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Coral Reefs

pp 1–17 | Cite as

The state of Western Australia’s coral reefs

  • James P. GilmourEmail author
  • Kylie L. Cook
  • Nicole M. Ryan
  • Marjetta L. Puotinen
  • Rebecca H. Green
  • George Shedrawi
  • Jean-Paul A. Hobbs
  • Damian P. Thomson
  • Russell C. Babcock
  • Joanna Buckee
  • Taryn Foster
  • Zoe T. Richards
  • Shaun K. Wilson
  • Peter B. Barnes
  • Teresa B. Coutts
  • Ben T. Radford
  • Camilla H. Piggott
  • Martial Depczynski
  • Scott N. Evans
  • Verena Schoepf
  • Richard D. Evans
  • Andrew R. Halford
  • Christopher D. Nutt
  • Kevin P. Bancroft
  • Andrew J. Heyward
  • Daniel Oades
Report

Abstract

Western Australia’s coral reefs have largely escaped the chronic pressures affecting other reefs around the world, but are regularly affected by seasonal storms and cyclones, and increasingly by heat stress and coral bleaching. Reef systems north of 18°S have been impacted by heat stress and coral bleaching during strong El Niño phases and those further south during strong La Niña phases. Cumulative heat stress and the extent of bleaching throughout the northern reefs in 2016 were higher than at any other time on record. To assess the changing regime of disturbance to reef systems across Western Australia (WA), we linked their site-specific exposure to damaging waves and heat stress since 1990 with mean changes in coral cover. Since 2010, there has been a noticeable increase in heat stress and coral bleaching across WA. Over half the reef systems have been severely impacted by coral bleaching since 2010, which was further compounded by cyclones at some reefs. For most (75%) reef systems with long-term data (5–26 yrs), mean coral cover is currently at (or near) the lowest on record and a full recovery is unlikely if disturbances continue to intensify with climate change. However, some reefs have not yet experienced severe bleaching and their coral cover has remained relatively stable or increased in recent years. Additionally, within all reef systems the condition of communities and their exposure to disturbances varied spatially. Identifying the communities least susceptible to future disturbances and linking them through networks of protected areas, based on patterns of larval connectivity, are important research and management priorities in coming years while the causes of climate change are addressed.

Keywords

Western Australia Coral bleaching Tropical cyclones Anthropocene Climate change 

Notes

Acknowledgements

In addition to those affiliated with authors, we are grateful to the following organisations and funding bodies for their support: BHP-CSIRO Ningaloo Outlook Marine Research Partnership, Chevron-operated Wheatstone Project’s State Environmental Offsets Program, Commonwealth Government of Australia, Net Conservation Benefits Fund, Parks Australia, Quadrant Energy as part of Good Standing Arrangement commitments, Western Australian Marine Science Institution, Western Australian Water Corporation and Woodside Energy Limited as operator of the Browse LNG Development. Thanks to Andy Lewis, James Brown, Clay Bryce, Daniel Barrow, Dave Williams, David Woods, Jason Fowler, John French, Katherine Cure, Nerida Wilson, Sally-Anne Gudge, Australian Border Force, Bardi Jawi Rangers, the Wunambal Gaambera Aboriginal Corporation and others who provided observations of coral bleaching across Western Australia. Our thanks also to the captain and crew of the AIMS RV Solander, all other field support personnel and two anonymous reviewers whose comments improved the manuscript.

Author contributions

AJH, ARH, BR, CN, CP, DO, DT, GS, JB, JG, JPH, KB, MD, MP, PB, RB, RE, RG, SE, SW, TC, TF, VS, ZR contributed data. JG, KC, MP, NR, RG analysed data. JG, KC, MP, NR, ZR wrote the manuscript. All authors reviewed and commented on the manuscript.

Compliance with ethical standards

Conflict of interest

On behalf of all authors, the corresponding author states that there is no conflict of interest.

Supplementary material

338_2019_1795_MOESM1_ESM.docx (1.6 mb)
Supplementary material 1 (DOCX 1589 kb)

