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Coral Reefs 43(3): 717-731. https://dx.doi.org/10.1007/s00338-024-02496-7","StandardTitle":"DNA metabarcoding as a tool for characterising the spatio-temporal distribution of planktonic larvae in the phylum Echinodermata","AuthorsString":"Byrne, I. et al.","BibLvlCode":"AS"},{"BRefID":363081,"RR":"Coker, D.J.; Dibattista, J.D.; Stat, M.; Arrigoni, R.; Reimer, J.; Terraneo, T.I.; Villalobos, R.; Nowicki, J.P.; Bunce, M.; Berumen, M.L. (2023). DNA metabarcoding confirms primary targets and breadth of diet for coral reef butterflyfishes. Coral Reefs 42(1): 1-15. https://dx.doi.org/10.1007/s00338-022-02302-2","StandardTitle":"DNA metabarcoding confirms primary targets and breadth of diet for coral reef butterflyfishes","AuthorsString":"Coker, D.J. et al.","BibLvlCode":"AS"},{"BRefID":396571,"RR":"Peiris, M.A.K.; Liu, S.-Y.V.; Dibattista, J.D.; Bunce, M.; Chen, Y.-H.; Shen, K.-N.; Chang, C.-W. (2024). eDNA metabarcoding captures a decline of coral diversity at Taiping Island after an outbreak of Crown-of-Thorns starfish. Coral Reefs 2024. https://dx.doi.org/10.1007/s00338-024-02566-w","StandardTitle":"eDNA metabarcoding captures a decline of coral diversity at Taiping Island after an outbreak of Crown-of-Thorns starfish","AuthorsString":"Peiris, M.A.K. et al.","BibLvlCode":"AS"},{"BRefID":396533,"RR":"Isomura, N.; Inoha, K.; Shimura, A.; Yasuda, N.; Kikuchi, T.; Iwao, K.; Kitanobo, S.; Ohki, S.; Morita, M.; Fukami, H. (2024). Effect of the frequency of multi-specific synchronous spawning on genetic introgression among three Acropora species. Coral Reefs 43(5): 1497-1509. https://dx.doi.org/10.1007/s00338-024-02554-0","StandardTitle":"Effect of the frequency of multi-specific synchronous spawning on genetic introgression among three Acropora species","AuthorsString":"Isomura, N. et al.","BibLvlCode":"AS"},{"BRefID":324178,"RR":"Linares, C.; Coma, R.; Zabala, M. (2008). Effects of a mass mortality event on gorgonian reproduction. Coral Reefs 27(1): 27-34. https://dx.doi.org/10.1007/s00338-007-0285-z","StandardTitle":"Effects of a mass mortality event on gorgonian reproduction","AuthorsString":"Linares, C.; Coma, R.; Zabala, M.","BibLvlCode":"AS"},{"BRefID":324102,"RR":"Priori, C.; Erra, F.; Angiolillo, M.; Santangelo, G. (2015). Effects of gastropod predation on the reproductive output of an overexploited deep octocoral. Coral Reefs 34(1): 59-63. https://dx.doi.org/10.1007/s00338-014-1223-5","StandardTitle":"Effects of gastropod predation on the reproductive output of an overexploited deep octocoral","AuthorsString":"Priori, C. et al.","BibLvlCode":"AS"},{"BRefID":221194,"RR":"McClanahan, T. R. (1994). Endemic survives adversity. Coral Reefs 13(2): 104. dx.doi.org/10.1007/BF00300769","StandardTitle":"Endemic survives adversity","AuthorsString":"McClanahan, T. 