Seascape ecology:
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Newark
Wiley Blackwell
2018
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xxiii, 501 Seiten Illustrationen, Diagramme, Karten |
| ISBN: | 9781119084433 |
Internformat
MARC
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| 008 | 180807s2018 a||| |||| 00||| eng d | ||
| 020 | |a 9781119084433 |9 978-1-119-08443-3 | ||
| 035 | |a (OCoLC)1031485283 | ||
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| 041 | 0 | |a eng | |
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| 245 | 1 | 0 | |a Seascape ecology |c edited by Simon J. Pittman |
| 264 | 1 | |a Newark |b Wiley Blackwell |c 2018 | |
| 300 | |a xxiii, 501 Seiten |b Illustrationen, Diagramme, Karten | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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Datensatz im Suchindex
| _version_ | 1804178770523848704 |
|---|---|
| adam_text | Simon J. Pittman
1.1 Introduction 3
1.2 Landscape Ecology and the Emergence of Seascape Ecology 4
1.3 What is a Seascape? 6
1.3.1 The Patch-Matrix and Patch-Mosaic Models of Seascape
Structure 8
1.3.2 The Spatial Gradient Model of Seascape Structure 11
1.3.3 Combining Spatial Gradients and Patch Mosaics 12
1.3.4 Chemical Seascapes and Ocean Soundscapes 13
1.4 Why Scale Matters in Seascape Ecology 14
1.5 Seascape Ecology can Inform Marine Stewardship 16
1.6 Conclusions and Future Directions 18
References 19
2 Mapping and Quantifying Seascape Patterns 27
Bryan Costa, Brian K. Walker and Jennifer A. Dijkstra
2.1 Introduction 27
2.2 Defining Seascape Applications 30
2.3 Identifying Scales for Seascape Mapping 31
2.4 Sensor Selection for Seascape Mapping 32
2.4.1 Passive and Active Sensors 33
2.4.2 Environmental Conditions Limiting Passive and Active Sensors 35
2.5 Representing Patterns in Seascape Maps 36
2.5.1 The Continuous Gradient Concept 37
2.5.2 The Patch-Mosaic Model 40
2.5.3 Spatial Surrogates (Proxies) 42
2.6 Quantifying Seascape Structure 43
2.6.1 Sensitivity to Scale 43
2.7 Applications of Seascape Maps and Spatial Pattern Metrics 45
2.7.1 Understanding Uncertainty in Seascape Maps 47
2.8 Conclusions and Future Research Priorities 47
References 48
Kylie L Scales, Diego AIvarez-Berastegui, Clare Embling and Simon Ingram
3.1 Introduction 57
3.2 Pattern and Process in the Pelagic Realm 58
3.2.1 Broad-scale Biogeographic Provinces 58
3.2.2 Finer Scale Patchiness and Patch Dynamics 61
3.2.3 Ecoclines and Ecotones in Pelagic Seascapes 62
3.2.4 Beneath the Surface: the Vertical Dimension of Pelagic
Seascapes 64
3.3 Spatial Pattern Metrics for Pelagic Seascapes 66
3.3.1 Patch Mosaic Metrics 67
3.3.2 Surface Model Metrics — Identifying Ecoclines and Ecotones 67
3.3.3 Lagrangian Approaches 69
3.4 Spatial Ecoinformatics in the Pelagic Realm: from Physics to
Predators 71
3.4.1 Broad-scale Migrations across Pelagic Seascapes 71
3.4.2 Linking Animal Movements to the Spatial Patterning of Pelagic
Seascapes 72
3.4.3 Incorporating the Vertical Dimension in Spatial Ecoinformatics 73
3.5 Conclusions and Future Research Priorities 74
3.6 Glossary 75
References 76
4 Scale and Scaling in Seascape Ecology 89
David C. Schneider
4.1 Introduction 89
4.1.1 The Development of the Concept of Scale in the Twentieth
Century 90
4.1.2 Prevalence and Usage of Scale in the Scientific Literature 91
4.1.3 Definition of Scale 93
4.2 Expressions of Scale 94
4.2.1 Graphical Expression of Scale 94
4.2.2 Graphical Expression of Scale in Research Planning 96
4.2.3 Formal Expression of Scale: Scope, Similarity and Power Laws 99
4.2.4 Scaling Manoeuvres 101
4.2.5 Ratio of Rates in Research Planning 103
4.3 Spatial and Temporal Scaling in Estimating Uncertainty 106
4.4 Spatial and Temporal Scaling in the Pelagic and Benthic
Realms 107
4.5 Looking to the Future: Scaling Concepts and Practice in Seascape
Ecology 108
4 5.1 From Useful Fictions to Calculation 108
