523 . Klinkhamer , P.G.L. , de Jong , T.J. , Metz , J.A.J. , and Val , J. 1987. Life ...
... global distribution of biodiversity inferred from cliamtic constraints : results from a process - based modelling study . Global Change Biology 6 : 507-523 . Klinkhamer , P.G.L. , de Jong , T.J. , Metz , J.A.J. , and Val , J. 1987. Life ...
المحتوى
Singlespecies dynamics | 17 |
Metapopulations and their spatial dynamics | 35 |
Plant population dynamics | 62 |
حقوق النشر | |
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عبارات ومصطلحات مألوفة
abundance agriculture Allee effect animals annual annual plant areas assessment behaviour biodiversity Biology biomass birth rate Bonsall chaos chapter climate change coexistence colonization competition competitor complex conservation conservation biology cooperation curve cycles death rate decline demographic density dependence disease dispersal distribution ecology ecosystem services effects environment environmental epidemic equation equilibrium estimates evolutionary example extinction fecundity Figure fish fisheries food-web function global Grenfell growth rate habitat habitat loss Hassell herbivore heterogeneity host human increase indirect reciprocity individuals infection levels Lotka-Volterra metapopulation monoculture mortality natural niche nonlinear number of species parameters parasitism parasitoid patches patterns persistence plant population density population dynamics population growth predator-prey interactions predator-prey pairs predators predicted prey Prisoner's Dilemma production random range recruitment relatively result scale Sciences seed simple spatial species richness stochastic strategies structure studies Sugihara theoretical theory Tilman tion total number trade-offs trophic trophic levels