Stability in Model Populations (MPB-31):
Throughout the twentieth century, biologists investigated the mechanisms that stabilize biological populations, populations which--if unchecked by such agencies as competition and predation--should grow geometrically. How is order in nature maintained in the face of the seemingly disorderly struggle...
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Princeton, NJ
Princeton University Press
[2020]
|
| Schriftenreihe: | Monographs in Population Biology
110 |
| Schlagworte: | |
| Online-Zugang: | DE-1043 DE-1046 DE-858 DE-Aug4 DE-859 DE-860 DE-739 Volltext |
| Zusammenfassung: | Throughout the twentieth century, biologists investigated the mechanisms that stabilize biological populations, populations which--if unchecked by such agencies as competition and predation--should grow geometrically. How is order in nature maintained in the face of the seemingly disorderly struggle for existence? In this book, Laurence Mueller and Amitabh Joshi examine current theories of population stability and show how recent laboratory research on model populations--particularly blowflies, Tribolium, and Drosophila--contributes to our understanding of population dynamics and the evolution of stability. The authors review the general theory of population stability and critically analyze techniques for inferring whether a given population is in balance or not. They then show how rigorous empirical research can reveal both the proximal causes of stability (how populations are regulated and maintained at an equilibrium, including the relative roles of biotic and abiotic factors) and its ultimate, mostly evolutionary causes. In the process, they describe experimental studies on model systems that address the effects of age-structure, inbreeding, resource levels, and population structure on the stability and persistence of populations. The discussion incorporates the authors' own findings on the evolution of population stability in Drosophila. They go on to relate laboratory work to studies of animals in the wild and to develop a general framework for relating the life history and ecology of a species to its population dynamics. This accessible, finely written illustration of how carefully designed experiments can improve theory will have tremendous value for all ecologists and evolutionary biologists |
| Beschreibung: | Description based on online resource; title from PDF title page (publisher's Web site, viewed 24. Apr 2020) |
| Beschreibung: | 1 online resource 22 tables, 53 line illus., 25 halftones |
| ISBN: | 9780691209944 |
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| 520 | |a Throughout the twentieth century, biologists investigated the mechanisms that stabilize biological populations, populations which--if unchecked by such agencies as competition and predation--should grow geometrically. How is order in nature maintained in the face of the seemingly disorderly struggle for existence? In this book, Laurence Mueller and Amitabh Joshi examine current theories of population stability and show how recent laboratory research on model populations--particularly blowflies, Tribolium, and Drosophila--contributes to our understanding of population dynamics and the evolution of stability. The authors review the general theory of population stability and critically analyze techniques for inferring whether a given population is in balance or not. They then show how rigorous empirical research can reveal both the proximal causes of stability (how populations are regulated and maintained at an equilibrium, including the relative roles of biotic and abiotic factors) and its ultimate, mostly evolutionary causes. In the process, they describe experimental studies on model systems that address the effects of age-structure, inbreeding, resource levels, and population structure on the stability and persistence of populations. The discussion incorporates the authors' own findings on the evolution of population stability in Drosophila. They go on to relate laboratory work to studies of animals in the wild and to develop a general framework for relating the life history and ecology of a species to its population dynamics. This accessible, finely written illustration of how carefully designed experiments can improve theory will have tremendous value for all ecologists and evolutionary biologists | ||
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| 650 | 4 | |a Age-structured populations | |
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| 650 | 4 | |a Dendrolimus pini | |
| 650 | 4 | |a Effective population size | |
| 650 | 4 | |a Gamma distribution | |
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| 650 | 4 | |a Hyphantria cunea | |
| 650 | 4 | |a Lymantria dispar | |
| 650 | 4 | |a Lymantria monacha | |
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Datensatz im Suchindex
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| author | Mueller, Laurence D. 1951- Joshi, Amitabh |
| author_GND | (DE-588)1146343337 |
| author_facet | Mueller, Laurence D. 1951- Joshi, Amitabh |
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| dewey-full | 577.8/8 |
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| dewey-ones | 577 - Ecology |
| dewey-raw | 577.8/8 |
| dewey-search | 577.8/8 |
| dewey-sort | 3577.8 18 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| discipline_str_mv | Biologie |
| format | Electronic eBook |