References

  1. Abdo DA, Bellchambers LM, Evans SN, Evans S (2012) Turning up the heat: Increasing temperature and coral bleaching at the high latitude coral reefs of the Houtman Abrolhos Islands. PloS One 7:e43878CrossRefPubMedPubMedCentralGoogle Scholar
  2. Ainsworth TD, Heron SF, Ortiz JC, Mumby PJ, Grech A, Ogawa D, Eakin CM, Leggat W (2016) Climate change disables coral bleaching protection on the Great Barrier Reef. Science 352:338–342CrossRefPubMedGoogle Scholar
  3. Anthony KRN (2016) Coral Reefs Under Climate Change and Ocean Acidification: Challenges and Opportunities for Management and Policy. Ann Rev Environ Resour 41:59–81CrossRefGoogle Scholar
  4. Arias-Ortiz A, Serrano O, Masqué P, Lavery PS, Mueller U, Kendrick GA, Rozaimi M, Esteban A, Fourqurean JW, Marbà N (2018) A marine heatwave drives massive losses from the world’s largest seagrass carbon stocks. Nat Clim Chang 8:338CrossRefGoogle Scholar
  5. Babcock R, Thomson D, Haywood M, Vanderklift M, Pillans R, Rochester W, Miller M, Speed C, Shedrawi G, Field S, Evans R, Stoddart J, Hurley T, Thompson A, Decpzynski M (unpublished) Multi-year coral bleaching episode in NW Australia and associated declines in coral cover. Submitted to PLoS OneGoogle Scholar
  6. Baird AH, Marshall PA (1998) Mass bleaching of corals on the Great Barrier Reef. Coral Reefs 17:376CrossRefGoogle Scholar
  7. Baird AH, Pratchett MS, Hoey AS, Herdiana Y, Campbell SJ (2013) Acanthaster planci is a major cause of coral mortality in Indonesia. Coral Reefs 32:803–812CrossRefGoogle Scholar
  8. Bellwood DR, Hughes TP, Folke C, Nystrom M (2004) Confronting the coral reef crisis. Nature 429:827–833CrossRefPubMedGoogle Scholar
  9. Benthuysen JA, Oliver EC, Feng M, Marshall AG (2018) Extreme marine warming across tropical Australia during austral summer 2015–2016. J Geophys Res Oceans 123:1301–1326CrossRefGoogle Scholar
  10. Black R, Johnston MS (1994) Growth rates in outbreak populations of the corallivorous gastropod Drupella cornus (Röding, 1798) at Ningaloo Reef, Western Australia. Coral Reefs 13:145–150CrossRefGoogle Scholar
  11. Booth DJ, Beretta GA, Brown L, Figueira WF (2018) Predicting Success of Range-Expanding Coral Reef Fish in Temperate Habitats Using Temperature-Abundance Relationships. Front Mar Sci 5: Article 31  https://doi.org/10.3389/fmars.2018.00031
  12. Bruno JF, Bates AE, Cacciapaglia C, Pike EP, Amstrup SC, van Hooidonk R, Henson SA, Aronson RB (2018) Climate change threatens the world’s marine protected areas. Nat Clim Chang 8:499–503CrossRefGoogle Scholar
  13. Burgess SC, Nickols KJ, Griesemer CD, Barnett LA, Dedrick AG, Satterthwaite EV, Yamane L, Morgan SG, White JW, Botsford LW (2014) Beyond connectivity: how empirical methods can quantify population persistence to improve marine protected-area design. Ecol Appl 24:257–270CrossRefPubMedGoogle Scholar
  14. Carpenter KE, Abrar M, Aeby G, Aronson RB, Banks S, Bruckner A, Chiriboga A, Cortés J, Delbeek JC, DeVantier L, Edgar GJ, Edwards AJ, Fenner D, Guzmán HM, Hoeksema BW, Hodgson G, Johan O, Licuanan WY, Livingstone SR, Lovell ER, Moore JA, Obura DO, Ochavillo D, Polidoro BA, Precht WF, Quibilan MC, Reboton C, Richards ZT, Rogers AD, Sanciangco J, Sheppard A, Sheppard C, Smith J, Stuart S, Turak E, Veron JEN, Wallace C, Weil E, Wood E (2008) One-Third of Reef-Building Corals Face Elevated Extinction Risk from Climate Change and Local Impacts. Science 321:560–563CrossRefPubMedGoogle Scholar
  15. Carrigan AD, Puotinen ML (2011) Assessing the potential for tropical cyclone induced sea surface cooling to reduce thermal stress on the world’s coral reefs. Geophys Res Lett 38:  https://doi.org/10.1029/2011gl049722
  16. Ceccarelli DM, Richards ZT, Pratchett MS, Cvitanovic C (2011) Rapid increase in coral cover on an isolated coral reef, the Ashmore Reef National Nature Reserve, north-western Australia. Mar Freshw Res 62:1214–1220CrossRefGoogle Scholar
  17. Chakravarti LJ, Beltran VH, van Oppen MJH (2017) Rapid thermal adaptation in photosymbionts of reef-building corals. Glob Chang Biol 23:4675–4688CrossRefPubMedGoogle Scholar
  18. Cheal AJ, MacNeil MA, Emslie MJ, Sweatman H (2017) The threat to coral reefs from more intense cyclones under climate change. Glob Chang Biol 23(4):1511–1524.  https://doi.org/10.1111/gcb.13593 CrossRefPubMedGoogle Scholar
  19. Cinner JE, McClanahan TR, Graham NAJ, Daw TM, Maina J, Stead SM, Wamukota A, Brown K, Bodin O (2012) Vulnerability of coastal communities to key impacts of climate change on coral reef fisheries. Glob Environ Change 22:12–20CrossRefGoogle Scholar
  20. Cinner JE, Huchery C, MacNeil MA, Graham NA, McClanahan TR, Maina J, Maire E, Kittinger JN, Hicks CC, Mora C (2016) Bright spots among the world’s coral reefs. Nature 535:416–419CrossRefPubMedGoogle Scholar
