Interocean patterns in shallow water sponge assemblage structure and function.
Porifera
associated macrofauna
competition
diversity
morphology
predation
pumping rates
respiration
richness
Journal
Biological reviews of the Cambridge Philosophical Society
ISSN: 1469-185X
Titre abrégé: Biol Rev Camb Philos Soc
Pays: England
ID NLM: 0414576
Informations de publication
Date de publication:
12 2020
12 2020
Historique:
received:
10
10
2019
revised:
28
06
2020
accepted:
29
06
2020
pubmed:
20
8
2020
medline:
26
10
2021
entrez:
20
8
2020
Statut:
ppublish
Résumé
Sponges are a major component of benthic ecosystems across the world and fulfil a number of important functional roles. However, despite their importance, there have been few attempts to compare sponge assemblage structure and ecological functions across large spatial scales. In this review, we examine commonalities and differences between shallow water (<100 m) sponges at bioregional (15 bioregions) and macroregional (tropical, Mediterranean, temperate, and polar) scales, to provide a more comprehensive understanding of sponge ecology. Patterns of sponge abundance (based on density and area occupied) were highly variable, with an average benthic cover between ~1 and 30%. Sponges were generally found to occupy more space (percentage cover) in the Mediterranean and polar macroregions, compared to temperate and tropical macroregions, although sponge densities (sponges m
Substances chimiques
Water
059QF0KO0R
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Review
Langues
eng
Sous-ensembles de citation
IM
Pagination
1720-1758Subventions
Organisme : Faculty of Science, Victoria University of Wellington
Pays : International
Organisme : Royal Society of New Zealand
Pays : International
Informations de copyright
© 2020 Cambridge Philosophical Society.
Références
Abdo, D. A. (2007). Endofauna differences between two temperate marine sponges (Demospongiae; Haplosclerida; Chalinidae) from southwest Australia. Marine Biology 152, 845-854.
*Abdo, D. A., Fromont, J. & McDonald, J. I. (2008). Strategies, patterns and environmental cues for reproduction in two temperate haliclonid sponges. Aquatic Biology 1(3), 291-302.
*Abdul Wahab, M. A., deNys, R., Holzman, R., Schneider, C. L. & Whalan, S. (2017). Patterns of reproduction in two co-occuring Great Barrier Reef sponges. Marine and Freshwater Research 68, 1233-1244.
*Abdul Wahab, M. A., deNys, R., Webster, N. & Whalan, S. (2013). Phenology of sexual reproduction in the common coral reef sponge, Carteriospongia foliascens. Coral Reefs 33(2), 381-394.
*Aerts, L. A. M. (1998). Sponge/coral interactions in Caribbean reefs: analysis of overgrowth patterns in relation to species identity and cover. Marine Ecology Progress Series 175, 241-249.
*Aerts, L. A. M. (2000). Dynamics behind standoff interactions in three reef sponge species and the coral Montastraea cavernosa. Marine Ecology 21(3-4), 191-204.
*Aerts, L. A. M. & Van Soest, R. W. M. (1997). Quantification of sponge/coral interactions in a physically stressed reef community, NE Colombia. Marine Ecology Progress Series 148, 125-134.
*Alcolado, P. M. (1979). Ecological structure of the sponge fauna in a reef profile of Cuba. In Biologie des Spongiaires. Sponge Biology (Volume 291, eds C. Lèvi and N. Boury-Esnault), pp. 297-302. Colloques Internationaux du Centre National de la recherc Scientifique, Paris.
*Alcolado, P. M. (1990). General features of Cuban sponge communities. New perspectives in sponge biology 351-357.
*Alcolado, P. M. (1994). General trends in coral reef sponge communities of Cuba. Sponges in time and space 251-255.
*Almeida, A. O., Santos, P. S., Soledade, G. O., Santos, J. P. & Pérez, C. D. (2015). New invertebrate host records (Porifera and Cnidaria) for some caridean shrimps in estuaries of north-eastern Brazil. Marine Biodiversity Records 8, e38.
*Alvarez, B., Diaz, M. C. & Laughlin, R. A. (1990). The sponge fauna on a fringing coral reef in Venezuela, I: composition, distribution, and abundance. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 358-366. Smithsonian Institution, Washington, DC.
Amano, S. (1988). Morning release of larvae controlled by the light in an intertidal sponge, Callyspongia ramosa. The Biological Bulletin 175(2), 181-184.
Amsler, M. O., McClintock, J. B., Amsler, C. D., Angus, R. A. & Baker, B. J. (2009). An evaluation of sponge-associated amphipods from the Antarctic Peninsula. Antarctic Science 21, 579-589.
Annadale, N. (1915). Indian boring sponges of the family Clionidae. Records of the Indian Museum 11, 1-24.
Asa, S., Yeemin, T., Chaitanawisuti, N. & Kritsanapuntu, A. (2000). Sexual reproduction of a marine sponge, Petrosia sp. from coral communities in the Gulf of Thailand. Proceeding 9th International Coral Reef Symposium, Bali. Indonesia 1, 421-424.
*Ávila, E. & Briceño-Vera, A. E. (2018). A reciprocal inter-habitat transplant reveals changes in the assemblage structure of macroinvertebrates associated with the sponge Halichondria melanadocia. Estuaries and Coasts 41(5), 1397-1409.
Ávila, E. & Carballo, J. L. (2006). Habitat selection by larvae of the symbiotic sponge Haliclona caerulea (Hechtel, 1965) (Demospongiae, Haplosclerida). Symbiosis 41(1), 21-29.
*Ávila, E. & Carballo, J. L. (2009). A preliminary assessment of the invasiveness of the Indo-Pacific sponge Chalinula nematifera on coral communities from the tropical Eastern Pacific. Biological Invasions 11(2), 257-264.
Ávila, E., Carballo, J. L. & Cruz-Barraz, J. A. (2007). Symbiotic relationships between sponges and other organisms from the Mar de Cortés (Mexican Pacific coast): same problems, same solutions. In Porifera Research: Biodiversity, Innovation & Sustainability (eds M. Custódio, G. Lȏbo-Hajdu, E. Hadju and G. Muricy), pp. 147-156. Rio de Janeiro, Museu Nacional.
*Ayling, A. L. (1980). Patterns of sexuality, asexual reproduction and recruitment in some subtidal marine Demospongiae. The Biological Bulletin 158(3), 271-282.
Ayling, A. M. (1981). The role of biological disturbance in temperate subtidal encrusting communities. Ecology 62, 830-847.
*Ayling, A. L. (1983). Factors affecting the spatial distributions of thinly encrusting sponges from temperate waters. Oecologia 60(3), 412-418.
*Azcuna, M., Tun, J. O., Yap, H. T. & Concepcion, G. P. (2018). Callyspongia samarensis (Porifera) extracts exhibit anticancer activity and induce bleaching in Porites cylindrica (Scleractinia). Chemistry and Ecology 34(5), 397-411.
Bakus, G. J. (1967). The feeding habits of fishes and primary production at Eniwetok, Marshall Islands. Micronesica 3, 135-149.
*Baldacconi, R. & Corriero, G. (2009). Effects of the spread of the alga Caulerpa racemosa var. cylindracea on the sponge assemblage from coralligenous concretions of the Apulian coast (Ionian Sea, Italy). Marine Ecology 30(3), 337-345.
*Baldacconi, R., Nonnis-Marzano, C., Gaino, E. & Corriero, G. (2007). Sexual reproduction, larval development and release in Spongia officinalis L. (Porifera, Demospongiae) from the Apulian coast. Marine Biology 152(4), 969-979.
Bannister, R. J., Battershill, C. N. & De Nys, R. (2012). Suspended sediment grain size and mineralogy across the continental shelf of the Great Barrier Reef: Impacts on the physiology of a coral reef sponge. Continental Shelf Research 32, 86-95.
Barnes, D. K. A. & Bell, J. J. (2002). Coastal sponge communities of the West Indian Ocean: taxonomic affinities, richness and diversity. African Journal of Ecology 40(4), 337-349.
Barthel, D. (1986). On the ecophysiology of the sponge Halichondria panicea in Kiel Bight. I. Substrate specificity, growth and reproduction. Marine Ecology Progress Series 32, 291-298.
Bates, T. E. & Bell, J. J. (2018). Responses of two temperate sponge species to ocean acidification. New Zealand Journal of Marine and Freshwater Research 52(2), 247-263.
*Battershill, C. N. & Bergquist, P. A. (1990). The influence of storms on asexual reproduction, recruitment, and survivorship of sponges. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 397-403. Smithsonian Institution, Washington, DC.
Bautista-Guerrero, E., Carballo, J. L. & Maldonado, M. (2010). Reproductive cycle of the coral-excavating sponge Thoosa mismalolli (Clionaidae) from Mexican Pacific coral reefs. Invertebrate Biology 129(4), 285-296.
Bautista-Guerrero, E., Carballo, J. L. & Maldonado, M. (2014). Abundance and reproductive patterns of the excavating sponge Cliona vermifera: a threat to Pacific coral reefs? Coral Reefs 33, 259-266.
*Bavestrello, G., Cerrano, C., Zanzi, D. & Cattaneo-Vietti, R. (1997). Damage by fishing activities to the Gorgonian coral Paramuricea clavata in the Ligurian Sea. Aquatic Conservation: Marine and Freshwater Ecosystems 7(3), 253-262.
Becerro, M. A., Thacker, R. W., Turon, X., Uriz, M. J. & Paul, V. J. (2003a). Biogeography of sponge chemical ecology: comparisons of tropical and temperate defenses. Oecologia 135(1), 91-101.
Becerro, M. A., Turon, X., Uriz, M. J. & Templado, J. (2003b). Can a sponge feeder be a herbivore? Tylodina perversa (Gastropoda) feeding on Aplysina aerophoba (Demospongiae). Biological Journal of the Linnean Society 78, 429-438.
*Becerro, M. A., Uriz, M. J. & Turon, X. (1997). Chemically-mediated interactions in benthic organisms: the chemical ecology of Crambe crambe (Porifera, Poecilosclerida). In Interactions and Adaptation Strategies of Marine Organisms, pp. 77-89. Springer, New York.
*Becking, L. E., Cleary, D. F. R. & De Voogd, N. J. (2013). Sponge species composition, abundance, and cover in marine lakes and coastal mangroves in Berau, Indonesia. Marine Ecology Progress Series 481, 105-120.
*Beepat, S. S., Appadoo, C., Marie, D. E. P., Paula, J. P. M., Çinar, M. E. & Sivakumar, K. (2014). Macrofauna associated with the sponge Neopetrosia exigua (Kirkpatrick, 1900) from Mauritius. Western Indian Ocean Journal of Marine Science 13(2), 133-142.
Bell, J. J. (2002). The sponge community in a semi-submerged temperate sea cave: Density, diversity and richness. Marine Ecology 23(4), 297-311.
Bell, J. J. (2007). Contrasting patterns of species and functional composition of coral reef sponge assemblages. Marine Ecology Progress Series 339, 73-81.
Bell, J. J. (2008a). The functional roles of marine sponges. Estuarine, Coastal and Shelf Science 79(3), 341-353.
*Bell, J. J. (2008b). Sponges as agents of biological disturbance. Marine Ecology Progress Series 368, 127-135.
Bell, J. J. & Barnes, D. K. A. (2000a). A sponge diversity centre within a marine “island”. Hydrobiologia 440, 55-64.
Bell, J. J. & Barnes, D. K. A. (2000b). The influences of bathymetry and flow regime upon the morphology of sublittoral sponge communities. Journal of the Marine Biological Association of the United Kingdom 80, 707-718.
*Bell, J. J. & Barnes, D. K. A. (2001). Sponge morphological diversity: a qualitative predictor of species diversity?Aquatic Conservation: Marine and Freshwater Ecosystems 11(2), 109-121.
Bell, J. J. & Barnes, D. K. A. (2003). The importance of competitor identity, morphology and ranking methodology to outcomes in interference competition between sponges. Marine Biology 143(3), 415-426.
Bell, J. J., Bennett, H. M., Rovellini, A. & Webster, N. S. (2018a). Sponges to be winners under near-future climate scenarios. Bioscience 68(12), 955-968.
Bell, J. J., Biggerstaff, A., Bates, T., Bennett, H., Marlow, J., McGrath, E. & Shaffer, M. (2017). Sponge monitoring: moving beyond diversity and abundance measures. Ecological Indicators 78, 470-488.
Bell, J. J., Burton, M., Bullimore, B., Newman, P. B. & Lock, K. (2006). Morphological monitoring of subtidal sponge assemblages. Marine Ecology Progress Series 311, 79-91.
Bell, J. J. & Carballo, J. L. (2008). Patterns of sponge biodiversity and abundance across different biogeographic regions. Marine Biology 155(6), 563-570.
Bell, J. J., Jompa, J., Haris, A., Werorilagi, S., Shaffer, M. & Mortimer, C. (2019). Domination of mesophotic ecosystems in the Wakatobi Marine National Park (Indonesia) by sponges, soft corals and other non-hard coral species. Journal of the Marine Biological Association of the United Kingdom 99(4), 771-775.
Bell, J. J., McGrath, E., Biggerstaff, A., Bates, T., Cárdenas, C. A. & Bennett, H. (2015). Global conservation status of sponges. Conservation Biology 29(1), 42-53.
Bell, J. J., Rovellini, A., Davy, S. K., Taylor, M. W., Fulton, E. A., Dunn, M. R., Bennett, H. M., Kandler, N. M., Luter, H. M. & Webster, N. S. (2018b). Climate change alterations to ecosystem dominance: how might sponge-dominated reefs function? Ecology 99(9), 920-1931.
*Bell, J. J. & Smith, D. (2004). Ecology of sponge assemblages (Porifera) in the Wakatobi region, south-east Sulawesi, Indonesia: richness and abundance. Journal of the Marine Biological Association of the United Kingdom 84(3), 581-591.
*Benedetti-Cecchi, L., Airoldi, L., Abbiati, M. & Cinelli, F. (1997). Exploring the causes of spatial variation in an assemblage of benthic invertebrates from a submarine cave with sulphur springs. Journal of Experimental Marine Biology and Ecology 208(1-2), 153-168.
