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The Theory of Island Biogeography
AuthorsRobert MacArthur
Edward O. Wilson
IllustratorJohn Kyrk
LanguageEnglish
SubjectInsular biogeography
PublisherPrinceton University Press
Publication date
1967
Publication placeUnited States
Media typePrint (Hardcover and Paperback)
Pages203
ISBN0691088365

The Theory of Island Biogeography is a 1967 book by Robert MacArthur and Edward O. Wilson.[1] It is widely regarded as a seminal piece in island biogeography and ecology. The Princeton University Press reprinted the book in 2001 as a part of the "Princeton Landmarks in Biology" series.[2] The book popularized the theory that insular biota maintain a dynamic equilibrium between immigration and extinction rates. The book also popularized the concepts and terminology of r/K selection theory.[3]

Background

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The Theory of Island Biogeography has its roots in Wilson's work on the ants of Melanesia. MacArthur synthesized Wilson's ideas about competition, colonization and equilibrium into a simple graphical representation of immigration and extinction curves, from which one can determine the equilibrial species number on an island.[4] MacArthur and Wilson's ideas were first presented in a paper published in 1963,[5] and were further developed into a book.[4]

Content

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Introduction

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In the introductory chapter, MacArthur and Wilson highlight the significance of studying island biogeography. Since islands are less complex and more numerous than larger ecosystems, islands provide better opportunities to develop insights and perform replicable field research. Given that insular microcosms are common to all ecosystems, principles from island biogeography can be applied generally.

This graph portrays the immigration rate of new species and the extinction rate of resident species versus the number of species present on an island. The intersection point gives the equilibrial species number.

Area-diversity pattern

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In Chapters 2 and 3, MacArthur and Wilson postulate that insular species richness depends on island size and isolation from source regions. The authors present an equilibrium model that is based on the following concept: when there is an addition of the number of species on an island, the island's immigration rate of new species will decrease while the extinction rate of resident species will increase. MacArthur and Wilson thus assume that there will be an equilibrial point where the immigration rate equals the extinction rate. They further hypothesize that an increase in island size will lower extinction curves while a decrease in distance between the island and the source region will raise immigration curves. Since the intersection of immigration and extinction rate curves determines the species number, the authors predict that larger islands will have more species than smaller islands (assuming these islands are comparably isolated) and isolated islands will have fewer species than islands more proximal to source regions (assuming these islands are equally large). There is additional discourse on how insular clusters and stepping stones affect this model.

Modeling colonization and dispersion

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Chapter 4 discusses survivorship theory. The authors describe a model which states that the probability for successful colonization is dependent on birth rate, death rate, and carrying capacity of the environment. From this model, conclusions are made on the average survival time for a propagule's offspring, the average survival time of a saturated population, and characteristics of successful propagules.

In Chapter 5, MacArthur and Wilson examine why species can be excluded from insular environments and how the niche of a species changes after introduction. The authors surmise that pioneering species can be excluded for the following reasons: the island has saturated levels of pre-existing competition, the pioneering species cannot maintain a population large enough to avoid extinction, and the island hosts too many or too few natural predators. When a species colonizes a new area, the authors state that the species will either shift, expand or contract its realized niche.

Chapter 6 is a theoretical exploration of dispersal models. The authors consider how insular stepping stones affect the dispersion of species -- particularly, the effects that size and isolation of stepping stones have on dispersion. Further consideration is given to how dispersal curves and average distance travelled by pioneers impacts this study.

In Chapter 7, the authors state that there are generally 3 consecutive phases to the evolution of populations after colonization. Initially, there is a trend for colonizers to evolve from r-strategists into K-strategists. The founder effect may also influence colonizing populations during this first phase. The second phase is marked by long term adaptations to the local environment. In this period, abilities for dispersal are commonly reduced, and colonizers will either differentiate or assimilate with competing species. In the third phase, the evolution of colonizing populations may result in speciation and/or adaptive radiation.

Field testing

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The insular biota equilibrium theory was experimentally tested by E. O. Wilson and his then-graduate student Daniel Simberloff in six small mangrove islands in the Florida Keys. The islands were fumigated to clear the arthropod populations. Immigration of species onto the island was then observed in a first and second year census. Wilson and Simberloff confirmed that there was an inverse relationship between the number of species on an island and the distance to the source region as predicted in The Theory of Island Biogeography.[6]

Impact

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Applications

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MacArthur and Wilson's theory of island biogeography has been widely applied outside of island ecosystems. For microbiota, the theory has been applied to the distribution of ectomycorrihzal fungi on trees,[7] the distribution of bacteria in water-filled treeholes,[8] and the distribution of fungi among shrubs.[9] While for flora and fauna, the theory's predictions have been realized with the species richness of plants on mountains[10], and with the species richness of aquatic snails in bodies of water.[11] MacArthur and Wilson's work has been used as a basis in other ecological theories, notably the unified neutral theory of biodiversity,[12] and has been foundational for the fields of landscape ecology, invasion biology, and conservation biology.[4][2]

