Island flora and fauna: equilibrium and nonequilibrium

doi:10.1017/CBO9781139095075.014

9 - Island flora and fauna: equilibrium and nonequilibrium

from Part III - Equilibrium and Nonequilibrium on Geographical Scales

Published online by Cambridge University Press: 05 March 2013

Lloyd W. Morrison

Edited by

Klaus Rohde

Show author details

Klaus Rohde: Affiliation:
University of New England, Australia

Book contents

Get access

Summary

In this chapter, I evaluate the concept of equilibrium in insular systems. I focus on species numbers rather than population abundances, because many studies of island biotas have been motivated by the ideas of MacArthur and Wilson (1967), who focused on species numbers. A useful system for thinking about equilibrium on islands was presented by Rey (1984) and further expanded and developed by Whittaker (1998). In this system, an island is cross-classified according to two characteristics: (1) whether it is in equilibrium or not, and (2) whether the species composition is static or dynamic. In an equilibrium condition, immigration and extinction rates are balanced, and species are neither gained nor lost. In a nonequilibrium condition, immigrations exceed extinctions, or vice versa, and species number increases or decreases over time. A static condition implies no change in the identities of species present, whereas a dynamic condition describes changes in species composition, due to turnover. I make reference to this system, with some modifications, in describing a number of different island scenarios. I agree with Whittaker that it is better to think of these characteristics in terms of continua rather than discrete categories, although the use of categories facilitates the comparison of various studies.

Equilibrium vs. nonequilibrium states of islands

Stasis

An island in stasis (“static equilibrium” in Whittaker, 1998) experiences neither immigrations nor extinctions; the species composition remains unchanged over time (Figure 9.1a). The classic example of this scenario derives from the work of Lack (1969, 1976) on birds. Lack assumed dispersal was not limiting, and the main factor determining whether a given species would be present on an island was whether the appropriate habitat type existed. Once all niche spaces were occupied, the island would be closed to further colonization. Other studies, many with birds, have found a relative stasis in community composition, with very few immigrations or extinctions (e.g., Walter, 1998; Foufopoulos & Mayer, 2007). In this relatively deterministic view, observed turnover of species has often been attributed to anthropogenic effects, which Lack acknowledged could lead to changes in the fauna.

Information

Type: Chapter
Information: The Balance of Nature and Human Impact , pp. 121 - 132

DOI: https://doi.org/10.1017/CBO9781139095075.014 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2013

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Book purchase

Temporarily unavailable

References

Abbott, I., & Grant, P. R. (1976). Nonequilibrial bird faunas on islands. The American Naturalist, 110, 507–528.CrossRef Google Scholar

Brown, J. H. (1971). Mammals on mountaintops: nonequilibrium insular biogeography. The American Naturalist, 105, 467–478.CrossRef Google Scholar

Chen, I.-C., Hill, J. K., Ohlemuller, R., Roy, D. B., & Thomas, C. D. (2011). Rapid range shifts of species associated with high levels of climate warming. Science, 333, 1024–1026.CrossRef Google Scholar PubMed

Dennis, R. L., Dapporto, H. L., Sparks, T. H., et al. (2010). Turnover and trends in butterfly communities on two British tidal islands: stochastic influences and deterministic factors. Journal of Biogeography, 37, 2291–2304.CrossRef Google Scholar

Foufopoulos, J., Kilpatrick, A. M., & Ives, A. R. (2011). Climate change and elevated extinction rates of reptiles from Mediterranean islands. The American Naturalist, 177, 119–129.CrossRef Google Scholar PubMed

Foufopoulos, J., & Mayer, G. C. (2007). Turnover of passerine birds on islands in the Aegean Sea (Greece). Journal of Biogeography, 34, 1113–1123.CrossRef Google Scholar

Goldenberg, S. B., Landsea, C. W., Mestas-Nunez, A. M., & Gray, W. M. (2001). The recent increase in Atlantic hurricane activity: causes and implications. Science, 293, 474–479.CrossRef Google Scholar PubMed

Grayson, D. K., & Madsen, D. B. (2000). Biogeographic implications of recent low-elevation recolonization by Neotoma cinera in the Great Basin. Journal of Mammology, 81, 1100–1105.2.0.CO;2>CrossRef Google Scholar

Lack, D. (1969). The numbers of bird species on islands. Bird Study, 16, 193–209.CrossRef Google Scholar

Lack, D. (1976). Island Biology Illustrated by the Land Birds of Jamaica. Oxford: Blackwell Scientific.Google Scholar

Lawlor, T. E. (1998). Biogeography of great basin mammals: paradigm lost?Journal of Mammology, 79, 1111–1130.CrossRef Google Scholar

MacArthur, R. H., & Wilson, E. O. (1967). The Theory of Island Biogeography. Princeton, NJ: Princeton University Press.Google Scholar

Morrison, L. W. (1997). The insular biogeography of small Bahamian cays. Journal of Ecology, 85, 441–454.CrossRef Google Scholar

Morrison, L. W. (1998). The spatiotemporal dynamics of insular ant metapopulations. Ecology, 79, 1135–1146.CrossRef Google Scholar

Morrison, L. W. (2002). Island biogeography and metapopulation dynamics of Bahamian ants. Journal of Biogeography, 29, 387–394.CrossRef Google Scholar

Morrison, L. W. (2003). Plant species persistence and turnover on small Bahamian cays. Oecologia, 136, 51–62.CrossRef Google Scholar

