Record Display for the EPA National Library Catalog


Main Title Population ecology : first principles /
Author Vandermeer, John H.
Other Authors
Author Title of a Work
Goldberg, Deborah Esther.
Publisher Princeton University Press,
Year Published 2003
OCLC Number 50606520
ISBN 0691114404; 9780691114408; 0691114412; 9780691114415
Subjects Population biology--Mathematical models ; Ecology--Mathematical models ; Mathematisches Modell ; Populationsbiologie ; èOkologie ; Demèokologie ; Populaties (biologie) ; Ecologie ; âEcologie des populations ; Modèle mathématique ; Dynamique des populations
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Library Call Number Additional Info Location Last
EHBM  QH352.V36 2003 CEMM/ACESD Library/Narragansett,RI 12/28/2021
Collation xxi, 280 pages : illustrations ; 24 cm
Includes bibliographical references (pages 265-272) and index.
Contents Notes
Publisher's description: How can the future number of deer, agricultural pests, or cod be calculated based on the present number of individuals and their age distribution? How long will it take for a viral outbreak in a particular city to reach another city five hundred miles away? In addressing such basic questions, ecologists today are as likely to turn to complicated differential equations as to life histories--a dramatic change from thirty years ago. Population ecology is the mathematical backbone of ecology. Here, two leading experts provide the underlying quantitative concepts that all modern-day ecologists need. John Vandermeer and Deborah Goldberg show that populations are more than simply collections of individuals. Complex variables such as the size distribution of individuals and allotted territory for expanding groups come into play when mathematical models are applied. The authors build these models from the ground up, from first principles, using a much broader range of empirical examples--from plants to animals, from viruses to humans--than do standard texts. And they address several complicating issues such as age-structured populations, spatially distributed populations, and metapopulations. Beginning with a review of elementary principles, the book goes on to consider theoretical issues involving life histories, complications in the application of the core principles, statistical descriptions of spatial aggregation of individuals and populations as well as population dynamic models incorporating spatial information, and introductions to two-species interactions. Complemented by superb illustrations that further clarify the links between the mathematical models and biology, Population Ecology is the most straightforward and authoritative overview of the field to date. It will have broad appeal among undergraduates, graduate students, and practicing ecologists.