Advanced search
Publication Cover
African Journal of Marine Science Volume 40, 2018 - Issue 1
Submit an article Journal homepage
118
Views
1
CrossRef citations to date
0
Altmetric
Research Papers

Terrestrial discharge influences microbioerosion and microbioeroder community structure in coral reefs

SA MwachireyaKenya Marine and Fisheries Research Institute (KMFRI), Mombasa, Kenya;Department of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, CanadaCorrespondence[email protected]
,
M Carreiro-SilvaDepartment of Oceanography and Fisheries (IMAR network), University of Azores, Horta, Portugal
,
BE HartwickDepartment of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, Canada
&
TR McClanahanWildlife Conservation Society, Marine Programs, Brooklyn, New York, USA
Pages 25-42 | Received 01 Nov 2016, Accepted 01 Nov 2017, Published online: 29 Mar 2018

References

  • Barott KL, Williams GJ, Vermeij MJ, Harris J, Smith JE, Rohwer FL, Sandin SA. 2012. Natural history of coral-algae competition across a gradient of human activity in the Line Islands. Marine Ecology Progress Series 460: 1–12.
  • Belliveau SA, Paul VJ. 2002. Effects of herbivory and nutrients on the early colonization of crustose coralline and fleshy algae. Marine Ecology Progress Series 232: 105–114.
  • Björk M, Mohammed SM, Björklund M, Semesi A. 1995. Coralline algae, important coral-reef builders threatened by pollution. Ambio 24: 502–505.
  • Budd DA, Perkins RD. 1980. Bathymetric zonation and paleoecological significance of microborings in Puerto Rican shelf and slope sediment. Journal of Sedimentary Petrology 50: 881–904.
  • Camacho A, de Wit R. 2003. Effect of nitrogen and phosphorus additions on a benthic microbial mat from a hypersaline lake. Aquatic Microbial Ecology 32: 261–273.
  • Carreiro-Silva M. 2007. The role of nutrients and herbivory in controlling microbioerosion in tropical reefs. PhD thesis, University of Maryland, Maryland, USA.
  • Carreiro-Silva M, McClanahan TR. 2001. Echinoid bioerosion and herbivory on Kenyan coral reefs: the role of protection from fishing. Journal of Experimental Marine Biology and Ecology 262: 133–153.
  • Carreiro-Silva M, McClanahan TR. 2012. Macrobioerosion of dead branching Porites, 4 and 6 years after coral mass mortality. Marine Ecology Progress Series 458: 103–122.
  • Carreiro-Silva M, Kiene WE, Golubic S, McClanahan TR. 2012. Phosphorus and nitrogen effects on microbial euendolithic communities and their bioerosion rates. Marine Pollution Bulletin 64: 602–613.
  • Carreiro-Silva M, McClanahan TR, Kiene WE. 2005. The role of inorganic nutrients and herbivory in controlling microbioerosion of carbonate substratum. Coral Reefs 24: 214–221.
  • Carreiro-Silva M, McClanahan TR, Kiene WE. 2009. Effects of inorganic nutrients and organic matter on microbial euendolithic community composition and microbioerosion rates. Marine Ecology Progress Series 392: 1–15.
  • Chazottes V, Hutchings P, Osorno A. 2017. Impact of an experimental eutrophication on the processes of bioerosion on the reef: One Tree Island, Great Barrier Reef, Australia. Marine Pollution Bulletin 118: 125–130.
  • Chazottes V, Le Campion-Alsumard T, Peyrot-Clausade M. 1995. Bioerosion rates on coral reefs: interaction between macroborers, microborers and grazers (Moorea, French Polynesia). Palaeogeography, Palaeoclimatology and Palaeoecology 113: 189–198.
  • Chazottes V, Le Campion-Alsumard T, Peyrot-Clausade M, Cuet P. 2002. The effects of eutrophication-related alterations to coral reef communities on agents and rates of bioerosion (Réunion Island, Indian Ocean). Coral Reefs 21: 375–390.