  21. Clarke KR, Warwick RM (2001) Change in Marine Communities: an Approach to Statistical Analysis and Interpretation, 2nd edn. PRIMER-E, Plymouth Marine Laboratory, PlymouthGoogle Scholar
  22. Coles SL, Bahr KD, Rodgers KuS, May SL, McGowan AE, Tsang A, Bumgarner J, Han JH (2018) Evidence of acclimatization or adaptation in Hawaiian corals to higher ocean temperatures. PeerJ 6:e5347CrossRefPubMedPubMedCentralGoogle Scholar
  23. D’Adamo N, Fandry C, Buchan S, Domingues C (2009) Northern Sources of the Leeuwin Current and the “Holloway Current” on the North West Shelf. J R Soc West Aust 92:53–66Google Scholar
  24. De’ath G, Fabricius KE, Sweatman H, Puotinen M (2012) The 27 year decline of coral cover on the Great Barrier Reef and its causes. Proceedings of the National Academy of Sciences 109:17995–17999CrossRefGoogle Scholar
  25. Depczynski M, Gilmour J, Ridgway T, Barnes H, Heyward A, Holmes T, Moore J, Radford B, Thomson D, Tinkler P (2013) Bleaching, coral mortality and subsequent survivorship on a West Australian fringing reef. Coral Reefs 32:233–238CrossRefGoogle Scholar
  26. Diaz-Pulido G, McCook LJ, Dove S, Berkelmans R, Roff G, Kline DI, Weeks S, Evans RD, Williamson DH, Hoegh-Guldberg O (2009) Doom and boom on a resilient reef: climate change, algal overgrowth and coral recovery. PLoS One 4:e5239CrossRefPubMedPubMedCentralGoogle Scholar
  27. Domingues CM, Maltrud ME, Wijffels SE, Church JA, Tomszak M (2007) Simulated Lagrangian pathways between the Leeuwin Current System and the upper-ocean circulation of the southeast Indian Ocean. Deep Sea Res Part 2 Top Stud Oceanogr 54:797–817CrossRefGoogle Scholar
  28. Drost EJ, Lowe RJ, Ivey GN, Jones NL, Péquignet CA (2017) The effects of tropical cyclone characteristics on the surface wave fields in Australia’s North West region. Cont Shelf Res 139:35–53CrossRefGoogle Scholar
  29. Eakin CM, Lough JM, Heron SF, Liu G (2018) Climate Variability and Change: Monitoring Data and Evidence for Increased Coral Bleaching Stress. In: van Oppen MJH, Lough JM (eds) Coral Bleaching: Patterns, Processes, Causes and Consequences. Springer International Publishing, Cham, pp 51–84CrossRefGoogle Scholar
  30. Edmunds PJ (2019) Three decades of degradation lead to diminished impacts of severe hurricanes on Caribbean reefs. Ecology 100:e02587CrossRefPubMedGoogle Scholar
  31. Edmunds PJ, Adjeroud M, Baskett ML, Baums IB, Budd AF, Carpenter RC, Fabina NS, Fan T-Y, Franklin EC, Gross K, Han X, Jacobson L, Klaus JS, McClanahan TR, O’Leary JK, van Oppen MJH, Pochon X, Putnam HM, Smith TB, Stat M, Sweatman H, van Woesik R, Gates RD (2014) Persistence and Change in Community Composition of Reef Corals through Present, Past, and Future Climates. PLoS One 9:e107525CrossRefPubMedPubMedCentralGoogle Scholar
  32. Edmunds PJ, McIlroy SE, Adjeroud M, Ang P, Bergman JL, Carpenter RC, Coffroth MA, Fujimura AG, Hench JL, Holbrook SJ, Leichter JJ, Muko S, Nakajima Y, Nakamura M, Paris CB, Schmitt RJ, Sutthacheep M, Toonen RJ, Sakai K, Suzuki G, Washburn L, Wyatt ASJ, Mitarai S (2018) Critical Information Gaps Impeding Understanding of the Role of Larval Connectivity Among Coral Reef Islands in an Era of Global Change. Front Mar Sci 5.  https://doi.org/10.3389/fmars.2018.00290
  33. Eyre BD, Cyronak T, Drupp P, De Carlo EH, Sachs JP, Andersson AJ (2018) Coral reefs will transition to net dissolving before end of century. Science 359:908–911CrossRefPubMedGoogle Scholar
  34. Feng M, Colberg F, Slawinski D, Berry O, Babcock R (2016) Ocean circulation drives heterogeneous recruitments and connectivity among coral populations on the North West Shelf of Australia. J Mar Syst 164:1–12CrossRefGoogle Scholar
  35. Fisher R, Stark C, Ridd P, Jones R (2015) Spatial Patterns in Water Quality Changes during Dredging in Tropical Environments. PLoS One 10:e0143309CrossRefPubMedPubMedCentralGoogle Scholar
  36. Fletcher WJSK (2015) Status Reports of the Fisheries and Aquatic Resources of Western Australia 2014/15: the State of the Fisheries 353Google Scholar
  37. Game ET, McDonald-Madden E, Puotinen ML, Possingham HP (2008) Should we protect the strong or the weak? Risk, resilience, and the selection of marine protected areas. Conserv Biol 22:1619–1629CrossRefPubMedGoogle Scholar
  38. Gilmour J, Smith LD, Brinkman RMM (2009) Biannual spawning, rapid larval development and evidence of self-seeding for scleractinian corals at an isolated system of reefs. Mar Biol 156:1297–1309CrossRefGoogle Scholar
  39. Gilmour JP, Smith LD, Heyward AJ, Baird AH, Pratchett MS (2013) Recovery of an isolated coral reef system following severe disturbance. Science 340:69–71CrossRefPubMedGoogle Scholar
