Abstract
The Red Sea has long been recognized as a region of high biodiversity and endemism. Despite this diversity and early history of scientific work, our understanding of the ecology of coral reefs in the Red Sea has lagged behind that of other large coral reef systems. We carried out a quantitative assessment of ISI-listed research published from the Red Sea in eight specific topics (apex predators, connectivity, coral bleaching, coral reproductive biology, herbivory, marine protected areas, non-coral invertebrates and reef-associated bacteria) and compared the amount of research conducted in the Red Sea to that from Australia’s Great Barrier Reef (GBR) and the Caribbean. On average, for these eight topics, the Red Sea had 1/6th the amount of research compared to the GBR and about 1/8th the amount of the Caribbean. Further, more than 50 % of the published research from the Red Sea originated from the Gulf of Aqaba, a small area (<2 % of the area of the Red Sea) in the far northern Red Sea. We summarize the general state of knowledge in these eight topics and highlight the areas of future research priorities for the Red Sea region. Notably, data that could inform science-based management approaches are badly lacking in most Red Sea countries. The Red Sea, as a geologically “young” sea located in one of the warmest regions of the world, has the potential to provide insight into pressing topics such as speciation processes as well as the capacity of reef systems and organisms to adapt to global climate change. As one of the world’s most biodiverse coral reef regions, the Red Sea may yet have a significant role to play in our understanding of coral reef ecology at a global scale.
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References
Afeworki Y, Bruggemann JH, Videler JJ (2011) Limited flexibility in resource use in a coral reef grazer forgaing on seasonally changing algal communities. Coral Reefs 30:109–122
Almany G, Connolly S, Heath D, Hogan J, Jones G, McCook L, Mills M, Pressey R, Williamson D (2009) Connectivity, biodiversity conservation and the design of marine reserve networks for coral reefs. Coral Reefs 28:339–351
Alwany MA, Thaler E, Stachowitsch M (2009) Parrotfish bioerosion on Egyptian Red Sea reefs. J Exp Mar Biol Ecol 371:170–176
Angert ER, Clements KD, Pace NR (1993) The largest bacterium. Nature 362:239–241
Appeltans W, Ahyong ST, Anderson G, Angel MV, Artois T, Bailly N, Bamber R, Barber A, Bartsch I, Berta A, Blazewicz-Paszkowycz M, Bock P, Boxshall G, Boyko CB, Brandão SN, Bray RA, Bruce NL, Cairns SD, Chan T-Y, Cheng L, Collins AG, Cribb T, Curini-Galletti M, Dahdouh-Guebas F, Davie PJF, Dawson MN, De Clerck O, Decock W, De Grave S, de Voogd NJ, Domning DP, Emig CC, Erséus C, Eschmeyer W, Fauchald K, Fautin DG, Feist SW, Fransen CHJM, Furuya H, Garcia-Alvarez O, Gerken S, Gibson D, Gittenberger A, Gofas S, Gómez-Daglio L, Gordon DP, Guiry MD, Hernandez F, Hoeksema BW, Hopcroft RR, Jaume D, Kirk P, Koedam N, Koenemann S, Kolb JrB, Kristensen RM, Kroh A, Lambert G, Lazarus DB, Lemaitre R, Longshaw M, Lowry J, Macpherson E, Madin LP, Mah C, Mapstone G, McLaughlin PA, Mees J, Meland K, Messing CG, Mills CE, Molodtsova TN, Mooi R, Neuhaus B, Ng PKL, Nielsen C, Norenburg J, Opresko DM, Osawa M, Paulay G, Perrin W, Pilger JF, Poore GCB, Pugh P, Read GB, Reimer JD, Rius M, Rocha RM, Saiz-Salinas JI, Scarabino V, Schierwater B, Schmidt-Rhaesa A, Schnabel KE, Schotte M, Schuchert P, Schwabe E, Segers H, Self-Sullivan C, Shenkar N, Siegel V, Sterrer W, Stohr S, Swalla B, Tasker ML, Thuesen EV, Timm T, Todaro MA, Turon X, Tyler S, Uetz P, van der Land J, Vanhoorne B, van Ofwegen LP, van Soest RWM, Vanaverbeke J, Walker-Smith G, Walter TC, Warren A, Williams GC, Wilson SP, Costello MJ (2012) The magnitude of global marine species diversity. Curr Biol 22:2189-2202