  • Cherchi A, Buosi C, Zuddas P, de Giudici G. 2012. Bioerosion by microbial euendoliths in benthic foraminifera from heavy-metal polluted coastal environments of Portovesme (southwestern Sardinia, Italy). Biogeosciences 9: 4607–4620.
  • Cheung WW, Lam VW, Sarmiento JL, Kearney K, Watson RE, Zeller D, Pauly D. 2010. Large-scale redistribution of maximum fisheries catch potential in the global ocean under climate change. Global Change Biology 16: 24–35.
  • Choi DR, Ginsburg RN. 1983. Distribution of coelobites (cavitydwellers) in coral rubble across the Florida Reef Tract. Coral Reefs 2: 165–172.
  • Cinner JE, Aswani S. 2007. Integrating customary management into marine conservation. Biological Conservation 140: 201–216.
  • Cuif JP, Dauphin Y, Nehrke G, Nouet J, Perez-Huerta A. 2012. Layered growth and crystallization in calcareous biominerals: impact of structural and chemical evidence on two major concepts in invertebrate biomineralization studies. Minerals (Basel) 2: 11–39.
  • Darling ES, Alvarez-Filip L, Oliver TA, McClanahan TR, Côté IM. 2012. Evaluating life-history strategies of reef corals from species traits. Ecology Letters 15: 1378–1386.
  • Debenay J-P, Andre J-P, Lesourd M. 1999. Production of lime mud by breakdown of foraminiferal tests. Marine Geology 157: 159–170.
  • Diaz-Pulido G, Harii S, McCook LJ, Hoegh-Guldberg O. 2010. The impact of benthic algae on the settlement of a reef-building coral. Coral Reefs 29: 203–208.
  • Eakin CM. 1996. Where have all the carbonates gone? A model comparison of calcium carbonate budgets before and after the 1982–1983 El Nino at Uva Island in the eastern Pacific. Coral Reefs 15: 109–119.
  • Edinger EN, Limmon GV, Jompa J, Widjatmoko W, Heikoop JM, Risk MJ. 2000. Normal coral growth rates on dying reefs: Are coral growth rates good indicators of reef health? Marine Pollution Bulletin 40: 404–425.
  • Enochs IC, Manzello DP, Kolodziej G, Noonan SH, Valentino L, Fabricius KE. 2016b. Enhanced macroboring and depressed calcification drive net dissolution at high-CO2 coral reefs. Proceedings of the Royal Society B 283: 20161742.
  • Enochs IC, Manzello DP, Tribollet A, Valentino L, Kolodziej G, Donham EM et al. 2016a. Elevated colonization of microborers at a volcanically acidified coral reef. PLoS ONE 28: 11e0159818. Fabricius KE. 2005. Effects of terrestrial runoff on the ecology of corals and coral reefs: review and synthesis. Marine Pollution Bulletin 50: 125–146.
  • Färber C, Titschack J, Schönberg CHL, Ehrig K, Boos K, Baum D et al. 2016. Long-term macrobioerosion in the Mediterranean Sea assessed by micro-computed tomography. Biogeosciences 13: 3461–3474.
  • Färber C, Wisshak M, Pyko I, Bellou N, Freiwald A. 2015. Effects of water depth, seasonal exposure, and substrate orientation on microbial bioerosion in the Ionian Sea (eastern Mediterranean). PLoS ONE 10: e0126495.
  • Fine M, Loya Y. 2002. Endolithic algae: an alternative source of photoassimilates during coral bleaching. Proceedings of the Royal Society of London B 269: 1205–1210.
  • Fine M, Meroz-Fine E, Hoegh-Guldberg O. 2005. Tolerance of endolithic algae to elevated temperature and light in the coral Montipora monasteriata from the southern Great Barrier Reef. The Journal of Experimental Biology 208: 75–81.
  • Flügel E. 1982. Microfacies analysis of limestones. Berlin, Germany: Springer-Verlag.