  40. Gilmour JP, Speed CW, Babcock R (2016) Coral reproduction in Western Australia. PeerJ 4:e2010.  https://doi.org/10.7717/peerj.2010 CrossRefPubMedPubMedCentralGoogle Scholar
  41. Glynn PW, Riegl B, Correa AMS, Baums IB (2009) Rapid recovery of a coral reef at Darwin Island, Galapagos Islands. Galapagos Research 66:6–13Google Scholar
  42. Graham N, Nash K, Kool J (2011) Coral reef recovery dynamics in a changing world. Coral Reefs 30:283–294CrossRefGoogle Scholar
  43. Graham NA, Jennings S, MacNeil MA, Mouillot D, Wilson SK (2015) Predicting climate-driven regime shifts versus rebound potential in coral reefs. Nature 518(7537):94–97.  https://doi.org/10.1038/nature14140 CrossRefPubMedGoogle Scholar
  44. Green RH, Lowe RJ, Buckley ML, Foster T, Gilmour JP (2019) Physical mechanisms influencing localized patterns of temperature variability and coral bleaching within a system of reef atolls. Coral Reefs.  https://doi.org/10.1007/s00338-019-01771-2 CrossRefGoogle Scholar
  45. Greenstein BJ, Pandolfi JM (2008) Escaping the heat: range shifts of reef coral taxa in coastal Western Australia. Glob Chang Biol 14:513–528CrossRefGoogle Scholar
  46. Haig J, Nott J, Reichart G-J (2014) Australian tropical cyclone activity lower than at any time over the past 550–1,500 years. Nature 505:667CrossRefPubMedGoogle Scholar
  47. Halpern BS, Longo C, Lowndes JSS, Best BD, Frazier M, Katona SK, Kleisner KM, Rosenberg AA, Scarborough C, Selig ER (2015) Patterns and Emerging Trends in Global Ocean Health. PLoS One 10:e0117863CrossRefPubMedPubMedCentralGoogle Scholar
  48. Heron SF, Eakin CM, Douvere F, Anderson KL, Day JC, Geiger E, Hoegh-Guldberg O, Van Hooidonk R, Hughes T, Marshall P (2017) Impacts of climate change on World Heritage coral reefs: a first global scientific assessmentGoogle Scholar
  49. Hobbs J-PA, Frisch AJ, Newman SJ, Wakefield CB (2015) Selective Impact of Disease on Coral Communities: Outbreak of White Syndrome Causes Significant Total Mortality of Acropora Plate Corals. PLoS One 10:e0132528CrossRefPubMedPubMedCentralGoogle Scholar
  50. Hoegh-Guldberg O, Poloczanska ES, Skirving W, Dove S (2017) Coral Reef Ecosystems under Climate Change and Ocean Acidification. Front Mar Sci 4.  https://doi.org/10.3389/fmars.2017.00158
  51. Hoey A, Howells E, Johansen J, Hobbs J-P, Messmer V, McCowan D, Wilson S, Pratchett M (2016) Recent Advances in Understanding the Effects of Climate Change on Coral Reefs. Diversity 8:12CrossRefGoogle Scholar
  52. Holmes T, Rule M, Bancroft K, Shedrawi G, Murray K, Wilson S, Kendrick K (2017) Ecological monitoring in the Ningaloo marine reserves 2017. Department of Biodiversity, Conservation and Attractions, PerthGoogle Scholar
  53. Hughes TP, Barnes ML, Bellwood DR, Cinner JE, Cumming GS, Jackson JBC, Kleypas J, van de Leemput IA, Lough JM, Morrison TH, Palumbi SR, van Nes EH, Scheffer M (2017a) Coral reefs in the Anthropocene. Nature 546:82–90CrossRefPubMedGoogle Scholar
  54. Hughes TP, Kerry JT, Baird AH, Connolly SR, Dietzel A, Eakin CM, Heron SF, Hoey AS, Hoogenboom MO, Liu G, McWilliam MJ, Pears RJ, Pratchett MS, Skirving WJ, Stella JS, Torda G (2018a) Global warming transforms coral reef assemblages. Nature 556:492–496CrossRefPubMedGoogle Scholar
  55. Hughes TP, Anderson KD, Connolly SR, Heron SF, Kerry JT, Lough JM, Baird AH, Baum JK, Berumen ML, Bridge TC, Claar DC, Eakin CM, Gilmour JP, Graham NAJ, Harrison H, Hobbs J-PA, Hoey AS, Hoogenboom M, Lowe RJ, McCulloch MT, Pandolfi JM, Pratchett M, Schoepf V, Torda G, Wilson SK (2018b) Spatial and temporal patterns of mass bleaching of corals in the Anthropocene. Science 359:80–83CrossRefPubMedGoogle Scholar
  56. Hughes TP, Kerry JT, Álvarez-Noriega M, Álvarez-Romero JG, Anderson KD, Baird AH, Babcock RC, Beger M, Bellwood DR, Berkelmans R, Bridge TC, Butler IR, Byrne M, Cantin NE, Comeau S, Connolly SR, Cumming GS, Dalton SJ, Diaz-Pulido G, Eakin CM, Figueira WF, Gilmour JP, Harrison HB, Heron SF, Hoey AS, Hobbs J-PA, Hoogenboom MO, Kennedy EV, C-y Kuo, Lough JM, Lowe RJ, Liu G, McCulloch MT, Malcolm HA, McWilliam MJ, Pandolfi JM, Pears RJ, Pratchett MS, Schoepf V, Simpson T, Skirving WJ, Sommer B, Torda G, Wachenfeld DR, Willis BL, Wilson SK (2017b) Global warming and recurrent mass bleaching of corals. Nature 543:373–377CrossRefPubMedGoogle Scholar
  57. Johns K, Osborne K, Logan M (2014) Contrasting rates of coral recovery and reassembly in coral communities on the Great Barrier Reef. Coral Reefs 553–563Google Scholar
  58. Jones R, Bessell-Browne P, Fisher R, Klonowski W, Slivkoff M (2016) Assessing the impacts of sediments from dredging on corals. Mar Poll Bull 102:9–29CrossRefGoogle Scholar
  59. Kough AS, Paris CB (2015) The influence of spawning periodicity on population connectivity. Coral Reefs 34:753–757CrossRefGoogle Scholar
