Produktbild: Ecological Methods

Ecological Methods

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Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

04.04.2016

Verlag

John Wiley & Sons Inc

Seitenzahl

656

Maße (L/B/H)

24.6/18.9/2.7 cm

Gewicht

1263 g

Auflage

4th edition

Sprache

Englisch

ISBN

978-1-118-89528-3

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

04.04.2016

Verlag

John Wiley & Sons Inc

Seitenzahl

656

Maße (L/B/H)

24.6/18.9/2.7 cm

Gewicht

1263 g

Auflage

4th edition

Sprache

Englisch

ISBN

978-1-118-89528-3

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: GPSR Kontakt

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  • Produktbild: Ecological Methods
  • Prefaces xiii

    About the Companion Website xix

    1 Introduction to the Study of Animal Populations 1

    1.1 Population estimates 2

    1.1.1 Absolute and related estimates 2

    1.1.2 Relative estimates 3

    1.1.3 Population indices 4

    1.2 Errors and confidence 4

    References 5

    2 The Sampling Programme and the Measurement and Description of Dispersion 7

    2.1 Preliminary sampling 7

    2.1.1 Planning and fieldwork 7

    2.1.2 Statistical aspects 10

    2.2 The sampling programme 16

    2.2.1 The number of samples per habitat unit (e.g. plant, host or puddle) 16

    2.2.2 The sampling unit, its selection, size and shape 20

    2.2.3 The number of samples 21

    2.2.4 The pattern of sampling 24

    2.2.5 The timing of sampling 26

    2.3 Dispersion 27

    2.3.1 Mathematical distributions that serve as models 28

    2.3.2 Biological interpretation of dispersion parameters 40

    2.3.3 Nearest-neighbour and related techniques: measures of population size or of the departure from randomness of the distribution 48