Aronson RB, Precht WF (2001) White-band disease and the changing face of Caribbean coral reefs. Hydrobiologia 460:25–38
Arotsker L, Siboni N, Ben-Dov E, Kramarsky-Winter E, Loya Y, Kushmaro A (2009) Vibrio sp as a potentially important member of the Black Band Disease (BBD) consortium in Favia sp corals. FEMS Microbiol Ecol 70:515–524
Ashworth JS, Bruce OE, El Hellw M (2006) Fish assemblages of Red Sea backreef biotopes. Aquat Conserv: Mar Freshw Ecosyst 16:593–609
Babcock RC, Bull GD, Harrison PL, Heyward AJ, Oliver JK, Wallace CC, Willis BL (1986) Synchronous spawnings of 105 scleractinian coral species on the Great Barrier Reef. Mar Biol 90:379–394
Baird AH, Marshall PA (1998) Mass bleaching of corals on the Great Barrier Reef. Coral Reefs 17:376
Baird AH, Marshall PA (2002) Mortality, growth and reproduction in scleractinian corals following bleaching on the Great Barrier Reef. Mar Ecol Prog Ser 237:133–141
Baird AH, Guest JR, Willis BL (2009) Systematic and biogeographical patterns in the reproductive biology of scleractinian corals. Annual Review of Ecology, Evolution and Systematics 40:551–571
Baker AC, Glynn PW, Riegl B (2008) Climate change and coral reef bleaching: An ecological assessment of long-term impacts, recovery trends and future outlook. Estuar Coast Shelf Sci 80:435–471
Bellwood DR, Wainwright PC (2002) The history and biogeography of fishes on coral reefs. In: Sale PF (ed) Coral reef fishes: Dynamics and diversity in a complex ecosystem. Academic Press, San Diego, pp 5–32
Bellwood DR, Hughes TP, Folke C, Nystrom M (2004) Confronting the coral reef crisis. Nature 429:827–833
Bellwood DR, Hughes TP, Hoey AS (2006) Sleeping functional group drives coral reef recovery. Curr Biol 16:2434–2439
Belmaker J, Shashar N, Ziv Y (2005) Effects of small-scale isolation and predation on fish diversity on experimental reefs. Mar Ecol Prog Ser 289:273–283
Bergman O, Haber M, Mayzel B, Anderson MA, Shpigel M, Hill RT, Ilan M (2011) Marine-based cultivation of Diacarnus sponges and the bacterial community composition of wild and maricultured sponges and their larvae. Mar Biotechnol 13:1169–1182
Bond ME, Babcock EA, Pikitch EK, Abercrombie DL, Lamb NF, Chapman DD (2012) Reef sharks exhibit site-fidelity and higher relative abundance in marine reserves on the Mesoamerican Barrier Reef. PloS ONE 7:e32983
Bouchet P, Lozouet P, Maestrati P, Heros V (2002) Assessing the magnitude of species richness in tropical marine environments: exceptionally high numbers of molluscs at a New Caledonia site. Biol J Linn Soc 75:421–436
Bouchon-Navaro Y, Harmelin-Vivien ML (1981) Quantitative distribution of herbivorous reef fishes in the Gulf of Aqaba (Red Sea). Mar Biol 63:79–86
Bouwmeester J, Khalil MT, De La Torre P, Berumen ML (2011) Synchronous spawning of Acropora in the Red Sea. Coral Reefs 30:1011