  60. Lafratta A, Fromont J, Speare P, Schönberg CHL (2017) Coral bleaching in turbid waters of north-western Australia. Mar Freshw Res 68:65–75CrossRefGoogle Scholar
  61. Le Nohaïc M, Ross CL, Cornwall CE, Comeau S, Lowe R, McCulloch MT, Schoepf V (2017) Marine heatwave causes unprecedented regional mass bleaching of thermally resistant corals in northwestern Australia. Sci Rep 7:14999CrossRefPubMedPubMedCentralGoogle Scholar
  62. MacNeil MA, Graham NA, Cinner JE, Dulvy NK, Loring PA, Jennings S, Polunin NV, Fisk AT, McClanahan TR (2010) Transitional states in marine fisheries: adapting to predicted global change. Philos Trans R Soc Lond B Biol Sci 365:3753–3763CrossRefPubMedPubMedCentralGoogle Scholar
  63. MacNeil MA, Graham NA, Cinner JE, Wilson SK, Williams ID, Maina J, Newman S, Friedlander AM, Jupiter S, Polunin NV (2015) Recovery potential of the world’s coral reef fishes. Nature 520:341–344CrossRefPubMedGoogle Scholar
  64. Magris RA, Pressey RL, Weeks R, Ban NC (2014) Integrating connectivity and climate change into marine conservation planning. Biol Conserv 170:207–221CrossRefGoogle Scholar
  65. Maina J, McClanahan TR, Venus V, Ateweberhan M, Madin J (2011) Global gradients of coral exposure to environmental stresses and implications for local management. PLoS One 6:e23064CrossRefPubMedPubMedCentralGoogle Scholar
  66. Maina J, de Moel H, Zinke J, Madin J, McClanahan T, Vermaat JE (2013) Human deforestation outweighs future climate change impacts of sedimentation on coral reefs. Nat Commun 4:1986CrossRefPubMedPubMedCentralGoogle Scholar
  67. Maynard J, van Hooidonk R, Eakin CM, Puotinen M, Garren M, Williams G, Heron SF, Lamb J, Weil E, Willis B, Harvell CD (2015) Projections of climate conditions that increase coral disease susceptibility and pathogen abundance and virulence. Nat Clim Chang 5:688–694CrossRefGoogle Scholar
  68. McClanahan TR (2017) Changes in coral sensitivity to thermal anomalies. Mar Ecol Prog Ser 570:71–85CrossRefGoogle Scholar
  69. McClanahan TR, Ateweberhan M, Muhando CA, Maina J, Mohammed MS (2007) Effects of climate and seawater temperature variation on coral bleaching and mortality. Ecol Monogr 77:503–525CrossRefGoogle Scholar
  70. McConochie JD, Hardy TA, Mason LB (2004) Modelling tropical cyclone over-water wind and pressure fields. Ocean Engineering 31:1757–1782CrossRefGoogle Scholar
  71. Mellin C, Aaron MacNeil M, Cheal AJ, Emslie MJ, Julian Caley M (2016) Marine protected areas increase resilience among coral reef communities. Ecol Lett 19:629–637CrossRefPubMedGoogle Scholar
  72. Middlebrook R, Hoegh-Guldberg O, Leggat W (2008) The effect of thermal history on the susceptibility of reef-building corals to thermal stress. J Exp Biol 211:1050–1056CrossRefPubMedGoogle Scholar
  73. Moore J, Bellchambers L, Depczynski ME, Evans RD, Field S, Friedman K, Gilmour J, Holmes T, Middlebrook R, Radford B, Ridgway T, Shedrawi G, Taylor H, Thompson D, Wilson S (2012) Unprecedented Mass Bleaching and Loss of Coral across 12o of Latitude in Western Australia in 2010–11. PLoS One 7(12):e51807CrossRefPubMedPubMedCentralGoogle Scholar
  74. Muir PR, Wallace CC, Done T, Aguirre JD (2015) Limited scope for latitudinal extension of reef corals. Science 348:1135–1138CrossRefPubMedGoogle Scholar
  75. NOAA Coral Reef Watch (2018a) NOAA coral reef watch daily global 5-km satellite coral bleaching sea surface temperature and degree heating week product v3.1. NOAA Coral Reef Watch, College Park, Maryland, USA. Accessed May 2018Google Scholar
  76. NOAA Coral Reef Watch (2018b) NOAA coral reef watch global 5-km satellite bleaching alert area annual maximum composite for 2016, NOAA Coral Reef Watch, College Park, Maryland, USA. Accessed Sep 2018Google Scholar
  77. Oliver ECJ, Benthuysen JA, Bindoff NL, Hobday AJ, Holbrook NJ, Mundy CN, Perkins-Kirkpatrick SE (2017) The unprecedented 2015/16 Tasman Sea marine heatwave. Nature Communications 8:16101CrossRefPubMedPubMedCentralGoogle Scholar
  78. Oliver JK, Berkelmans R, Eakin CM (2009) Coral bleaching in space and time (Chapter 3). In: Van Oppen MJH, Lough JM (eds) Coral Bleaching; Patterns, Processes, Causes and Consequences. Springer, pp178Google Scholar
  79. Palumbi SR, Barshis DJ, Traylor-Knowles N, Bay RA (2014) Mechanisms of reef coral resistance to future climate change. Science 344:895–898CrossRefPubMedGoogle Scholar
  80. Pattiaratchi C (2007) Surface and sub-surface circulation and water masses off Western Australia. Bulletin of the Australian Meteorological and Oceanographic Society 19:95–104Google Scholar
  81. Pollock FJ, Lamb JB, Field SN, Heron SF, Schaffelke B, Shedrawi G, Bourne DG, Willis BL (2014) Sediment and Turbidity Associated with Offshore Dredging Increase Coral Disease Prevalence on Nearby Reefs. PLoS One 9:e102498CrossRefPubMedPubMedCentralGoogle Scholar
