Abstract
Succession in marine soft-sediment habitats has been studied extensively and several general models of successional dynamics have been developed. However, few researchers have addressed how successional dynamics may change over different spatial scales. Here we extend a model that focuses on the factors that control recolonization and succession. These factors comprise three levels of a hierarchy which include environmental conditions, life history and population processes and biotic interactions. Using this hierarchical framework, we consider the spatial scales at which different factors operate, and argue that the relative mix and intensity of factors controlling succession change at different spatial scales. As a result, successional dynamics may vary considerably as the spatial scale of disturbance increases. At small scales, factors at each level of the hierarchy are important. The greater potential for biotic interactions at this scale may be particularly critical. At meso- to large scales, population processes and environmental conditions have the most influence on successional dynamics. Due to these differences, responses to small-scale (≲ 1 m2) as well as large-scale (≳ 1 hectare) disturbances may be quite variable. Within this range (≳ 1 m2 ≲ 1 hectare), short- and long-term responses to disturbance may be relatively more predictable and conform to current models of succession in soft-sediment habitats.
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References
Alon, N. C. and S. E. Stancyk, 1982. Variation in life history patterns of the grass shrimp Palaemonetes pugio in two South Carolina estuarine systems. Mar. Biol. 68: 265–276.
Ambrose, W. G., 1991. Are infaunal predators important in structur- ing marine soft-bottom communities? Am. Zool. 31: 849–860.
Angel, M. V., 1994. Spatial distribution of marine organisms: patterns and processes. In P. J. Edwards, R. M. May and N. R. Webb (eds), Large-Scale Ecology and Conservation Biology. Blackwell Scientific Publications, Oxford: 59–109.
Barry, J. P. and P. K. Dayton, 1991. Physical heterogeneity and the organization of marine communities. In Kolasa, J. and S.T.A. Pickett (eds), Ecological Heterogeneity. Springer-Verlag, New York: 270–320.
Boesch, D. F., 1977. A new look at the zonation of benthos along the estuarine gradient. In B. C. Coull (ed), Ecology of the Marine Benthos. University of South Carolina Press, Columbia (SC): 245–266.
Butman, C. A., 1987. Larval settlement of soft-sediment invertebrates: The spatial scales explained by active habitat selection and the emerging role of hydrodynamical processes. Oceanogr. mar. Biol. Ann. Rev. 25: 113–165.
Committo, J. A., C. A. Currier, L. R. Kane, K. A. Reinsel and 1. M. Ulm, 1995. Dispersal dynamics of the bivalve Gemma gemma in a patchy environment. Ecol. Monogr. 65: 1–20.
Connell, J. H. and R. O. Slatyer, 1977. Mechanisms of succession in natural communities and their role in community stability and organization. Am. Nat. 111: 1119–1144.
Dauer, D. M., R. M. Ewing, J. W. Sourbeer, W. T. Harlon and T. L. Stokes, 1982. Nocturnal movements of the macrobenthos of the Lafayette River, Virginia. Int. Rev. ges. Hydrobiol. 67: 761–775.
Dayton, P. K., 1994. Community landscape: scale and stability in hard bottom marine communities. In P. S. Giller, A. G. Hildrew and D. G. Rafaelli (eds), Aquatic Ecology: Scale, Pattern, and Process. Blackwell Scientific Publications, London: 289–332.
Dayton, P. K. and M. J. Tegner, 1984. The importance of scale in community ecology: A kelp forest example with terrestrial analogs. In P. W. Price, C. N. Slobodchikoff and W. S. Gaud (eds), A New Ecology: Novel Approaches to Interactive Systems. John Wiley and Sons, New York: 457–483.
Dean, D., 1978. Migration of the sandworm Nereis virens during winter nights. Mar. Biol. 45: 165–173.
Dobbs, F. C. and J. M. Vozarik, 1983. Immediate effects of a storm on coastal infauna. Mar. Ecol. Prog. Ser. 11: 273–279.
Eckman, J. E., 1983. Hydrodynamic processes affecting benthic recruitment. Limnol. Oceanogr. 28: 241–257.
Elmgren, R., S. Hansson, U. Larsson, B. Sundelin, and P. D. Boehm, 1983. The `Tsesis’ oilspill: acute and long-term impact on the benthos, Mar. Biol. 73: 51–65.
Emmerson, C. W. and J. Grant, 1992. The control of soft-shell clam (Mya arenaria) recruitment on intertidal sandlots by bedload sediment transport. Limnol. Oceanogr. 36: 1288–1300.
Gallagher, E. D., P. A. Jumars and D. D. Trueblood, 1983. Facilitation of soft-bottom succession by tube builders. Ecology 64: 1200 1216.
Grassle, J. F. and J. R. Grassle, 1974. Opportunistic life histories and genetic systems in marine benthic polychaetes. J. mar. Res. 32: 253–284.
Grassle, J. F. and H. L. Sanders, 1973. Life histories and the role of disturbance. Deep Sea Res. 20: 643–659.