Brokovich E, Ayalon I, Einbinder S, Segev N, Shaked Y, Genin A, Kark S, Kiflawi M (2010) Grazing pressure on coral reefs decreases across a wide depth gradient in the Gulf of Aqaba, Red Sea. Mar Ecol Prog Ser 399:69–80
Burkepile DE, Hay ME (2006) Herbivore vs. nutrient control of marine primary producers: context-dependent effects. Ecology 87:3128–3139
Burns E, Ilan M (2003) Comparison of anti-predatory defenses of Red Sea and Caribbean sponges. II. Physical defense. Mar Ecol Prog Ser 252:115–123
Burns E, Ifrach I, Carmeli S, Pawlik JR, Ilan M (2003) Comparison of anti-predatory defenses of Red Sea and Caribbean sponges. I. Chemical defense. Mar Ecol Prog Ser 252:105–114
Cantin NE, Cohen AL, Karnauskas KB, Tarrant AM, McCorkle DC (2010) Ocean warming slows coral growth in the Central Red Sea. Science 329:322–325
Clarke C, Lea J, Ormond R (2011) Reef-use and residency patterns of a baited population of silky sharks, Carcharhinus falciformis, in the Red Sea. Mar Freshw Res 62:668–675
Clements KD, Bullivant S (1991) An unusual symbiont from the gut Of surgeonfishes may be the largest known prokaryote. J Bacteriol 173:5359–5362
Collette BB, Carpenter KE, Polidoro BA, Juan-Jorda MJ, Boustany A, Die DJ, Elfes C, Fox W, Graves J, Harrison LR, McManus R, Minte-Vera CV, Nelson R, Restrepo V, Schratwieser J, Sun CL, Amorim A, Brick Peres M, Canales C, Cardenas G, Chang SK, Chiang WC, de Oliveira Leite N, Jr., Harwell H, Lessa R, Fredou FL, Oxenford HA, Serra R, Shao KT, Sumaila R, Wang SP, Watson R, Yanez E (2011) High value and long life-Double jeopardy for tunas and billfishes. Science 333:291–292
Danovaro R, Bongiorni L, Corinaldesi C, Giovannelli D, Damiani E, Astolfi P, Greci L, Pusceddu A (2008) Sunscreens cause coral bleaching by promoting viral infections. Environ Health Perspect 116:441–447
Davis KA, Lentz SJ, Pineda J, Farrar JT, Starczak VR, Churchill JH (2011) Observations of the thermal environment on Red Sea platform reefs: a heat budget analysis. Coral Reefs 30:25–36
DesRosiers N (2011) Growth and maturation of Plectropomus spp. in the Saudi Arabian Red Sea. MSc thesis, King Abdullah University of Science and Technology, p 69
Diaz MC, Tzler K (2001) Sponges: An essential component of Caribbean coral reefs. Bull Mar Sci 69:535–546
DiBattista JD, Berumen ML, Gaither MR, Rocha LA, Eble JA, Choat JH, Craig MT, Skillings DJ, Bowen BW (2013) After continents divide: comparative phylogeography of reef fishes from the Red Sea and Indian Ocean. J Biogeogr 40:1170–1181
Edwards FJ (1987) Climate and oceanography. In: Edwards AJ, Head S (eds) Key environments: Red Sea. Pergamon Press, Oxford, pp 45–68
Fishelson L, Baranes A (1997) Ontogenesis and cytomorphology of the nasal olfactory organs in the Oman Shark, Iago omanensis (Triakidae), in the Gulf of Aqaba, Red Sea. Anat Rec 209:409–421
Fisher PR, Newton SF, Tatwany HMA, Goldspink CR (2001) Variation in the diet of Ospreys Pandion haliaetus, Farasan Islands, southern Red Sea-preliminary observations. Vogelwelt 122:205–218
Floeter SR, Behrens MD, Ferreira CEL, Paddack MJ, Horn MH (2005) Geographical gradients of marine herbivorous fishes: Patterns and processes. Mar Biol 147:1435–1447
Furby KA, Bouwmeester J, Berumen ML (2013) Susceptibility of central Red Sea corals during a major bleaching event. Coral Reefs 22:505–513