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Coral Reefs 20(3): 281-288","StandardTitle":"Epifaunal community structure in Acropora spp. (Scleractinia) on the Great Barrier Reef: implications of coral morphology and habitat complexity","AuthorsString":"Vytopil, E.; Willis, B.L.","BibLvlCode":"AS"},{"BRefID":221144,"RR":"Ateweberhan, M.; McClanahan, T. R.; Graham, N. A. J.; Sheppard, C. R. C. (2011). Episodic heterogeneous decline and recovery of coral cover in the Indian Ocean. Coral Reefs 30(3): 739-752. dx.doi.org/10.1007/s00338-011-0775-x","StandardTitle":"Episodic heterogeneous decline and recovery of coral cover in the Indian Ocean","AuthorsString":"Ateweberhan, M. et al.","BibLvlCode":"AS"},{"BRefID":108149,"RR":"Schmitt, E.F.; Sluka, R.D.; Sullivan-Sealey, K.M. (2002). Evaluating the use of roving diver and transect surveys to assess the coral reef fish assemblage off southeastern Hispaniola. Coral Reefs 21(2): 216-223","StandardTitle":"Evaluating the use of roving diver and transect surveys to assess the coral reef fish assemblage off southeastern Hispaniola","AuthorsString":"Schmitt, E.F. et al.","BibLvlCode":"AS"},{"BRefID":345055,"RR":"Grupstra, C.G.B.; Coma, R.; Ribes, M.; Leydet, K.P.; Parkinson, J.E.; McDonald, K.; Catllà, M.; Voolstra, C.R.; Hellberg, M.E.; Coffroth, M.A. (2017). Evidence for coral range expansion accompanied by reduced diversity of Symbiodinium genotypes. Coral Reefs 36(3): 981-985. https://dx.doi.org/10.1007/s00338-017-1589-2","StandardTitle":"Evidence for coral range expansion accompanied by reduced diversity of Symbiodinium genotypes","AuthorsString":"Grupstra, C.G.B. et al.","BibLvlCode":"AS"},{"BRefID":324093,"RR":"La Rivière, M.; Garrabou, J.; Bally, M. (2015). Evidence for host specificity among dominant bacterial symbionts in temperate gorgonian corals. 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Coral Reefs 41: 635-653. https://dx.doi.org/10.1007/s00338-021-02175-x","StandardTitle":"Fine-scale morphological, genomic, reproductive, and symbiont differences delimit the Caribbean octocorals Plexaura homomalla and P. kükenthali","AuthorsString":"Pelosi, J.A. et al.","BibLvlCode":"AS"},{"BRefID":240524,"RR":"Lai, S.; Gillis, L.G.; Mueller, C.; Bouma, T.J.; Guest, J.R.; Last, K.S.; Ziegler, A.D.; Todd, P.A. (2013). First experimental evidence of corals feeding on seagrass matter. Coral Reefs 32(4): 1061-1064. http://dx.doi.org/10.1007/s00338-013-1062-9","StandardTitle":"First experimental evidence of corals feeding on seagrass matter","AuthorsString":"Lai, S. et al.","BibLvlCode":"AS"},{"BRefID":361321,"RR":"Raick, X.; Di Iorio, L.; Lecchini, D.; Gervaise, C.; Hedouin, L.; Under The Pole Consortium; Pérez-Rosales, G.; Rouzé, H.; Bertucci, F.; Parmentier, E. (2023). Fish sounds of photic and mesophotic coral reefs: variation with depth and type of island. Coral Reefs 42: 285-297. https://dx.doi.org/10.1007/s00338-022-02343-7","StandardTitle":"Fish sounds of photic and mesophotic coral reefs: variation with depth and type of island","AuthorsString":"Raick, X. et al.","BibLvlCode":"AS"},{"BRefID":396565,"RR":"Nocella, E.; Fassio, G.; Zuccon, D.; Puillandre, N.; Modica, M.V.; Oliverio, M. (2024). From coral reefs into the abyss: the evolution of corallivory in the Coralliophilinae (Neogastropoda, Muricidae). Coral Reefs 43(5): 1285-1302. https://dx.doi.org/10.1007/s00338-024-02537-1","StandardTitle":"From coral reefs into the abyss: the evolution of corallivory in the Coralliophilinae (Neogastropoda, Muricidae)","AuthorsString":"Nocella, E. et al.","BibLvlCode":"AS"},{"BRefID":345060,"RR":"Floyd, M.; Mizuyama, M.; Obuchi, M.; Sommer, B.; Miller, M.G.R.; Kawamura, I.; Kise, H.; Reimer, J.D.; Beger, M. (2020). Functional diversity of reef molluscs along a