WECA01 08/17/2005 04:34PM Page i Wildlife Ecology, Conservation, and Management WECA01 08/17/2005 04:34PM Page ii To our colleagues Graeme Caughley, Peter Yodzis, and James N.M. Smith who have influenced both our approach to wildlife biology and the writing of this book. WECA01 08/17/2005 04:34PM Page iii Wildlife Ecology, Conservation, and Management Second Edition Anthony R.E. Sinclair PhD, FRS Biodiversity Research Centre, University of British Columbia, Vancouver, Canada John M. Fryxell PhD Department of Integrative Biology, University of Guelph, Guelph, Canada Graeme Caughley PhD CSIRO, Canberra, Australia WECA01 08/17/2005 04:34PM Page iv © 2006 by Anthony R.E. Sinclair and John M. Fryxell © 1994 by Blackwell Science BLACKWELL PUBLISHING 350 Main Street, Malden, MA 02148-5020, USA 9600 Garsington Road, Oxford OX4 2DQ, UK 550 Swanston Street, Carlton, Victoria 3053, Australia The right of Anthony R.E. Sinclair and John M. Fryxell to be identified as the Authors of this Work has been asserted in accordance with the UK Copyright, Designs, and Patents Act 1988. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, except as permitted by the UK Copyright, Designs, and Patents Act 1988, without the prior permission of the publisher. First edition published 1994 Second edition published 2006 by Blackwell Publishing Ltd 1 2006 Library of Congress Cataloging-in-Publication Data Sinclair, A.R.E. (Anthony Ronald Entrican) Wildlife ecology, conservation, and management / Anthony R.E. Sinclair, John M. Fryxell, Graeme Caughley. – 2nd ed. p. cm. Rev. ed. of: Wildlife ecology and management / Graeme Caughley, Anthony R.E. Sinclair. Includes bibliographical references and index. ISBN-13: 978-1-4051-0737-2 (pbk. : alk. paper) ISBN-10: 1-4051-0737-5 (pbk. : alk. paper) 1. Wildlife management. 2. Wildlife conservation. 3. Animal ecology. I. Fryxell, John M., 1954– II. Caughley, Graeme. III. Caughley, Graeme. Wildlife ecology and management. IV. Title.=20 SK355.C38 2005 639.9–dc22 2005007229 A catalogue record for this title is available from the British Library. Set in 9.5/12pt Berkeley by Graphicraft Limited, Hong Kong Printed and bound in India by Replika Press The publisher’s policy is to use permanent paper from mills that operate a sustainable forestry policy, and which hasbeen manufactured from pulp processed using acid-free and elementary chlorine-free practices. Furthermore, the publisher ensures that the text paper and cover board used have met acceptable environmental accreditation standards. For further information on Blackwell Publishing, visit our website: www.blackwellpublishing.com WECA01 08/17/2005 04:34PM Page v Contents Preface xi 1 Introduction: goals and decisions 1 1.1 How to use this book 1 1.2 What is wildlife conservation and management? 2 1.3 Goals of management 3 1.4 Hierarchies of decision 5 1.5 Policy goals 7 1.6 Feasible options 8 1.7 Summary 8 Part 1 Wildlife ecology 9 2 Biomes 11 2.1 Introduction 11 2.2 Forest biomes 12 2.3 Woodland biomes 14 2.4 Shrublands 14 2.5 Grassland biomes 15 2.6 Semi-desert scrub 17 2.7 Deserts 17 2.8 Marine biomes 17 2.9 Summary 18 3 Animals as individuals 19 3.1 Introduction 19 3.2 Adaptation 19 3.3 The theory of natural selection 19 3.4 Examples of adaptation 21 3.5 The effects of history 23 3.6 The abiotic environment 27 3.7 Genetic characteristics of individuals 27 3.8 Applied aspects 33 3.9 Summary 35 v WECA01 08/17/2005 04:34PM Page vi vi CONTENTS 4 Food and nutrition 36 4.1 Introduction 36 4.2 Constituents of food 36 4.3 Variation in food supply 40 4.4 Measurement of food supply 42 4.5 Basal metabolic rate and food requirement 46 4.6 Morphology of herbivore digestion 49 4.7 Food passage rate and food requirement 51 4.8 Body size and diet selection 52 4.9 Indices of body condition 53 4.10 Summary 59 5 The ecology of behavior 60 5.1 Introduction 60 5.2 Diet selection 60 5.3 Optimal patch or habitat use 66 5.4 Risk-sensitive habitat use 69 5.5 Quantifying habitat preference using resource selection functions 70 5.6 Social behavior and foraging 72 5.7 Summary 77 6 Population growth 78 6.1 Introduction 78 6.2 Rate of increase 78 6.3 Fecundity rate 82 6.4 Mortality rate 82 6.5 Direct estimation of life-table parameters 84 6.6 Indirect estimation of life-table parameters 85 6.7 Relationship between parameters 87 6.8 Geometric or exponential population growth 88 6.9 Summary 89 7 Dispersal, dispersion, and distribution 90 7.1 Introduction 90 7.2 Dispersal 90 7.3 Dispersion 92 7.4 Distribution 93 7.5 Distribution, abundance, and range collapse 98 7.6 Species reintroductions or invasions 99 7.7 Dispersal and the sustainability of metapopulations 104 7.8 Summary 108 8 Population regulation, fluctuation, and competition within species 109 8.1 Introduction 109 8.2 Stability of populations 109 8.3 