    2.4 Sequential sampling 51

    2.4.1 Sampling numbers 51

    2.5 Presence or absence sampling 55

    2.6 Sampling a fauna 57

    2.7 Biological and other qualitative aspects of sampling 59

    2.8 Jack knife and Bootstrap techniques 60

    References 62

    3 Absolute Population Estimates Using Capture-Recapture Experiments 77

    3.1 Capture-recapture methods 78

    3.1.1 Assumptions common to most methods 79

    3.1.2 Estimating closed populations 86

    3.1.3 Estimations for open populations 93

    3.2 Methods of marking animals 103

    3.2.1 Handling techniques 105

    3.2.2 Release 107

    3.2.3 Surface marks using paints and solutions of dyes 108

    3.2.4 Dyes and fluorescent substances in powder form 112

    3.2.5 Pollen 114

    3.2.6 Marking formed by feeding on or absorption of dyes 114

    3.2.7 Marking by injection, panjet or tattooing 116

    3.2.8 External tags 116

    3.2.9 Branding 117

    3.2.10 Mutilation 118

    3.2.11 Natural marks, parasites and genes 118

    3.2.12 Rare elements 119

    3.2.13 Protein marking 120

    3.2.14 Radioactive isotopes 120

    3.2.15 Radio and sonic tags 120

    References 121

    4 Absolute Population Estimates by Sampling a Unit of Habitat - Air, Plants, Plant Products and Vertebrate Hosts 139

    4.1 Sampling from the air 139

    4.2 Sampling apparatus 140

    4.2.1 Exposed cone (Johnson-Taylor) suction trap 140

    4.2.2 Enclosed cone types of suction trap including the Rothamsted 12 m trap 141

    4.2.3 Rotary and other traps 143

    4.3 Comparison and efficiencies of the different types of suction traps 144

    4.3.1 Conversion of catch to aerial density 145

    4.3.2 Conversion of density to total aerial population 146

    4.4 Sampling from plants 146

    4.4.1 Assessing the plant 147

    4.4.2 Determining the numbers of invertebrates 147

    4.4.3 The extraction of animals from herbage and debris 155

    4.4.4 Methods for animals in plant tissues 163

    4.4.5 Special sampling problems with animals in plant material 165

    4.5 Sampling from vertebrate hosts 166

    4.5.1 Sampling from living hosts 166

    4.5.2 Sampling from dead hosts 169

    4.5.3 Sampling from vertebrate 'homes' 170

    References 171

    5 Absolute Population Estimates by Sampling a Unit of Aquatic Habitat 183

    5.1 Open water 183

    5.1.1 Nets 183

    5.1.2 Pumps 187

    5.1.3 Water-sampling bottles 187

    5.1.4 The Patalas-Schindler volume sampler 187

    5.1.5 Particular methods for insects 188

    5.2 Vegetation 190

    5.2.1 Floating vegetation 191

    5.2.2 Emergent vegetation 192

    5.2.3 Submerged vegetation 194

    5.3 Bottom fauna 195

    5.3.1 Hand net sampling of forest litter 196

    5.3.2 Sampling from under stones 197

    5.3.3 The planting of removable portions of the substrate 199

    5.3.4 Cylinders and boxes for delimiting an area 200

    5.3.5 Trawls, bottom sledges and dredges 201

    5.3.6 Grabs 205

    5.3.7 Dendy inverting sampler 208

    5.3.8 Box samplers and corers 209

    5.3.9 Air-lift and suction devices 211

    5.4 Poisons and anaesthetics used for sampling fish in rock pools and small ponds 211

    References 213

    6 Absolute Population Estimates by Sampling a Unit of Soil or Litter Habitat: Extraction Techniques 221

    6.1 Sampling 221

    6.2 Bulk staining 224

    6.3 Mechanical methods of extraction 224

    6.3.1 Dry sieving 224

    6.3.2 Wet sieving 225

    6.3.3 Soil washing and flotation 226

    6.3.4 Flotation separation of plankton, meiofauna and other small animals 229

    6.3.5 Separation of plant and insects by differential wetting 231

    6.3.6 Centrifugation 233

    6.3.7 Sedimentation 233

    6.3.8 Elutriation 234

    6.3.9 Sectioning 235

    6.3.10 Aeration 236

    6.4 Behavioural or dynamic methods 236

    6.4.1 Dry extractors 237

    6.4.2 Wet extractors 243

    6.5 Summary of the applicability of the methods 248

    References 250

    7 Relative Methods of Population Measurement and the Derivation of Absolute Estimates 259

    7.1 Factors affecting the size of relative estimates 259

    7.1.1 The 'phase' of the animal 260

    7.1.2 The activity of the animal 261

    7.1.3 Differences in the response between species, sexes and individuals 263

    7.1.4 The efficiency of the trap or searching method 264

    7.2 The uses of relative methods 266

    7.2.1 Measures of the availability 266

    7.2.2 Indices of absolute population 266

    7.2.3 Estimates of absolute population 267

    7.2.4 Removal trapping or collecting 268

    7.2.5 Collecting 272

    7.3 Relative methods: catch per unit effort 272

    7.3.1 Observation by radar 272

    7.3.2 Hydroacoustic methods 273

    7.3.3 Fish counters 274

    7.3.4 Electric fishing 274

    7.3.5 Aural detection 275

    7.3.6 Exposure by plough 276

    7.3.7 Collecting with a net or similar device 276

    7.3.8 Visual searching and pooting 279

    7.4 Relative methods: trapping 280

    7.4.1 Interception traps 281

    7.4.2 Flight traps combining interception and attraction 290

    7.4.3 Light and other visual traps 294

    7.5 Traps that attract animals by some natural stimulus or a substitute 304

    7.5.1 Shelter traps 304

    7.5.2 Trap host plants 305

    7.5.3 Baited traps 305

    7.5.4 The use of vertebrate hosts or substitutes as bait for insects 308

    7.6 Using Sound 314

    References 314

    8 Estimates of Species Richness and Population Size Based on Signs, Products and Effects 337

    8.1 Arthropod products 337

    8.1.1 Exuviae 337

    8.1.2 Frass 338

    8.2 Vertebrate products and effects 341

    8.3 Effects due to an individual insect 342

    8.4 General effects: plant damage 343

    8.4.1 Criteria 344

    8.5 Determining the relationship between damage and insect populations 347

    References 348

    9 Wildlife Population Estimates by Census and Distance Measuring Techniques 355

    9.1 Census methods 356

    9.2 Point and line survey methods 357

    9.2.1 Indices of abundance using transects 357

    9.2.2 Methods based on flushing 357

    9.2.3 Line transect methods: the Fourier series estimator 360