  82. Pratchett M (2010) Changes in coral assemblages during an outbreak of Acanthaster planci at Lizard Island, northern Great Barrier Reef (1995–1999). Coral Reefs 29:717–725CrossRefGoogle Scholar
  83. Pratchett MS, McCowan D, Maynard JA, Heron SF (2013) Changes in bleaching susceptibility among corals subject to ocean warming and recurrent bleaching in Moorea. French Polynesia. PLoS One 8:e70443CrossRefPubMedGoogle Scholar
  84. Pratchett MS, Hoey AS, Wilson SK (2014) Reef degradation and the loss of critical ecosystem goods and services provided by coral reef fishes. Current Opinion in Environmental Sustainability 7:37–43CrossRefGoogle Scholar
  85. Pratchett MS, Thompson CA, Hoey AS, Cowman PF, Wilson SK (2018) Effects of Coral Bleaching and Coral Loss on the Structure and Function of Reef Fish Assemblages. In: van Oppen MJH, Lough JM (eds) Coral Bleaching: Patterns, Processes, Causes and Consequences. Springer International Publishing, Cham, pp 265–293CrossRefGoogle Scholar
  86. Puotinen M, Maynard JA, Beeden R, Radford B, Williams GJ (2016) A robust operational model for predicting where tropical cyclone waves damage coral reefs. Scientific Reports 6:26009CrossRefPubMedPubMedCentralGoogle Scholar
  87. Richards Z, Rosser N (2012) Abundance, distribution and new records of scleractinian corals at Barrow Island and Southern Montebello Islands, Pilbara (Offshore) Bioregion. J R Soc West Aust 95:155–165Google Scholar
  88. Richards Z, Beger M, Hobbs JP, Bowling T, Chong-Seng K, Pratchett M (2009) Ashmore reef national nature reserve and cartier island marine reserve marine survey 2009. ARC centre of excellence for coral reef studies. Report produced for the department of the environment, Water, Heritage and the ArtsGoogle Scholar
  89. Richards Z, Bryce M, Bryce C (2018) The composition and structure of shallow benthic reef communities in the Kimberley, north-west Australia. Records of the Western Australian Museum Supplement 85:103Google Scholar
  90. Richards ZT, Sampey A, Marsh L (2014) Marine Biodiversity of the Kimberley 1880s–2009 Kimberley marine biota Historical data: scleractinian corals. Records of the Western Australian Museum Supplement 84:111–132CrossRefGoogle Scholar
  91. Ridgway T, Inostroza K, Synnot L, Trapon M, Twomey L, Westera M (2016) Temporal patterns of coral cover in the offshore Pilbara. Western Australia. Mar Biol 163:182CrossRefGoogle Scholar
  92. Ruthrof KX, Breshears DD, Fontaine JB, Froend RH, Matusick G, Kala J, Miller BP, Mitchell PJ, Wilson SK, van Keulen M, Enright NJ, Law DJ, Wernberg T, Hardy GESJ (2018) Subcontinental heat wave triggers terrestrial and marine, multi-taxa responses. Scientific Reports 8:13094CrossRefPubMedPubMedCentralGoogle Scholar
  93. Ryan K, Hall N, Lai E, Smallwood C, Taylor S, Wise B (2015) State-wide survey of boat-based recreational fishing in Western Australia 2013/14. Fisheries Research DivisionGoogle Scholar
  94. Safaie A, Silbiger NJ, McClanahan TR, Pawlak G, Barshis DJ, Hench JL, Rogers JS, Williams GJ, Davis KA (2018) High frequency temperature variability reduces the risk of coral bleaching. Nature Communications 9:1671CrossRefPubMedPubMedCentralGoogle Scholar
  95. Schoepf V, Stat M, Falter JL, McCulloch MT (2015) Limits to the thermal tolerance of corals adapted to a highly fluctuating, naturally extreme temperature environment. Scientific Reports 5:17639CrossRefPubMedPubMedCentralGoogle Scholar
  96. Shedrawi G, Falter JL, Friedman KJ, Lowe RJ, Pratchett MS, Simpson CJ, Speed CW, Wilson SK, Zhang Z (2017) Localised hydrodynamics influence vulnerability of coral communities to environmental disturbances. Coral Reefs 36:861–872CrossRefGoogle Scholar
  97. Simpson CJ, Grey KA (1989) Survey of Crown-of-Thorns starfish and coral communities in the Dampier Archipelago. Western Australia, Environmental Protection AuthorityGoogle Scholar
  98. Sommer B, Beger M, Harrison PL, Babcock RC, Pandolfi JM (2018) Differential response to abiotic stress controls species distributions at biogeographic transition zones. Ecography 41:478–490CrossRefGoogle Scholar
  99. Speed CW, Babcock RC, Bancroft KP, Beckley LE, Bellchambers LM, Depczynski M, Field SN, Friedman KJ, Gilmour JP, Hobbs J-PA (2013) Dynamic Stability of Coral Reefs on the West Australian Coast. PLoS One 8:e69863CrossRefPubMedPubMedCentralGoogle Scholar
  100. Thomas L, Rose NH, Bay RA, López EH, Morikawa MK, Ruiz-Jones L, Palumbi SR (2018) Mechanisms of Thermal Tolerance in Reef-Building Corals across a Fine-Grained Environmental Mosaic: Lessons from Ofu, American Samoa. Front Mar Sci 4:  https://doi.org/10.3389/fmars.2017.00434