45.2 From Comparative to Confirmatory Modes of Investigation 108
45.3 From Hypothesis Testing to Likelihood 110
45.4 From Scaling on a Mosaic to Scaling on the Continuum 111
4 6 From Ceteris Paribus to Dimensional Thinking 111
4.7 Acknowledgements 112
References 112
Ecological Consequences of Seagrass and Salt-Marsh
Seascape Patterning on Marine Fauna 121
Christoffer Bostrom, Simon J. Pittman and Charles Simenstad
5.1 Introduction 121
5.1.1 Seagrasses and Salt Marshes: Global Distributions and Ecosystem
Functions 122
5.2 Structural Processes and Change in Coastal Seascapes 122
5.2.1 Processes Creating and Maintaining Seagrass Seascapes 125
5.2.2 Processes Creating and Maintaining Salt-Marsh Seascapes 125
5.2.2.1 Tidal Channel Networks in Salt Marshes 128
5.3 Ecological Consequences of Seascape Structure 128
5.3.1 Seagrass Patch-size Effects on Epifauna and Fish 128
5.3.2 Patch Edges: Conceptual Framework and Application 130
5.3.2.1 Seagrass Edge Effects on Faunal Recruitment and Distribution 132
5.3.3 Effects of Salt-Marsh Patch Size, Edges and Connectivity on Faunal
Patterns and Processes 133
5.3.4 Faunal Linkages between Salt Marshes and Seagrass Meadows 135
5.4 Challenges and Opportunities in Seascape Ecology 138
References 140
6 Seascape Patch Dynamics 153
Emma L Jackson, Rolando O. SantoS Corujo and Simon J. Pittman
6.1 Introduction 153
6.2 From Patch Dynamics to Seascape Ecology 155
6.3 Scale 158
6.4 Factors Influencing Seascape Patchiness 160
6.5 Mapping and Quantifying Seascape Change 163
6.5.1 Habitat Mapping for Change Analysis 164
6.5.2 Characterization of Spatial Patterns 166
6.5.2.1 Continuous Metrics and Surface Analysis 167
6.5.2.2 Metrics, Scale and Sensitivity Analysis 168
6.5.2.3 Quantifying Seascape Change 168
6.5.3 Seascape Habitat Loss versus Fragmentation 170
6.5.4 Seascape Modelling 173
6.6 The Future of Seascape Dynamics Research 175
References 177
7.1
7.1.1
7.1.2
7.1.3
7.2
7.2.1
7.2.1.1
7.2.1.2
7.2.1.3
7.3
7.3.1
7.3.2
7.3.3
7.4
7.4.1
7.4.2
7.4.3
7.4.4
7.4.5
7.5
8
8.1
8.1.1
8.2
8.2.1
8.2.2
8.2.3
8.2.4
8.2.5
Simon J. Pittman, Benjamin Davis and Rolando O. Santos-Corujo
Introduction 189
Why Animal Movement is Central to Seascape Ecology 191
Advances in Movement Ecology and its Application in Marine
Systems 193
Tracking and Mapping Capabilities 194
Using Animal Movements to Scale Ecological Studies 196
Building Movement Scales into Conceptual and Operational
Frameworks 199
Component 1: Build a Conceptual Model 199
Component 2; Selecting Scale 199
Component 3: Tools Identification 201
Advances in the Visualisation and Quantification of Space-use
Patterns 201
Estimating and Mapping Utilisation Distributions 201
Analysing Spatiotemporal Utilisation Patterns 204
Visualizing Movement Patterns across Three Spatial
Dimensions 206
Linking Animal Movement Patterns to Seascape Patterns 208
Linking Individual Movement Trajectories to Seascape
Structure 209
Individual Movement and Seascape Connectivity 211
Linking Species Interactions and Physiology with Movements across
Seascapes 212
Experimental Seascapes to Investigate Animal Response to Seascape
Patterns 214
Mechanistic Models 215
Implications of Animal-Seascape Understanding for Marine
Stewardship 215
References 217
Using individual-based Models to Explore Seascape
Ecology 229
Kevin A. Hovel and Helen M. Regan
Introduction 229
What are IBMs? 229
Why use IBMs to Study Seascape Ecology? 231
The Effects of Habitat Structure on Populations are Consequences of
Organismal Behavior 231
IBMs Allow for Extensive Manipulation of Seascapes 235
IBMs can be Used to Test for Ecological Effects of Habitat
Configuration versus Habitat Amount 239
IBMs Allow Tests of How Seascape Change Influences Ecological
Processes 241
IBMs Allow the Coupling of Processes Operating over Different
Scales 245
8.3 Data for Parameterizing Seascape Ecology IBMs 246
8.3.1 Parameterization 246
8.3.2 Movement and Habitat Selection 247
