Verfügbarkeit: Approaches to mathematical modeling of biological invasions

Approaches to mathematical modeling of biological invasions:

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Bibliographische Detailangaben
1. Verfasser:	Köhnke, Merlin Christopher (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Berlin Logos Verlag 2020
Schlagworte:	Mathematische Modellierung Invasion > Biologie Dynamical Systems Mathematical Biology Biological Invasions Modeling Population Dynamics Hochschulschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xix, 224 Seiten Illustrationen 24 cm
ISBN:	9783832551513 3832551514

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adam_text	T ABLE OF C ONTENTS PAGE LIST OF PUBLICATIONS IX LIST OF TABLES XV LIST OF FIGURES XVII 1 INTRODUCTION 1 1.1 WHAT ARE BIOLOGICAL INVASIONS? ................................................................................ 1 1.2 THE RELEVANCE OF BIOLOGICAL INVASIONS FOR SCIENCE AND SOCIETY ................................... 3 1.3 MATHEMATICAL MODELS IN INVASION BIOLOGY ................................................................ 6 1.4 DIFFERENTIAL EQUATIONS AS A TOOL TO STUDY BIOLOGICAL INVASIONS ................................ 8 1.4.1 GROWTH MODELS .............................................................................................. 8 1.4.2 INTERACTIONS BETWEEN TWO SPECIES ................................................................ 11 1.4.3 INTERACTIONS BETWEEN MORE THAN TWO SPECIES .............................................. 15 1.4.4 SPATIAL MODELS .............................................................................................. 16 1.4.5 STOCHASTIC DIFFERENTIAL EQUATIONS ................................................................... 26 1.5 OUTLINE ...................................................................................................................... 29 2 WAVE PINNING IN COMPETITION-DIFFUSION MODELS IN VARIABLE ENVIRONMENTS 33 2.1 INTRODUCTION .............................................................................................................. 34 2.2 MODEL AND METHODS ................................................................................................... 36 2.2.1 DETERMINISTIC MODEL ...................................................................................... 36 2.2.2 STOCHASTIC MODEL ........................................................................................... 41 2.2.3 NUMERICAL TREATMENT ................................................................................... 44 2.3 WAVE PINNING ........................................................................................................ 44 2.3.1 ANALYTICAL REVIEW ........................................................................................... 44 2.3.2 NUMERICAL RESULTS ........................................................................................ 46 2.3.3 STABILITY AGAINST ENVIRONMENTAL PERTURBATIONS ........................................... 47 2.4 DISCUSSION AND CONCLUSIONS ...................................................................................... 51 TABLE OF CONTENTS 3 INVASION DYNAMICS IN AN INTRAGUILD PREDATION SYSTEM WITH PREDATOR-INDUCED DEFENSE 55 3.1 INTRODUCTION ............................................................................................................... 56 3.2 MODEL AND METHODS .................................................................................................... 57 3.3 ANALYTICAL RESULTS ....................................................................................................... 61 3.3.1 STATIONARY SOLUTIONS ....................................................................................... 61 3.3.2 MODEL WITH ADAPTIVITY .................................................................................... 63 3.4 NUMERICAL RESULTS ....................................................................................................... 64 3.4.1 NONSPATIAL RESULTS .......................................................................................... 65 3.4.2 SPATIAL RESULTS ............................................................................................... 70 3.5 DISCUSSION AND CONCLUSIONS ....................................................................................... 74 3. A APPENDIX ................................................................................................................... 76 3. A.1 JACOBIAN MATRIX FOR THE MODEL WITHOUT ADAPTATION ...................................... 76 3. A.2 NULLCLINES OF THE MODEL WITH ADAPTATION ...................................................... 