Abstract
Many ecologists have examined the process of how urbanization reduces biological diversity but rarely have its ecological consequences been assessed. We studied forest-dwelling burying beetles (Coleoptera: Silphidae)—a guild of insects that requires carrion to complete their life cycles—along an urban-rural gradient of land use in Maryland. Our objective was to determine how forest fragmentation associated with urbanization affects (1) beetle community diversity and structure and (2) the ecological function provided by these insects, that is, decomposition of vertebrate carcasses. Forest fragmentation strongly reduced burying beetle diversity and abundance, and did so far more pervasively than urbanization of the surrounding landscape. The likelihood that beetles interred experimental baits was a direct, positive function of burying beetle diversity. We conclude that loss of burying beetle diversity resulting from forest fragmentation could have important ecological consequences in urban forests.
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References
Anderson, R.S. and Peck, S.B. (1985) The Insects and Arachnids of Canada: Part 13. Canadian Government Publishing Centre, Ottawa, Ontario.
Andrén, H. (1994) Effects of habitat fragmentation on birds and mammals in landscapes with different proportions of suitable habitat: A review. Oikos 71, 355–366.
Blair, R.B. (1996). Land use and avian species diversity along an urban gradient. Ecological Applications 6, 506–519.
Blair, R.B. and Launer, A.E. (1997) Butterfly diversity and human land use: Species assemblages along an urban gradient. Biological Conservation 80, 113–125.
Blouin-Demers, G. and Weatherfield, P.J. (2000) A novel association between a beetle and a snake: Parasitism of Elaphne Obsoleta by Nicrophorus Pustulatus. Ecoscience 7, 395–397.
Borror, D.J. and White, R.E. (1970) A Field Guide to Insects: America North of Mexico. Houghton Mifflin Company, Boston.
Chernousova, N.F. (2001) Specific Features of the Dynamics of Murine Rodent Communities under the Effects of Urbanization: 1. Dynamics of Species Composition and Abundance. Russian Journal of Ecology 32, 122–125.
Chust, G., Lek, S., Deharveng, L., Ventura, D., Dcrot, D. and Pretus, J.L. (2000) The effects of the landscape pattern on arthropod assemblages: An analysis of scale-dependence using satellite data. Belgian Journal of Entomology 2, 99–110.
Collins, J.P., Kinzig, A., Grimm, N.B., Fagan, W.F., Hope, D., Wu, J. and Borer, E.T. (2000) A New Urban Ecology. American Scientist 88, 416–425.
Coyle, D.R. and Larsen, K.J. (1998) Burying beetles (Coleoptera: Silphidae) of northeastern Iowa: A comparison of baits for sampling. Journal of the Iowa Academy of Science 105, 161–164.
Didham, R.K., Ghazoul, J., Stork, N.E. and Davis, A.J. (1996) Insects in fragmented forests: A functional approach. TREE 11, 255–260.
Dreistadt, S.H., Dahlsten, D.L. and Frankie, G.W. (1990) Urban forests and insect ecology. BioScience 40, 192–198.
Fisher, B.L. (1998) Insect behavior and ecology in conservation: Preserving functional species interactions. Annals of the Entomological Society of America 91, 155–158.
Forman, R.T.T. (1983) An ecology of the landscape. BioScience 33, 535.
Gering, J.C. and Blair, R.B. (1999) Predation on artificial bird nests along an urban gradient: Predatory risk or relaxation in urban environments? Ecography 22, 532–541.
Gibbs, J.P. and Faaborg, J. (1990) Estimating the viability of ovenbird and Kentucky warbler populations in forest fragments. Conservation Biology 4, 193–196.
Gibbs, J.P. and Stanton, E.J. (2001) Habitat fragmentation and arthropod community change: Burying beetles, phoretic mites and flies. Ecological Applications 11, 79–85.
