Regeneration from injury and resource allocation in sponges and corals - A review

LeaAnne Henry, Michael Hart

Research output: Contribution to journalArticlepeer-review

176 Citations (Scopus)

Abstract

The ability of bottom-dwelling marine epifauna to regenerate injured or lost body parts is critical to the survival of individuals from disturbances that inflict wounds. Numerous studies on marine sponges (Phlyum Porifera) and corals (of the orders Scleractinia and Alcyonacea) suggest that regeneration is limited by many intrinsic (individual-dependent) and extrinsic (environment-dependent) factors, and that other fife history processes may compete with regeneration for energetic and cellular resources. We review how intrinsic (size, age, morphology, genotype) and extrinsic (wound characteristics, water temperature, food availability, sedimentation, disturbance history, selection) factors limit regeneration in sponges and corals. We then review the evidence for impaired somatic growth and sexual reproduction, and altered outcomes of interactions (anti-predator defenses, competitive abilities, self- and non-self recognition abilities) with other organisms in regenerating sponges and corals. We demonstrate that smaller, older sponges and corals of decreasing morphological complexities tend to regenerate less well than others, and that regeneration can be modulated by genotype. Large wounds with small perimeters inflicted away from areas where resources are located tend to be regenerated less well than others, as are injuries inflicted when food is limited and when the animal has been previously or recently injured. We also demonstrate that regeneration strongly impairs somatic growth, reduces aspects of sexual reproduction, and decreases the ability for sponges and corals to defend themselves against predators, to compete, and to recognize conspecifics. Effects of limited regeneration and impaired life histories may manifest themselves in higher levels of biological assembly e.g., reduced accretion of epifaunal biomass, reduced recruitment and altered biotic associations, and thus affect marine community and ecosystem recovery from disturbances.
Original languageEnglish
Pages (from-to)125-158
Number of pages34
JournalINT REV HYDROBIOL
Issue number0
DOIs
Publication statusPublished - 2005

Keywords

  • MAJOR OIL-SPILL
  • LIFE-HISTORY STRATEGIES
  • HERMODICE-CARUNCULATA PALLAS
  • Marine & Freshwater Biology
  • REEF-BUILDING CORALS
  • ACROPORA-PALMATA
  • GREAT-BARRIER-REEF
  • RED-SEA
  • SCLERACTINIAN CORALS
  • HYDROCORAL MILLEPORA-DICHOTOMA
  • POCILLOPORA-DAMICORNIS LINNAEUS

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