77 4 A TYPE IV FUNCTIONAL RESPONSE WITH DIFFERENT SHAPES IN A PREDATOR-PREY MODEL 79 4.1 INTRODUCTION ............................................................................................................... 80 4.2 GENERAL MODEL ............................................................................................................. 81 4.3 MODEL WITH A GIVEN CATCH RATE .................................................................................... 86 4.4 DISCUSSION AND CONCLUSIONS ....................................................................................... 92 4. A APPENDIX .................................................................................................................... 94 4. A.1 TIMESCALE SEPARATION .................................................................................... 94 4. A.2 LIMIT OF 77 V) ..................................................................................................... 96 5 TAXIS-DRIVEN PATTERN FORMATION IN A PREDATOR-PREY MODEL WITH GROUP DEFENSE 97 5.1 INTRODUCTION ............................................................................................................... 98 5.2 MODEL AND METHODS ....................................................................................................... 100 5.3 RESULTS .......................................................................................................................... 102 5.3.1 TAXIS-DRIVEN INSTABILITY .................................................................................... 102 5.3.2 PATTERNS IN EXCITABLE MEDIA ............................................................................... 104 5.3.3 PREYTAXIS IN EXCITABLE MEDIA ............................................................................ ILL 5.4 DISCUSSION AND CONCLUSION ............................................................................................ 114 5. A APPENDIX ....................................................................................................................... 118 5. A.1 DIMENSIONS ...................................................................................................... 116 6 DISEASE-INDUCED CHAOS, COEXISTENCE, OSCILLATIONS, AND INVASION FAILURE IN A COMPETITION-MODEL WITH STRONG ALLEE EFFECT 117 6.1 INTRODUCTION .................................................................................................................. 118 6.2 ALLEE EFFECT IN A SINGLE SPECIES ....................................................................................... 119 XII TABLE OF CONTENTS 6.3 DISEASE-FREE COMPETITION BETWEEN TWO SPECIES ........................................................... 122 6.4 COMPETITION-FREE SI-DYNAMICS ................................................................................... 123 6.4.1 SPATIAL ANALYSES .............................................................................................. 127 6.5 MODEL INCLUDING INFECTION AND COMPETITION ................................................................ 131 6.6 IMPACT OF THE DISEASE ON INVASION DYNAMICS .............................................................. 134 6.6.1 INVASION DYNAMICS WITH STRONG COMPETITIVE PRESSURE ................................... 136 6.6.2 INVASION DYNAMICS WITH WEAK COMPETITIVE PRESSURE ...................................... 139 6.6.3 SPATIAL PHENOMENA ........................................................................................... 140 6.7 CONCLUSIONS ................................................................................................................... 143 6. A APPENDIX ...................................................................................................................... 146 6. A.1 WAVE SPEED IN THE SINGLE-SPECIES MODEL ........................................................ 146 6. A.2 NONSPATIAL SI- MODEL ......................................................................................... 146 6. A.3 SPATIAL SI-MODEL .............................................................................................. 149 7 THE NECESSITY OF TAILORED CONTROL OF IRRUPTING PEST POPULATIONS DRIVEN BY PULSED RESOURCES 151 7.1 INTRODUCTION ................................................................................................................. 152 7.2 MODEL ............................................................................................................................ 153 7.2.1 PULSED RESOURCE ................................................................................................. 154 7.2.2 GENERALIST CONSUMER ......................................................................................... 155 7.2.3 GENERALIST PREDATOR ......................................................................................... 