8.3.3 Seascape and Habitat Structure 248
8.3.4 Other Factors 249
8.4 Challenges and Future Directions in Using IBMs to Explore
Seascapes 249
References 251
onnactivity in Coastal Seascapes 261
Andrew D. Olds, Ivon Nagelkerken, ChantalM. Huijbers, Ben L Gilby, Simon
1 Pittman and Thomas A. Schlacher
9.1 Introduction 261
9.2 Global Synthesis of Connectivity Research 261
9.2.1 Research Theme 263
9.2.2 Geographical Distribution 264
9.2.3 Biological and Functional Consequences 266
9.2.4 Connectivity is Scale Dependent 267
9.3 Quantifying Connectivity: Advances in Key Tools and
Techniques 268
9.3.1 Tags and Telemetry 268
9.3.2 Ecogeochemical Markers 269
9.3.3 Genetics 269
9.4 Application of Seascape Connectivity to Coastal Seascapes: Focal
Topics 270
9.4.1 Focal Topic 1: Fish Movements Connecting Tropical Coastal
Seascapes 270
9.4.2 Focal Topic 2: Connectivity across the Land-Sea Interface 273
9.5 Integrating Connectivity into Marine Spatial Planning 275
9.6 Conclusions and Future Research Priorities 279
References 280
10 Networks for Quantifying and Analysing Seascape
Connectivity 293
Eric A. Treml and Johnathan Kool
10.1 Introduction 293
10.1.1 Structural Connectivity 295
10.1.2 Functional Connectivity 296
10.1.3 Realised Connectivity 296
10.2 Network Models of Connectivity: Representing Pattern and
Process 297
10.2.1 Defining Nodes and Links 297
10.3 Modelling Marine Population Connectivity 300
10.3.1 Empirical Estimates of Marine Population Connectivity 301
10.4 Network Analysis of Marine Population Connectivity 303
10.4.1 Node and Neighbourhood-level Metrics 305
10.4.2 Components, Subgraphs and Clusters 306
10.4.3 Graph-level Metrics 306
10.4.4 Insights from Classic Networks 307
10.4.5 Planar Networks 308
10.4.6 Random Networks 308
10.4.7 Scale-free Networks 308
10.4.8 Small-world Networks 309
10.5 Case Study in Marine Connectivity: Hawaiian Islands 309
10.6 Conclusions and Future Research Priorities 312
10.7 Acknowledgements 313
References 313
! 1 Linking Landscape and Seascape Conditions: Science, Tools
and Management 319
Kirsten L L Oles on, Kim A Falinski, Donna-marie Audas, Samantha
Cocci a -Sebillo, Paul Groves, Lida Teneva and Simon J. Pittman
11.1 Introduction 319
11.2 Landscape Ecology as a Guiding Framework for Integrated Land-Sea
Management 322
11.3 Modelling and Evaluating the Connections between Land and
Sea 324
11.3.1 Measuring Threat Exposure from Land-based Sources 324
11.3.2 Spatial Modelling of Land-Sea Processes 325
11.3.2.1 Spatial Proxies 325
11.3.2.2 Hydrological Models 325
11.3.2.3 Nearshore Dynamics 326
11.3.2.4 Ecological Response and Social-Ecological Systems Models 327
11.3.3 Decision Analysis and Support 329
11.4 Case Studies 330
11.4.1 Hawaii 330
11.4.1.1 Estimating Spatial Patterns of Erosion from Land Cover Change and
Exposure of Reefs in Maui 331
11.4.2 Caribbean 334
11.4.2.1 Summit to Sea Runoff Modelling for St John, US Virgin Islands 334
11.4.2.2 Land-sea Decision Support Modelling for the Northeast Marine
Corridor, Puerto Rico 336
11.4.3 Australia 339
11.4.3.1 Edgecumbe Bay Receiving Waters (Gregory and Eden Lassie Creek
Sub-basins) 342
11.5 Towards Applying Landscape Ecology to Land-Sea Modelling and
Management 347
References 350
Simon J. Pittman, Chris A Lepczyk, Lisa M. Wedding and Camille Parrain
12.1 Introduction 367
12.1.1 What can Landscape Ecology Offer? 369
12.1*2 A Shift towards a more Holistic Systems Approach for Marine
Stewardship 370
12.2 People as Part of the Seascape 373
12.3 How Holistic Systems Science can Help Seascape
Ecology 375
12.3.1 Properties of an Ecological Systems Approach 376
12.3.2 The Rise of Whole-of-System Modelling 377
12.4 Connecting Seascape Patterns to Human Health, Livelihoods and
Wellbeing 379
12.5 Conclusions and Future Research Priorities 381
References 384
13.1
13.2
13.2.1
13.3
13.3.1
13.3.1.1
13.3.1.2
13.3.1.3
13.3.1.4
13.4
13.4.1
13.4.2
13.4.3
13.4.4
13.4.5
13.4.6
13.5