Criticism

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Several studies have disputed the underlying assumptions in MacArthur and Wilson's theory of island biogeography: specifically, the interchangeability of species and islands, the independence between immigration and extinction, and the insignificance of non-equilibrial processes.[13] In the 2001 preface, Wilson stated that the "the flaws of the book lie in its oversimplification and incompleteness".[1]

Legacy

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In 2007, a symposium was held at Harvard University honoring the fortieth anniversary of The Theory of Island Biogeography.[4] Following this conference, a collection of papers was published in the book, The Theory of Island Biogeography Revisited.[4]

See also

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References

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  1. ^ a b H., MacArthur, Robert (2001). The theory of island biogeography. Wilson, Edward O. Princeton: Princeton University Press. ISBN 0691088365. OCLC 45202069.{{cite book}}: CS1 maint: multiple names: authors list (link)
  2. ^ a b "The Theory of Island Biogeography". Princeton University Press. Retrieved 2018-06-06.
  3. ^ Pianka, Eric R. (1970-11). "On r- and K-Selection". The American Naturalist. 104 (940): 592–597. doi:10.1086/282697. ISSN 0003-0147. {{cite journal}}: Check date values in: |date= (help)
  4. ^ a b c d e Wilson, Edward O. (2010). "Island Biogeography in the 1960s". In Losos, Jonathan B.; Ricklefs, Robert E. (eds.). The Theory of Island Biogeography Revisited. Princeton University Press. pp. 1–12. ISBN 9780691136530.
  5. ^ MacArthur, Robert H.; Wilson, Edward O. (1963-12-01). "An Equilibrium Theory of Insular Zoogeography". Evolution. 17 (4): 373–387. doi:10.1111/j.1558-5646.1963.tb03295.x. ISSN 1558-5646.
  6. ^ Simberloff, D. S., & Wilson, E. O. (1970). Experimental zoogeography of islands. A two‐year record of colonization. Ecology, 51(5), 934-937.
  7. ^ Glassman, Sydney I.; Lubetkin, Kaitlin C.; Chung, Judy A.; Bruns, Thomas D. (2017-02). "The theory of island biogeography applies to ectomycorrhizal fungi in subalpine tree "islands" at a fine scale". Ecosphere. 8 (2): e01677. doi:10.1002/ecs2.1677. ISSN 2150-8925. {{cite journal}}: Check date values in: |date= (help)
  8. ^ Bell, Thomas; Ager, Duane; Song, Ji-Inn; Newman, Jonathan A.; Thompson, Ian P.; Lilley, Andrew K.; Gast, Christopher J. van der (2005-06-24). "Larger Islands House More Bacterial Taxa". Science. 308 (5730): 1884–1884. doi:10.1126/science.1111318. ISSN 0036-8075. PMID 15976296.
  9. ^ Belisle, Melinda; Peay, Kabir G.; Fukami, Tadashi (2011-11-12). "Flowers as Islands: Spatial Distribution of Nectar-Inhabiting Microfungi among Plants of Mimulus aurantiacus, a Hummingbird-Pollinated Shrub". Microbial Ecology. 63 (4): 711–718. doi:10.1007/s00248-011-9975-8. ISSN 0095-3628. PMC 4108428. PMID 22080257.{{cite journal}}: CS1 maint: PMC format (link)
  10. ^ Riebesell, John F. (1982-05). "Arctic-Alpine Plants on Mountaintops: Agreement with Island Biogeography Theory". The American Naturalist. 119 (5): 657–674. doi:10.1086/283941. ISSN 0003-0147. {{cite journal}}: Check date values in: |date= (help)
  11. ^ Lassen, Hans Heidemann (1975). "The diversity of freshwater snails in view of the equilibrium theory of island biogeography". Oecologia. 19 (1): 1–8. doi:10.1007/bf00377585. ISSN 0029-8519. {{cite journal}}: Check |issn= value (help)
  12. ^ 1942-, Hubbell, Stephen P., (2001). The unified neutral theory of biodiversity and biogeography. Princeton: Princeton University Press. ISBN 9781400837526. OCLC 733057107. {{cite book}}: |last= has numeric name (help)CS1 maint: extra punctuation (link) CS1 maint: multiple names: authors list (link)
  13. ^ Brown, James H.; Lomolino, Mark V. (2000-01). "Concluding remarks: historical perspective and the future of island biogeography theory". Global Ecology and Biogeography. 9 (1): 87–92. doi:10.1046/j.1365-2699.2000.00186.x. ISSN 1466-822X. {{cite journal}}: Check date values in: |date= (help)
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