  • Fork DC, Larkum AWD. 1989. Light harvesting in the green alga Ostreobium sp., are coral symbionts adapted to extreme shade. Marine Biology 103: 381–385.
  • Garcia-Pichel F. 2006. Plausible mechanisms for the boring on carbonates by microbial phototrophs. Sedimentary Geology 185: 205–213.
  • Gektidis M. 1999. Development of microbial euendolithic communities: the influence of light and time. Bulletin of the Geological Society of Denmark 45: 147–150.
  • Godinot C, Tribollet A, Grover R, Ferrier-Pagès C. 2012. Bioerosion by euendolith decreases in phosphate-enriched skeletons of living corals. Biogeoscience Discussions 9: 2425–2444.
  • Golubic S, Perkins RD, Lukas KJ. 1975. Boring microorganisms and microborings in carbonate substrates In: Frey RW (ed.), The study of trace fossils. Berlin: Springer. pp 229–259.
  • Graham NA, Wilson SK, Jennings S, Polunin NV, Robinson JA, Bijoux JP, Daw TM. 2007. Lag effects in the impacts of mass coral bleaching on coral-reef fish, fisheries and ecosystems. Conservation Biology 21: 1291–1300.
  • Halpern BS, Walbridge S, Selkoe KA, Kappel CV, Micheli F, D’agrosa C et al. 2008. A global map of human impact on marine ecosystems. Science 319: 948–952.
  • Hicks CC, McClanahan TR, Cinner JE, Hills JM. 2009. Trade-offs in values assigned to ecological goods and services associated with different coral reef management strategies. Ecology and Society 14: 10.
  • Hill MO. 1979. Decorana: a FORTRAN program for detrended correspondence analysis and reciprocal averaging. Ithaca, New York: Section of Ecology and Systematics, Cornell University.
  • Holmes KE, Edinger EN, Limmon GV, Risk MJ. 2000. Bioerosion of live massive corals and branching coral rubble on Indonesian coral reefs. Marine Pollution Bulletin 40: 606–617.
  • Hook JE, Golubic S, Milliman JD. 1984. Micritic cement in microborings is not necessarily a shallow-water indicator. Journal of Sedimentary Research 54: 425–431.
  • Hoskin CM, Reed JK, Mook DH. 1986. Production and off-bank transport of carbonate sediment, Black Rock, southwest Little Bahama Bank. Marine Geology 73: 125–144.
  • Hubbard DK, Miller AI, Scaturo D. 1990. Production and cycling of calcium carbonate in a shelf-edge reef system (St Croix, U.S. Virgin Islands): applications to the nature of reef systems in the fossil record. Journal of Sedimentary Petrology 60: 335–360.
  • Hutchings P, Peyrot-Clausade M, Osnorno A. 2005. Influence of land runoff on rates and agents of bioerosion of coral substrates. Marine Pollution Bulletin 51: 438–447.
  • Irving A, Connell S. 2002. Sedimentation and light penetration interact to maintain heterogeneity of subtidal habitats: algal versus invertebrate dominated assemblages. Marine Ecology Progress Series 245: 83–91.
  • Johnson J. 2013. Survey of shell-boring microorganisms across a depth gradient at Point Caution, on San Juan Island, WA. ZooBot Research Apprenticeship, Department of Biology, University of Washington, Seattle, USA.
  • Kiene WE, Hutchings PA. 1994. Bioerosion experiments at Lizard Island, Great Barrier Reef. Coral Reefs 13: 91–98.
  • Kiene WE, Radtke G, Gektidis M, Golubic S, Vogel K. 1995. Factors controlling the distribution of microborers in Bahamian reef environments. In: Schumacher H, Kiene WE, Dullo WC (eds), Factors controlling Holocene reef growth: an interdisciplinary approach. Facies 32: 174–188.
  • Kitheka JU, Nthenge P, Obiero M. 2003. Sabaki estuary sediment transport dynamics and resultant sediment fluxes in the monsoon-driven Malindi Bay, Kenya. KMFRI-LOICZ-START AfriCAT Project Technical Report.