*Benedetti-Cecchi, L., Airoldi, L., Abbiati, M. & Cinelli, F. (1998). Spatial variability in the distribution of sponges and cnidarians in a sublittoral marine cave with sulphur-water springs. Journal of the Marine Biological Association of the United Kingdom 78(1), 43-58.
Bennett, H. M., Altenrath, C., Woods, L., Davy, S. K., Webster, N. S. & Bell, J. J. (2017). Interactive effects of temperature and pCO2 on sponges: from the cradle to the grave. Global Change Biology 23(5), 2031-2046.
*Benzoni, F., Calcinai, B., Eisinger, M. & Klaus, R. (2008). Coral disease mimic: sponge attacks Porites lutea in Yemen. Coral Reefs 27(3), 695-695.
*Bergquist, P. R. (1978). Sponges. University of California Press, Berkeley.
*Bergquist, P. R. & Sinclair, M. E. (1968). The morphology and behaviour of larvae of some intertidal sponges. New Zealand Journal of Marine and Freshwater Research 2(3), 426-437.
*Bergquist, P. R. & Sinclair, M. E. (1973). Seasonal variation in settlement and spiculation of sponge larvae. Marine Biology 20(1), 35-44.
*Berman, J. & Bell, J. J. (2016). Short-term temporal variability in a temperate sponge assemblage. Marine Biology 163(3), 1-9.
Berman, J., Burton, M., Gibbs, R., Lock, K., Newman, P., Jones, J. & Bell, J. J. (2013). Testing the suitability of a morphological monitoring approach for identifying temporal variability in a temperate sponge assemblage. Journal for Nature Conservation 21(3), 173-182.
*Betancourt-Lozano, M., González-Farias, F., González-Acosta, B., García-Gasca, A. & Bastida-Zavala, J. R. (1998). Variation of antimicrobial activity of the sponge Aplysina fistularis (Pallas, 1766) and its relation to associated fauna. Journal of Experimental Marine Biology and Ecology 223(1), 1-18.
*Betti, F., Bavestrello, G., Bo, M., Enrichetti, F., Loi, A., Wanderlingh, A., Pérez-Santos, I. & Daneri, G. (2017). Benthic biodiversity and ecological gradients in the Seno Magdalena (Puyuhuapi Fjord, Chile). Estuarine, Coastal and Shelf Science 198, 269-278.
*Biernbaum, C. K. (1981). Seasonal changes in the amphipod fauna of Microciona prolifera (Ellis and Solander) (Porifera: Demospongia) and associated sponges in a shallow salt-marsh creek. Estuaries 4(2), 85-96.
Biggerstaff, A., Smith, D. J., Jompa, J. & Bell, J. J. (2017). Metabolic responses of a phototrophic sponge to sedimentation supports transitions to sponge-dominated reefs. Scientific Reports 7(1), 1-11.
Birenheide, R., Amemiya, S. & Motokawa, T. (1993). Penetration and storage of sponge spicules in tissues and coelom of spongivorous echinoids. Marine Biology 115, 677-683.
*Bispo, R., Johnsson, R. & Neves, E. (2006). A new species of Asterocheres (Copepoda, Siphonostomatoida, Asterocheridae) associated to Placospongia cristata Boury-Esnault (Porifera) in Bahia State, Brazil. Zootaxa 1351(1), 23-34.
Blanquer, A. & Uriz, M. J. (2010). Population genetics at three spatial scales of a rare sponge living in fragmented habitats. BMC Evolutionary Biology 10(1), 13.
*Bloom, S. A. (1975). The motile escape response of a sessile prey: a sponge-scallop mutualism. Journal of Experimental Marine Biology and Ecology 17(3), 311-321.
Bloom, S. A. (1976). Morphological correlations between dorid nudibranch predators and sponge prey. Veliger 18(3), 289-301.
Bo, M., Bertolino, M., Borghini, M., Castellano, M., Harriague, A. C., Di Camillo, C. G., Gasparini, G., Misic, C., Povero, P., Pusceddu, A. & Schroeder, K. (2011). Characteristics of the mesophotic megabenthic assemblages of the Vercelli seamount (North Tyrrhenian Sea). PLoS One 6(2), e16357.
Botté, E. S., Nielson, S., Wahab, M. A. A., Webster, J., Robbins, S., Thomas, T. & Webster, N. S. (2019). Changes in the metabolic potential of the sponge microbiome under ocean acidification. Nature Communications 10(1), 1-10.
*Boury-Esnault, N., Efremova, S., Bezac, C. & Vacelet, J. (1999). Reproduction of a hexactinellid sponge: first description of gastrulation by cellular delamination in the Porifera. Invertebrate Reproduction and Development 35(3), 187-201.
Boury-Esnault, N., Ereskovsky, A., Bézac, C. & Tokina, D. (2003). Larval development in the Homoscleromorpha (Porifera, Demospongiae). Invertebrate Biology 122(3), 187-202.
Boury-Esnault, N. & Rützler, K. (1997). Thesaurus of sponge morphology. Smithsonian Contributions to Zoology, 596, 1-55.
*Boxshall, G. A. & Huys, R. (1994). Asterocheres reginae, a new species of parasitic copepod (Siphonostomatoida: Asterocheridae) from a sponge in Belize. Systematic Parasitology 27(1), 19-33.
Boyce, D. G., Lewis, M. R. & Worm, B. (2010). Global phytoplankton decline over the past century. Nature 466(7306), 591.
Breitburg, D., Levin, L. A., Oschlies, A., Grégoire, M., Chavez, F. P., Conley, D. J., Garçon, V., Gilbert, D., Gutiérrez, D., Isensee, K. & Jacinto, G. S. (2018). Declining oxygen in the global ocean and coastal waters. Science 359(6371), 46.
*Brown, A. C. & Webb, S. C. (1994). Organisms associated with burrowing whelks of the genus Bullia. African Zoology 29(2), 144-151.
*Bruce, A. J. (1983a). Epipontonia anceps n. sp., a sponge-associated pontoniine shrimp from Heron Island, Queensland (Crustacea: Decapoda: Palaemonidae). Records of the Australian Museum 35(1), 19-28.
*Bruce, A. J. (1983b). The pontoniine shrimp fauna of Australia. Australian Museum Memoir 18, 195-218.
*Bruce, A. J. (1990). Recent additions to the pontoniine shrimp fauna of Australia. The Beagle: Records of the Museums and Art Galleries of the Northern Territory 7(2), 9-20.
Brueggeman, P., Harper, S., Marsh, A.G., Stokes, M.D. & Wu, N. (1998). Nemertina: proboscis worms. Underwater filed guide to Ross Island & McMurdo Sound, Antarctica.
*Bryan, P. G. (1973). Growth rate, toxicity, and distribution of the encrusting sponge Terpios sp. (Hadromerida: Suberitidae) in Guam, Mariana Islands. Micronesica 9(2), 237-242.
Buhl-Mortensen, L., Vanreusel, A., Gooday, A. J., Levin, L. A., Priede, I. G., Buhl-Mortensen, P., Gheerardyn, H., King, N. J. & Raes, M. (2010). Biological structures as a source of habitat heterogeneity and biodiversity on the deep ocean margins. Marine Ecology 31, 21-50.
Burke, L., Reytar, K., Spalding, M. & Perry, A. (2011). Reefs at Risk Revisted., pp. 1-124. World Resources Institute, Washington, DC.
*Burns, D. O. & Bingham, B. L. (2002). Epibiotic sponges on the scallops Chlamys hastata and Chlamys rubida: increased survival in a high-sediment environment. Journal of the Marine Biological Association of the United Kingdom 82(6), 961-966.
*Buss, L. W. (1976). Better living through chemistry: the relationship between allelochemical interactions and competitive networks. In Aspects of Sponge Biology (eds F. Harrison and R. R. Cowden), pp. 315-327. Academic Press, New York.
Buss, L. W. & Jackson, J. B. C. (1979). Competitive networks: nontransitive competitive relationships in cryptic coral reef environments. The American Naturalist 113(2), 223-234.
*Calcinai, B., Bavestrello, G., Bertolino, M., Pica, D., Wagner, D. & Cerrano, C. (2013). Sponges associated with octocorals in the Indo-Pacific, with the description of four new species. Zootaxa 3617(1), 1-61.
*Calcinai, B., Bavestrello, G. & Cerrano, C. (2004). Dispersal and association of two alien species in the Indonesian coral reefs: the octocoral Carijoa riisei and the demosponge Desmapsamma anchorata. Journal of the marine Biological Association of the United Kingdom 84(5), 937-941.
Carballo, J. L. & Ávila, E. (2004). Population dynamics of a mutualistic interaction between the sponge Haliclona caerulea and the red alga Jania adherens. Marine Ecology Progress Series 279, 93-104.
Carballo, J. L., Bautista, E., Nava, H., Cruz-Barraza, J. A. & Chávez, J. A. (2013). Boring sponges, an increasing threat for coral reefs affected by bleaching events. Ecology and Evolution 3(4), 872-886.
Carballo, J. L., Cruz-barraza, J. A., Vega, C., Nava, H. & Del Carmen Chávez-Fuentes, M. (2019). Sponge diversity in Eastern Tropical Pacific coral reefs: an interoceanic comparison. Scientific Reports 9(1), 9409.
*Carballo, J. L. & Nava, H. (2007). A comparison of sponge assemblage patterns in two adjacent rocky habitats (tropical Pacific Ocean, Mexico). Ecoscience 14, 92-102.
*Carballo, J. L., Vega, C., Cruz-Barraza, J. A., Yanez, B., Nava, H., Ávila, E. & Wilson, M. (2008). Short and long-term patterns of sponge diversity on a rocky tropical coast: Evidence of large-scale structuring factors. Marine Ecology 29(2), 216-236.
*Cárdenas, C. A., Davy, S. K. & Bell, J. J. (2012). Correlations between algal abundance, environmental variables and sponge distribution patterns on southern hemisphere temperate rocky reefs. Aquatic Biology 16(3), 229-239.
*Cárdenas, C. A., Davy, S. K. & Bell, J. J. (2016). Influence of canopy-forming algae on temperate sponge assemblages. Journal of the Marine Biological Association of the United Kingdom 96(2), 351-362.
Cardone, F., Gaino, E. & Corriero, G. (2010). The budding process in Tethya citrina Sara & Melone (Porifera, Demospongiae) and the incidence of post-buds in sponge population maintenance. Journal of Experimental Marine Biology and Ecology 389(1-2), 93-100.
Casale, P., Abbate, G., Freggi, D., Conte, N., Oliverio, M. & Argano, R. (2008). Foraging ecology of loggerhead sea turtles Caretta caretta in the central Mediterranean Sea: Evidence for a relaxed life history model. Marine Ecology Progress Series 372, 265-276.
*Cebrian, E. (2010). Grazing on coral reefs facilitates growth of the excavating sponge Cliona orientalis (Clionaidae, Hadromerida). Marine Ecology 31(4), 533-538.
*Cebrian, E., Marti, R., Uriz, J. M. & Turon, X. (2009). Sublethal effects of contamination on the Mediterranean sponge Crambe crambe: metal accumulation and biological responses. Marine Pollution Bulletin 46(10), 1273-1284.
*Cebrian, E. & Uriz, M. J. (2006). Grazing on fleshy seaweeds by sea urchins facilitates sponge Cliona viridis growth. Marine Ecology Progress Series 323, 83-89.
Cebrián, J. & Valiela, I. (1999). Seasonal patterns in phytoplankton biomass in coastal ecosystems. Journal of Plankton Research 21(3), 429-444.
Cerrano, C., Bastari, A., Calcinia, B., Di Camillo, C., Pica, D., Puce, S., Valisano, L. & Torsini, F. (2019). Temperate mesophotic ecosystems: gaps and perspectives of an emerging conservation challenge for the Mediterranean Sea. The European Zoological Journal 86(1), 370-388.
Chadwick, N. E. & Morrow, K. M. (2011). Competition among sessile organisms on coral reefs. In Coral Reefs: An Ecosystem in Transition (eds Z. Dubinsky and N. Stambler), pp. 347-371. Springer, Dordrecht.
*Chaves-Fonnegra, A., Castellanos, L., Zea, S., Duque, C., Rodríguez, J. & Jiménez, C. (2008). Clionapyrrolidine A-a metabolite from the encrusting and excavating sponge Cliona tenuis that kills coral tissue upon contact. Journal of Chemical Ecology 34(12), 1565-1574.
Chaves-Fonnegra, A., Feldheim, K. A., Secord, J. & Lopez, J. V. (2015). Population structure and dispersal of the coral-excavating sponge Cliona delitrix. Molecular Ecology 24(7), 1447-1466.
*Chaves-Fonnegra, A., Maldonado, M., Blackwedler, P. & Lopez, J. V. (2016). Asynchronous reproduction and multi-spawning in the coral-excavating sponge Cliona delitrix. Journal of Marine Biological Association of the United Kingdom 96(2), 515-528.
*Chaves-Fonnegra, A., Riegl, B., Zea, S., Lopez, J. V., Smith, T., Brandt, M. & Gilliam, D. S. (2018). Bleaching events regulate shifts from corals to excavating sponges in algae-dominated reefs. Global Change Biology 24(2), 773-785.
*Chaves-Fonnegra, A. & Zea, S. (2007). Observations on reef coral undermining by the Caribbean excavating sponge Cliona delitrix (Demospongiae, Hadromerida). Porifera Research: Biodiversity, Innovation and Sustainability. Série Livros 28, 247-264.
*Chaves-Fonnegra, A. & Zea, S. (2011). Coral colonization by the encrusting excavating Caribbean sponge Cliona delitrix. Marine Ecology 32(2), 162-173.
*Cházaro-Olvera, S., Hernández-Vidal, G. A., Ortiz, M. & Winfield, I. (2017). Primer registro de la asociación de Synalpheus herricki y S. pandionis con Aiolochroia crassa en el parque nacional arrecife Puerto Morelos, Quintana Roo, México. Revista de Biología Marina y Oceanografía 52(3), 617-620.
