Summary
In environments where frequent disturbances interrupt the successional process there will usually be many patches of habitat at intermediate stages of succession. It is then relevant to consider the factors which control local diversity during succession. In offshore kelp forests across the whole Southern Californian Bight settlement panels were rapidly colonised by two species of cyclostome bryozoans (Tubulipora tuba and T. pacifica); but cheilostome bryozoans eventually became dominant during succession because they were able to grow over Tubulipora spp. When abundant, Tubulipora spp. were apparently able to reduce the number of colonies, and hence the number of species, of cheilostome bryozoans settling on the panels. Thus the rapid colonisers may delay the process of succession and reduce the diversity of bryozoans during succession. In field and laboratory experiments we found that the asteroid Patiria miniata preys on Tubulipora spp. but not on cheilostome bryozoans. The predator speeds up the successional process and increases bryozoan diversity by reducing the cover of Tubulipora spp. Other ways in which predators may influence diversity during succession are discussed. The effect of predation may depend on the abundance of the prey and the mechanism of succession.
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References
Addicott JF (1974) Predation and prey community structure: an experimental study of the effect of mosquito larvae on the protozoan communities of pitcher plants. Ecology 55:475–492
Buss LW (1976) Better living through chemistry: the relationship between allelochemical interactions and competitive networks. In: FW Harrison and RR Cowden (eds), Aspects of Sponge Biology. Academic Press, New York p 315–327
Buss LW (1979) Bryozoan overgrowth interactions — the interdependence of competition for space and food. Nature 281:475–477
Buss LW, Jackson JBC (1979) Competitive networks: nontransitive competitive relationships in cryptic coral reef environments. Am Nat 113:223–234
Chalmer PN (1979) Some mechanisms of succession in a marine fouling community. PhD thesis, Univ Western Australia
Connell JH (1978) Diversity in tropical rain forests and coral reefs. Science 199:1302–1310
Connell JH (1979) Tropical rain forests and coral reefs as open non-equilibrium systems. In: RM Anderson, LR Taylor and B Turner (eds) Population dynamics. Blackwell Scientific Publications, New York
Connell JH, Slatyer RO (1977) Mechanisms of succession in natural communities and their role in community stability and organisation. Am Nat 111:1119–1144
Day RW (1977a) Two contrasting effect of predation on species richness in coral reef habitats. Mar Biol 44:1–5
Day RW (1977b) The ecology of settling organisms on the coral reef at heron Island, Queensland. PhD Thesis Univ Sydney pp 356
Dean TA (1977) Succession in a marine fouling community: changes in commmunity structure and mechanisms of development. PhD thesis, Univ Delaware pp 132
Dean TA, Hurd LE (1980) Development in an estuarine fouling community: the influence of early colonists on later arrivals. Oecologia 45:295–301
Gerard VA (1976) Some aspects of material dynamics and energy flow in a kelp forest in Monterey Bay, California. PhD thesis, UC Santa Cruz
Harper JL (1969) The role of predation in vegetational diversity. Brookhav Symp Biol 22:48–62
Jackson JBC (1979) Overgrowth competition between encrusting cheilostome ectoprocts in a Jamaican cryptic reef environment. J anim Ecol 48:804–823
Jones GF (1969) The benthic macrofauna of the mainland shelf of southern California. Allan Hancock Monogr mar Biol 4:1–219
Jones GH (1971) General circulation and water characteristics in the Southern California Bight. S Calif Coast Wat Res Prog. Cos Angeles, Ca
Kay AM, Keough MJ (1981) Occupation of patches in the epifaunal communities on pier pilings and the bivalve Pinna bicolor at Edithburgh, South Australia. Oecologia (Berl) 48:123–130
Lieberman J, John DM, Lieberman D (1979) Ecology of subtidal algae on seasonally devastated cobble substrates off Ghana. Ecology 60:1151–1161
Lubchenco J (1978) Plant species diversity in a marine intertidal community: importance of herbivore food preference and algal competitive abilities. Am Nat 112:23–39
Lubchenco J, Menge BA (1978) Community development and persistence in a low rocky intertidal zone. Ecol Monogr 59:67–94
Menge B (1976) Organization of the New England rocky intertidal community: role of predation, competition and environmental heterogeneity. Ecol Monogr 46:355–393
Newman WA, Abbott DP (1980) Cirripedia: the barnacles. In: RH Morris, DP Abbott and EC Haderlie (eds), Intertidal invertebrates of California. Stanford Univ Press, Stanford Ca p 504–535
Niering WA, Goodwin BH (1974) Creation of relatively stable shrublands with herbicides: arresting “succession” on right-of-way and pastureland. Ecology 55:784–795
Osman RW (1977) The establishment and development of a marine epifaunal community. Ecol Monogr 47:37–63
Osman RW (1981) Artificial substrates as ecological islands. In: J Cairns (ed), The use of artificial substrates in aquatic community structural and functional analysis. Ann Arbor Science Publications in press
Osman RW, Haugness J (1981) Mutualism among sessile invertebrates: a mediator of competition and predation in controlling resource use. Science 211:846–848
Paine RT (1966) Food web complexity and species diversity. Am Nat 100:65–75
Paine RT (1969) A note on trophic complexity and community stability. Am Nat 103:91–93
Paine RT (1971) A short-term experimental investigation of resource partitioning in a New Zealand rocky intertidal habitat. Ecology 52:1096–1106
Paine RT, Vadas RL (1969) The effects of grazing by sea urchins, Strongylocentrotus spp. on benthic algal populations. Limnol Oceanogr 14:710–719
Russ GR (1980) Effects of predation by fishes, competition, and structural complexity of the substratum on the establishment of a marine epifaunal community. J exp mar Biol Ecol 42:55–69
Siegel S (1956) Nonparametric statistics for the behavioural sciences. McGraw Hill, New York pp 311
Snedecor GW, Cochran WG (1967) Statistical Methods. 6th edition. Iowa State Univ Press Ames, Iowa pp 593
Sousa WP (1979) Experimental investigations of disturbance and ecological succession in a rocky intertidal community. Ecol Monogr 49:227–254
Stebbing ARD (1973) Competition for space between the epiphytes of Fucus serratus L. J mar biol Ass UK 53:247–261
Sutherland JP (1974) Multiple stable points in natural communities. Am Nat 108:859–873
Sutherland JP (1977) Effect of Schizoporella (Ectoprocta) removal on the fouling community at Beaufort, North Carolina, USA In: BC Coull (ed) Ecology of marine benthos. Univ South Carolina Press, Columbia, SC p 155–189
Sutherland JP (1978) Functional roles of Schizoporella and Styela in the fouling community at Beautfort, North Carolina. Ecology 59:257–264
Sutherland JP, Karlson RH (1977) Development and stability of the fouling community at Beaufort, North Carolina. Ecol Monogr 47:425–446
Valentine JW (1966) Numerical analysis of marine molluscan ranges on the extratropical northeastern Pacific shelf. Limnol Oceanogr 11:198–211
Wobber DR (1975) Agonism in asteroids. Biol Bull 148:483–496
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Day, R.W., Osman, R.W. Predation by Patiria miniata (Asteroidea) on bryozoans: Prey diversity may depend on the mechanism of succession. Oecologia 51, 300–309 (1981). https://doi.org/10.1007/BF00540898
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DOI: https://doi.org/10.1007/BF00540898