Galal N, Ormond R, Hassan O (2002) Effect of a network of no-take reserves in increasing catch per unit effort and stocks of exploited reef fish at Nabq, South Sinai. Egypt. Mar Freshw Res 53:199
Glassom D, Zakai D, Chadwick-Furman NE (2004) Coral recruitment: a spatio-temporal analysis along the coastline of Eilat, northern Red Sea. Mar Biol 144:641–651
Gleason DF, Wellington GM (1993) Ultraviolet radiation and coral bleaching. Nature 365:836–838
Grimsditch GD, Salm RV (2006) Coral reef resilience and resistence to bleaching. IUCN, Gland, Switzerland, p 52
Gugel J, Wagler M, Bruemmer F (2011) Porifera, one new species Suberea purpureaflava n. sp. (Demospongiae, Verongida, Aplysinellidae) from northern Red Sea coral reefs, with short descriptions of Red Sea Verongida and known Suberea species. Zootaxa 2994:60–68
Hanafy MH, Aamer MA, Habib M, Rouphael AB, Baird AH (2010) Synchronous reproduction of corals in the Red Sea. Coral Reefs 29:119–124
Hannak JS, Kompatscher S, Stachowitsch M, Herler J (2011) Snorkelling and trampling in shallow-water fringing reefs: Risk assessment and proposed management strategy. J Environ Manage 92:2723–2733
Harrison PL (2011) Sexual reproduction of scleractinian corals. In: Dubinsky Z, Stambler N (eds) Coral reefs: An ecosystem in transition. Springer, Netherlands, pp 59–85
Harrison PL, Babcock RC, Bull GD, Oliver JK, Wallace CC, Willis BL (1984) Mass spawning in tropical reef corals. Science 223:1186–1189
Hay ME (1981) Spatial patterns of grazing intensity on a Caribbean barrier reef: herbivory and algal distribution. Aquat Bot 11:97–109
Hay ME (1984) Patterns of fish and urchin grazing on Caribbean coral reefs: are previous results typical? Ecology 65:446–454
Head SM (1987) Introduction. In: Edwards AJ, Head SM (eds) Key environments: Red Sea. Pergamon Press, Oxford, UK, pp 1–21
Hilborn R (2007) Moving to sustainability by learning from successful fisheries. AMBIO 36:0044–7447
Hoey AS, Bellwood DR (2008) Cross-shelf variation in the role of parrotfishes on the Great Barrier Reef. Coral Reefs 27:37–47
Hoey AS, Bellwood DR (2011) Suppression of herbivory by macroalgal density: a critical feedback on coral reefs? Ecol Lett 14:267–273
Hughes TP (1994) Catastrophes, phase shifts, and large-scale degradation of a Caribbean coral reef. Science 265:1547–1551
Hughes L (2003) Climate change and Australia: Trends, projections and impacts. Austral Ecol 28:423–443
Hughes TP, Rodrigues MJ, Bellwood DR, Ceccarelli D, Hoegh-Guldberg O, McCook L, Moltschaniwskyj M, Pratchett MS, Steneck RS, Willis B (2007) Phase shifts, herbivory, and the resilience of coral reefs to climate change. Curr Biol 17:360–365
Ilan M, Loya Y, Kolbasov GA, Brickner I (1999) Sponge-inhabiting barnacles on Red Sea coral reefs. Mar Biol 133:709–716
IUCN/UNEP (1988) Coral reefs of the world: Volume 2: Indian Ocean, Red Sea and Gulf. UNEP/IUCN, Gland, Switzerland and Cambridge UK/UNEP, Nairobi, Kenya
Ivanov VA, Lipshitz A (2006) Description of a new diphyllidean parasite of triakid sharks from the deep Red Sea. J Parasitol 94(841):846
Jimenez C (2001) Bleaching and mortality of reef organisms during a warming event in 1995 on the Caribbean coast of Costa Rica. Rev Biol Trop 49:233–238
Jin D, Kite-Powell HL, Hoagland P, Solow AR (2012) A bioeconomic analysis of traditional fisheries in the Red Sea off the coast of the Kingdom of Saudi Arabia. Mar Res Econ 27:137–148