tropical-to-temperate gradient. Coral Reefs 39(5): 1361-1376. https://dx.doi.org/10.1007/s00338-020-01970-2","StandardTitle":"Functional diversity of reef molluscs along a tropical-to-temperate gradient","AuthorsString":"Floyd, M. et al.","BibLvlCode":"AS"},{"BRefID":361892,"RR":"Swanborn, D.J.B.; Fassbender, N.; Huvenne, V.A.I.; Pittman, S.J.; Stefanoudis, P.V.; Woodall, L.C. (2022). Geomorphological drivers of deeper reef habitats around Seychelles. Coral Reefs 41(4): 1001-1016. https://dx.doi.org/10.1007/s00338-022-02281-4","StandardTitle":"Geomorphological drivers of deeper reef habitats around Seychelles","AuthorsString":"Swanborn, D.J.B. et al.","BibLvlCode":"AS"},{"BRefID":347489,"RR":"Kazanidis, G.; Henry, L.-A.; Roberts, M.J. (2021). Hidden structural heterogeneity enhances marine hotspots’ biodiversity. Coral Reefs 40(5): 1615-1630. https://dx.doi.org/10.1007/s00338-021-02114-w","StandardTitle":"Hidden structural heterogeneity enhances marine hotspots’ biodiversity","AuthorsString":"Kazanidis, G.; Henry, L.-A.; Roberts, M.J.","BibLvlCode":"AS"},{"BRefID":107945,"RR":"Craig, P.; Birkeland, C.; Belliveau, S. (2001). High temperatures tolerated by a diverse assemblage of shallow-water corals in American Samoa. Coral Reefs 20(2): 185-189","StandardTitle":"High temperatures tolerated by a diverse assemblage of shallow-water corals in American Samoa","AuthorsString":"Craig, P. et al.","BibLvlCode":"AS"},{"BRefID":354758,"RR":"Hobbs, J.-P.A.; Richards, Z.T.; Popovic, I.; Lei, C.; Staeudle, T.M.; Montanari, S.R.; Dibattista, J.D. (2022). Hybridisation and the evolution of coral reef biodiversity. 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Coral Reefs 39: 271-279. https://dx.doi.org/10.1007/s00338-019-01885-7","StandardTitle":"Incongruence between life-history traits and conservation status in reef corals","AuthorsString":"Bridge, T.C.L. et al.","BibLvlCode":"AS"},{"BRefID":108162,"RR":"Purcell, S.W. (2002). Intertidal reefs under extreme tidal flux in Buccaneer Archipelago, Western Australia. Coral Reefs 21(2): 191-192","StandardTitle":"Intertidal reefs under extreme tidal flux in Buccaneer Archipelago, Western Australia","AuthorsString":"Purcell, S.W.","BibLvlCode":"AS"},{"BRefID":324089,"RR":"Costantini, F.; Abbiati, M. (2016). Into the depth of population genetics: pattern of structuring in mesophotic red coral populations. Coral Reefs 35(1): 39-52. https://dx.doi.org/10.1007/s00338-015-1344-5","StandardTitle":"Into the depth of population genetics: pattern of structuring in mesophotic red coral populations","AuthorsString":"Costantini, F.; Abbiati, M.","BibLvlCode":"AS"},{"BRefID":108189,"RR":"McClanahan, T.R. (1999). Is there a future for coral reef parks in poor tropical countries? Coral Reefs 18(4): 321-325","StandardTitle":"Is there a future for coral reef parks in poor tropical countries?","AuthorsString":"McClanahan, T.R.","BibLvlCode":"AS"},{"BRefID":337410,"RR":"Terrana, L.; Flot, J.-F.; Eeckhaut, I. (2021). ITS1 variation among Stichopathes cf. maldivensis (Hexacorallia: Antipatharia) whip black corals unveils conspecificity and population connectivity at local and global scales across the Indo-Pacific. Coral Reefs 40(2): 521-533. https://hdl.handle.net/10.1007/s00338-020-02049-8","StandardTitle":"ITS1 variation among Stichopathes cf. maldivensis (Hexacorallia: Antipatharia) whip black corals unveils conspecificity and population connectivity at local and global scales across the Indo-Pacific","AuthorsString":"Terrana, L.; Flot, J.