  • Kleypas JA, Buddemeier RW, Archer D, Gattuso J-P, Langdon C, Opdyke BN. 1999. Geochemical consequences of increased atmospheric carbon dioxide on coral reefs. Science 284: 118–120.
  • Kuffner IB, Andersson AJ, Jokiel PL, Rodgers KS, Mackenzie FT. 2008. Decreased abundance of crustose coralline algae due to ocean acidification. Nature Geoscience 1: 114–117.
  • Lambo AL, Ormond RFG. 2006. Continued post-bleaching decline and changed benthic community of a Kenyan coral reef. Marine Pollution Bulletin 52: 1617–1624.
  • Le Campion-Alsumard T. 1979. Les cyanophycées endolithiques marines: systématique, ultrastructure, écologie et biodestruction. Oceanologica Acta 2: 143–156.
  • Le Campion-Alsumard T, Golubic S, Hutchings P. 1995. Microbial endoliths in skeletons of live and dead corals: Porites lobata (Morea, French Polynesia). Marine Ecology Progress Series 117: 149–157.
  • Lozano NC, Gaudon P, Pages J, de Billerbeck G, Lafon D, Eterradossi O. 2012. Protective effect of endolithic fungal hyphae on oolitic limestone buildings. Journal of Cultural Heritage 13: 120–127.
  • Macdonald IA, Perry CT. 2003. Biological degradation of coral framework in a turbid lagoon environment, Discovery Bay, north Jamaica. Coral Reefs 22: 523–535.
  • Macintyre IG. 1984. Preburial and shallow subsurface alteration of modern scleractinian corals. Palaeontologia Americana 54: 229–244.
  • Macintyre IG, Prufert-Bebout L, Reid RP. 2000. The role of endolithic cyanobacteria in the formation of lithified laminae in Bahamian stromatolites. Sedimentology 47: 915–921.
  • Mallela J, Perry CT. 2007. Calcium carbonate budgets for two coral reefs affected by different terrestrial runoff regimes, Rio Bueno, Jamaica. Coral Reefs 26: 129–145.
  • Mass T, Drake JL, Peters EC, Jiang W, Falkowski PG. 2014. Immunolocalization of skeletal matrix proteins in tissue and mineral of the coral Stylophora pistillata. Proceedings of the National Academy of Sciences of the United States of America 111: 12728–12733.
  • May JA, Perkins RD. 1979. Endolithic infestation of carbonate substrates below the sediment-water interface. Journal of Sedimentary Petrology 49: 357–378.
  • McClanahan TR. 1988. Seasonality in East Africa’s coastal waters. Marine Ecology Progress Series 44: 191–199.
  • McClanahan TR, Graham NA. 2005. Recovery trajectories of coral reef fish assemblages within Kenyan marine protected areas. Marine Ecology Progress Series 294: 241–248.
  • McClanahan TR, Carreiro-Silva M, DiLorenzo M. 2007. Effect of nitrogen, phosphorus, and their interaction on coral reef algal succession in Glover’s Reef, Belize. Marine Pollution Bulletin 54: 1947–1957.
  • McClanahan TR, Nugues M, Mwachireya S. 1994. Fish and sea urchin herbivory and competition in Kenyan coral reef lagoons: the role of reef management. Journal of Experimental Marine Biology and Ecology 184: 237–254.
  • McCulloch M, Fallon S, Wyndham T, Hendy E, Lough J, Barnes D. 2003. Coral record of increased sediment flux to the inner Barrier Reef since European settlement. Nature 421: 727–730.
  • McCulloch M, Falter J, Trotter J, Montagna P. 2012. Coral resilience to ocean acidification and global warming through pH up-regulation. Nature Climate Change 2: 623–627.
  • Mwachireya SA, McClanahan T, Côté IM, Hartwick BE. 2016. Increased terrestrial perturbations modify skeletal properties and mechanical strength of hard corals. Environment and Natural Resource Research 6: 153–173.
