Introduction
Part I Change over Time
Chapter 1 Introducing Difference Equations
Chapter 2 Duckweed on a Pond: Exponential Growth
Chapter 3 Throwing Shade I: Logistic Growth
Chapter 4 Throwing Shade II: Lotka-Volterra Competition
Chapter 5 Rabies Removal: SIR Models
Part II Understanding Uncertainty
Chapter 6 Introducing Probability
Chapter 7 A Bird in the Cam I: Single-Variable Probability
Chapter 8 A Bird in the Cam II: Two-Variable Probability
Chapter 9 Picking Ticks: Bayes’s Rule
Chapter 10 Rabbit Rates: Probability Distributions
Part III Modeling Multiple States
Chapter 11 Introducing Matrix Models
Chapter 12 Imagine All the Beetles: Age-Structured Models
Chapter 13 The Road to Succession: Transition Matrices
Chapter 14 A Pair of Populations: Absorption
Chapter 15 Fish Finders: Diffusion
Part IV Explaining Data
Chapter 16 Introducing Statistics
Chapter 17 Seedling Counts I: Maximum Likelihood
Chapter 18 Seedling Counts II: Model Selection
Chapter 19 Flattened Frogs I: Generalized Linear Models
Chapter 20 Flattened Frogs II: Hypothesis Testing
Part V Expanding the Toolbox
Chapter 21 Other Techniques
Chapter 22 Bird Islands: Graphical Thinking
Chapter 23 Max Plant Institute: Optimization
Chapter 24 Bears with Me: Stochastic Simulation
Chapter 25 Natives in the Neighborhood: Cellular Automata
References
Index
Justin Kitzes is assistant professor of biological sciences at the University of Pittsburgh. He is coeditor of The Practice of Reproducible Research:Case Studies and Lessons from the Data-Intensive Sciences.
"Handbook of Quantitative Ecology is most valuable. The book
clearly, briefly, and gently introduces readers to many
quantitative approaches one can find used in ecology today. . .
. This book can (and should) be given to the enthusiastic
undergraduate with an interest in ecology, the master’s or PhD
student with little to no mathematical training, or a professor
looking to develop or reshape a course in quantitative biology. The
author beautifully illustrates how effective quantitative analysis
can be for solving ecological questions."
*Quarterly Review of Biology*
"Quantitative ecology is the application of mathematical modeling
and probability theory to ecological concepts. Kitzes provides a
short introduction to the quantitative methods most relevant to an
introductory undergraduate course in ecology. In addition to short
chapters introducing the methods of quantitative ecology, 20
chapters each present a simple example that can be studied through
a quantitative method. Each chapter extends to four or five pages.
After presenting the chapter's problem, the appropriate
mathematical method is explained. Kitzes presents readers with
specific instructions on setting up the mathematical model in a
spreadsheet. His writing style is very clear, employing only
minimal jargon. The mathematics is limited to algebra, presenting a
low barrier to students without much mathematical background. The
methods include difference equations, probability, matrix models,
and several others. . . . Recommended."
*Choice*
“A stroke of genius. Kitzes does an excellent job of translating
the properties of biological systems into mathematical models,
using basic logic and without any advanced math. His approach is a
powerful way to demystify these models and make them
intuitive.”
*Corlett Wolfe Wood, University of Pennsylvania*
“A low-threshold, high-ceiling introduction. Kitzes’s book will
appeal to undergraduate and graduate students who wish to increase
their quantitative understanding to be able to better engage with
the literature (which has grown increasingly quantitative) and take
the first step—a large leap, in fact—toward becoming practitioners
of quantitative ecology.”
*Andrew Rominger, University of Maine*
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