-F.; Eeckhaut, I.","BibLvlCode":"AS"},{"BRefID":221210,"RR":"McClanahan, T. R. (1990). Kenyan coral reef associated gastropod assemblages: distribution and diversity patterns. Coral Reefs 9(2): 63-74. dx.doi.org/10.1007/BF00368801","StandardTitle":"Kenyan coral reef associated gastropod assemblages: distribution and diversity patterns","AuthorsString":"McClanahan, T. R.","BibLvlCode":"AS"},{"BRefID":221191,"RR":"McClanahan, T. R. (1994). Kenyan coral reef lagoon fish: effects of fishing, substrate complexity, and sea urchins. Coral Reefs 13(4): 231-241. dx.doi.org/10.1007/BF00303637","StandardTitle":"Kenyan coral reef lagoon fish: effects of fishing, substrate complexity, and sea urchins","AuthorsString":"McClanahan, T. R.","BibLvlCode":"AS"},{"BRefID":291108,"RR":"Edwards, C.B.; Eynaud, Y.; Williams, G.J.; Pedersen, N.E.; Zgliczynski, B.J.; Gleason, A.C.R.; Smith, J.E.; Sandin, S.A. (2017). Large-area imaging reveals biologically driven non-random spatial patterns of corals at a remote reef. 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Locally accelerated growth is part of the innate immune response and repair mechanisms in reef-building corals as detected by green fluorescent protein (GFP)-like pigments. Coral Reefs 31(4): 1045-1056. https://dx.doi.org/10.1007/s00338-012-0926-8","StandardTitle":"Locally accelerated growth is part of the innate immune response and repair mechanisms in reef-building corals as detected by green fluorescent protein (GFP)-like pigments","AuthorsString":"d'Angelo, C. et al.","BibLvlCode":"AS"},{"BRefID":324080,"RR":"Perez-Portela, R.; Cerro-Gálvez, E.; Taboada, S.; Tidu, C.; Campillo-Campbell, C.; Mora, J.; Riesgo, A. (2016). Lonely populations in the deep: genetic structure of red gorgonians at the heads of submarine canyons in the north-western Mediterranean Sea. Coral Reefs 35(3): 1013-1026. https://dx.doi.org/10.1007/s00338-016-1431-2","StandardTitle":"Lonely populations in the deep: genetic structure of red gorgonians at the heads of submarine canyons in the north-western Mediterranean Sea","AuthorsString":"Perez-Portela, R. et al.","BibLvlCode":"AS"},{"BRefID":324142,"RR":"Costantini, F.; Rossi, S.; Pintus, E.; Cerrano, C.; Gili, J.M.; Abbiati, M. (2011). Low connectivity and declining genetic variability along a depth gradient in Corallium rubrum populations. Coral Reefs 30(4): 991-1003. https://dx.doi.org/10.1007/s00338-011-0771-1","StandardTitle":"Low connectivity and declining genetic variability along a depth gradient in Corallium rubrum populations","AuthorsString":"Costantini, F. et al.","BibLvlCode":"AS"},{"BRefID":345061,"RR":"De Clippele, L.H.; Rovelli, L.; Ramiro-Sánchez, B.; Kazanidis, G.; Vad, J.; Turner, S.; Glud, R.N.; Roberts, J.M. (2020). Mapping cold-water coral biomass: an approach to derive ecosystem functions. Coral Reefs 40(1): 215-231. https://dx.doi.org/10.1007/s00338-020-02030-5","StandardTitle":"Mapping cold-water coral biomass: an approach to derive ecosystem functions","AuthorsString":"De Clippele, L.H. et al.","BibLvlCode":"AS"},{"BRefID":286380,"RR":"Glasl, B.; Bongaerts, P.; Elisabeth, N.H.; Hoegh-Guldberg, O.; Herndl, G.J.; Frade, P.R. (2017). Microbiome