Jones GP, Russ GR, Sale PF, Steneck RS (2009) Theme section on “Larval connectivity, resilience and the future of coral reefs”. Coral Reefs 28:303–305
Karpestam B, Gustafsson J, Shashar N, Katzir G, Krüger RHH (2007) Multifocal lenses in coral reef fishes. J Exp Biol 210:2923–2931
Kelman D, Kashman Y, Rosenberg E, Ilan M, Ifrach I, Loya Y (2001) Antimicrobial activity of the reef sponge Amphimedon viridis from the Red Sea: evidence for selective toxicity. Aquat Microb Ecol 24:9–16
Kochzius M (2007) Community structure of coral reef fishes in El quadim bay (El quseir, Egyptian red sea coast). Zool Middle East 42:89–98
Kooperman N, Ben-Dov E, Kramarsky-Winter E, Barak Z, Kushmaro A (2007) Coral mucus-associated bacterial communities from natural and aquarium environments. FEMS Microbiol Lett 276:106–113
Kvitt H, Rosenfeld H, Zandbank K, Tchernov D (2011) Regulation of apoptotic pathways by Stylophora pistillata (Anthozoa, Pocilloporidae) to survive thermal stress and bleaching. PLoS ONE 6:e28665
Lasker HR (2003) Zooxanthella densities within a Caribbean octocoral during bleaching and non-bleaching years. Coral Reefs 22:23–26
Lowe WH, Allendorf FW (2010) What can genetics tell us about population connectivity? Mol Ecol 19:3038–3051
Lutcavage M, Kraus S, Hoggard W (1997) Aerial survey of giant bluefin tuna, Thunnus thynnus, in the great Bahama Bank, Straits of Florida, 1995. Fish Bull 95:300–310
Magnino G, Sarà A, Lancioni T, Gaino E (1999) Endobionts of the coral reef sponge Theonella swinhoei (Porifera, Demospongiae). Invertebr Biol 118:213–220
Maier E, Tollrian R, Rinkevich B, Nürnberger B (2005) Isolation by distance in the scleractinian coral Seriatopora hystrix from the Red Sea. Mar Biol 147:1109–1120
Marshall PA, Baird AH (2000) Bleaching of corals on the Great Barrier Reef: differential susceptibilities among taxa. Coral Reefs 19:155–163
Marshall NA, Marshall PA, Abdulla A, Rouphael T (2010) The links between resource dependency and attitude of commercial fishers to coral reef conservation in the Red Sea. Ambio 39:305–313
McClanahan TR, Muthiga NA, Mangi S (2001) Coral and algal changes after the 1998 coral bleaching: interaction with reef management and herbivores on Kenyan reefs. Coral Reefs 19:380–391
McCook LJ (1996) Effects of herbivores and water quality on Sargassum distribution on the central Great Barrier Reef: cross-shelf transplants. Mar Ecol Prog Ser 139:179–192
McCook LJ, Almany GR, Berumen ML, Day JC, Green AL, Jones GP, Leis JM, Planes S, Russ GR, Sale PF, Thorrold SR (2009) Management under uncertainty: guide-lines for incorporating connectivity into the protection of coral reefs. Coral Reefs 28:353–366
McCook LJ, Ayling T, Cappo M, Choat JH, Evans RD, De Freitas DM, Heupel M, Hughes TP, Jones GP, Mapstone B (2010) Adaptive management of the Great Barrier Reef: A globally significant demonstration of the benefits of networks of marine reserves. Proc Natl Acad Sci USA 107:18278–18285
McMahon KW, Berumen ML, Thorrold SR (2012) Linking habitat mosaics and connectivity in a coral reef seascape. Proc Natl Acad Sci USA 109:15372–15376
Meesters EH, Bak RPM (1993) Effects of coral bleaching on tissue regeneration potential and colony survival. Mar Ecol Prog Ser 96:189–198
Mervis J (2009) The big gamble in the Saudi desert. Science 326:354–357