  • Mwachireya SA, McClanahan TR, Hartwick BE, Côté IM, Lesack L. 2015a. Effects of river sediments on coral recruitment, algal abundance and benthic community structure on Kenyan coral reefs. African Journal of Environmental Science and Technology 9: 615–631.
  • Mwachireya SA, McClanahan TR, Hartwick BE, Côté IM, Lesack L. 2015b. Growth and corallite characteristics of Kenyan scleractinian corals under the influence of sediment discharge. International Journal of Biodiversity and Conservation 7: 364–377.
  • Nielsen JK, Maiboe J. 2000. Epofix and vacuum: an easy method to make casts of hard substrates. Palaeontologica Electronica 3: 1–10.
  • Pari N, Peyrot-Clausade M, Hutchings PA. 2002. Bioerosion of experimental substrates on high islands and atoll lagoons (French Polynesia) during 5 years of exposure. Journal of Experimental Marine Biology and Ecology 276: 109–127.
  • Pari N, Peyrot-Clausade M, Le Campion-Alsumard T, Hutchings PA, Chazottes V, Golubic S et al. 1998. Bioerosion of experimental substrates in high islands and on atoll lagoons (French Polynesia). Marine Ecology Progress Series 166: 119–130.
  • Parsons TR, Maita Y, Lalli CM. 1984. A manual for chemical and biological methods for seawater analysis. Toronto, Canada: Pergamon.
  • Peharda M, Calcinai B, Puljas S, Golubić S, Arapov J, Thébault J. 2015. Endoliths in Lithophaga lithophaga shells: variation in intensity of infestation and species occurrence. Marine Environmental Research 108: 91–99.
  • Perkins RD, Tsentas CI. 1976. Microbial infestation of carbonate substrates planted on the St Croix shelf, West Indies. Geological Society of America Bulletin 87: 1615–1628.
  • Perry CT. 1998. Grain susceptibility to the effects of microboring; implications for the preservation of skeleton carbonates. Sediments 45: 39–51.
  • Perry CT, Harborne AR. 2016. Bioerosion on modern reefs: impacts and responses under changing ecological and environmental conditions. In: Hubbard DK, Rogers CS, Lipps JH, Stanley Jr GD (eds), Coral reefs at the crossroads. Dordrecht, The Netherlands: Springer. pp 69–101.
  • Perry CT, Macdonald LA. 2002. Impacts of light penetration on the bathymetry of reef microboring communities: implications for the development of microendolithic trace assemblages. Palaeogeography, Palaeoclimatology, Palaeoecology 186: 101–113.
  • Peyrot-Clausade M, Le Campion-Alsumard T, Harmelin-Vivien M, Romano JC, Chazottes V, Pari N, Le Campion J. 1995. La bioérosion dans le cycle des carbonates; essais de quantification des processus en Polynesie Francaise. Bulletin de la Société Géologique de France 166: 85–94.
  • Pinckney J, Paerl H, Fitzpatrick M. 1995. Impacts of seasonality and nutrients on microbial-mat community structure and function. Marine Ecology Progress Series 123: 207–216.
  • Pratchett MS, Munday P, Wilson SK, Graham NA, Cinner JE, Bellwood DR et al. 2008. Effects of climate-induced coral bleaching on coral-reef fishes: ecological and economic consequences. Oceanography and Marine Biology: Annual Review 46: 251–296.
  • Radtke G. 1993. The distribution of microborings in molluscan shells from recent reef environments at Lee Stocking Island, Bahamas. Facies 29: 81–92.
  • Radtke G, Golubic S. 2005. Microboring in mollusk shells, Bay of Safaga, Egypt: morphometry and ichnology. Facies 51: 118–134.