Gillies, C. and Clout, M. (2003) The prey of domestic cats (Felis Catus) in two suburbs of Auckland City, New Zealand. Journal of the Zoological Society of London 259, 309–315.
Hepinstall, J.A. and Sader, S.A. (1997) Using Bayesian statistics, thematic mapper satellite imagery, and breeding bird survey data to model bird species probability of occurrence in Maine. Photogrammetric Engineering & Remote Sensing 63, 1231–1237.
Holloway, A.K. and Schnell, G.D. (1997) Relationship between numbers of the endangered American burying beetle Nicrophorus Americanus olivier (Coleoptera: Silphidae) and available food resources. Biological Conservation 81, 145–152.
Homer, C.G., Huang, C., Yang, L., and Wylie, B. (2002) Development of a Circa 2000 Landcover Database for the United States. Washington D.C.: Proceedings of the American Society of Photogrammetry and Remote Sensing Annual Conference, April, 2002.
Ingham, D.S. and Samways, M.J. (1996) Application of fragmentation and variegation models to epigaeic invertebrates in South Africa. Conservation Biology 10, 1353–1358.
Klein, B.C. (1989) Effects of forest fragmentation on dung and burying beetle communities in central Amazonia. Ecology 70, 1715–1725.
Kozlov, M.V. (1996) Patterns of forest insect distribution within a large city: Microlepidoptera in St. Peterburg, Russia. Journal of Biogeography 23, 95–103.
Lomolino, M.V., Creighton, J.C., Schnell, G.D. and Certain, D.L. (1995) Ecology and conservation of the endangered American Burying Beetle (Nicrophorus Americanus). Conservation Biology 9, 605–614.
Lomolino, M.V. and Creighton, J.C. (1996) Habitat selection, breeding success and conservation of the endangered American burying beetle Nicrophorus Americanus. Biological Conservation 77, 235–241.
MacNally, R. (2002) Multiple Regression and inference in ecology and conservation biology: Further comments on identifying important predictor variables. Biodiversity and Conservation 11, 1397–1401.
Magurran, A.E. (1988) Ecological Diversity and its Measurement. Princeton, Princeton University Press, New Jersey.
Marzluff, J.M. and Ewing, K. (2001) Restoration of fragmented landscapes for the conservation of birds: A general framework and specific recommendations for urbanizing landscapes. Restoration Ecology 9, 280–292.
McDonnell, M.J. and Pickett, S.T.A. (1990) Ecosystem structure and function along urban-rural gradients: An unexploited opportunity for ecology. Ecology 71, 1232–1237.
Merrick, M.J. (1998) Correlating rodent diversity and density with burying beetle population size and reproductive behavior. Proceedings—The Nebraska Academy of Sciences and affiliated societies 108, 72.
Mills, G.S., Dunning, Jr. J.B. and Bates, J.M. (1989) Effects of urbanization on breeding bird community structure in southwestern desert habitats. The Condor 91, 416–428.
Mooney, HA, Cushman, J.H., Medina, E., Sala, O.E. and Schulze, E.-D. 1996. What we have learned about the ecosystem functioning of biodiversity. In Functional Roles of Biodiversity: A Global Perspective. John Wiley & Sons, Chichester, England.
Nilon, C.H. and Pais, R.C. (1997) Terrestrial vertebrates in urban ecosystems: Developing hypotheses for the Gwynns Falls Watershed in Baltimore, Maryland. Urban Ecosystems 1, 247–257.
Nowak, D.J. and Dwyer, J.F. (2000) Understanding the benefits and costs of urban forest ecosystems. In Handbook of Urban and Community Forestry in the Northeast. Kluwer Academic/Plenum Publishers, New York.
Otronen, M. (1988) The effect of body size on the outcome of fights in burying beetles (Nicrophorus). Annals of Zoology Fennici 25, 191–201.
Robinson S.K. and Wilcove, D.S. (1994) Forest fragmentation in the temperate zone and its effects on migratory songbirds. Bird Conservation International 4, 233–249.