    9.2.4 Point transects 365

    9.3 Distance sampling software in R 365

    9.4 Spatial distribution and plotless density estimators 367

    9.4.1 Closest individual or distance method 367

    9.4.2 Nearest-neighbour methods 368

    References 369

    10 Observational and Experimental Methods for the Estimation of Natality, Mortality and Dispersal 373

    10.1 Natality 373

    10.1.1 Fertility 373

    10.1.2 Numbers entering a stage 375

    10.1.3 The birth-rate from mark and recapture data 382

    10.2 Mortality 382

    10.2.1 Total 382

    10.2.2 The death-rate from mark and recapture data 383

    10.2.3 Climatic factors 383

    10.2.4 Biotic factors 383

    10.2.5 Experimental assessment of natural enemies 390

    10.3 Dispersal 396

    10.3.1 Detecting and quantifying jump dispersal 397

    10.3.2 Quantifying neighbourhood dispersal 397

    10.4 The measurement and description of home range and territory 410

    10.4.1 The minimum convex polygon area method for estimating home range 411

    10.4.2 The kernel estimation method for home range 412

    10.5 The rate of colonisation of a new habitat and artificial substrates 413

    10.6 The direction of migration 413

    References 413

    11 The Construction, Description and Analysis of Age-specific Life-tables 429

    11.1 Types of life-table and the budget 429

    11.2 The construction of a budget 430

    11.3 Analysis of stage-frequency data 431

    11.3.1 Southwood's graphical method 432

    11.3.2 Richards & Waloff's first method 432

    11.3.3 Manly's method 434

    11.3.4 Ruesink's method 435

    11.3.5 Dempster's method 435

    11.3.6 Richards & Waloff's Second Method 436

    11.3.7 Kiritani, Nakasuji & Manly's method 437

    11.3.8 Kempton's method 438

    11.3.9 The Bellows and Birley Method 439

    11.4 The description of budgets and life-tables 440

    11.4.1 Survivorship curves 440

    11.4.2 Stock-recruitment (Moran-Ricker) curves 440

    11.4.3 The life-table and life expectancy 443

    11.4.4 Life and fertility tables and the net reproductive rate 444

    11.4.5 Population growth rates 446

    11.4.6 The calculation of r 448

    11.5 The analysis of life-table data 449

    11.5.1 The comparison of mortality factors within a generation 449

    11.5.2 Survival and life budget analysis 451

    11.5.3 Sibley's ¿ contribution analysis 458

    References 459

    12 Age-grouping, Time-specific Life-tables and Predictive Population Models 465

    12.1 Age-grouping 465

    12.2 Aging young by developmental stage 466

    12.3 Aging by using structures 467

    12.3.1 Annelids 467

    12.3.2 Crustaceans 467

    12.3.3 Insects 467

    12.3.4 Molluscs 472

    12.3.5 Fish 473

    12.3.6 Lampreys 474

    12.3.7 Reptiles and amphibians 474

    12.3.8 Birds 475

    12.3.9 Mammals 475

    12.4 Time-specific life-tables and survival rates 476

    12.4.1 Physiological time 478

    12.4.2 Life-table parameters 479

    12.4.3 Recruitment in the field 479

    12.4.4 Empirical models 479

    12.4.5 Intrinsic rate models and variable life-tables 480

    12.4.6 Lewis-Leslie matrices and R packages 481

    References 484

    13 Species Richness, Diversity and Packing 495

    13.1 Diversity 496

    13.1.1 Description of ¿- and ¿-diversity 497

    13.1.2 Species richness 498

    13.1.3 Models for the S:N relationship 505

    13.1.4 Non-parametric indices of diversity 509

    13.1.5 Which model or index? 512

    13.1.6 Comparing communities - diversity ordering 513

    13.1.7 Procedure to determine ¿-diversity 515

    13.1.8 Determining ss-diversity 517

    13.2 Similarity and the comparison and classification of samples 520

    13.2.1 Measures of complementarity 521

    13.2.2 Similarity indices 521

    13.2.3 Multivariate analysis 525

    13.3 Species packing 530

    13.3.1 Measurement of interspecific association 530

    13.3.2 Measurement of resource utilisation 534

    13.3.3 Niche size and competition coefficients 540

    References 542

    14 The Estimation of Productivity and the Construction of Energy Budgets 551

    14.1 Estimation of standing crop 553

    14.1.1 Measurement of biomass 553

    14.2 Determination of energy density 554

    14.3 Estimation of energy flow 555

    14.4 The measurement of production 557

    14.5 The measurement of feeding and assimilation 560

    14.5.1 The quality of the food eaten 560

    14.6 Feeding and assimilation rates 561

    14.6.1 Radiotracer techniques 561

    14.6.2 Gravimetric techniques 563

    14.6.3 Indicator methods 564

    14.6.4 Measurement of faecal output 565

    14.7 The measurement of the energy loss due to respiration and metabolic process 565

    14.7.1 Calorimetric 565

    14.7.2 The exchange of respiratory gases 565

    14.7.3 The respiratory rate 567

    14.8 The energy budget, efficiencies and transfer coefficients 573

    14.8.1 The energy budget of a population (or trophic level) 573

    14.8.2 Energy transfer across trophic links 574

    14.9 Identification of ecological pathways using stable isotopes 576

    14.10 Assessment of energy and time costs of strategies 577

    References 578

    15 Studies at Large Spatial, Temporal and Numerical Scales and the Classification of Habitats 587

    15.1 Remote sensing data from satellites 589

    15.2 Remote sensing using piloted and unmanned aircraft 591

    15.3 Long-term studies 592

    15.3.1 Planning spatial and temporal sampling 593

    15.3.2 The classification of time series 593

    15.3.3 Detecting synchrony 603

    15.3.4 Measuring temporal variability 603

    15.3.5 Detecting break-points 604

    15.4 Geographical information systems 607

    15.5 Detection of density dependence in time series 608

    15.5.1 Bulmer's (1975) test 608

    15.5.2 Pollard et al.'s (1987) randomisation test 609

    15.5.3 Dennis and Taper's (1994) bootstrap approach 611

    15.5.4 Using a battery of approaches to detect density dependence 611

    15.6 Citizen science projects 613

    15.7 Ecosystem services 613

    15.8 Habitat classification 614

    15.8.1 Qualitative 614

    15.8.2 Quantitative 616

    References 617

    Index 623