Chen, W. T. (1976). Reproduction and speciation in Halisarca. In Aspects of Sponge Biology (eds F. W. Harrison and R. R. Cowden), pp. 113-139. Academic Press, New York.
*Chernoff, H. (1987). Factors affecting mortality of the scallop Chlamys asperrima (Lamarck) and its epizooic sponges in South Australian waters. Journal of Experimental Marine Biology and Ecology 109(2), 155-171.
*Cheshire, A. C., Butler, A. J., Westphalen, G., Rowland, B., Stevenson, J. & Wilkinson, C. R. (1995). Preliminary study of the distribution and photophysiology of the temperate phototrophic sponge Cymbastela sp. from South Australia. Marine and Freshwater Research 46(8), 1211-1216.
*Cheshire, A. C., Wilkinson, C. R., Seddon, S. & Westphalen, G. (1997). Bathymetric and seasonal changes in photosynthesis and respiration of the phototrophic sponge Phyllospongia lamellosa in comparison with respiration by the heterotrophic sponge Ianthella basta on Davies Reef, Great Barrier Reef. Marine and Freshwater Research 48(7), 589-599.
*Chu, J. W. & Reiswig, H. M. (2014). Mechanisms of propagule release in the carnivorous sponge Asbestopluma occidentalis. Invertebrate Biology 133(2), 109-120.
Chung, I. F., Huang, Y. M., Lee, T. H. & Liu, L. L. (2010). Reproduction of the bath sponge Spongia ceylonensis (Dictyoceratida: Spongiidae) from Penghu, Taiwan. Zoological Studies 49(5), 601-607.
*Cinar, M. E. & Ergen, Z. (1998). Polychaetes associated with the sponge Sarcotragus muscarum Schmidt, 1864 from the Turkish Aegean coast. Ophelia 48(3), 167-183.
*Çinar, M. E., Katagan, T., Ergen, Z. & Sezgin, M. (2002). Zoobenthos-inhabiting Sarcotragus muscarum (Porifera: Demospongiae) from the Aegean Sea. Hydrobiologia 482(1-3), 107-117.
*Clavico, E. E. G., Muricy, G., Da Gama, B. A. P., Batista, D., Ventura, C. R. R. & Pereira, R. C. (2006). Ecological roles of natural products from the marine sponge Geodia corticostylifera. Marine Biology 148(3), 479-488.
*Clements, W. H. & Livingston, R. J. (1983). Overlap and pollution-induced variability in the feeding habits of filefish (Pisces: Monacathidae) from Apalachee Bay, Florida. Copeia 1983, 331-338.
*Coles, S. L. & Bolick, H. (2007). Invasive introduced sponge Mycale grandis overgrows reef corals in Kāne ‘ohe Bay, O'ahu, Hawai'i. Coral Reefs 26(4), 911-911.
*Collin, R., Mobley, A. S., Lopez, L. B., Leys, S. P., Diaz, M. C. & Thacker, R. W. (2010). Phototactic responses of larvae from the marine sponges Neopetrosia proxima and Xestospongia bocatorensis (Haplosclerida: Petrosiidae). Invertebrate Biology 129(2), 121-128.
Coma, R. (2002). Seasonality of in situ respiration rate in three temperate benthic suspension feeders. Limnology and Oceanography 47(1), 324-331.
*Corriero, F., Sara, M. & Vaccaro, P. (1996). Sexual and asexual reproduction in two species of Tethya (Porifera: Demospongiae) from a Mediterranean coastal lagoon. Marine Biology 126(2), 175-181.
*Corriero, G., Abbiati, M. & Santangelo, G. (1997). Sponges inhabiting a Mediterranean red coral population. Marine Ecology 18(2), 147-155.
*Corriero, G., Liaci, L. S., Marzono, C. N. & Gaino, E. (1998). Reproductive strategies of Mycale contarenii (Porifera: Demospongiae). Marine Biology 13(2), 319-327.
*Corriero, G., Scalera Liaci, L., Ruggiero, D. & Pansini, M. (2000). The sponge community of a semi-submerged Mediterranean cave. Marine Ecology 21(1), 85-96.
*Costa, M. F. D. B., Mansur, K. F. R. & Leite, F. P. P. (2015). Temporal variation of the gammaridean fauna (Crustacea, Amphipoda) associated with the sponge Mycale angulosa (Porifera, Demospongiae) in southeastern Brazil. Nauplius 23(1), 79-87.
*Costello, M. J. & Myers, A. A. (1987). Amphipod fauna of the sponges Halichondria panicea and Hymeniacidon perleve in Lough Hyne, Ireland. Marine Ecology Progress Series 41(2), 115-121.
*Cotter, A. J. R. (1978). Re-investigation of size, axial gradients and light as factors affecting the respiration of certain marine sponges. Comparative Biochemistry and Physiology Part A: Physiology 60(2), 117-122.
*Cruz-Barraza, J. A. & Carballo, J. L. (2008). Taxonomy of sponges (Porifera) associated with corals from the Mexican Pacific Ocean. Zoological Studies 47(6), 741-758.
*Da Cruz, J. F., Gaspar, H. & Calado, G. (2012). Turning the game around: toxicity in a nudibranch-sponge predator-prey association. Chemoecology 22, 47-53.
*Dahihande, A. S. & Thakur, N. L. (2017). Differential growth forms of the sponge Biemna fortis govern the abundance of its associated brittle star Ophiactis modesta. Journal of Sea Research 126, 1-11.
*Dauer, D. M. (1973). Polychaete fauna associated with Gulf of Mexico sponges. Florida Scientist 36, 192-196.
*David, A. A. & Williams, J. D. (2012). Morphology and natural history of the cryptogenic sponge associate Polydora colonia Moore, 1907 (Polychaeta: Spionidae). Journal of Natural History 46(23-24), 1509-1528.
*Davis, A. R., Roberts, D. E. & Cummins, S. P. (1997). Rapid invasion of a sponge-dominated deep-reef by Caulerpa scalpelliformis (Chlorophyta) in Botany Bay, New South Wales. Australian Journal of Ecology 22(2), 146-150.
Dayton, P. K. (1989). Interdecadal variation in an Antarctic sponge and its predators from oceanographic climate shifts. Science 245(4925), 1484-1486.
*Dayton, P. K., Jarrell, S., Kim, S., Thrush, S., Hammerstrom, K., Slattery, M. & Parnell, E. (2016). Surprising episodic recruitment and growth of Antarctic sponges: implications for ecological resilience. Journal of Experimental Marine Biology and Ecology 482, 38-55.
Dayton, P. K., Kim, S., Jarrell, S. C., Oliver, J. S., Hammerstrom, K., Fisher, J. L., O'Connor, K., Barber, J. S., Robilliard, G., Barry, J., Thurber, A. R. & Conlan, K. (2013). Recruitment, growth and mortality of an Antarctic Hexactinellid sponge, Anoxycalyx joubini. PLoS One 8(2), e56939.
Dayton, P. K., Robilliard, G. A., Paine, R. T. & Dayton, L. B. (1974). Biological accommodation in the benthic community at McMurdo Sound, Antarctica. Ecological Monographs 44, 105-128.
De Caralt, S. & Cebrian, E. (2013). Impact of an invasive alga (Womersleyella setacea) on sponge assemblages: compromising the viability of future populations. Biological Invasions 15(7), 1591-1600.
*De Caralt, S., Uriz, M. J. & Wijffels, R. H. (2008). Grazing, differential size-class dynamics and survival of the Mediterranean sponge Corticium candelabrum. Marine Ecology Progress Series 360, 97-106.
De Goeij, J. M., Van Oevelen, D., Vermeij, M. J., Osinga, R., Middelburg, J. J., De Goeij, A. F. & Admiraal, W. (2013). Surviving in a marine desert: the sponge loop retains resources within coral reefs. Science 342(6154), 108-110.
*De Laubenfels, M. W. (1932). Physiology and morphology of Porifera exemplified by Iotrochota birotulata Higgin. Tort Lab Paper. Carnegie Inst Wash 28, 37-66.
*De Laubenfels, M. W. (1947). Ecology of the sponges of a brackish water environment, at Beaufort NC. Ecological Monographs 17(1), 31-46.
*De Nys, R., Coll, J. C. & Price, I. R. (1991). Chemically mediated interactions between the red alga Plocamium hamatum (Rhodophyta) and the octocoral Sinularia cruciata (Alcyonacea). Marine Biology 108(2), 315-320.
*De Voogd, N. J., Becking, L. E. & Cleary, D. F. R. (2009). Sponge community composition in the Derawan Islands, NE Kalimantan, Indonesia. Marine Ecology Progress Series 396, 169-180.
*De Voogd, N. J., Becking, L. E., Hoeksema, B. W., Noor, A. & vanSoest, R. W. (2003). Sponge interactions with spatial competitors in the Spermonde Archipelago. Bollettino dei Musei e degli Istituti Biologici dell Universita di Genova 68, 253-261.
*Di Camillo, C. G., Coppari, M., Bartolucci, I., Bo, M., Betti, F., Bertolino, M., Calcinai, B. & Cerrano, C. (2012). Temporal variations in growth and reproduction of Tedania anhelans and Chondrosia reniformis in the North Adriatic Sea. Hydrobiologia 687(1), 299-313.
*Diaz, M. C., Alvarez, B. & Laughlin, R. A. (1990). The sponge fauna on a fringing coral reef in Venezuela, II: community structure. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 376-385. Smithsonian Institution, Washington, DC.
*Donovan, D. A., Bingham, B. L., Farren, H. M., Gallardo, R. & Vigilant, V. L. (2002). Effects of sponge encrustation on the swimming behaviour, energetics and morphometry of the scallop Chlamys hastata. Journal of the Marine Biological Association of the United Kingdom 82(3), 469-476.
*Duarte, L. & Nalesso, R. (1996). The sponge Zygomycale parishii (Bowerbank) and its endobiotic fauna. Estuarine, Coastal and Shelf Science 42(2), 139-151.
*Duffy, J. E. (1992). Host use patterns and demography in a guild of tropical sponge-dwelling shrimps. Marine Ecology Progress Series 90(2), 127-138.
*Dunlap, M. & Pawlik, J. R. (1996). Video-monitored predation by Caribbean reef fishes on an array of mangrove and reef sponges. Marine Biology 126, 117-123.
Dunlap, M., Pawlik, J. R. & Pawlik, R. (1998). Spongivory by parrotfish in Florida mangrove and reef habitats. Marine Ecology 19(4), 325-337.
*Duran, S., Pascual, M., Estoup, A. & Turon, X. (2004). Strong population structure in the marine sponge Crambe crambe (Poecilosclerida) as revealed by microsatellite markers. Molecular Ecology 13(3), 511-522.
Ďuriš, Z., Horka, I., Juračka, P. J., Petrusek, A. & Sandford, F. (2011). These squatters are not innocent: The evidence of parasitism in sponge-inhabiting shrimps. PLoS One 6(7), e21987.
Eagle, J. V. & Jones, G. P. (2004). Mimicry in coral reef fishes: Ecological and behavioural responses of a mimic to its model. Journal of Zoology 264, 33-43.
*Easson, C. G., Slattery, M., Baker, D. M. & Gochfeld, D. J. (2014). Complex ecological associations: competition and facilitation in a sponge-algal interaction. Marine Ecology Progress Series 507, 153-167.
*Eckrich, C. E., Engel, M. S. & Peachey, R. B. J. (2011). Crustose, calcareous algal bloom (Ramicrusta sp.) overgrowing scleractinian corals, gorgonians, a hydrocoral, sponges, and other algae in Lac Bay, Bonaire, Dutch Caribbean. Coral Reefs 30(1), 131-131.
*Elliot, G. R. & Leys, S. P. (2004). Sponge larval phototaxis: a comparative study. BMIB-Bollettino dei Musei e degli Istituti Biologici 68, 291-300.
*Elliott, J., Patterson, M., Summers, N., Miternique, C., Montocchio, E. & Vitry, E. (2016a). How does the proliferation of the coral-killing sponge Terpios hoshinota affect benthic community structure on coral reefs?Coral Reefs 35(3), 1083-1095.
*Elliott, J., Patterson, M., Vitry, E., Summers, N. & Miternique, C. (2016b). Morphological plasticity allows coral to actively overgrow the aggressive sponge Terpios hoshinota (Mauritius, Southwestern Indian Ocean). Marine Biodiversity 46(2), 489-493.
Elvin, D. W. (1976). Seasonal growth and reproduction of an intertidal sponge, Haliclona permollis (Bowerbank). The Biological Bulletin 151(1), 108-125.
*Engel, S. & Pawlik, J. R. (2000). Allelopathic activities of sponge extracts. Marine Ecology Progress Series 207, 273-281.
*Erdman, R. B. & Blake, N. J. (1987). Population dynamics of the sponge-dwelling alpheid Synalpheus longicarpus, with observations on S. brooksi and S. pectiniger, in shallow-water assemblages of the eastern Gulf of Mexico. Journal of Crustacean Biology 7(2), 328-337.
Ereskovsky, A. V. (2000). Reproduction cycles and strategies of the cold-water sponges Halisarca dujardini (Demospongiae, Halisarcida), Myxilla incrustans and Iophon piceus (Demospongiae, Poecilosclerida) from the White Sea. The Biological Bulletin 198(1), 77-87.
Ereskovsky, A. V., Dubois, M., Ivanišević, J., Gazave, E., Lapebie, P., Tokina, D. & Pérez, T. (2013). Pluri-annual study of the reproduction of two Mediterranean Oscarella species (Porifera, Homoscleromorpha): cycle, sex-ratio, reproductive effort and phenology. Marine Biology 160(2), 423-438.
*Ereskovsky, A. V., Geronimo, A. & Perez, T. (2017). Asexual and puzzling sexual reproduction of the Mediterranean sponge Haliclona fulva (Demospongiae): life cycle and cytological structures. Invertebrate Biology 136(4), 403-421.