Human Ecology at Sea: Modelling and Mapping
Human-Seascape Interactions 391
Steven Saul and Simon J. Pittman
Introduction 391
Seascape Ecology, Spatial Patterns and Scale 393
Scale and Scaling 395
Human Use Data Types and Geographical Information
Systems 396
Mapping Human Behaviour across the Seascape 397
Remote Sensing 398
Participatory Mapping and Spatial Analysis 401
Social Sensing 402
Mapping Ecosystem Services 402
Modelling Human-Seascape Interactions with a Systems
Approach 403
Custom-built Statistical Models 405
Predefined Statistical Routines 406
Discrete Choice Models 407
Simulation Modelling 408
Agent-based Models 411
Pattern-oriented Modelling 412
Conclusions and Future Research Priorities 415
References 418
Mary A. Young, L isa M. Wedding and Mark H. Carr
14.1 Introduction 429
14.2 Applying Landscape Ecology Principles in the Marine
Environment 430
14.3 Case Study; Applying Landscape Ecology to Evaluate a Network of
MPAs in California 438
14.3.1 California Seafloor Data Sets 439
14.3.2 MPA Goal: Habitat Replication and Representativeness 441
14.3.3 MPA Goal: Protect Diversity and Abundance of Marine Life 442
14.3.4 MPA Goal: Reduce Movement across Boundaries 444
14.4 Synthesis 448
14.4.1 Mapping Technologies 448
14.4.2 MPA Effects on Biodiversity and Populations 449
14.4.3 Scale of Interaction between Species and Environment 449
14.4.4 Across-System Interactions 450
14.4.5 Population Connectivity 450
14.5 Conclusions and Future Research Priorities 451
References 452
1 5 Seascape Economics: Valuing Ecosystem Services across the
Seascape 465
Edward B. Barbier
15.1 Introduction 465
15.2 Habitat Connectivity and Seascape Goods and Services 467
15.3 Valuing Seascape Goods and Services 468
15.4 Example of a Mangrove-Coral Reef Seascape 472
15.5 Conclusions and Future Research Priorities 476
References 478
Epilogue
4-83
16
16.1
16.2
16.3
16.3.1
16.3.2
16.3.3
16.4
Landscape Ecologists Perspectives on Seascape
Ecology 485
Simon J. Pittman, John A. Wiens, Jianguo Wu and Dean L Urban
Introduction 485
From Landscapes to Seascapes (and Back Again) 485
Seascape Ecology and Landscape Ecology: Distinct, Related and
Synergistic 487
Landscape Ecology 488
Seascape Ecology 488
How can Landscape and Seascape Ecology Interact with Each
Other? 489
Seascape Ecology 491
References 493
Index
495
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| id | DE-604.BV045120588 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T08:09:15Z |
| institution | BVB |
| isbn | 9781119084433 |
| language | English |
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| publisher | Wiley Blackwell |
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| spelling | Seascape ecology edited by Simon J. Pittman Newark Wiley Blackwell 2018 xxiii, 501 Seiten Illustrationen, Diagramme, Karten txt rdacontent n rdamedia nc rdacarrier Marine ecology Meeresökologie (DE-588)4195671-0 gnd rswk-swf Meeresökologie (DE-588)4195671-0 s DE-604 Pittman, Simon J. (DE-588)1152282891 edt Erscheint auch als Online-Ausgabe 978-1-119-08445-7 Digitalisierung UB Augsburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030510731&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Seascape ecology Marine ecology Meeresökologie (DE-588)4195671-0 gnd |
| subject_GND | (DE-588)4195671-0 |
| title | Seascape ecology |
| title_auth | Seascape ecology |
| title_exact_search | Seascape ecology |
| title_full | Seascape ecology edited by Simon J. Pittman |
| title_fullStr | Seascape ecology edited by Simon J. Pittman |
| title_full_unstemmed | Seascape ecology edited by Simon J. Pittman |
| title_short | Seascape ecology |
| title_sort | seascape ecology |
| topic | Marine ecology Meeresökologie (DE-588)4195671-0 gnd |
| topic_facet | Marine ecology Meeresökologie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030510731&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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