Mora C, Andrefouet S, Costello MJ, Kranenburg C, Rollo A, Veron J, Gaston KJ, Myers RA (2006) Coral reefs and the global network of marine protected areas. Science 312:1750–1751
Moriarty DJW, Pollard PC, Hunt WG (1985) Temporal and spatial variation in bacterial production in the water column over a coral reef. Mar Biol 85:285–292
Mumby PJ (1999) Bleaching and hurricane disturbances to populations of coral recruits in Belize. Mar Ecol Prog Ser 190:27–35
Mumby PJ (2006) The impact of exploiting grazers (Scaridae) on the dynamics of Caribbean coral reefs. Ecol Appl 16:747–769
Myers R, Baum J, Shepherd T, Powers S, Peterson C (2007) Cascading effects of the loss of apex predatory sharks from a coastal ocean. Science 315:1846–1850
Ormond RFG, Edwards AJ (1987) Red Sea fishes. In: Edwards AJ, Head SM (eds) Red Sea: Key environments. IUCN/Pergamon Press, Oxford, pp 251–287
Pandolfi JM, Bradbury RH, Sala E, Hughes TP, Bjorndal KA, Cooke RG, McArdle D, McClenachan L, Newman MJH, Paredes G, Warner RR, Jackson JBC (2003) Global trajectories of the long-term decline of coral reef ecosystems. Science 301:955–958
PERSGA/GEF (2010) The Status of coral reefs in the Red Sea and Gulf of Aden: 2009 PERSGA Technical Series Number 16. PERSGA, Jeddah
Pikitch EK, Chapman DD, Babcock EA, Shivji MS (2005) Habitat use and demographic population structure of elasmobranchs at a Caribbean atoll (Glover’s Reef, Belize). Mar Ecol Prog Ser 302:187–197
Randall JE (1965) Grazing effects on sea greases by herbivorous reef fishes in the West Indies. Ecology 46:255–260
Randall JE, Levy MF (1976) A near-fatal shark attack by a mako in the northern Red Sea. Isr J Zool 25:61–70
Rasher DB, Hoey AS, Hay ME (2013) Consumer diversity interacts with prey defences to drive ecosystem function. Ecology. doi:10.1890/12-0389.1
Riegl B, Piller WE (2003) Possible refugia for reefs in times of environmental stress. Int J Earth Sci 92:520–531
Robbins WD, Hisano M, Connolly SR, Choat JH (2006) Ongoing collapse of coral-reef shark populations. Curr Biol 16:2314–2319
Rohwer F, Youle M (2010) Coral reefs in the microbial seas. Plaid Press
Rohwer F, Seguritan V, Azam F, Knowlton N (2002) Diversity and distribution of coral-associated bacteria. Mar Ecol-Prog Ser 243:1–10
Rosenberg E, Ben-Haim Y (2002) Microbial diseases of corals and global warming. Environ Microbiol 4:318–326
Rosenberg E, Koren O, Reshef L, Efrony R, Zilber-Rosenberg I (2007) The role of microorganisms in coral health, disease and evolution. Nature Reviews Microbiology 5:355–362
Sale PF, Cowen RK, Danilowicz BS, Jones GP, Kritzer JP, Lindeman KC, Planes S, Polunin NVC, Russ GR, Sadovy YJ, Steneck RS (2005) Critical science gaps impede use of no-take fishery reserves. Trend Ecol Evol 20:74–80
Samy M, Sanchez Lizaso JL, Forcada A (2011) Status of marine protected areas in Egypt. Anim Biodivers Conserv 34:165–177
Sheppard C, Price A, Roberts C (1992) Marine ecology of the Arabian region. Academic Press, London, p 359
Shinn EA, Smith GW, Prospero JM, Betzer P, Hayes ML, Garrison V, Barber RT (2000) African dust and the demise of Caribbean coral reefs. Geophys Res Lett 27:3029–3032
Shlesinger Y, Goulet T, Loya Y (1998) Reproductive patterns of scleractinian corals in the northern Red Sea. Mar Biol 132:691–701
Shnit-Orland M, Kushmaro A (2009) Coral mucus-associated bacteria: a possible first line of defense. FEMS Microbiol Ecol 67:371–380