  • Radtke G, Gektidis M, Golubic S, Hofmann K, Kiene WE, Le Campion-Alsumard T. 1997. The identity of an endolithic alga: Ostreobium brabantium Weber-van Bosse is recognized as carbonate-penetrating rhizoids of Acetabularia (Chlorophyta, Dasycladales). Courier Forschinst Senckenberg 201: 341–347.
  • Radtke G, Shӓfer P, Blaschek H, Golubic S. 2011. Microborings from shallow marine habitats on both sides of the Panama Isthmus. Annalen des Naturhistorischen Museums in Wien. Serie A für Mineralogie und Petrographie, Geologie und Paläontologie, Anthropologie und Prähistorie 113: 245–265.
  • Reyes-Nivia C, Diaz-Pulido G, Kline D, Guldberg OH, Dove S. 2013. Ocean acidification and warming scenarios increase microbioerosion of coral skeletons. Global Change Biology 19: 1919–1929.
  • Rose CS, Risk MJ. 1985. Increase in Cliona delitrix infestation of Montastrea cavernosa heads on an organically polluted portion of the Grand Cayman fringing reef. Marine Ecology (Berlin) 6: 345–363.
  • Sawall Y, Jompa J, Litaay M, Maddusila A, Richter C. 2013. Coral recruitment and potential recovery of eutrophied and blast fishing impacted reefs in Spermonde Archipelago, Indonesia. Marine Pollution Bulletin 74: 374–382.
  • Schlichter D, Kampmann H, Conrady S. 1997. Trophic potential and photoecology of endolithic algae living within coral skeletons. Marine Ecology 18: 299–317.
  • Schneider J, Torunski H. 1983. Biokarst on limestone coasts, morphogenesis and sediment production. Marine Ecology (Berlin) 4: 45–63.
  • Schutte VG, Selig ER, Bruno JF. 2010. Regional spatio-temporal trends in Caribbean coral-reef benthic communities. Marine Ecology Progress Series 402: 115–122.
  • Scoffin TP, Stearn CW, Boucher D, Frydl P, Hawkins CM, Hunter IG, Macgreathy JK. 1980. Calcium carbonate budget of a fringing reef on the west coast of Barbados. Part II: erosion, sediments, internal structure. Bulletin of Marine Science 30: 475–508.
  • Seuss B, Wisshak M, Mapes RH, Hembree DI, Landman N, Lignier V. 2016. Microbial bioerosion of erratic sub-fossil Nautilus shells in a karstic cenote (Lifou, Loyalty Islands, New Caledonia). Ichnos 23: 108–115.
  • Silbiger NJ, Donahue MJ. 2015. Secondary calcification and dissolution respond differently to future ocean conditions. Biogeosciences 12: 567–578.
  • Silbiger NJ, Guadayol Ò, Thomas FI, Donahue MJ. 2014. Reefs shift from net accretion to net erosion along a natural environmental gradient. Marine Ecology Progress Series 515: 33–44.
  • Silbiger NJ, Guadayol Ò, Thomas FI, Donahue MJ. 2016. A novel μCT analysis reveals different responses of bioerosion and secondary accretion to environmental variability. PLoS ONE 11: p.e0153058.
  • Stubler AD, Furman BT, Peterson BJ. 2015. Sponge erosion under acidification and warming scenarios: differential impacts on living and dead coral. Global Change Biology 21: 4006–4020.
  • Stuhldreier I, Bastian P, Schönig E, Wild C. 2015. Effects of simulated eutrophication and overfishing on algae and invertebrate settlement in a coral reef of Koh Phangan, Gulf of Thailand. Marine Pollution Bulletin 92: 35–44.
  • Tribollet A. 2008. Dissolution of dead corals by euendolithic micro-organisms across the northern Great Barrier Reef (Australia). Microbial Ecology 55: 569–580.
  • Tribollet A. 2009. The boring microflora in modern coral reef ecosystems: a review of its roles. In: Wisshak M, Tapanila L (eds), Current developments in bioerosion. Berlin: Springer Verlag. pp 1–28.