The theory of population limitation and regulation 111 WECA01 08/17/2005 04:34PM Page vii CONTENTS vii 8.4 Evidence for regulation 116 8.5 Applications of regulation 120 8.6 Logistic model of population regulation 121 8.7 Stability, cycles, and chaos 125 8.8 Intraspecific competition 131 8.9 Interactions of food, predators, and disease 134 8.10 Summary 134 9 Competition and facilitation between species 135 9.1 Introduction 135 9.2 Theoretical aspects of interspecific competition 136 9.3 Experimental demonstrations of competition 138 9.4 The concept of the niche 143 9.5 The competitive exclusion principle 146 9.6 Resource partitioning and habitat selection 146 9.7 Competition in variable environments 153 9.8 Apparent competition 153 9.9 Facilitation 154 9.10 Applied aspects of competition 159 9.11 Summary 162 10 Predation 163 10.1 Introduction 163 10.2 Predation and management 163 10.3 Definitions 163 10.4 The effect of predators on prey density 164 10.5 The behavior of predators 165 10.6 Numerical response of predators to prey density 169 10.7 The total response 170 10.8 Behavior of the prey 176 10.9 Summary 178 11 Parasites and pathogens 179 11.1 Introduction and definitions 179 11.2 Effects of parasites 179 11.3 The basic parameters of epidemiology 180 11.4 Determinants of spread 183 11.5 Endemic pathogens 184 11.6 Endemic pathogens: synergistic interactions with food and predators 184 11.7 Epizootic diseases 186 11.8 Emerging infectious diseases of wildlife 187 11.9 Parasites and the regulation of host populations 188 11.10 Parasites and host communities 190 11.11 Parasites and conservation 191 11.12 Parasites and control of pests 194 11.13 Summary 195 WECA01 08/17/2005 04:34PM Page viii viii CONTENTS 12 Consumer–resource dynamics 196 12.1 Introduction 196 12.2 Quality and quantity of a resource 196 12.3 Kinds of resources 196 12.4 Consumer–resource dynamics: general theory 197 12.5 Kangaroos and their food plants in semi-arid Australian savannas 200 12.6 Wolf–moose–woody plant dynamics in the boreal forest 207 12.7 Other population cycles 212 12.8 Summary 215 Part 2 Wildlife conservation and management 217 13 Counting animals 219 13.1 Introduction 219 13.2 Estimates 219 13.3 Total counts 219 13.4 Sampled counts: the logic 221 13.5 Sampled counts: methods and arithmetic 226 13.6 Indirect estimates of population size 235 13.7 Indices 241 13.8 Summary 243 14 Age and stage structure 244 14.1 Age-specific population models 244 14.2 Stage-specific models 247 14.3 Sensitivity and elasticity of matrix models 248 14.4 Short-term changes in structured populations 251 14.5 Summary 252 15 Model evaluation and adaptive management 253 15.1 Introduction 253 15.2 Fitting models to data and estimation of parameters 254 15.3 Measuring the likelihood of models in light of the observed data 256 15.4 Evaluating the likelihood of alternative models using AIC 258 15.5 Adaptive management 264 15.6 Summary 267 16 Experimental management 268 16.1 Introduction 268 16.2 Differentiating success from failure 268 16.3 Technical judgments can be tested 269 16.4 The nature of the evidence 272 16.5 Experimental and survey design 274 16.6 Some standard analyses 279 16.7 Summary 287 WECA01 08/17/2005 04:34PM Page ix CONTENTS ix 17 Conservation in theory 289 17.1 Introduction 289 17.2 Demographic problems contributing to risk of extinction 289 17.3 Genetic problems contributing to risk of extinction 291 17.4 Effective population size (genetic) 297 17.5 Effective population size (demographic) 298 17.6 How small is too small? 299 17.7 Population viability analysis 300 17.8 Extinction caused by environmental change 305 17.9 Summary 310 18 Conservation in practice 312 18.1 Introduction 312 18.2 How populations go extinct 312 18.3 How to prevent extinction 321 18.4 Rescue and recovery of near extinctions 323 18.5 Conservation in national parks and reserves 324 18.6 Community conservation outside national parks and reserves 332 18.7 International conservation 332 18.8 Summary 334 19 Wildlife harvesting 335 19.1 Introduction 335 19.2 Fixed quota harvesting strategy 335 19.3 Fixed proportion harvesting strategy 341 19.4 Fixed escapement harvesting strategy 344 19.5 Harvesting in practice: recreational 346 19.6 Harvesting in practice: commercial 346 19.7 Age- or sex-biased harvesting 347 19.8 Bioeconomics 347 19.9 Game cropping and the discount rate 352 19.10 Summary 353 20 Wildlife control 355 20.1 Introduction 355 20.2 Definitions 355 20.3 Effects of control 356 20.4 Objectives of control 356 20.5 Determining whether control is appropriate 357 20.6 Methods of control 358 20.7 Summary 364 21 Ecosystem management and conservation 365 21.1 Introduction 365 21.2 Definitions 365 21.3 Gradients of communities 366 21.4 Niches 366 21.5 Food webs and intertrophic interactions 366