Gray, J. S., 1974. Animal sediment relationships. Oceanogr. Mar. Biol. Ann. Rev. 12: 223–261.
Günther, C. P., 1992. Dispersal of intertidal invertebrates: A strategy to react to disturbances of different scales? Neth. J. Sea Res. 30: 45–56.
Hall, S. J., D. Raffaelli and S. F. Thrush, 1994. Patchiness and disturbance in shallow water benthic assemblages. In P. S. Giller, A. G. Hildrew and D.G. Rafaelli (eds), Aquatic Ecology: Scale, Pattern, and Process. Blackwell Scientific Publications, London: 333–375.
Johnson, R. G., 1973. Conceptual models of benthic communities. In T. J. M. Schopf (ed), Models in Paleobiology. Freeman Cooper and Co., San Francisco: 148–159.
Kaplan, E. H., J. R. Welker, M. G. Kraus, and S. McCourt, (1975) Some factors affecting the colonization of a dredged channel, Mar. Biol. 32: 193–204.
Keough, M. J. and K. P. Black, 1996. Predicting the scale of marine impacts; Understanding planktonic links between populations. In R. J. Schmitt and C. W. Osenberg (eds), Detecting Ecological Impacts–Concepts and Applications in Coastal Habitats. Academic Press, San Diego: 199–234.
Kneib, R. T., 1985. Predation and disturbance by grass shrimp, Palaemonetes pugio Holthuis, in soft-substratum benthic invertebrate assemblages. J. exp. mar. Biol. Ecol. 93: 91–102.
Levin, L. A., 1984. Life history and dispersal patterns in a dense infaunal polychaete assemblage: Community structure and response to disturbance. Ecology 65: 1185–1200.
Levin, L. A. and D. V. Huggett, 1990. Implications of alternative reproductive modes for seasonality and demography in an estuarine polychaete. Ecology 71: 2191–2208.
Levin, S. A., 1992. The problem of pattern and scale in ecology. Ecology 73: 1943–1983.
McArdle, B. H. and R. G. Blackewell, 1989. Measurement of density variability in the bivalve Chione stutchburyi using spatial autocorrelation. Mar. Ecol. Progr. Ser. 32: 245–252.
McCall, P. L., 1977. Community patterns and adaptive strategies of the infaunal benthos of Long Island Sound. J. mar. Res. 35: 221–226.
Moverley, J. H., R. Saenger and M. A. Curtis, 1986. Patterns of polychaete recolonization in Queensland subtropical estuaries following severe flooding. Hydrobiologia 134: 227–235.
Olive, R J. W. and R. B. Clark, 1978. The physiology of reproduction. In P. J. Mill (ed), Physiology of Annelids. Academic Press, London: 271–368.
Olive, P. J. W. and P. J. Morgan, 1984. A survey of the age structure of beach populations of Nephtys spp. in the British Isles: the basis of population fluctuations. In J. Boutler (ed), Proceedings of the 17th European Marine Biological Symposium. Oceanol. Acta special volume: 141–145.
Oliver, J. S. and P. N. Slattery, 1985. Destruction and opportunity on the sea floor: effects of graywhale feeding. Ecology 66: 1965–1975.
Palmer, M. A., 1988. Dispersal of marine meiofauna: a review and conceptual model explaining passive transport and active emergence with implications for recruitment. Mar. Ecol. Prog. Ser. 48: 81–91.
Pearson, T. H. and R. Rosenberg. 1978. Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanogr. Mar. Biol. Ann. Rev. 16: 229–311.
Peterson, C. H. and R. Black, 1987. Resource depletion by active suspension feeders on tidalflats: influence of local density and tidal elevation. Limnol. Oceanogr. 32: 143–166.
Probert, P. K., 1984. Disturbance, sediment stability and trophic structure of soft-bottom communities. J. mar. Res. 42: 893–921.
Reise, K. 1985. Tidal Flat Ecology: An Experimental Approach to Species Interactions. Springer Verlag, Berlin, 191 pp.
Rhoads, D. C., 1974. Organism-sediment relations on the muddy sea floor. Oceanogr. Biol. Ann. Rev. 12: 263–300.
Rhoads, D. C. and L. F. Boyer, 1982. The effects of marine benthos on physical properties of sediments: A successional perspective. In P. L. McCall and M. J. S. Tevesz (eds), Animal-Sediment Relations. Plenum Publishers, New York: 3–52.
Rhoads, D. C., P. L. McCall and J. Y. Yingst (1978). Production and disturbance on the estuarine seafloor. Am. Sci. 66: 577–586.
Ruth, B. F., D. A. Flemer and C. M. Bundrick, 1994. Recolonization of esturaine sediments by macroinvertebrates: Does microcosm size matter? Estuaries 17: 606–613.
Schneider, D. C. and J. F. Piatt, 1986. Scale-dependent correlation of seabirds with schooling fish in a coastal ecosystem. Mar. Ecol. Progr. Ser. 32: 237–246.