Morrison, L. W. (2010a). Disequilibrial island turnover dynamics: a 17-year record of Bahamian ants. Journal of Biogeography, 37, 2148–2157.CrossRef Google Scholar

Morrison, L. W. (2010b). Long-term non-equilibrium dynamics of insular floras: a 17-year record. Global Ecology and Biogeography, 19, 663–672.Google Scholar

Morrison, L. W., & Spiller, D. A. (2008). Patterns and processes in insular floras affected by hurricanes. Journal of Biogeography, 35, 1701–1710.CrossRef Google Scholar

Nyberg, J., Malmgren, B. A., Winter, A., et al. (2007). Low Atlantic hurricane activity in the 1970s and 1980s compared to the past 270 years. Nature, 447, 698–702.CrossRef Google Scholar PubMed

Rey, J. R. (1984). Experimental tests of island biogeographic theory. In Strong, Jr D. R.., Simberloff, D., Abele, L. G. & Thistle, A. B. (Eds.), Ecological Communities: Conceptual Issues and the Evidence (pp. 101–112). Princeton, NJ: Princeton University Press.Google Scholar

Ricklefs, R. E., & Bermingham, E. (2001). Nonequilibrium diversity dynamics of the Lesser Antillean avifauna. Science, 294, 1522–1524.CrossRef Google Scholar PubMed

Russell, G. J., Diamond, J. M., Pimm, S. L., & Reed, T. M. (1995). A century of turnover: community dynamics at three timescales. Journal of Animal Ecology, 64, 628–641.CrossRef Google Scholar

Sax, D. F., & Gaines, S. D. (2008). Species invasions and extinction: the future of native biodiversity on islands. Proceedings of the National Academy of Sciences of the USA, 105, 11490–11497.CrossRef Google Scholar PubMed

Sax, D. F., Gaines, S. D., & Brown, J. H. (2002). Species invasions exceed extinctions on islands worldwide: a comparative study of plants and birds. The American Naturalist, 160, 766–783.CrossRef Google Scholar PubMed

Schoener, T. W. (1986). Patterns in terrestrial vertebrate versus arthropod communities: do systematic differences in regularity exist? In Diamond, J. M., & Case, T. J. (Eds.), Community Ecology (pp. 556–586). New York: Harper & Row.Google Scholar

Schoener, T. W. (1991). Extinction and the nature of the metapopulation: a case study. Acta Oecologica, 12, 53–75.Google Scholar

Schoener, T. W. (2010). The MacArthur-Wilson equilibrium model: a chronicle of what it said and how it was tested. In Losos, J. B. & Ricklefs, T. J. (Eds.), The Theory of Island Biogeography Revisited (pp. 52–87). Princeton, NJ: Princeton University Press.Google Scholar

Schoener, T. W., & Spiller, D. A. (1987). High population persistence in a system with high turnover. Nature, 330, 474–477.CrossRef Google Scholar

Schoener, T. W., & Spiller, D. A. (2006). Nonsynchronous recovery of community characteristics in island spiders after a catastrophic hurricane. Proceedings of the National Academy of Sciences of the USA, 103, 2220–2225.CrossRef Google Scholar PubMed

Schoener, T. W., Spiller, D. A., & Losos, J. B. (2001). Natural restoration of the species-area relation for a lizard after a hurricane. Science, 294, 1525–1528.CrossRef Google Scholar PubMed

Schoener, T. W., Spiller, D. A., & Losos, J. B. (2004). Variable ecological effects of hurricanes: the importance of seasonal timing for survival of lizards on Bahamian islands. Proceedings of the National Academy of Sciences of the USA, 101, 177–181.CrossRef Google Scholar PubMed

Simberloff, D. (1983). When is an island community in equilibrium?Science, 220, 1275–1277.CrossRef Google Scholar PubMed

Spiller, D. A., & Agrawal, A. A. (2003). Intense disturbance enhances plant susceptibility to herbivory: natural and experimental evidence. Ecology, 84, 890–897.CrossRef Google Scholar

Spiller, D. A., Losos, J. B., & Schoener, T. W. (1998). Impact of a catastrophic hurricane on island populations. Science, 281, 695–697.CrossRef Google Scholar PubMed

Torres, J. A., & Snelling, R. R. (1997). Biogeography of Puerto Rican ants: a non-equilibrium case?Biodiversity and Conservation, 6, 1103–1121.CrossRef Google Scholar

Villa, F., Rossi, O., & Sartore, F. (1992). Understanding the role of chronic environmental disturbance in the context of island biogeographic theory. Environmental Management, 16, 653–666.CrossRef Google Scholar

Walter, H. S. (1998). Driving forces of island biodiversity: an appraisal of two theories. Physical Geography, 19, 351–377.Google Scholar

Whittaker, R. J. (1995). Disturbed island ecology. Trends in Ecology and Evolution, 10, 421–425.CrossRef Google Scholar PubMed

Whittaker, R. J. (1998). Island Biogeography. Oxford: Oxford University Press.Google Scholar

Whittaker, R. J. (2004). Dynamic hypotheses of richness on islands and continents. In Lomolino, M. V. & Heaney, L. R. (Eds.), Frontiers of Biogeography: New Directions in the Geography of Nature (pp. 211–231). Sunderland, MA: Sinauer Associates.Google Scholar

Whittaker, R. J., & Fernández-Palacios, J. M. (2007). Island Biogeography: Ecology, Evolution, and Conservation. Oxford: Oxford University Press.Google Scholar

Accessibility standard: Unknown

Accessibility compliance for the PDF of this book is currently unknown and may be updated in the future.