*Ereskovsky, A. V. & Tokina, D. B. (2004). Morphology and fine structure of the swimming larvae of Ircinia oros (Porifera, Demospongiae, Dictyoceratida). Invertebrate Reproduction & Development 45(2), 137-150.
*Ereskovsky, A. V. & Willenz, P. (2008). Larval development in Guancha arnesenae (Porifera, Calcispongiae, Calcinea). Zoomorphology 127(3), 175-187.
Erwin, P. M. & Thacker, R. W. (2007). Incidence and identity of photosynthetic symbionts in Caribbean coral reef sponge assemblages. Journal of the Marine Biological Association of the United Kingdom 87(6), 1683-1692.
*Erwin, P. M. & Thacker, R. W. (2008). Phototrophic nutrition and symbiont diversity of two Caribbean sponge-cyanobacteria symbioses. Marine Ecology Progress Series 362, 139-147.
Estes, J. A., Terborgh, J., Brashares, J. S., Power, M. E., Berger, J., Bond, W. J., Carpenter, S. R., Essington, T. E., Holt, R. D., Jackson, J. B. & Marquis, R. J. (2011). Trophic downgrading of planet Earth. Science 333(6040), 301-306.
*Ettinger-Epstein, P., Whalan, S. W., Battershill, C. N. & deNys, R. (2007). Temperature cues gametogenesis and larval release in a tropical sponge. Marine Biology 153(2), 171-178.
*Ettinger-Epstein, P., Whalan, S. W., Battershill, C. N. & deNys, R. (2008). A hierarchy of settlement cues influences larval behaviour in a coral reef sponge. Marine Ecology Progress Series 365, 103-113.
*Fabricius, K. E., Langdon, C., Uthicke, S., Humphrey, C., Noonan, S., De'ath, G., Okazaki, R., Muehllehner, N., Glas, M.,. S. & Lough, J. M. (2011). Physiological and ecological variables measured at the high and low pCO2 reef sections. Nature Climate Change 1(3), 165-169.
*Fairfull, S. J. L. & Harriott, V. J. (1999). Succession, space and coral recruitment in a subtropical fouling community. Marine and Freshwater Research 50(3), 235-242.
*Fang, J. K., Mason, R. A., Schönberg, C. H., Hoegh-Guldberg, O. & Dove, S. (2017). Studying interactions between excavating sponges and massive corals by the use of hybrid cores. Marine Ecology 38(1), e12393.
Fang, J. K., Mello-Athayde, M. A., Schönberg, C. H., Kline, D. I., Hoegh-Guldberg, O. & Dove, S. (2013). Sponge biomass and bioerosion rates increase under ocean warming and acidification. Global Change Biology 19(12), 3581-3591.
Farnham, E. S. & Bell, J. J. (2018). Spatial variation in a shallow-water sponge-dominated reef in Timor-Leste (East Timor). Pacific Science 72(2), 233.
*Fava, F., Ponti, M. & Abbiati, M. (2016). Role of recruitment processes in structuring coralligenous benthic assemblages in the northern Adriatic continental shelf. PLoS One 11(10), e0163494.
*Fell, P. E. & Lewandrowski, K. B. (1981). Population dynamics of the estuarine sponge, Halichondria sp., within a New England eelgrass community. Journal of Experimental Marine Biology and Ecology 55(1), 49-63.
Fell, P. E., Parry, E. H. & Balsamo, A. M. (1984). The life histories of sponges in the Mystic and Thames estuaries (Connecticut), with emphasis on larval settlement and postlarval reproduction. Journal of Experimental Marine Biology and Ecology 78(1-2), 127-141.
Fiore, C. L., Baker, D. M. & Lesser, M. P. (2013). Nitrogen biogeochemistry in the Caribbean sponge, Xestospongia muta: a source or sink of dissolved inorganic nitrogen? PLoS One 8(8), e72961.
*Fiore, C. L., Freeman, C. J. & Kujawinski, E. B. (2017). Sponge exhalent seawater contains a unique chemical profile of dissolved organic matter. PeerJ 5, e2870.
*Forbes, M. L. (1966). Life cycle of Ostrea permollis and its relationship to the host sponge, Stelletta grubii. Bulletin of Marine Science 16(2), 273-301.
*Forester, A. J. (1979). The association between the sponge Halichondria panicea (Pallas) and scallop Chlamys varia (L.): a commensal-protective mutualism. Journal of Experimental Marine Biology and Ecology 36(1), 1-10.
Fratt, D. B. & Dearborn, J. H. (1984). Feeding biology of the Antarctic brittle star Ophionotus victoriae (Echinodermata: Ophiuroidea). Polar Biology 3(3), 127-139.
Freeman, C. J. & Easson, C. G. (2016). Sponge distribution and the presence of photosymbionts in Moorea, French Polynesia. PeerJ 4, e1816.
*Frith, D. W. (1976). Animals associated with sponges at North Hayling, Hampshire. Zoological Journal of the Linnean Society 58(4), 353-362.
Fromont, J. (1994). Reproductive development and timing of tropical sponges (Order Haplosclerida) from the Great Barrier Reef, Australia. Coral Reefs 13(2), 127-133.
*Fromont, J. & Bergquise, P. R. (1994). Reproductive biology of three sponge species of the genus Xestospongia (Porifera: Demospongiae: Petrosida) from the Great Barrier Reef. Coral Reefs 13(2), 119-126.
*Fromont, J., Vanderklift, M. A. & Kendrick, G. A. (2006). Marine sponges of the Dampier Archipelago, Western Australia: patterns of species distributions, abundance and diversity. Biodiversity and Conservation 15(11), 3731-3750.
*Fujii, T., Keshavmurthy, S., Zhou, W., Hirose, E., Chen, C. A. & Reimer, J. D. (2011). Coral-killing cyanobacteriosponge (Terpios hoshinota) on the Great Barrier Reef. Coral Reefs 30(2), 483-483.
Gaino, E., Frine, C. & Giuseppe, C. (2010). Reproduction of the intertidal sponge Hymeniacidon perlevis (Montagu) along a bathymetric gradient. Open Marine Biology Journal 4, 47-56.
*García-Hernández, J. E., vanMoorsel, G. W. & Hoeksema, B. W. (2017). Lettuce corals overgrowing tube sponges at St. Eustatius, Dutch Caribbean. Marine Biodiversity 47(1), 55-56.
Gaston, K. J. (2000). Global patterns in biodiversity. Nature 405(6783), 220.
Gemballa, S. & Schermutzki, F. (2004). Cytotoxic haplosclerid sponges preferred: A field study on the diet of the dotted sea slug Peltodoris atromaculata (Doridoidea: Nudibranchia). Marine Biology 144, 1213-1222.
George, A. M., Brodie, J., Daniell, J., Capper, A. & Jonker, H. (2018). Can sponge morphologies act as environmental proxies to biophysical factors in the Great Barrier Reef, Australia? Ecological Indicators 93, 1152-1162.
*Gerovasileiou, V., Chintiroglou, C. C., Konstantinou, D. & Voultsiadou, E. (2016). Sponges as “living hotels” in Mediterranean marine caves. Scientia Marina 80(3), 279-289.
*Gerovasileiou, V. & Voultsaidou, E. (2016). Sponge diversity gradients in marine caves of the eastern Mediterranean. Journal of the Marine Biological Association of the United Kingdom 96(2), 407-416.
*Gerrodette, T. & Flechsig, A. O. (1979). Sediment-induced reduction in the pumping rate of the tropical sponge Verongia lacunosa. Marine Biology 55(2), 103-110.
*Gherardi, M., Giangrande, A. & Corriero, G. (2001). Epibiontic and endobiontic polychaetes of Geodia cydonium (Porifera, Demospongiae) from the Mediterranean Sea. Hydrobiologia 443(1-3), 87-101.
*Gilis, M., Gosselin, P., Dubois, P. & Willenz, P. (2011). Seasonal modifications and morphogenesis of the hypercalcified sponge Petrobiona massiliana (Calcarea, Calcaronea). Invertebrate Biology 130(3), 193-210.
*Giorgi, A., Monti, M., Galli, P. & Montano, S. (2016). Entoprocta-sponge associations in the Indian Ocean. Coral Reefs 35(2), 611-611.
*Goh, N. K., Ng, P. K. & Chou, L. M. (1999). Notes on the shallow water gorgonian-associated fauna on coral reefs in Singapore. Bulletin of Marine Science 65(1), 259-282.
*Gonobobleva, E. L. & Ereskovsky, A. V. (2004). Metamorphosis of the larva of Halisarca dujardini (Demospongiae, Halisarcida). Institut Royal des Sciences Naturelles de Belgique 74, 101-115.
*González-Rivero, M., Bozec, Y. M., Chollett, I., Ferrari, R., Schönberg, C. H. & Mumby, P. J. (2016). Asymmetric competition prevents the outbreak of an opportunistic species after coral reef degradation. Oecologia 181(1), 161-173.
*González-Rivero, M., Ereskovsky, A. V., Schönberg, C. H. L., Ferrari, R., Fromont, J. & Mumby, P. J. (2013). Life-history traits of a common Caribbean coral-excavating sponge, Cliona tenuis (Porifera: Hadromerida). Journal of Natural History 47, 2815-2834.
*González-Rivero, M., Ferrari, R., Schönberg, C. H. & Mumby, P. J. (2012). Impacts of macroalgal competition and parrotfish predation on the growth of a common bioeroding sponge. Marine Ecology Progress Series 444, 133-142.
*González-Rivero, M., Yakob, L. & Mumby, P. J. (2011). The role of sponge competition on coral reef alternative steady states. Ecological Modelling 222(11), 1847-1853.
*Goodwin, C., Rodolfo-Metalpa, R., Picton, B. & Hall-Spencer, J. M. (2014). Effects of ocean acidification on sponge communities. Marine Ecology 35, 41-49.
*Goreau, T. F. & Hartman, W. D. (1966). Sponge: effect on the form of reef corals. Science 151(3708), 343-344.
Gotelli, N. J. & Colwell, R. K. (2001). Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters 4, 379-391.
*Grace, S. (2017). Winter quiescence, growth rate, and the release from competition in the temperate scleractinian coral Astrangia poculata (Ellis & Solander 1786). Northeastern Naturalist 24(sp7).
Graeve, M., Dauby, P. & Scailteur, Y. (2001). Combined lipid, fatty acid and digestive tract content analyses: a penetrating approach to estimate feeding modes of Antarctic amphipods. Polar Biology 24(11), 853-862.
Guida, V. G. (1976). Sponge predation in the oyster reef community as demonstrated with Cliona celata Grant. Journal of Experimental Marine Biology and Ecology 25(2), 109-122.
*Gutt, J., Helsen, E., Arntz, W. & Buschmann, A. (1999). Biodiversity and community structure of the mega-epibenthos in the Magellan region (South America). Scientia Marina 63(1), 155-170.
Hadas, E., Ilan, M. & Shpigel, M. (2008). Oxygen consumption by a coral reef sponge. Journal of Experimental Biology 211(13), 2185-2190.
Hadi, T. A., Budiyanto, A. & Wentao, N. (2015). The morphological and species diversity of sponges on coral reef ecosystems in the Lembeh Strait, Bitung. Marine Research in Indonesia 40(2), 65-77.
*Halperin, A. A., Chaves-Fonnegra, A. & Gilliam, D. S. (2016). Effects of excavating-sponge removal on coral growth. Journal of the Marine Biological Association of the United Kingdom 96(2), 473-479.
*Halperin, A. A., Chaves-Fonnegra, A. & Gilliam, D. S. (2017). Coral-excavating sponge Cliona delitrix: current trends of space occupation on high latitude coral reefs. Hydrobiologia 790(1), 299-310.
*Hamed, A., Al-Hameid, M. H. A., Al-Rasheid, K. A. & Mohamad, M. (2012). Brachyuran crabs (Crustacea: Decapoda) in the Suez Canal, Egypt, and their associated epifauna. Scientific Research and Essays 7(42), 3665-3672.
Hartman, W. D. (1958). Natural history of the marine sponges of southern New England. Peabody Museum of Natural History 12, 1-150.
Hayse, J. W. (1987). Feeding habits, age, growth and reproduction of Atlantic spadefish, Chaetodipterus Faber (Pisces: Ephippidae), in South Carolina. Master's thesis, College of Charleston.
*Hendler, G. (1984). The association of Ophiothrix lineata and Callyspongia vaginalis: a brittlestar-sponge cleaning symbiosis?Marine Ecology 5(1), 9-27.
*Henkel, T. P. & Pawlik, J. R. (2005). Habitat use by sponge-dwelling brittlestars. Marine Biology 146(2), 301-313.
Henkel, T. P. & Pawlik, J. R. (2014). Cleaning mutualist or parasite? Classifying the association between the brittlestar Ophiothrix lineata and the Caribbean reef sponge Callyspongia vaginalis. Journal of Experimental Marine Biology and Ecology 454, 42-48.
Hiatt, R. & Strasbourg, D. (1960). Ecological relationships of the fish fauna on coral reefs of the Marshall Islands. Ecological Monographs 30, 65-127.
Hill, M. S. (1998). Spongivory on Caribbean reefs releases corals from competition with sponges. Oecologia 117(1-2), 143-150.
Hobson, E. (1974). Feeding relationship of teleostean fishes on coral reefs in Kona, Hawaii. Fishery Bulletin 72, 915-1031.
*Hoeksema, B. W. & De Voogd, N. J. (2012). On the run: free-living mushroom corals avoiding interaction with sponges. Coral Reefs 31(2), 455-459.
*Hoeksema, B. W., Dekker, F. & deVoogd, N. J. (2014). Free-living mushroom corals strike back by overtopping a coral-killing sponge. Marine Biodiversity 44(1), 3-4.
*Hoeksema, B. W., Ten Hove, H. A. & Berumen, M. L. (2016). Christmas tree worms evade smothering by a coral-killing sponge in the Red Sea. Marine Biodiversity 46, 15-16.
Hoey, A. S., Brandl, S. J. & Bellwood, D. R. (2013). Diet and cross-shelf distribution of rabbitfishes (F. siganidae) on the northern Great Barrier Reef: implications for ecosystem function. Coral Reefs 32, 973-984.