158 7.2.4 METAPOPULATION MODEL ...................................................................................... 159 7.2.5 PLAGUE METRIC ................................................................................................... 160 7.3 RESULTS ......................................................................................................................... 161 7.3.1 LOCAL DYNAMICS ................................................................................................. 161 7.3.2 METAPOPULATION DYNAMICS ................................................................................ 162 7.4 DISCUSSION .................................................................................................................... 164 7.4.1 CONTROL TIMING ................................................................................................. 164 7.4.2 CONTROL INTENSITY .............................................................................................. 165 7.4.3 CONTROL STRATEGY .............................................................................................. 166 7.5 CONCLUSIONS ................................................................................................................... 166 7. A APPENDIX ..................................................................................................................... 168 7. A.1 PARAMETERS ...................................................................................................... 168 7. A.2 KILLING PROPORTION ........................................................................................... 170 7. A.3 REINVASION TIME ............................................................................................. 171 8 DISCUSSION AND CONCLUSIONS 173 8.1 SUMMARY ...................................................................................................................... 173 8.2 DISCUSSION ................................................................................................................... 175 XIII TABLE OF CONTENTS 8.2.1 GENERAL IMPLICATIONS .......................................................................................... 175 8.2.2 GENERAL UNCERTAINTIES AND LIMITATIONS ............................................................ 175 8.2.3 RECOMMENDATIONS ............................................................................................ 177 8.3 OUTLOOK .......................................................................................................................... 179 8.3.1 ENVIRONMENTAL STOCHASTICITY ............................................................................ 179 8.3.2 DISPERSAL ............................................................................................................ 180 8.3.3 MANAGEMENT .................................................................................................... 182 REFERENCES 185 XIV
adam_txt	T ABLE OF C ONTENTS PAGE LIST OF PUBLICATIONS IX LIST OF TABLES XV LIST OF FIGURES XVII 1 INTRODUCTION 1 1.1 WHAT ARE BIOLOGICAL INVASIONS? . 1 1.2 THE RELEVANCE OF BIOLOGICAL INVASIONS FOR SCIENCE AND SOCIETY . 3 1.3 MATHEMATICAL MODELS IN INVASION BIOLOGY . 6 1.4 DIFFERENTIAL EQUATIONS AS A TOOL TO STUDY BIOLOGICAL INVASIONS . 8 1.4.1 GROWTH MODELS . 8 1.4.2 INTERACTIONS BETWEEN TWO SPECIES . 11 1.4.3 INTERACTIONS BETWEEN MORE THAN TWO SPECIES . 15 1.4.4 SPATIAL MODELS . 16 1.4.5 STOCHASTIC DIFFERENTIAL EQUATIONS . 26 1.5 OUTLINE . 29 2 WAVE PINNING IN COMPETITION-DIFFUSION MODELS IN VARIABLE ENVIRONMENTS 33 2.1 INTRODUCTION . 34 2.2 MODEL AND METHODS . 36 2.2.1 DETERMINISTIC MODEL . 36 2.2.2 STOCHASTIC MODEL . 41 2.2.3 NUMERICAL TREATMENT . 44 2.3 WAVE PINNING . 44 2.3.1 ANALYTICAL REVIEW . 44 2.3.2 NUMERICAL RESULTS . 46 2.3.3 STABILITY AGAINST ENVIRONMENTAL PERTURBATIONS . 47 2.4 DISCUSSION AND CONCLUSIONS . 51 TABLE OF CONTENTS 3 INVASION DYNAMICS IN AN INTRAGUILD PREDATION SYSTEM WITH PREDATOR-INDUCED DEFENSE 55 3.1 INTRODUCTION . 56 3.2 MODEL AND METHODS . 57 3.3 ANALYTICAL RESULTS . 61 3.3.1 STATIONARY SOLUTIONS . 61 3.3.2 MODEL WITH ADAPTIVITY . 63 3.4 NUMERICAL RESULTS . 64 3.4.1 NONSPATIAL RESULTS . 65 3.4.2 SPATIAL RESULTS . 70 3.5 DISCUSSION AND CONCLUSIONS . 74 3. A APPENDIX . 76 3. A.1 JACOBIAN MATRIX FOR THE MODEL WITHOUT ADAPTATION . 76 3. A.2 NULLCLINES OF THE MODEL WITH ADAPTATION . 77 4 A TYPE IV FUNCTIONAL RESPONSE WITH DIFFERENT SHAPES IN A PREDATOR-PREY MODEL 79 4.1 INTRODUCTION . 80 4.2 GENERAL MODEL . 81 4.3 MODEL WITH A GIVEN CATCH RATE . 86 4.4 DISCUSSION AND CONCLUSIONS . 92 4. A APPENDIX . 94 4. A.1 TIMESCALE SEPARATION . 94 4. A.2 LIMIT OF 77 V) . 