  • Tribollet A, Golubic S. 2005. Cross-shelf differences in the pattern and pace of bioerosion of experimental carbonate substrates exposed for 3 years in the northern Great Barrier Reef, Australia. Coral Reefs 24: 422–434.
  • Tribollet A, Golubic S. 2011. Reef bioerosion: agents and processes. In: Dubinsky Z, Stambler N (eds), Coral reefs: an ecosystem in transition. The Netherlands: Springer Science + Business Media BV. pp 434–449.
  • Tribollet A, Payri C. 2001. Bioerosion of coralline alga Hydrolithon onkodes by microborers in the coral reefs of Moorea, French Polynesia. Oceanologica Acta 24: 329–342.
  • Tribollet A, Godinot C, Atkinson M, Langdon C. 2009. Effects of elevated pCO2 on dissolution of coral carbonates by microbial euendoliths. Global Biogeochemical Cycles 23: GB3008.
  • Tudhope AW, Risk MJ. 1985. Rate of dissolution of carbonate sediments by microboring organisms, Davies Reef, Australia. Journal of Sedimentary Research 55: 440–447.
  • Umar MJ, McCook LJ, Price IR. 1998. Effects of sediment deposition on the seaweed Sargassum on a fringing coral reef. Coral Reefs 17: 169–177.
  • Venn AA, Tambutté E, Holcomb M, Laurent J, Allemand D, Tambutté S. 2013. Impact of seawater acidification on pH at the tissue–skeleton interface and calcification in reef corals. Proceedings of the National Academy of Sciences of the United States of America 110: 1634–1639.
  • Vermeij VJ, van Moorselaar I, Engelhard S, Hörnlein C, Vonk SM, Visser PM. 2010. The effects of nutrient enrichment and herbivore abundance on the ability of turf algae to overgrow coral in the Caribbean. PLoS ONE 5: e14312.
  • Villas-Bôas AB, Tâmega FTDS, Andrade M, Coutinho R, Figueiredo MADO. 2014. Experimental effects of sediment burial and light attenuation on two coralline algae of a deep-water rhodolith bed in Rio de Janeiro, Brazil. Cryptogamie, Algologie 35: 67–76.
  • Vogel K, Gektidis M, Golubic S, Kiene WE, Radtke G. 2000. Experimental studies on microbial bioerosion at Lee Stocking Island, Bahamas and One Tree Island, Great Barrier Reef, Australia: implications for paleoecological reconstructions. Lethaia 33: 190–204.
  • Wilhelm C, Jakob T. 2006. Uphill energy transfer from long-wavelength absorbing chlorophylls to PS II in Ostreobium sp. is functional in carbon assimilation. Photosynthesis Research 87: 323–329.
  • Wisshak M, Gektidis M, Freiwald A, Lundӓlv T. 2005. Bioerosion along a bathymetric gradient in a cold-temperate setting (Kosterfjord, SW Sweden): an experimental study. Facies 51: 93–117.
  • Wisshak M, Schönberg CHL, Form A, Freiwald A. 2012. Ocean acidification accelerates reef bioerosion. PLoS ONE 7: e45124.
  • Wisshak MC, Schönberg CHL, Form A, Freiwald A. 2013. Effects of ocean acidification and global warming on reef bioerosionlessons from a clionid sponge. Aquatic Biology 19: 111–127.
  • Wisshak M, Tribollet A, Golubic S, Jakobsen J, Freiwald A. 2011. Temperate bioerosion: ichnodiversity and biodiversity from intertidal to bathyal depths (Azores). Geobiology 9: 492–520.
  • Zardi GI, Nicastro KR, McQuaid CD, Ng PT, Lathlean JA, Seuront L. 2016. Cool parasites: positive effects of endolithic parasitism on intertidal mussels. Scientific Reports 6: article no. 31413.
  • Zubia M, Peyrot-Clausade M. 2001. Internal bioerosion of Acropora formosa in Réunion (Indian Ocean): microborer and macroborer activities. Oceanologica Acta 24: 251–262.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.