*Hoffmann, F., Røy, H., Bayer, K., Hentschel, U., Pfannkuchen, M., Brümmer, F. & De Beer, D. (2008). Oxygen dynamics and transport in the Mediterranean sponge Aplysina aerophoba. Marine Biology 153(6), 1257-1264.
Hoppe, W. F. (1988). Reproductive patterns in three species of large coral reef sponges. Coral Reefs 7(1), 45-50.
*Hoppe, W. F. & Reichert, M. J. M. (1987). Predictable annual mass release of gametes by the coral reef sponge Neofibularia nolitangere (Porifera: Demospongiae). Marine Biology 94(2), 277-285.
*Hourigan, T. F., Stanton, F. G., Motta, P. J., Kelley, C. D. & Carlson, B. (1989). The feeding ecology of three species of Caribbean angelfishes (family Pomacanthidae). Environmental Biology of Fishes 24, 105-116.
*Huang, J. P., McClintock, J. B., Amsler, C. D. & Huang, Y. M. (2008). Mesofauna associated with the marine sponge Amphimedon viridis. Do its physical or chemical attributes provide a prospective refuge from fish predation?Journal of Experimental Marine Biology and Ecology 362(2), 95-100.
Huang, D., Ou, H.g., Wang, D., Chen, J. & Ding, S. (2016). Sexual reproduction of the potentially cultivable sponge Mycale phyllophila (Porifera, Demospongiae). Journal of the Marine Biological Association of the UK 96, 1073-1081.
Hughes, B. B., Beas-Luna, R., Barner, A. K., Brewitt, K., Brumbaugh, D. R., Cerny-Chipman, E. B., Close, S. L., Coblentz, K. E., De Nesnera, K. L., Drobnitch, S. T. & Figurski, J. . D. (2017). Long-term studies contribute disproportionately to ecology and policy. BioScience 67(3), 271-281.
Ilan, M. (1995). Reproductive biology, taxonomy and aspects of chemical ecology of Latrunculiidae (Porifera). Biological Bulletin 188, 306-312.
Ilan, M., Gugel, J. & Van Soest, R. (2004). Taxonomy, reproduction and ecology of new and known Red Sea sponges. Sarsia: North Atlantic Marine Science 89(6), 388-410.
Ilan, M. & Loya, Y. (1990). Sexual reproduction and settlement of the coral reef sponge Chalinula sp. from the Red Sea. Marine Biology 105(1), 25-31.
*Ilan, M., Loya, Y., Kolbasov, G. A. & Brickner, I. (1999). Sponge-inhabiting barnacles on Red Sea coral reefs. Marine Biology 133(4), 709-716.
Jackson, J. B. C. & Buss, L. E. O. (1975). Alleopathy and spatial competition among coral reef invertebrates. Proceedings of the National Academy of Sciences of the United States of America 72(12), 5160-5163.
*Kay, A. M. & Keough, M. J. (1981). Occupation of patches in the epifaunal communities on pier pilings and the bivalve Pinna bicolor at Edithburgh, South Australia. Oecologia 48(1), 123-130.
*Kaye, H. R. (1991). Sexual reproduction in four Caribbean commercial sponges. II. Oogenesis and transfer of bacterial symbionts. Invertebrate Reproduction and Development 19(1), 13-24.
Kaye, H. R. & Reiswig, H. M. (1991). Sexual reproduction in four Caribbean commercial sponges. I. Reproductive cycles and spermatogenesis. Invertebrate Reproduction & Development 19(1), 1-11.
*Kelmo, F., Bell, J. J. & Attrill, M. J. (2013). Tolerance of sponge assemblages to temperature anomalies: resilience and proliferation of sponges following the 1997-8 El-Niño southern oscillation. PLoS One 8(10), e76441.
*Khalaman, V. V., Belyaeva, D. V. & Flyachinskaya, L. P. (2008). Effect of excretory-secretory products of some fouling organisms on settling and metamorphosis of the larvae of Styela rustica (Ascidiae). Russian Journal of Marine Biology 34(3), 170.
*Khalaman, V. V., Flyachinskaya, L. P. & Lezin, P. A. (2009). Effects of the excretions and secretions of some fouling animals on the settling of Mytilus edulis L. Larvae (Bivalvia: Mollusca). Zool Bespozv 6(1), 65-72.
Khalaman, V. V. & Komendantov, A. Y. (2011). Structure of fouling communities formed by Halichondria panicea (Porifera: Demospongiae) in the White Sea. Russian Journal of Ecology 42(6), 493.
*Khalaman, V. V., Sharov, A. N., Kholodkevich, S. V., Komendantov, A. Y. & Kuznetsova, T. V. (2017). Influence of the White Sea sponge Halichondria panicea (Pallas, 1766) on physiological state of the blue mussel Mytilus edulis (Linnaeus, 1758), as evaluated by heart rate characteristics. Journal of Evolutionary Biochemistry and Physiology 53(3), 225-232.
*Knapp, I. S. S., Williams, G. J. & Bell, J. J. (2016). Temporal dynamics and persistence of sponge assemblages in a Central Pacific atoll lagoon. Marine Ecology 37(5), 1147-1153.
*Knapp, I. S. S., Williams, G. J., Carballo, J. L., Cruz-Barraza, J. A., Gardner, J. P. A. & Bell, J. J. (2013). Restriction of sponges to an atoll lagoon as a result of reduced environmental quality. Marine Pollution Bulletin 66(1-2), 209-220.
Knowlton, A. L. & Highsmith, R. C. (2000). Convergence in the time-space continuum: a predator-prey interaction. Marine Ecology Progress Series 197, 285-291.
Konar, B. & Iken, K. (2005). Competitive dominance among sessile marine organisms in a high Arctic boulder community. Polar Biology 29, 61-64.
*Koopmans, M., Martens, D. & Wijffels, R. H. (2010). Growth efficiency and carbon balance for the sponge Haliclona oculata. Marine Biotechnology 12(3), 340-349.
*Koopmans, M., Van Rijswijk, P., Martens, D., Egorova-Zachernyuk, T. A., Middelburg, J. J. & Wijffels, R. H. (2011). Carbon conversion and metabolic rate in two marine sponges. Marine Biology 158(1), 9-20.
*Kotb, M. M. A., Hartnoll, R. G. & Ghobashy, A. (1991). Coral reef community structure at Ras Mohammed in the northern Red Sea. Tropical Zoology 4, 37-41.
*Koukouras, A., Russo, A., Voultsiadou-Koukoura, E., Arvanitidis, C. & Stefanidou, D. (1996). Macrofauna associated with sponge species of different morphology. Marine Ecology 17(4), 569-582.
*Koukouras, A., Voultsiadou-Koukoura, E., Chintiroglou, H. & Dounos, C. (1985). Benthic bionomy of the North Aegean Sea lll. A comparison of the macrobenthic animal assemblages associated with seven sponge species. Cahiers de Biologie Marine 26, 301-319.
Koutsouveli, V., Taboada, S., Moles, J., Cristobo, J., Ríos, P., Bertran, A., Solà, J., Ávila, C. & Riesgo, A. (2018). Insights into the reproduction of some Antarctic dendroceratid, poecilosclerid, and haplosclerid demosponges. PLoS One 13(2), e0192267.
*Lages, B. G., Fleury, B. G., Hovell, A. M., Rezende, C. M., Pinto, A. C. & Creed, J. C. (2012). Proximity to competitors changes secondary metabolites of non-indigenous cup corals, Tubastraea spp., in the southwest Atlantic. Marine Biology 159(7), 1551-1559.
*Langmead, O. & Chadwick-Furman, N. E. (1999). Marginal tentacles of the corallimorpharian Rhodactis rhodostoma. 1. Role in competition for space. Marine Biology 134(3), 479-489.
*Lanna, E., Cajado, B., Santos-da-Silva da Hora, J., Porto, U. & Vasconcellos, V. (2018). Is the Orton's rule still valid? Tropical sponge fecundity, rather than periodicity, is modulated by temperature and other proximal cues. Hydrobiologia 815, 187-205.
*Lanna, E. & Klautau, M. (2010). Oogenesis and spermatogenesis in Paraleucilla magna (Porifera, Calcarea). Zoomorphology 129, 249-261.
*Lanna, E. & Klautau, M. (2016a). Life history and reproductive dynamics of the cryptogenis calcareous sponge Sycettusa hastifera (Porifera, Calcarea) living in tropical rocky shores. Journal of the Marine Biological Associated of the United Kingdom 98(3), 505-514.
*Lanna, E. & Klautau, M. (2016b). Some aspects of the oogenesis of three species of clathrinid sponges (Calcarea, Porifera). Journal of Marine Biological Associated of the United Kingdom 96(2), 529-539.
*Lanna, E., Paranhos, R., Paiva, P. C. & Klautau, M. (2015). Environmental effects on the reproduction and fecundity of the introduced calcareous sponge Paraleucilla magna in Rio de Janiero, Brazil. Marine Ecology 35(4), 1075-1087.
*Lasagna, R., Albertelli, G., Giovannetti, E., Grondona, M., Milani, A., Morri, C. & Bianchi, C. N. (2008). Status of Maldivian reefs eight years after the 1998 coral mass mortality. Chemistry and Ecology 24(S1), 67-72.
*Lattig, P. & Martin, D. (2011). Sponge-associated Haplosyllis (Polychaeta: Syllidae: Syllinae) from the Caribbean Sea, with the description of four new species. Scientia Marina 75(4), 733-758.
*Laudien, J. & Orchard, J. B. (2012). The significance of depth and substratum incline for the structure of a hard bottom sublittoral community in glacial Kongsfjorden (Svalbard, Arctic)-an underwater imagery approach (counts of benthos communities in Kongsfjorden in 2009). Polar Biology 35, 1057-1072.
Lawler, M. & Osborn, J. (2008). Photogrammetric classification of sponge morphometric diversity. 14th Australian Remote Sensing and Photogrammetry Conference, Darwin, Australia.
Lemloh, M. L., Fromont, J., Brümmer, F. & Usher, K. M. (2009). Diversity and abundance of photosynthetic sponges in temperate Western Australia. BMC Ecology 9(1), 4.
*León, Y. M. & Bjorndal, K. A. (2002). Selective feeding in the hawksbill turtle, an important predator in coral reef ecosystems. Marine Ecology Progress Series 245, 249-258.
Leong, W. & Pawlik, J. R. (2011). Comparison of reproductive patterns among seven Caribbean sponge species does not reveal a resource trade-off with chemical defenses. Journal of Experimental Marine Biology and Ecology 401(1-2), 80-84.
*Lepore, E., Scisioli, M., Liaci, L. S., Santarelli, G. & Gaino, E. (2000). Sexual reproduction of Cinachyra tarentina (Porifera, Demospongiae). Italian Journal of Zoology 67(2), 153-158.
Lesser, M. P. & Slattery, M. (2018). Sponge density increases with depth throughout the Caribbean. Ecosphere 9(12), e02525.
Levin, S. A. (1992). The problem of pattern and scale in Ecology: The Robert H. MacArthur Award lecture. Ecology 73, 1943-1967.
*Lewis, T. B. & Finelli, C. M. (2015). Epizoic zoanthids reduce pumping in two Caribbean vase sponges. Coral Reefs 34(1), 291-300.
*Leys, S. P. & Degnan, B. M. (2001). Cytological basis of photoresponsive behavior in a sponge larva. The Biological Bulletin 201(3), 323-338.
Li, C. W., Chen, J. Y. & Hua, T. E. (1998). Precambrian sponges with cellular structures. Science 279(5352), 879-882.
*Liao, M. H., Tang, S. L., Hsu, C. M., Wen, K. C., Wu, H., Chen, W. M. & Dai, C. F. (2007). The "Black Disease" of reef-building corals at Green Island, Taiwan-outbreak of a Cyanobacteriosponge. Terpios hoshinota (Suberitidae; Hadromerida). Zoological Studies Taipei 46(4), 520.
*Lim, S. C. & Tan, K. S. (2016). Description of a new species of sponge encrusting on a sessile gastropod in the Singapore Strait. Raffles Bulletin of Zoology 34, 97-103.
*Lindquist, N., Bolser, R. & Laing, K. (1997). Timing of larval release by two Caribbean demosponges. Marine Ecology Progress Series 155, 309-313.
*Loh, T. L., McMurray, S. E., Henkel, T. P., Vicente, J. & Pawlik, J. R. (2015). Indirect effects of overfishing on Caribbean reefs: sponges overgrow reef-building corals. PeerJ 3, e901.
*Loh, T. L. & Pawlik, J. R. (2009). Bitten down to size: Fish predation determines growth form of the Caribbean coral reef sponge Mycale laevis. Journal of Experimental Marine Biology and Ecology 374, 45-50.
*Loh, T. L. & Pawlik, J. R. (2012a). Friend or foe? No evidence that association with the sponge Mycale laevis provides a benefit to corals of the genus Montastraea. Marine Ecology Progress Series 465, 111-117.
*Loh, T. L. & Pawlik, J. R. (2012b). Specificity of larval settlement of the Caribbean Orange Icing Sponge, Mycale laevis. Invertebrate Biology 131(3), 155-164.
*Loh, T. L. & Pawlik, J. R. (2014). Chemical defenses and resource trade-offs structure sponge communities on Caribbean coral reefs. Proceedings of the National Academy of Sciences of the United States of America 111(11), 4151-4156.
*Long, E. R. (1967). The associates of four species of marine sponges of Oregon and Washington. Master's thesis, Oregon State UniversityPlaceholder Text.
*Longo, C., Pontassuglia, C., Correiro, G. & Gaino, E. (2012). Life-cycle traits of Paraleucilla magna, a calcareous sponge invasive in a coastal Mediterranean basin. PLoS One 7(8), e42392.
*López, E., Britayev, T. A., Martin, D. & San Martín, G. (2001). New symbiotic associations involving Syllidae (Annelida: Polychaeta), with taxonomic and biological remarks on Pionosyllis magnifica and Syllis cf. armillaris. Journal of the Marine Biological Association of the United Kingdom 81(3), 399-409.