96 5 TAXIS-DRIVEN PATTERN FORMATION IN A PREDATOR-PREY MODEL WITH GROUP DEFENSE 97 5.1 INTRODUCTION . 98 5.2 MODEL AND METHODS . 100 5.3 RESULTS . 102 5.3.1 TAXIS-DRIVEN INSTABILITY . 102 5.3.2 PATTERNS IN EXCITABLE MEDIA . 104 5.3.3 PREYTAXIS IN EXCITABLE MEDIA . ILL 5.4 DISCUSSION AND CONCLUSION . 114 5. A APPENDIX . 118 5. A.1 DIMENSIONS . 116 6 DISEASE-INDUCED CHAOS, COEXISTENCE, OSCILLATIONS, AND INVASION FAILURE IN A COMPETITION-MODEL WITH STRONG ALLEE EFFECT 117 6.1 INTRODUCTION . 118 6.2 ALLEE EFFECT IN A SINGLE SPECIES . 119 XII TABLE OF CONTENTS 6.3 DISEASE-FREE COMPETITION BETWEEN TWO SPECIES . 122 6.4 COMPETITION-FREE SI-DYNAMICS . 123 6.4.1 SPATIAL ANALYSES . 127 6.5 MODEL INCLUDING INFECTION AND COMPETITION . 131 6.6 IMPACT OF THE DISEASE ON INVASION DYNAMICS . 134 6.6.1 INVASION DYNAMICS WITH STRONG COMPETITIVE PRESSURE . 136 6.6.2 INVASION DYNAMICS WITH WEAK COMPETITIVE PRESSURE . 139 6.6.3 SPATIAL PHENOMENA . 140 6.7 CONCLUSIONS . 143 6. A APPENDIX . 146 6. A.1 WAVE SPEED IN THE SINGLE-SPECIES MODEL . 146 6. A.2 NONSPATIAL SI- MODEL . 146 6. A.3 SPATIAL SI-MODEL . 149 7 THE NECESSITY OF TAILORED CONTROL OF IRRUPTING PEST POPULATIONS DRIVEN BY PULSED RESOURCES 151 7.1 INTRODUCTION . 152 7.2 MODEL . 153 7.2.1 PULSED RESOURCE . 154 7.2.2 GENERALIST CONSUMER . 155 7.2.3 GENERALIST PREDATOR . 158 7.2.4 METAPOPULATION MODEL . 159 7.2.5 PLAGUE METRIC . 160 7.3 RESULTS . 161 7.3.1 LOCAL DYNAMICS . 161 7.3.2 METAPOPULATION DYNAMICS . 162 7.4 DISCUSSION . 164 7.4.1 CONTROL TIMING . 164 7.4.2 CONTROL INTENSITY . 165 7.4.3 CONTROL STRATEGY . 166 7.5 CONCLUSIONS . 166 7. A APPENDIX . 168 7. A.1 PARAMETERS . 168 7. A.2 KILLING PROPORTION . 170 7. A.3 REINVASION TIME . 171 8 DISCUSSION AND CONCLUSIONS 173 8.1 SUMMARY . 173 8.2 DISCUSSION . 175 XIII TABLE OF CONTENTS 8.2.1 GENERAL IMPLICATIONS . 175 8.2.2 GENERAL UNCERTAINTIES AND LIMITATIONS . 175 8.2.3 RECOMMENDATIONS . 177 8.3 OUTLOOK . 179 8.3.1 ENVIRONMENTAL STOCHASTICITY . 179 8.3.2 DISPERSAL . 180 8.3.3 MANAGEMENT . 182 REFERENCES 185 XIV
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spelling	Köhnke, Merlin Christopher Verfasser (DE-588)1219669016 aut Approaches to mathematical modeling of biological invasions Merlin Christopher Köhnke Berlin Logos Verlag 2020 xix, 224 Seiten Illustrationen 24 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Osnabrück 2020 Mathematische Modellierung (DE-588)7651795-0 gnd rswk-swf Invasion Biologie (DE-588)4335542-0 gnd rswk-swf Dynamical Systems Mathematical Biology Biological Invasions Modeling Population Dynamics (DE-588)4113937-9 Hochschulschrift gnd-content Invasion Biologie (DE-588)4335542-0 s Mathematische Modellierung (DE-588)7651795-0 s DE-604 Logos Verlag Berlin (DE-588)1065538812 pbl X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=dab1550d7a4343ca9ee035d62db92602&prov=M&dok_var=1&dok_ext=htm Inhaltstext B:DE-101 application/pdf https://d-nb.info/1216960658/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032406111&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p dnb 20200930 DE-101 https://d-nb.info/provenance/plan#dnb 2\p dnb 20200930 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Köhnke, Merlin Christopher Approaches to mathematical modeling of biological invasions Mathematische Modellierung (DE-588)7651795-0 gnd Invasion Biologie (DE-588)4335542-0 gnd
subject_GND	(DE-588)7651795-0 (DE-588)4335542-0 (DE-588)4113937-9
title	Approaches to mathematical modeling of biological invasions
title_auth	Approaches to mathematical modeling of biological invasions
title_exact_search	Approaches to mathematical modeling of biological invasions
title_exact_search_txtP	Approaches to mathematical modeling of biological invasions
title_full	Approaches to mathematical modeling of biological invasions Merlin Christopher Köhnke
title_fullStr	Approaches to mathematical modeling of biological invasions Merlin Christopher Köhnke
title_full_unstemmed	Approaches to mathematical modeling of biological invasions Merlin Christopher Köhnke
title_short	Approaches to mathematical modeling of biological invasions
title_sort	approaches to mathematical modeling of biological invasions
topic	Mathematische Modellierung (DE-588)7651795-0 gnd Invasion Biologie (DE-588)4335542-0 gnd
topic_facet	Mathematische Modellierung Invasion Biologie Hochschulschrift
url	http://deposit.dnb.de/cgi-bin/dokserv?id=dab1550d7a4343ca9ee035d62db92602&prov=M&dok_var=1&dok_ext=htm https://d-nb.info/1216960658/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032406111&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kohnkemerlinchristopher approachestomathematicalmodelingofbiologicalinvasions AT logosverlagberlin approachestomathematicalmodelingofbiologicalinvasions

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