variation in corals with distinct depth distribution ranges across a shallow–mesophotic gradient (15–85 m). Coral Reefs 36(2): 447-452. https://dx.doi.org/10.1007/s00338-016-1517-x","StandardTitle":"Microbiome variation in corals with distinct depth distribution ranges across a shallow–mesophotic gradient (15–85 m)","AuthorsString":"Glasl, B. et al.","BibLvlCode":"AS"},{"BRefID":347486,"RR":"Liggins, L.; Kilduff, L.; Trnski, T.; Delrieu-Trottin, E.; Carvajal, J.I.; Arranz, V.; Planes, S.; Saenz-Agudelo, P.; Aguirre, J.D. (2022). Morphological and genetic divergence supports peripheral endemism and a recent evolutionary history of Chrysiptera demoiselles in the subtropical South Pacific. Coral Reefs 41: 797-812. https://dx.doi.org/10.1007/s00338-021-02179-7","StandardTitle":"Morphological and genetic divergence supports peripheral endemism and a recent evolutionary history of Chrysiptera demoiselles in the subtropical South Pacific","AuthorsString":"Liggins, L. et al.","BibLvlCode":"AS"},{"BRefID":354613,"RR":"Liggins, L.; Kilduff, L.; Trnski, T.; Delrieu-Trottin, E.; Carvajal, J.I.; Arranz, V.; Planes, S.; Saenz-Agudelo, P.; Aguirre, J.D. (2022). Morphological and genetic divergence supports peripheral endemism and a recent evolutionary history of Chrysiptera demoiselles in the subtropical South Pacific. Coral Reefs 41(3): 797-812. https://dx.doi.org/10.1007/s00338-021-02179-7","StandardTitle":"Morphological and genetic divergence supports peripheral endemism and a recent evolutionary history of Chrysiptera demoiselles in the subtropical South Pacific","AuthorsString":"Liggins, L. et al.","BibLvlCode":"AS"},{"BRefID":242470,"RR":"den Haan, J.; Visser, P.M.; Ganase, A.E.; Gooren, E.E.; Stal, L.J.; van Duyl, F.C.; Vermeij, M.J.A.; Huisman, J. (2014). Nitrogen fixation rates in algal turf communities of a degraded versus less degraded coral reef. Coral Reefs 33(4): 1003-1015. dx.doi.org/10.1007/s00338-014-1207-5","StandardTitle":"Nitrogen fixation rates in algal turf communities of a degraded versus less degraded coral reef","AuthorsString":"den Haan, J. et al.","BibLvlCode":"AS"},{"BRefID":348321,"RR":"Mizerek, T.L.; Madin, J.S.; Benzoni, F.; Huang, D.; Luiz, O.J.; Mera, H.; Schmidt-Roach, S.; Smith, S.D.A.; Sommer, B.; Baird, A.H. (2021). No evidence for tropicalization of coral assemblages in a subtropical climate change hot spot. Coral Reefs 40(5): 1451-1461. https://dx.doi.org/10.1007/s00338-021-02167-x","StandardTitle":"No evidence for tropicalization of coral assemblages in a subtropical climate change hot spot","AuthorsString":"Mizerek, T.L. et al.","BibLvlCode":"AS"},{"BRefID":238513,"RR":"Figueiredo, J.; Baird, A.H.; Cohen, M.F.; Flot, J.F.; Kamiki, T.; Meziane, T.; Tsuchiya, M.; Yamasaki, H. (2012). Ontogenetic change in the lipid and fatty acid composition of scleractinian coral larvae. Coral Reefs 31(2): 613-619. dx.doi.org/10.1007/s00338-012-0874-3","StandardTitle":"Ontogenetic change in the lipid and fatty acid composition of scleractinian coral larvae","AuthorsString":"Figueiredo, J. et al.","BibLvlCode":"AS"},{"BRefID":283893,"RR":"Johnson, J.A.; Perry, C.T.; Smithers, S.G.; Morgan, K.M.; Santodomingo, N.; Johnson, K.G. (2017). 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