*López-Victoria, M. & Zea, S. (2004). Storm-mediated coral colonization by an excavating Caribbean sponge. Climate Research 26, 251-256.
*López-Victoria, M. & Zea, S. (2005). Current trends of space occupation by encrusting excavating sponges on Colombian coral reefs. Marine Ecology 26(1), 33-41.
*López-Victoria, M., Zea, S. & Weil, E. (2006). Competition for space between encrusting excavating Caribbean sponges and other coral reef organisms. Marine Ecology Progress Series 312, 113-121.
Ludeman, D. A., Reidenbach, M. A. & Leys, S. P. (2017). The energetic cost of filtration by demosponges and their behavioural response to ambient currents. Journal of Experimental Biology 220(6), 995-1007.
Luter, H. M. & Webster, N. S. (2017). Sponge disease and climate change. In Climate Change, Ocean Acidification, and Sponges (eds J. L. Carballo and J. J. Bell), pp. 411-428. Springer, Berlin.
*Lynch, T. C. & Phlips, E. J. (2000). Filtration of the bloom-forming cyanobacteria Synechococcus by three sponge species from Florida Bay, USA. Bulletin of Marine Science 67(3), 923-936.
MacArthur, L. D., Phillips, D. L., Hyndes, G. A., Hanson, C. E. & Vanderklift, M. A. (2011). Habitat surrounding patch reefs influences the diet and nutrition of the western rock lobster. Marine Ecology Progress Series 436, 191-205.
*MacDonald, I. I. I. K. S., Hultgren, K. M. & Duffy, J. E. (2009). The sponge-dwelling snapping shrimps (Crustacea, Decapoda, Alpheidae, Synalpheus) of Discovery Bay, Jamaica, with descriptions of four new species. Zootaxa 2199, 1-57.
*Maggioni, D., Galli, P., Berumen, M. L., Arrigoni, R., Seveso, D. & Montano, S. (2017). Astrocoryne cabela, gen. nov. et sp. nov.(Hydrozoa: Sphaerocorynidae), a new sponge-associated hydrozoan. Invertebrate Systematics 31(6), 734-746.
*Magnino, G. & Gaino, E. (1998). Haplosyllis spongicola Grube Polychaeta, Syllidae associated with two species of sponges from east Africa Tanzania, Indian Ocean. Marine Ecology 19(2), 77-87.
*Magnino, G., Sarà, A., Lancioni, T. & Gaino, E. (1999). Endobionts of the coral reef sponge Theonella swinhoei (Porifera, Demospongiae). Invertebrate Biology 118(30), 213-220.
*Makowski, C., Seminoff, J. A. & Salmon, M. (2006). Home range and habitat use of juvenile Atlantic green turtles (Chelonia mydas L.) on shallow reef habitats in Palm Beach, Florida, USA. Marine Biology 148, 1167-1179.
Maldonado, M., Aguilar, R., Bannister, R. J., Bell, J. J., Conway, K. W., Dayton, P. K., Díaz, C., Gutt, J., Kelly, M., Kenchington, E. L. & Leys, S. P. (2017). Sponge grounds as key marine habitats: a synthetic review of types, structure, functional roles, and conservation concerns. In Marine Animal Forests: The Ecology of Benthic Biodiversity Hotspots, pp. 145-183. Springer, New York.
*Maldonado, M. & Riegso, A. (2008). Reproductive output in a Mediterranean population of the homosclerophorid Corticium candelabrum (Porifera, Demospongiae), with notes on the ultrastructure and behavior of the larva. Marine Ecology 29, 298-316.
Maldonado, M. & Riesgo, A. (2009). Reproduction in the phylum Porifera: a synoptic overview. In Treballs de la Societat Catalana de Biologia, pp. 29-49. Institut d'Estudis Catalans, Barcelona.
*Maldonado, M. & Riegso, A. (2009). Gametogenesis, embryogenesis and larval features of the oviparous sponge Petrosia ficiformis (Haploscerida, Demospongiae). Marine Biology 156, 1281-2197.
*Maldonado, M. & Uriz, M. J. (1992). Relationships between sponges and crabs: patterns of epibiosis on Inachus aguiarii (Decapoda: Majidae). Marine Biology 113(2), 281-286.
Maldonado, M. & Uriz, M. J. (1999). Sexual propagation by sponge fragments. Nature 398(6727), 476.
*Maldonado, M. & Young, C. M. (1996). Effects of physical factors on larval behavior, settlement and recruitment of four tropical demosponges. Marine Ecology Progress Series 138, 169-180.
*Maldonado, M. & Young, C. M. (1999). Effects of the duration of larval life on post larval stages of the demosponge Sigmadocia caerulea. Journal of Experimental Marine Biology and Ecology 232(1), 9-21.
*Manikandan, B., Ravindran, J., Mohan, H., Periasamy, R., Murali, R. M. & Ingole, B. S. (2016). Community structure and coral health status across the depth gradients of Grande Island, Central west coast of India. Regional Studies in Marine Science 7, 150-158.
Mariani, S. & Uriz, M. J. (2001). Copepods of the genus Asterocheres (Copepoda: Siphonostomatoida) feeding on sponges: behavioural and ecological traits. Invertebrate Biology 120(3), 269-277.
*Mariani, S., Uriz, M. J. & Turon, X. (2000). Larval bloom of the oviparous sponge Cliona viridis: coupling of larval abundance and adult distribution. Marine Biology 137(5-6), 783-790.
*Mariani, S., Uriz, M. J. & Turon, X. (2005). The dynamics of sponge larvae assemblages from northwestern Mediterranean nearshore bottoms. Journal of Plankton Research 27(3), 249-262.
Mariani, S., Uriz, M. J., Turon, X. & Alcoverro, T. (2006). Dispersal strategies in sponge larvae: integrating the life history of larvae and the hydrologic component. Oecologia 149(1), 174-184.
*Marin, A. & López Belluga, M. D. (2005). Sponge coating decreases predation on the bivalve Arca noae. Journal of Molluscan Studies 71(1), 1-6.
Marlow, J., Schönberg, C. H., Davy, S. K., Haris, A., Jompa, J. & Bell, J. J. (2019). Bioeroding sponge assemblages: the importance of substrate availability and sediment. Journal of the Marine Biological Association of the United Kingdom 99(2), 343-358.
*Martin, D., Rosell, D. & Uriz, M. J. (1992). Harmothöe Hyalonemae SF. NOV.(Polychaeta, Polynoidae), an exclusive inhabitant of different Atlanto-Mediterranean species of Hyalonema (Porifera, Hexactinellida). Ophelia 35(3), 169-185.
*Martinelli, M., Calcinai, B. & Bavestrello, G. (2006). Use of sponges in the decoration of Inachus phalangium (Decapoda, Majidae) from the Adriatic Sea. Italian Journal of Zoology 73(4), 347-353.
*Marulanda-Gómez, Á., López-Victoria, M. & Zea, S. (2017). Current status of coral takeover by an encrusting excavating sponge in a Caribbean reef. Marine Ecology 38(1), e12379.
*Maurer, D. & Watling, L. (1973). The biology of the oyster community and its associated fauna in Delaware Bay.
McClintock, J. B. (1994). Trophic biology of Antarctic shallow-water echinoderms. Marine Ecology Progress Series 111, 191-202.
McClintock, J. B., Amsler, C. D., Baker, B. J. & Van Soestt, R. W. M. (2005). Ecology of Antarctic marine sponges: An overview. Integrative and Comparative Biology 45, 359-368.
*McDougall, K. D. (1943). Sessile marine invertebrates of Beaufort, North Carolina: a study of settlement, growth, and seasonal fluctuations among pile-dwelling organisms. Ecological Monographs 13(3), 321-374.
*McGrath, E. C., Smith, D. J., Jompa, J. & Bell, J. J. (2017). Adaptive mechanisms and physiological effects of suspended and settled sediment on barrel sponges. Journal of experimental Marine Biology and Ecology 496, 74-83.
*McLay, C. L. (1983). Dispersal and use of sponges and ascidians as camouflage by Cryptodromia hilgendorfi (Brachyura: Dromiacea). Marine Biology 76(1), 17-32.
*McLean, E. L. & Lasker, H. R. (2013). Height matters: position above the substratum influences the growth of two demosponge species. Marine Ecology 34(1), 122-129.
*Mclean, E. L., Rützler, K. & Pooler, P. S. (2015). Competing for space: factors that lead to sponge overgrowth when interacting with octocoral. Open Journal of Marine Science 5, 64-80.
*McLean, E. L. & Yoshioka, P. M. (2007). Associations and interactions between gorgonians and sponges. Porifera Research Biodiversity, Innovation and Sustainability443-448.
*McLean, E. L. & Yoshioka, P. M. (2008). Substratum effects on the growth and survivorship of the sponge Desmapsamma anchorata. Caribbean Journal of Science 44(1), 83-90.
McMurray, S. E., Pawlik, J. R. & Finelli, C. M. (2014). Trait-mediated ecosystem impacts: How morphology and size affect pumping rates of the Caribbean giant barrel sponge. Aquatic Biology 23(1), 1-13.
McMurray, S. E., Pawlik, J. R. & Finelli, C. M. (2017). Demography alters carbon flux for a dominant benthic suspension feeder, the giant barrel sponge, on Conch Reef, Florida Keys. Functional Ecology 31(11), 2188-2198.
Megina, C., Carballo, J. L., Cervera, J. L. & García-Gómez, J. C. (2002). The diet of Platydoris argo (Gastropoda: Nudibranchia) and the dietary specialization of sponge eating dorids. Journal of Molluscan Studies 68, 173-179.
*Melone, N. (1969). Associazione della Demospongia Crambe crambe (Schmidt) Thiele con i lamelli-branchi Spondylus gaederopus ed Arca noae. Natura (Milan) 60, 195-198.
*Mercurio, M., Corriero, G., Cherardi, M., Baldacconi, R. & Gaino, E. (2013). Sexual reproduction in Sarcotragus spinosulus from two different shallow environments. Marine Ecology 34, 394-408.
*Mercurio, M., Corriero, G. & Gaino, E. (2007). A 3-year investigation of sexual reproduction in Geodia cydonium (Jameson 1811) (Porifera, Demospongiae) from a semi-enclosed Mediterranean bay. Marine Biology 151(4), 1491-1500.
Meroz, E. & Ilan, M. (1995a). Life history characteristics of a coral reef sponge. Marine Biology 124(3), 443-451.
*Meroz, E. & Ilan, M. (1995b). Cohabitation of a coral reef sponge and a colonial scyphozoan. Marine Biology 124, 453-459.
*Meroz-Fine, E., Shefer, S. & Ilan, M. (2005). Changes in morphology and physiology of an East Mediterranean sponge different habitats. Marine Biology 147(1), 243-250.
*Meurer, B. C., Lages, N. S., Pereira, O. A., Palhano, S. & Magalhães, G. M. (2010). First record of native species of sponge overgrowing invasive corals Tubastraea coccinea and Tubastraea tagusensis in Brazil. Marine Biodiversity Records 3, e62.
Meylan, A. (1988). Spongivory in hawksbill turtles: a diet of glass. Science 239(4838), 393-395.
*Monk, J., Barrett, N. S., Hill, N. A., Lucieer, V. L., Nichol, S. L., Siwabessy, P. J. W. & Williams, S. B. (2016). Outcropping reef ledges drive patterns of epibenthic assemblage diversity on cross-shelf habitats. Biodiversity and Conservation 25(3), 485-502.
*Montenegro-González, J. & Acosta, A. (2010). Habitat preference of Zoantharia genera depends on host sponge morphology. Universitas Scientiarum 15(2), 110-121.
*Morley, S. A., Berman, J., Barnes, D. K., deJuan Carbonell, C., Downey, R. V. & Peck, L. S. (2016). Extreme phenotypic plasticity in metabolic physiology of Antarctic demosponges. Frontiers in Ecology and Evolution 3, 157.
*Morri, C., Montefalcone, M., Lasagna, R., Gatti, G., Rovere, A., Parravicini, V., Baldelli, G., Colantoni, P. & Bianchi, C. N. (2015). Through bleaching and tsunami: coral reef recovery in the Maldives. Marine Pollution Bulletin 98(1-2), 188-200.
Morrow, K. M., Bourne, D. G., Humphrey, C., Botteé, E. S., Laffy, P., Zaneveld, J., Uthicke, S., Fabricius, K. E. & Webster, N. S. (2015). Natural volcanic CO2 seeps reveal future trajectories for host-microbial associations in corals and sponges. The ISME Journal 9(4), 894-908.
*Musco, L. & Giangrande, A. (2005). A new sponge-associated species, Syllis mayeri n. sp. (Polychaeta: Syllidae), with a discussion on the status of S. armillaris (Müller, 1776). Scientia Marina 69(4), 467-474.
*Mustapha, K. B., Chaouch, M. & Hattour, A. (2016). Zoobenthos associe aux dictyoceratidae (Spongiares, Demospongiae) des cotes tunisiennes. Bulletin de I'Institute National des Sciences et Technologies Mer de Salammbô 43.
Nagelkerken, I., Van Der Velde, G., Wartenbergh, S. L. J., Nugues, M. M. & Pratchett, M. S. (2009). Cryptic dietary components reduce dietary overlap among sympatric butterflyfishes (Chaetodontidae). Journal of Fish Biology 75(6), 1123-1143.
*Nandakumar, K. (1995). Competitive interactions among sessile organisms in Tomioka Bay, south Japan: importance of light conditions on the panel surface. Marine Biology 121(4), 713-719.
*Nandakumar, K. & Tanaka, M. (1997). Effect of colony size on the competitive outcome of encrusting colonial organisms. Ecological Research 12(3), 223.
*Nandakumar, K., Tanaka, M. & Kikuchi, T. (1993). Interspecific competition among fouling organisms in Tomioka Bay, Japan. Marine Ecology Progress Series 94, 43-43.
*Neves, G. & Omena, E. (2003). Influence of sponge morphology on the composition of the polychaete associated fauna from Rocas Atoll, northeast Brazil. Coral Reefs 22(2), 123-129.