Safryn, S.A. and Scott, M.P. (2000). Sizing up the competition: Do burying beetles weigh or measure their opponents? Journal of Insect Behavior 13, 291–297.
SAS Institute, Inc. (2002) SAS (Statistical Analysis System) for Windows, Version 9.00. Cary (NC).
Saunders, D.A., Hobbs, R.J. and Margules, C.R. (1991) Biological consequences of ecosystem fragmentation: A review. Conservation Biology 5, 18–32.
Scott, M.P. (1998) The ecology and behavior of burying beetles. Annual Review of Entomology 43, 595–618.
Shubeck, P.P. (1984) An inexpensive burying beetle trap (Coleoptera: Silphidae). Entomological News 95, 63–64.
Shubeck, P.P. and Blank, D.L. (1982) Burying beetle attraction to buried fetal pig carrion (Coleoptera: Silphidae). The Coleopterist’s Bulletin 36, 240–245.
Smith, R.J. and Merrick, M.J. (2001) Resource availability and population dynamics of Nicrophorus Investigator, an obligate carrion breeder. Ecological Entomology 26, 173–180.
Suzuki, S. (1999) Does carrion-burial by Nicrophorus Vespilloides (Silphidae: Coleoptera) prevent discovery by other burying beetles? Entomological Science 2, 205–208.
Suzuki, S. (2000). Carrion burial by Nicrophorus Vespilloides (Coleoptera: Silphidae) prevents fly infestation. Entomological Science 3, 269–272.
Tilghman, N. (1987) Characteristics of urban woodlands affecting breeding bird diversity and abundance. Landscape and Urban Planning 14, 481–495.
Tilman, D. (2000) Causes, consequences and ethics of biodiversity. Nature 405, 208–211.
Trumbo, S.T. (1990) Reproductive success, phenology, and biogeography of burying beetles (Silphidae, Nicrophorus). The American Midland Naturalist 124, 1–11.
Trumbo, S.T. and Eggert, A.K. (1994) Beyond monogamy: Territory quality influences sexual advertisement in male burying beetles. Animal Behavior 48, 1043–1047.
Trumbo, S.T. and Bloch, P.L. (2000) Habitat fragmentation and burying beetle abundance and success. Journal of Insect Conservation 4, 245–252.
Trumbo, S.T. and Bloch, P.L. (2002) Competition between Nicrophorus Orbicollis and N. Defodiens: Resource locating efficiency and temporal partitioning. Northeastern Naturalist 9, 13–26.
United States Environmental Protection Agency (USEPA). (2002) NLCD Classification Scheme Definitions. Available from: http://www.epa.gov/mrlc/definitions.html via the INTERNET. Accessed 2003 April 9.
Wilson, D.S. (1983) The effect of population structure on the evolution of mutualism: A field test involving burying beetles and their phoretic mites. American Naturalist 121, 851–870.
Wilson, D.S., Knollenberg, W.G. and Fudge, J. (1984) Species packing and temperature dependent competition among burying beetles (Silphidae, Nicrophorus). Ecological Entomology 9, 205–216.
Xu, H. and Suzuki, N. (2001). Effects of carcass size and parental feeding on reproductive success of the burying beetle Nicrophorus Quadripunctatus (Coleoptera: Silphidae). Entomological Science 4, 217–222.
Zar, J.H. (1984) Biostatistical Analysis, 2nd ed. Englewood Cliffs, NJ: Prentice Hall.
Zipperer, W.C., Sisinni, S.M., Pouyat, R.V. and Foresman, T.W. (1997) Urban tree cover: An ecological perspective. Urban Ecosystems 1, 229–246.
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Wolf, J.M., Gibbs, J.P. Silphids in urban forests: Diversity and function. Urban Ecosyst 7, 371–384 (2004). https://doi.org/10.1007/s11252-005-6836-6
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DOI: https://doi.org/10.1007/s11252-005-6836-6