  101. Thompson A, Dolman A (2010) Coral bleaching: one disturbance too many for near-shore reefs of the Great Barrier Reef. Coral Reefs 29:637–648CrossRefGoogle Scholar
  102. Thomson D, Bearham D, Graham F, Eagle J (2011) High latitude, deeper water coral bleaching at Rottnest Island, Western Australia. Coral Reefs 30:1107CrossRefGoogle Scholar
  103. Tolman HL (2009) User manual and system documentation of WAVEWATCH III version 3.14. NOAA/NWS/NCEP/MMAB Technical Note. vol 276. P 194Google Scholar
  104. Torda G, Sambrook K, Cross P, Sato Y, Bourne DG, Lukoschek V, Hill T, Jorda GT, Moya A, Willis BL (2018) Decadal erosion of coral assemblages by multiple disturbances in the Palm Islands, central Great Barrier Reef. Scientific Reports 8:11885CrossRefPubMedPubMedCentralGoogle Scholar
  105. Torda G, Donelson JM, Aranda M, Barshis DJ, Bay L, Berumen ML, Bourne DG, Cantin N, Foret S, Matz M, Miller DJ, Moya A, Putnam HM, Ravasi T, Oppen MJHV, Thurber RV, Vidal-Dupiol J, Voolstra CR, Watson S-A, Whitelaw E, Willis BL, Munday PL (2017) Rapid adaptive responses to climate change in corals. Nat Clim Chang 7:627–636CrossRefGoogle Scholar
  106. Tuckett CA, de Bettignies T, Fromont J, Wernberg T (2017) Expansion of corals on temperate reefs: direct and indirect effects of marine heatwaves. Coral Reefs 36:947–956CrossRefGoogle Scholar
  107. Turner SJ (1994) Spatial variability in the abundance of the corallivorous gastropod Drupella cornus. Coral Reefs 13:41–48CrossRefGoogle Scholar
  108. Underwood JN, Smith LD, van Oppen MJH, Gilmour JP (2009) Ecologically relevant dispersal of corals on isolated reefs: implications for managing resilience. Ecol Appl 19:18–29CrossRefPubMedGoogle Scholar
  109. Underwood JN, Wilson SK, Ludgerus L, Evans RD (2013) Integrating connectivity science and spatial conservation management of coral reefs in north-west Australia. J Nat Conserv 21:163–172CrossRefGoogle Scholar
  110. Underwood JN, Richards ZT, Miller KJ, Puotinen ML, Gilmour JP (2018) Genetic signatures through space, time and multiple disturbances in a ubiquitous brooding coral. Mol Ecol 27(7):1586–1602.  https://doi.org/10.1111/mec.14559 CrossRefPubMedGoogle Scholar
  111. van Woesik R, Cacciapaglia CW (2018) Keeping up with sea-level rise: Carbonate production rates in Palau and Yap, western Pacific Ocean. PLoS One 13:e0197077CrossRefPubMedPubMedCentralGoogle Scholar
  112. Van Woesik R, Sakai K, Ganase A, Loya Y (2011) Revisiting the winners and the losers a decade after coral bleaching. Mar Ecol Prog Ser 434:67–76CrossRefGoogle Scholar
  113. Veron JEN, Marsh LM (1988) Hermatypic corals of Western Australia. Records of the Western Australian Museum, Perth, Western Australia 1-136Google Scholar
  114. Wall CB, Ricci CA, Foulds GE, Mydlarz LD, Gates RD, Putnam HM (2018) The effects of environmental history and thermal stress on coral physiology and immunity. Mar Biol 165:56CrossRefGoogle Scholar
  115. Walsh KJ, McBride JL, Klotzbach PJ, Balachandran S, Camargo SJ, Holland G, Knutson TR, Kossin JP, Tc Lee, Sobel A (2016) Tropical cyclones and climate change. Wiley Interdisciplinary Reviews: Climate Change 7:65–89Google Scholar
  116. Walton CJ, Hayes NK, Gilliam DS (2018) Impacts of a Regional, Multi-Year, Multi-Species Coral Disease Outbreak in Southeast Florida. Front Mar Sci e 5:  https://doi.org/10.3389/fmars.2018.00323
  117. Wernberg T, Bennett S, Babcock RC, de Bettignies T, Cure K, Depczynski M, Dufois F, Fromont J, Fulton CJ, Hovey RK (2016) Climate-driven regime shift of a temperate marine ecosystem. Science 353:169–172CrossRefPubMedGoogle Scholar
  118. Wilson B (2013) The biogeography of the Australian North West Shelf: environmental change and life’s response. Elsevier, New York, 2.2: pp 44-56, 4.5: pp 164-190Google Scholar
  119. Wilson SK, Graham NAJ, Pratchett MS, Jones GP, Polunin NVC (2006) Multiple disturbances and the global degradation of coral reefs: are reef fishes at risk or resilient? Glob Chang Biol 12:2220–2234CrossRefGoogle Scholar
  120. Wilson SK, Graham NAJ, Holmes T, MacNeil MA, Ryan N (2018) Visual versus video methods for estimating reef fish biomass. Ecol Indic 85:146–152CrossRefGoogle Scholar
  121. Woo M, Pattiaratchi C, Schroeder W (2006) Dynamics of the Ningaloo Current off Point Cloates, Western Australia. Mar Freshw Res 57:291–301CrossRefGoogle Scholar
  122. Zinke J, Gilmour JP, Fisher R, Puotinen M, Maina J, Darling E, Stat M, Richards ZT, McClanahan TR, Beger M, Moore C, Graham NAJ, Feng M, Hobbs J-PA, Evans SN, Field S, Shedrawi G, Babcock RC, Wilson SK (2018) Gradients of disturbance and environmental conditions shape coral community structure for south-eastern Indian Ocean reefs. Divers Distrib 24:605–620CrossRefGoogle Scholar