*Nicol, J. A. C. (1970). The Biology of Marine Animals. Pitman, Bath.
Nozawa, Y., Huang, Y. S. & Hirose, E. (2016). Seasonality and lunar periodicity in the sexual reproduction of the coral-killing sponge, Terpios hoshinota. Coral Reefs 35(3), 1071-1081.
*Oliveira, M. V., Santos, P. S. & Almeida, A. O. (2015). First record of the sponge-dwelling shrimp Synalpheus dardeaui (Crustacea: Decapoda: Alpheidae) in the south-western Atlantic. Marine Biodiversity Records 8, e141.
Oshel, P. E. & Steele, D. H. (1985). Amphipod Paramphithoe hystrix: a micropredator on the sponge Haliclona ventilabrum. Marine Ecology Progress Series 23, 307-309.
*Osinga, R., Muela, E. P., Tramper, J. & Wijffels, R. H. (1998). In vitro cultivation of four marine sponge species: determination of the nutritional demands. In Marine Microorganisms for Industry, pp. 121-127. IFREMER, Brest.
*Özcan, T. & Katağan, T. (2011). Decapod Crustaceans associated with the sponge Sarcotragus muscarum Schmidt, 1864 (Porifera: Demospongiae) from the Levantine coasts of Turkey. Iranian Journal of Fisheries Sciences 10(2), 286-293.
*Padua, A., Lanna, E. & Klautau, M. (2013a). Macrofauna inhabiting the sponge Paraleucilla magna (Porifera: Calcarea) in Rio de Janeiro, Brazil. Journal of the Marine Biological Association of the United Kingdom 93(4), 889-898.
*Padua, A., Lanna, E., Zilberberg, C., Paiva, P. C. D. & Klautau, M. (2013b). Recruitment, habitat selection and larval photoresponse of Paraleucilla magna (Porifera, Calcarea) in Rio de Janeiro, Brazil. Marine Ecology 34(1), 56-61.
Palumbi, S. R. (1984). Tactics of acclimation: morphological changes of sponges in an unpredictable environment. Science 225(4669), 1478-1480.
*Palumbi, S. R. (1985). Spatial variation in an alga-sponge commensalism and the evolution of ecological interactions. The American Naturalist 126(2), 267-274.
*Pansini, M., Morri, C. & Bianchi, C. N. (2000). The sponge community of a subtidal area with hydrothermal vents: Milos Island, Aegean Sea. Estuarine, Coastal and Shelf Science 51(5), 627-635.
*Pascual, M., Núñez, J. & San Martín, G. (1996). Exogone (Polychaeta: Syllidae: Exogoninae) endobiontics of sponges from the Canary and Madeira Islands with description of two new species. Ophelia 45(1), 67-80.
*Pavloudi, C., Christodoulou, M. & Mavidis, M. (2016). Macrofaunal assemblages associated with the sponge Sarcotragus foetidus Schmidt, 1862 (Porifera: Demospongiae) at the coasts of Cyprus and Greece. Biodiversity Data Journal 4, e8210.
Pawlik, J. R. (1983). A sponge-eating worm from Bermuda: Branchiosyllis oculata (Polychaeta, Syllidae). Marine Ecology 4(1), 65-79.
Pawlik, J. R., Loh, T. L. & McMurray, S. E. (2018). A review of bottom-up vs. top-down control of sponges on Caribbean fore-reefs: what's old, what's new, and future directions. PeerJ 6, e4343.
*Pawlik, J. R., Steindler, L., Henkel, T. P., Beer, S. & Ilan, M. (2007). Chemical warfare on coral reefs: Sponge metabolites differentially affect coral symbiosis in situ. Limnology and Oceanography 52(2), 907-911.
*Pearse, A. S. (1950). Notes on the inhabitants of certain sponges at Bimini. Ecology 31(1), 149-151.
*Peattie, M. E. & Hoare, R. (1981). The sublittoral ecology of the Menai Strait: II. The sponge Halichondria panicea (Pallas) and its associated fauna. Estuarine, Coastal and Shelf Science 13(6), 621-635.
Perea-Blázquez, A., Davy, S. K. & Bell, J. J. (2012). Estimates of particulate organic carbon flowing from the pelagic environment to the benthos through sponge assemblages. PLoS One 7(1), e29569.
Pereira, P. H., Santos, M., Lippi, D. L. & Silva, P. (2016). Ontogenetic foraging activity and feeding selectivity of the Brazilian endemic parrotfish Scarus zelindae. PeerJ 4, e2536.
*Perez, T., Ivanisevic, J., Dubois, M., Pedel, L., Thomas, O. P., Tokina, D. & Ereskovsky, A. V. (2011). Oscarella balibaloi, a new sponge species (Homoscleromorpha: Plakinidae) from the Western Mediterranean Sea: cytological description, reproductive cycle and ecology. Marine Ecology 32, 174-187.
Pérez-España, H. & Abitia-Cárdenas, L. A. (1996). Description of the digestive tract and feeding habits of the king angelfish and the Cortes angelfish. Journal of Fish Biology 48(5), 807-817.
*Perez-Porro, A. R., Gonzalez, J. & Uriz, M. J. (2012). Reproductive traits explain contrasting ecological features in sponges: the sympatric poecilosclerids Hemimycale columella and Crella elegans as examples. Hydrobiologia 687, 315-330.
*Perry, C. T. (1998). Macroborers within coral framework at Discovery Bay, north Jamaica: species distribution and abundance, and effects on coral preservation. Coral reefs 17(3), 277-287.
*Pica, D., Bertolino, M., Calcinai, B., Puce, S. & Bavestrello, G. (2012). Boring and cryptic sponges in stylasterids (Cnidaria: Hydrozoa). Italian Journal of Zoology 79(2), 266-272.
Pineda, M. C., Strehlow, B., Sterel, M., Duckworth, A., Joes, R. & Webster, N. S. (2017a). Effects of suspended sediments on the sponge holobiont with implications for dredging management. Scientific Reports 7(1), 1-15.
*Pineda, M. C., Strehlow, B., Sternel, M., Duckworth, A., Den Haan, J., Jones, R. & Webster, N. S. (2017b). Effects of sediment smothering on the sponge holobiont with implications for dredging management. Scientific Reports 7(1), 5156.
*Piscitelli, M., Corriero, G., Gaino, E. & Uriz, M. J. (2011). Reproductive cycles of the sympatric excavating sponges Cliona celata and Cliona virdis in the Mediterranean Sea. Invertebrate Biology 130(1), 1-10.
*Pitcher, C. R. & Butler, A. J. (1987). Predation by asteroids, escape response, and morphometrics of scallops with epizoic sponges. Journal of Experimental Marine Biology and Ecology 112(3), 233-249.
Pitt, J. M. (1997). The feeding ecology of rabbitfish (Siganidae) at Green Island reef: ontogenetic and interspecific differences in diet, morphology and habitat utilisation. Doctoral dissertation, James Cook University of North Queensland).
*Plucer-Rosario, G. (1987). The effect of substratum on the growth of Terpios, an encrusting sponge which kills corals. Coral Reefs 5(4), 197-200.
Pomponi, S. A. & Meritt, D. W. (1985). Distribution and life history of the boring sponge in the upper Chesapeake Bay. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 384-390. Smithsonian Institution, Washington, DC.
*Pond, D. (1992). Protective-commensal mutualism between the queen scallop Chlamys opercularis (Linnaeus) and the encrusting sponge Suberites. Journal of Molluscan Studies 58(2), 127-134.
*Poore, A. G., Watson, M. J., deNys, R., Lowry, J. K. & Steinberg, P. D. (2000). Patterns of host use among alga-and sponge-associated amphipods. Marine Ecology Progress Series 208, 183-196.
*Porter, J. W. & Targett, N. M. (1988). Allelochemical interactions between sponges and corals. The Biological Bulletin 175(2), 230-239.
Powell, A., Jones, T., Smith, D. J., Jompa, J. & Bell, J. J. (2015). Spongivory in the Wakatobi Marine National Park, Southeast Sulawesi, Indonesia. Pacific Science 69(4), 487-509.
Powell, A., Smith, D. J., Hepburn, L. J., Jones, T., Berman, J., Jompa, J. & Bell, J. J. (2014). Reduced diversity and high sponge abundance on a sedimented Indo-Pacific reef system: implications for future changes in environmental quality. PloS One 9(1), e85253.
*Preciado, I. & Maldonado, M. (2005). Reassessing the spatial relationship between sponges and macroalgae in sublittoral rocky bottoms: a descriptive approach. Helgoland Marine Research 59(2), 141.
*Prentiss, N. K. & Harris, L. H. (2011). Polychaete fauna inhabiting sediments associated with the stinking vase sponge (Ircinia campana Lamarck, 1814), St. John, United States Virgin Islands. Italian Journal of Zoology 78(sup1), 317-323.
*Przeslawski, R., Alvarez, B., Battershill, C. & Smith, T. (2014). Sponge biodiversity and ecology of the Van Diemen Rise and eastern Joseph Bonaparte Gulf, northern Australia. Hydrobiologia 730(1), 1-16.
*Przeslawski, R., Alvarez, B., Kool, J., Bridge, T., Caley, M. J. & Nichol, S. (2015). Implications of sponge biodiversity patterns for the management of a marine reserve in northern Australia. PLoS One 10(11), e0141813.
*Puce, S., Calcinai, B., Bavestrello, G., Cerrano, C., Gravili, C. & Boero, F. (2005). Hydrozoa (Cnidaria) symbiotic with Porifera: a review. Marine Ecology 26(2), 73-81.
*Quinn, J. F. (1982). Competitive hierarchies in marine benthic communities. Oecologia 54(1), 129-135.
*Rabaoui, L., Tlig-Zouari, S., Cosentino, A. & Hassine, O. K. B. (2009). Associated fauna of the fan shell Pinna nobilis (Mollusca: Bivalvia) in the northern and eastern Tunisian coasts. Scientia Marina 73(1), 129-141.
Ramírez, F., Afán, I., Davis, L. S. & Chiaradia, A. (2017). Climate impacts on global hot spots of marine biodiversity. Science Advances 3(2), e1601198.
Ramsby, B. D., Hoogenboom, M. O., Whalan, S., Webster, N. S. & Thompson, A. (2017). A decadal analysis of bioeroding sponge cover on the inshore Great Barrier Reef. Scientific Reports 7(1), 2706.
Randall, J. E. & Hartman, W. D. (1968). Sponge-feeding fishes of the West Indies. Marine Biology 1(3), 216-225.
*Ravikumar, S., Venkatesan, M., Ajmalkhan, M. & Dhinakarraj, M. (2011). Antimicrobial activity of sponge associated macroorganisms against fish pathogen. World Journal of Fish and Marine Sciences 3(1), 67-70.
*Reichelt, R. E., Loya, Y. & Bradbury, R. H. (1986). Patterns in the use of space by benthic communities on two coral reefs of the Great Barrier Reef. Coral Reefs 5(2), 73-79.
*Reimer, J. D., Nozawa, Y. & Hirose, E. (2011). Domination and disappearance of the black sponge: a quarter century after the initial Terpios outbreak in southern Japan. Zoological Studies 50(3), 394.
Reiswig, H. M. (1971). Particle feeding in natural populations of three marine demosponges. The Biological Bulletin 141(3), 568-591.
Reiswig, H. M. (1973). Population dynamics of three Jamaican Demospongiae. Bulletin of Marine Science 23(2), 191-226.
Reiswig, H. M. (1974). Water transport, respiration and energetics of three tropical marine sponges. Journal of Experimental Marine Biology and Ecology 14(3), 231-249.
Reiswig, H. M. (1975a). Bacteria as food for temperate-water marine sponges. Canadian Journal of Zoology 53(5), 582-589.
*Reiswig, H. M. (1975b). The aquiferous systems of three marine Demospongiae. Journal of Morphology 145(4), 493-502.
*Reiswig, H. M. (1981). Partial carbon and energy budgets of the bacteriosponge Verohgia fistularis (Porifera: Demospongiae) in Barbados. Marine Ecology 2(4), 273-293.
*Ribeiro, S. M., Omena, E. P. & Muricy, G. (2003). Macrofauna associated to Mycale microsigmatosa (Porifera, Demospongiae) in Rio de Janeiro State, SE Brazil. Estuarine, Coastal and Shelf Science 57(5-6), 951-959.
*Ribeiro, S. M. & Pereira, R. C. (2015). Chemical profile of adults and buds of the chemically defended marine sponge Tethya maza. Biochemical Systematics and Ecology 60, 211-214.
*Ribes, M. (1998). Feeding activity and diet of benthic suspension feeders related to metabolic requirements and seston composition. Doctoral dissertation, University of Barcelona.
*Ribes, M., Coma, R. & Gili, J. M. (1999). Natural diet and grazing rate of the temperate sponge Dysidea avara (Demospongiae, Dendroceratida) throughout an annual cycle. Marine Ecology Progress Series 176, 179-190.
*Riegso, A. & Maldonado, M. (2008). Differences in reproductive timing among sponges sharing habitat and thermal regime. Invertebrate Biology 127(4), 357-367.
*Riegso, A. & Maldonado, M. (2009). Ultrastructure of oogenesis of two oviparous demosponges: Axinella damicornis & Raspaciona aculeata (Porifera). Tissue and Cell 41, 51-65.
*Riegso, A., Maldonado, M. & Durfort, M. (2007). Dynamics of gametogenesis, embryogenesis, and larval release in a Mediterranean homosclerophorid demosponge. Marine and Freshwater Research 58, 398-417.
Riesgo, A., Taboada, S., Sánchez-Vila, L., Solà, J., Bertran, A. & Ávila, C. (2015). Some like it fat: comparative ultrastructure of the embryo in two demosponges of the genus Mycale (order Poecilosclerida) from Antarctica and the Caribbean. PLoS One 10(3), e0118805.
*Riisgård, H. U., Thomassen, S., Jakobsen, H., Weeks, J. M. & Larsen, P. S. (1993). Suspension feeding in marine sponges Halichondria panicea and Haliclona urceolus: effects of temperature on filtration rate and energy cost of pumping. Marine Ecology Progress Series 96, 177-188.
