Dewey Class |
570.285 |
Title |
Mathematical Models in Population Biology and Epidemiology ([Ebook]) / by Fred Brauer, Carlos Castillo-Chavez. |
Author |
Brauer, Fred , 1932- |
Added Personal Name |
Castillo-Chavez, Carlos |
Other name(s) |
SpringerLink (Online service) |
Edition statement |
Second edition |
Publication |
New York, NY : Springer , 2012. |
Physical Details |
XXIII, 508 pages : online resource. |
Series |
Texts in applied mathematics 0939-2475 ; ; 40 |
ISBN |
9781461416869 |
Summary Note |
This textbook provides an introduction to the field of mathematical biology through the integration of classical applications in ecology with more recent applications to epidemiology, particularly in the context of spread of infectious diseases. It integrates modeling, mathematics, and applications in a semi-rigorous way, stating theoretical results and giving references but not necessarily giving detailed proofs, providing a solid introduction to the field to undergraduates (junior and senior level), graduate students in applied mathematics, ecology, epidemiology or evolutionary biology, sustainability scientists, and to researchers who must routinely read the practical and theoretical results that come from modeling in ecology and epidemiology. This new edition has been updated throughout. In particular the chapters on epidemiology have been updated and extended considerably, and there is a new chapter on spatially structured populations that incorporates dispersal. The number of problems has been increased and the number of projects has more than doubled, in particular those stressing connections to data. In addition some examples, exercises, and projects include use of Maple and Matlab. Review of first edition: "A strength of the book is the large number of biologically-motivated problem sets. These and the references to the original biological papers would be valuable resources for an instructor." (UK Nonlinear News, 2001): |
Contents note |
Part I: Simple Single-Species Models. 1. Continuous population models. 2. Discrete population models. 3. Continuous single-species population models with delay -- Part II: Models for Interacting Species. 4. Introduction and mathematical preliminaries. 5. Continuous models for two interacting populations. 6. Harvesting in two-species population models. 7. Multi-species population models -- Part III: Structured Population Models. 8. Models for population with age structure. 9. Models for populations with spatial distribution. |
System details note |
Online access to this digital book is restricted to subscription institutions through IP address (only for SISSA internal users). |
Internet Site |
http://dx.doi.org/10.1007/978-1-4614-1686-9 |
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