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| index_date | 2024-07-03T14:31:27Z |
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| institution | BVB |
| isbn | 9780691209944 |
| language | English |
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| spelling | Mueller, Laurence D. 1951- Verfasser (DE-588)1146343337 aut Stability in Model Populations (MPB-31) Laurence D. Mueller, Amitabh Joshi Princeton, NJ Princeton University Press [2020] © 2001 1 online resource 22 tables, 53 line illus., 25 halftones txt rdacontent c rdamedia cr rdacarrier Monographs in Population Biology 110 Description based on online resource; title from PDF title page (publisher's Web site, viewed 24. Apr 2020) Throughout the twentieth century, biologists investigated the mechanisms that stabilize biological populations, populations which--if unchecked by such agencies as competition and predation--should grow geometrically. How is order in nature maintained in the face of the seemingly disorderly struggle for existence? In this book, Laurence Mueller and Amitabh Joshi examine current theories of population stability and show how recent laboratory research on model populations--particularly blowflies, Tribolium, and Drosophila--contributes to our understanding of population dynamics and the evolution of stability. The authors review the general theory of population stability and critically analyze techniques for inferring whether a given population is in balance or not. They then show how rigorous empirical research can reveal both the proximal causes of stability (how populations are regulated and maintained at an equilibrium, including the relative roles of biotic and abiotic factors) and its ultimate, mostly evolutionary causes. In the process, they describe experimental studies on model systems that address the effects of age-structure, inbreeding, resource levels, and population structure on the stability and persistence of populations. The discussion incorporates the authors' own findings on the evolution of population stability in Drosophila. They go on to relate laboratory work to studies of animals in the wild and to develop a general framework for relating the life history and ecology of a species to its population dynamics. This accessible, finely written illustration of how carefully designed experiments can improve theory will have tremendous value for all ecologists and evolutionary biologists In English Acanthoscelides Age-structured populations Agrostis scabra Bupalus piniarius Callosobruchus Clethrionomys Dendroctonus frontalis Dendrolimus pini Effective population size Gamma distribution Hyoicus pinastri Hyphantria cunea Lymantria dispar Lymantria monacha Normal distribution Panolis flammea Parlatoria camelliae Response surface method (RSM) Serial transfer system Splachnum ampullaceum Tetraplodon angustatus Tyria jacobaeae Zeiraphera diniana linear logistic SCIENCE / Life Sciences / Biology bisacsh Population biology Joshi, Amitabh aut https://www.degruyter.com/isbn/9780691209944 Verlag URL des Erstveröffentlichers Volltext |
| spellingShingle | Mueller, Laurence D. 1951- Joshi, Amitabh Stability in Model Populations (MPB-31) Acanthoscelides Age-structured populations Agrostis scabra Bupalus piniarius Callosobruchus Clethrionomys Dendroctonus frontalis Dendrolimus pini Effective population size Gamma distribution Hyoicus pinastri Hyphantria cunea Lymantria dispar Lymantria monacha Normal distribution Panolis flammea Parlatoria camelliae Response surface method (RSM) Serial transfer system Splachnum ampullaceum Tetraplodon angustatus Tyria jacobaeae Zeiraphera diniana linear logistic SCIENCE / Life Sciences / Biology bisacsh Population biology |
| title | Stability in Model Populations (MPB-31) |
| title_auth | Stability in Model Populations (MPB-31) |
| title_exact_search | Stability in Model Populations (MPB-31) |
| title_exact_search_txtP | Stability in Model Populations (MPB-31) |
| title_full | Stability in Model Populations (MPB-31) Laurence D. Mueller, Amitabh Joshi |
| title_fullStr | Stability in Model Populations (MPB-31) Laurence D. Mueller, Amitabh Joshi |
| title_full_unstemmed | Stability in Model Populations (MPB-31) Laurence D. Mueller, Amitabh Joshi |
| title_short | Stability in Model Populations (MPB-31) |
| title_sort | stability in model populations mpb 31 |
| topic | Acanthoscelides Age-structured populations Agrostis scabra Bupalus piniarius Callosobruchus Clethrionomys Dendroctonus frontalis Dendrolimus pini Effective population size Gamma distribution Hyoicus pinastri Hyphantria cunea Lymantria dispar Lymantria monacha Normal distribution Panolis flammea Parlatoria camelliae Response surface method (RSM) Serial transfer system Splachnum ampullaceum Tetraplodon angustatus Tyria jacobaeae Zeiraphera diniana linear logistic SCIENCE / Life Sciences / Biology bisacsh Population biology |
| topic_facet | Acanthoscelides Age-structured populations Agrostis scabra Bupalus piniarius Callosobruchus Clethrionomys Dendroctonus frontalis Dendrolimus pini Effective population size Gamma distribution Hyoicus pinastri Hyphantria cunea Lymantria dispar Lymantria monacha Normal distribution Panolis flammea Parlatoria camelliae Response surface method (RSM) Serial transfer system Splachnum ampullaceum Tetraplodon angustatus Tyria jacobaeae Zeiraphera diniana linear logistic SCIENCE / Life Sciences / Biology Population biology |
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