Shpigel M, Fishelson L (1991) Experimental removal of piscivorous groupers of the genus Cephalopholis (Serranidae) from coral habitats in the Gulf of Aqaba (Red-Sea). Environ Biol Fish 31:0378–1909
Stehli FG, Wells JW (1971) Diversity and age patterns in hermatypic corals. Syst Biol 20:115–126
Stephenson W, Searles RB (1960) Experimental studies on the ecology of intertidal environments at Heron Island. Aust J Mar Freshw Res 11:241–267
Taylor MW, Radax R, Steger D, Wagner M (2007) Sponge-associated microorganisms: Evolution, ecology, and biotechnological potential. Microbiol Mol Biol Rev 71:295–347
Turak E, Brodie J, DeVantier L (2007) Reef-building corals and coral communities of the Yemen Red Sea. Fauna of Arabia 23:1–40
Veal CJ, Carmi M, Dishon G, Sharon Y, Michael K, Tchernov D, Hoegh-Guldberg O, Fine M (2010) Shallow-water wave lensing in coral reefs: a physical and biological case study. J Exp Biol 213:4304–4312
Vine PJ (1974) Effects of algal grazing and aggressive behavior of the fishes Pomacentrus lividus and Acanthurus sohal on coral-reef ecology. Mar Biol 24:131–136
Walker TI (1998) Can shark resources be harvested sustainably? A question revisited with a review of shark fisheries. Mar Freshw Res 49:1448–6059
Wilkinson CR, Fay P (1979) Nitrogen fixation in coral reef sponges with symbiotic cyanobacteria. Nature 279:527–529
Winters G, Loya Y, Beer S (2006) In situ measured seasonal variations in F-v/F-m of two common Red Sea corals. Coral Reefs 25:593–598
Winters G, Beer S, Ben Zvi B, Brickner I, Loya Y (2009) Spatial and temporal photoacclimation of Stylophora pistillata: zooxanthella size, pigmentation, location and clade. Mar Ecol Prog Ser 384:107–119
Wismer S, Hoey AS, Bellwood DR (2009) Cross-shelf benthic community structure on the Great Barrier Reef: relationships between macroalgal cover and herbivore biomass. Mar Ecol Prog Ser 376:45–54
Wörheide G (2006) Low variation in partial cytochrome oxidase subunit I (COI) mitochondrial sequences in the coralline demosponge Astrosclera willeyana across the Indo-Pacific. Mar Biol 148:907–912
Wörheide G, Epp LS, Macis L (2008) Deep genetic divergences among Indo-Pacific populations of the coral reef sponge Leucetta chagosensis (Leucettidae): founder effects, vicariance, or both? BMC Evol Biol 8:24
Zeevi-Ben-Yosef D, Benayahu Y (2008) Synergistic effects of UVR and temperature on the survival of azooxanthellate and zooxanthellate early developmental stages of soft corals. Bull Mar Sci 83:401–414
Zvuloni A, Artzy-Randrup Y, Stone L, Kramarsky-Winter E, Barkan R, Loya Y (2009) Spatio-temporal transmission patterns of Black-Band disease in a coral community. PloS ONE 4:e4993
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Discussions with GR Almany, PL Munday and B Gladfelter improved the manuscript. We thank H Sweatman and an anonymous reviewer for feedback on previous versions of the manuscript. We extend particular thanks to M Hassan for the discussion of regional relevance of the grey literature and her analysis of authorship nationalities for Red Sea publications.
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Berumen, M.L., Hoey, A.S., Bass, W.H. et al. The status of coral reef ecology research in the Red Sea. Coral Reefs 32, 737–748 (2013). https://doi.org/10.1007/s00338-013-1055-8
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DOI: https://doi.org/10.1007/s00338-013-1055-8