Shull, D. H., 1997. Mechanisms of infaunal polychaete dispersal and colonization in an intertidal sandflat. J. mar. Res. 55: 153–179.
Smith, C. R. and S. J. Brumsickle. 1989. The effect of patch size and substrate isolation on colonization modes and rate in an intertidal sediment. Limnol. Oceanogr. 34: 1263–1277.
Thistle, D., 1981. Natural physical disturbances and communities of marine soft-bottoms. Mar. Ecol. Prog. Ser. 6: 223–228.
Thrush, S. F., 1991. Spatial patterns in soft-bottom communities. Trends in Ecol. Evol. 6: 75–79.
Thrush, S. F., J. E. Hewitt and R. D. Pridmore, 1989. Patterns in the spatial arrangements of polychaetes and bivalves in intertidal sandflats. Mar. Biol. 102: 529–535.
Thrush, S. F., R. D. Pridmore, J. E. Hewitt and V.J. Cummings, 1991. Impact of ray feeding disturbances on sandflat macrobenthos: do communities dominated by polychaetes or shellfish respond differently? Mar. Ecol. Progr. Ser. 69: 245–252.
Thrush, S. F., R. B. Whitlatch, R. D. Pridmore, J. E. Hewitt, V. J. Cummings and M. R. Wilkinson, 1996. Scale-dependent recolonization: The role of sediment stability in a dynamic sandflat habitat. Ecology 77: 2471–2487.
VanBlaricom, G. R., 1982. Experimental analyses of structural regulation in a marine sand community exposed to oceanic swell. Ecol. Monogr. 52: 283–305.
Virnstein, R. W., 1977. The importance of predation by crabs and fishes on benthic infauna in Chesapeake Bay. Ecology 58: 1199–1217.
Whitlatch, R. B. and R. N. Zajac. 1985, Biotic interactions among estuarine infaunal opportunistic species. Mar. Ecol. Prog. Ser. 21: 299–311.
Wiens, J. A., 1989. Spatial scaling in ecology. Funct. Ecol. 3: 385–397.
Wilson, W. H., 1988. Shifting zones in a Bay of Fundy soft-sediment community: patterns and processes. Ophelia 29: 227–245.
Wilson, W. H., 1989. Predation and the mediation of intraspecific competition in an infaunal community in the Bay of Fundy. J. exp. mar. Biol. Ecol. 132: 221–245.
Wilson, W. H., 1990. Competition and predation in marine soft- sediment communities. Ann. Rev. Ecol. Syst. 21: 221–241.
Woodin, S. A., 1981. Disturbance and community structure in a shallow water sand flat. Ecology 62: 1052–1066.
Woodin, S. A., 1983. Biotic interactions in recent marine sedimentary environments. In M. J. S. Tevesz and P. L. McCall (eds), Biotic Interactions in Recent and Fossil Benthic Communities. Plenum Press, New York: 3–38.
Woodin, S. A., 1991. Recruitment of infauna: positive or negative cues? Am. Zool. 31: 797–807.
Zajac, R. N., 1991. Population ecology of Polydora ligni (Polychaeta, Spionidae). II. Seasonal demographic variation and its potential impact on life history evolution. Mar. Ecol. Progr. Ser. 77: 207–220.
Zajac, R. N. and R. B. Whitlatch, 1982a. Responses of estuarine in-fauna to disturbance. I. Spatial and temporal variation of initial recolonization. Mar. Ecol. Prog. Ser. 10: 1–14.
Zajac, R. N. and R. B. Whitlatch, 1982b. Responses of estuarine infauna to disturbance. II. Spatial and temporal variation of succession. Mar. Ecol. Prog. Ser. 14: 15–27.
Zajac, R. N. and R. B. Whitlatch. 1985. A hierarchical approach to modeling soft-bottom successional dynamics. In Gibbs, R. E. (ed), Proceedings of the 19th European Marine Biological Symposium. Cambridge University Press, Cambridge: 265–276.
Zajac, R. N. and R. B. Whitlatch, 1988. The population ecology of Nephrys incisa in central Long Island Sound prior to and following disturbance. Estuaries 11: 117–133.
Zajac, R. N. and R. B. Whitlatch, 1989. Natural and disturbance induced demographic variation in an infaunal polychaete, Nephrys incisa. Mar. Ecol. Progr. Ser. 57: 89–102.
Zajac, R. N. and R. B. Whitlatch, 1991. Demographic aspects of marine, soft sediment patch dynamics. Am. Zool. 31: 808–820.
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Zajac, R.N., Whitlatch, R.B., Thrush, S.F. (1998). Recolonization and succession in soft-sediment infaunal communities: the spatial scale of controlling factors. In: Baden, S., Phil, L., Rosenberg, R., Strömberg, JO., Svane, I., Tiselius, P. (eds) Recruitment, Colonization and Physical-Chemical Forcing in Marine Biological Systems. Developments in Hydrobiology, vol 132. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-2864-5_19
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DOI: https://doi.org/10.1007/978-94-017-2864-5_19
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