Copyright information

© Springer-Verlag GmbH Germany, part of Springer Nature 2019

Authors and Affiliations

  • James P. Gilmour
    • 1
    • 2
    Email author
  • Kylie L. Cook
    • 1
  • Nicole M. Ryan
    • 1
  • Marjetta L. Puotinen
    • 1
  • Rebecca H. Green
    • 2
    • 3
    • 4
  • George Shedrawi
    • 5
    • 16
  • Jean-Paul A. Hobbs
    • 6
  • Damian P. Thomson
    • 7
  • Russell C. Babcock
    • 8
  • Joanna Buckee
    • 9
    • 10
  • Taryn Foster
    • 1
  • Zoe T. Richards
    • 6
    • 11
  • Shaun K. Wilson
    • 2
    • 5
  • Peter B. Barnes
    • 12
  • Teresa B. Coutts
    • 12
  • Ben T. Radford
    • 1
    • 2
    • 13
  • Camilla H. Piggott
    • 1
    • 2
    • 14
  • Martial Depczynski
    • 1
    • 2
  • Scott N. Evans
    • 15
  • Verena Schoepf
    • 2
    • 3
    • 4
  • Richard D. Evans
    • 2
    • 5
  • Andrew R. Halford
    • 16
  • Christopher D. Nutt
    • 17
  • Kevin P. Bancroft
    • 5
    • 18
  • Andrew J. Heyward
    • 1
  • Daniel Oades
    • 19
  1. 1.Australian Institute of Marine Science, Indian Ocean Marine Research CentreCrawleyAustralia
  2. 2.Oceans InstituteUniversity of Western AustraliaCrawleyAustralia
  3. 3.The Oceans Graduate SchoolUniversity of Western AustraliaCrawleyAustralia
  4. 4.ARC Centre of Excellence for Coral Reef StudiesUniversity of Western AustraliaCrawleyAustralia
  5. 5.Marine Science ProgramDepartment of Biodiversity, Conservation and AttractionsKensingtonAustralia
  6. 6.School of Molecular and Life ScienceCurtin UniversityBentleyAustralia
  7. 7.CSIRO Oceans and Atmosphere, Indian Ocean Marine Research CentreCrawleyAustralia
  8. 8.CSIRO Oceans and Atmosphere, Queensland Biosciences PrecinctSt LuciaAustralia
  9. 9.Environmental and Conservation SciencesMurdoch UniversityMurdochAustralia
  10. 10.Centre for Sustainable Aquatic Ecosystems, Harry Butler InstituteMurdoch UniversityMurdochAustralia
  11. 11.Aquatic Zoology DepartmentWestern Australian MuseumWelshpoolAustralia
  12. 12.Parks and Wildlife ServiceDepartment of Biodiversity, Conservation and AttractionsExmouthAustralia
  13. 13.School of Agriculture and EnvironmentUniversity of Western AustraliaCrawleyAustralia
  14. 14.Kimberley Marine Research StationDampier PeninsulaAustralia
  15. 15.Department of Primary Industries and Regional DevelopmentHillarysAustralia
  16. 16.Pacific Community (SPC)Noumea CedexNew Caledonia
  17. 17.Parks and Wildlife ServiceDepartment of Biodiversity, Conservation and AttractionsBroomeAustralia
  18. 18.School of Biological SciencesUniversity of Western AustraliaCrawleyAustralia
  19. 19.Bardi Jawi RangersArdyaloon, Dampier PeninsulaAustralia

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