Rix, L. V. N., Bednarz, U., Cardini, N., Van Hoytema, F. A., Horani, A. L., Wild, C. & Naumann, M. S. (2015). Seasonality in dinitrogen fixation and primary productivity by coral reef framework substrates from the northern Red Sea. Marine Ecology Progress Series 533, 79-92.
*Roberts, D. E., Cummins, S. P., Davis, A. R. & Chapman, M. G. (2006a). Structure and dynamics of sponge-dominated assemblages on exposed and sheltered temperate reefs. Marine Ecology Progress Series 321, 19-30.
Roberts, D. E., Cummins, S. P., Davis, A. R. & Pangway, C. (1999). Evidence for symbiotic algae in sponges from temperate coastal reefs in New South Wales, Australia. Memoirs-Queensland Museum 44, 493-498.
*Roberts, D. E. & Davis, A. R. (1996). Patterns in sponge (Porifera) assemblages on temperate coastal reefs off Sydney, Australia. Marine and Freshwater Research 47(7), 897.
Roberts, D. E., Davis, A. R. & Cummins, S. P. (2006b). Experimental manipulation of shade, silt, nutrients and salinity on the temperate reef sponge Cymbastela concentrica. Marine Ecology Progress Series 307, 143-154.
*Rocha, L. A., Rosa, I. L. & Feitoza, B. (2000). Sponge-dwelling fishes of northeastern Brazil. Environmental Biology of Fishes 59(4), 453-458.
Rosell, D. (1993). Effects of reproduction in Cliona viridis (Hadromerida) on zooxanthellae. Scientia Marina 57, 405-413.
Rosell, D. & Uriz, M. J. (2002). Excavating and endolithic sponge species (Porifera) from the Mediterranean: species descriptions and identification key. Organisms Diversity & Evolution 2, 55-86.
Rovellini, A., Dunn, M. R., Fulton, E. A., Webster, N. S., Smith, D. J., Jompa, J., Haris, A., Berman, J. & Bell, J. J. (2019). Decadal variability in sponge abundance and biodiversity on an Indo-Pacific coral reef. Marine Ecology Progress Series 620, 63-76.
*Rubio-Portillo, E., Souza-Egipsy, V., Ascaso, C., de losRios Murillo, A., Ramos-Esplá, A. A. & Antón, J. (2014). Eukarya associated with the stony coral Oculina patagonica from the Mediterranean Sea. Marine Genomics 17, 17-23.
*Russ, G. R. (1982). Overgrowth in a marine epifaumal community: Competitive hierarchies and competitive networks. Oecologia 53(1), 12-19.
*Russell, B., Degnan, B., Garson, M. & Skilleter, G. (2003). Distribution of a nematocyst-bearing sponge in relation to potential coral donors. Coral Reefs 22(1), 11-16.
Russell, B. C. (1971). Ecological relationships of rocky reef fishes of north-eastern New Zealand. Doctoral dissertation, University of Auckland.
*Rützler, K. (1974). The burrowing sponges of Bermuda. Smithsonian Contributions to Zoology 165, 1-32.
*Rützler, K. (1975). The role of burrowing sponges in bioerosion. Oecologia 19(3), 203-216.
Rützler, K. (1976). Ecology of Tunisian commercial sponges. Tethys 7, 249-264.
*Rützler, K. (2002). Impact of crustose clionid sponges on Caribbean reef corals. Acta Geologica Hispanica 37(1), 61-72.
Rützler, K. (2004). Sponges on coral reefs: a community shaped by competitive cooperation. BMIB-Bollettino dei Musei e degli Istituti Biologici 68, 85-148.
*Rützler, K., Diaz, M. C., vanSoest, R. W., Zea, S., Smith, K. P., Alvarez, B. & Wulff, J. (2000). Diversity of sponge fauna in mangrove ponds, Pelican Cays, Belize. Atoll Research Bulletin 476.
*Rützler, K., Duran, S. & Piantoni, C. (2007). Adaptation of reef and mangrove sponges to stress: evidence for ecological speciation exemplified by Chondrilla caribensis new species (Demospongiae, Chondrosida). Marine Ecology 28, 95-111.
*Rützler, K. & Muzik, K. M. (1993). Terpios hoshinota, a new cyanobacteriosponge threatening Pacific reefs. Recent advances in systematics and ecology of sponges. Scientia Marina 57, 395-403.
Rützler, K., Van Soest, R. W. & Alvarez, B. (2003). Svenzea zeai, a Caribbean reef sponge with a giant larva, and Scopalina ruetzleri: a comparative fine-structural approach to classification (Demospongiae, Halichondrida, Dictyonellidae). Invertebrate Biology 122(3), 203-222.
*Ruzicka, R. & Gleason, D. F. (2009). Sponge community structure and anti-predator defenses on temperate reefs of the South Atlantic Bight. Journal of Experimental Marine Biology and Ecology 380(1-2), 36-46.
*Ruzicka, R. R., Colella, M. A., Porter, J. W., Morrison, J. M., Kidney, J. A., Brinkhuis, V., Lunz, K. S., MacAulay, K. A., Bartlett, L. A., Meyers, M. K. & Colee, J. (2013). Temporal changes in benthic assemblages on Florida Keys reefs 11 years after the 1997/1998 El Niño. Marine Ecology Progress Series 489, 125-141.
Sala, E. & Ballesteros, E. (1997). Partitioning of space and food resources by three fish of the genus Diplodus (Sparidae) in a Mediterranean rocky infralittoral ecosystem. Marine Ecology Progress Series 152, 273-283.
*Sammarco, P. W., Porter, S. A., Genazzio, M. & Sinclair, J. (2015). Success in competition for space in two invasive coral species in the western Atlantic-Tubastraea micranthus and T. coccinea. PLoS One 10(12), e0144581.
Sano, M. (1989). Feeding habits of Japanese butterflyfishes (Chaetodontidae). In The Butterflyfishes: Success on the Coral Reef (ed. P. J. Motta), pp. 195-204. Springer, Dordrecht.
Santos, C. P., Coutinho, A. B. & Hajdu, E. (2002). Spongivory by Eucidaris tribuloides from Salvador, Bahia (Echinodermata: Echinoidea). Journal of the Marine Biological Association of the United Kingdom 82(2), 295-297.
*Sarda, R., Avila, C. & Paul, V. J. (2002). An association between a syllid polychaete, Haplosyllis basticola n. sp., and the sponge, Ianthella basta. Micronesica 34(2), 165-175.
*Schejter, L., Calcinai, B., Cerrano, C., Bertolino, M., Pansini, M., Giberto, D. & Bremec, C. (2006). Porifera from the Argentine Sea: diversity in Patagonian scallop beds. Italian Journal of Zoology 73(4), 373-385.
*Schejter, L., Chiesa, I. L., Doti, B. L. & Bremec, C. (2012). Mycale (Aegogropila) magellanica (Porifera: Demospongiae) in the southwestern Atlantic Ocean: endobiotic fauna and new distributional information. Scientia Marina 76(4), 753-761.
*Schiaparelli, S., Albertelli, G. & Cattaneo-Vietti, R. (2003). The epibiotic assembly on the sponge Haliclona dancoi (Topsent, 1901) at Terra Nova Bay (Antarctica, Ross Sea). Polar Biology 26(5), 342-347.
*Schläppy, M. L., Hoffmann, F., Røy, H., Wijffels, R. H., Mendola, D., Sidri, M. & deBeer, D. (2007). Oxygen dynamics and flow patterns of Dysidea avara (Porifera: Demospongiae). Journal of the Marine Biological Association of the United Kingdom 87(6), 1677-1682.
*Schmahl, G. P. (1990). Community structure and ecology of sponges associated with four southern Florida coral reefs. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 376-383. Smithsonian Institution, Washington, DC.
*Schmidt, G. M., Phongsuwan, N., Jantzen, C., Roder, C., Khokiattiwong, S. & Richter, C. (2012). Coral community composition and reef development at the Similan Islands, Andaman Sea, in response to strong environmental variations. Marine Ecology Progress Series 456, 113-126.
*Schönberg, C. H. L. (2002a). Substrate effects on the bioeroding demosponge Cliona orientalis. 1. Bioerosion rates. Marine Ecology 23(4), 313-326.
*Schönberg, C. H. L. (2002b). Pione lampa, a bioeroding sponge in a worm reef. Hydrobiologia 482, 49-68.
Schönberg, C. H. L. (2008). A history of sponge erosion: from past myths and hypotheses to recent approaches. In Current Developments in Bioerosion (eds M. Wisshak and L. Tapanila), pp. 165-202. Springer, Berlin.
Schönberg, C. H. L., Fang, J. K. & Carballo, J. L. (2017a). Bioeroding sponges and the future of coral reefs. In Climate Change, Ocean Acidification, and Sponges (eds J. L. Carballo and J. J. Bell), pp. 179-317. Springer, Berlin.
Schönberg, C. H. L., Fang, J. K., Carreiro-Silva, M., Tribollet, A. & Wisshak, M. (2017b). Bioerosion: the other ocean acidification problem. ICES Journal of Marine Science 74(4), 895-925.
Schönberg, C. H. L. & Fromont, J. (2012). Sponge gardens of Ningaloo Reef (Carnarvon Shelf, Western Australia) are biodiversity hotspots. Hydrobiologia 687, 143-161.
Schönberg, C. H. L & Ortiz, J. (2009). Is sponge bioerosion increasing? Proceedings of the 11th International Coral Reef Symposium, 1, 527-530.
*Schönberg, C. H. L. & Wilkinson, C. (2001). Induced colonization of corals by a clionid bioeroding sponge. Coral Reefs 20(1), 69-76.
*Sciscioli, M., Scalera Liaci, L., Lepore, E., Gheradrdi, M. & Simpson, T. L. (1991). Ultrastructural study of the mature egg of the marine sponge Stellata grubii (Porifera Demospongiae). Molecular Reproduction and Development 28, 346-350.
*Seguin, F., Le Brun, O., Hirst, R., Al-Thary, I. & Dutrieux, E. (2008). Large coral transplantation in Bal Haf (Yemen): an opportunity to save corals during the construction of a Liquefied Natural Gas plant using innovative techniques. In Proceedings of the 11th International Coral Reef Symposium Ft, Lauderdale, Florida, pp. 1267-1270.
*Serejo, C. S. (1998). Gammaridean and caprellidean fauna (Crustacea) associated with the sponge Dysidea fragilis Johnston at Arraial do Cabo, Rio de Janeiro, Brazil. Bulletin of Marine Science 63(2), 363-385.
Shaffer, M. R. (2019). Species boundaries, reproduction and connectivity patterns for sympatric Tethya species on New Zealand temperate reefs. Doctoral dissertation, Victoria University of Wellington, New Zealand.
Shanks, A. L., Grantham, B. A. & Carr, M. H. (2003). Propagule dispersal distance and the size and spacing of marine reserves. Ecological Applications 13, 159-169.
Sheild, C. J. & Witman, J. D. (1993). The impact of Henricia sanguinolenta (O.F. Müller) (Echinodermata: Asteroidea) predation on the finger sponges, Isodictya spp. Journal of Experimental Marine Biology and Ecology 166(1), 107-133.
*Sidri, M., Milanese, M. & Brummer, F. (2005). First observations on egg release in the oviparous sponge Chondrilla nucula (Demospongiae, Chondrosida, Chondrillidae) in the Mediterranean Sea. Invertebrate Biology 124(2), 91-97.
*Silva, A. G., Fortunato, H. F., Lôbo-Hajdu, G. & Fleury, B. G. (2017). Response of native marine sponges to invasive Tubastraea corals: a case study. Marine Biology 164(4), 78.
Simpson, T. L. & Gilbert, J. J. (1973). Gemmulation, gemmule hatching, and sexual reproduction in fresh-water sponges I. The life cycle of Spongilla lacustris and Tubella pennsylvanica. Transactions of the American Microscopical Society 92, 422-433.
*Singh, A. & Thakur, N. L. (2015). Field and laboratory investigations of budding in the tetillid sponge Cinachyrella cavernosa. Invertebrate Biology 134(1), 19-30.
*Singh, A. & Thakur, N. L. (2016). Influence of spatial competitor on the growth and regeneration of the marine sponge Cinachyrella cf. cavernosa (Porifera, Demospongiae). Hydrobiologia 768(1), 111-123.
Singh, A. & Thakur, N. L. (2018). Influence of spatial competitor on asexual reproduction of the marine sponge Cinachyrella cf. cavernosa (Porifera, Demospongiae). Hydrobiologia 809(1), 247-263.
*Sivadas, S. K., Redij, A. G. S., Sagare, P., Thakur, N. L. & Ingole, B. S. (2014). Temporal variation in macroinvertebrates associated with intertidal sponge Ircinia fusca (Carter 1880) from Ratnagiri, West coast, India. Indian Journal of Geo-Marine Sciences 43(6), 921-926.
*Slattery, M., Gochfeld, D. J., Diaz, M. C., Thacker, R. W. & Lesser, M. P. (2016). Variability in chemical defence across a shallow to mesophotic depth gradient in the Caribbean sponge Plakortis angulospiculatus. Coral Reefs 35, 11-22.
*Smale, D. A., Kendrick, G. A., Waddington, K. I., Van Niel, K. P., Meeuwig, J. J. & Harvey, E. S. (2010). Benthic assemblage composition on subtidal reefs along a latitudinal gradient in Western Australia. Estuarine, Coastal and Shelf Science 86(1), 83-92.
*Soong, K., Yang, S. L. & Chen, C. A. (2009). A novel dispersal mechanism of a coral-threatening sponge, Terpios hoshinota (Suberitidae, Porifera). Zoological Studies 48(5), 596.
Southwell, M. W., Weisz, J. B., Martens, C. S. & Lindquist, N. (2008). In situ fluxes of dissolved inorganic nitrogen from the sponge community on Conch Reef, Key Largo, Florida. Limnology and Oceanography 53(3), 986-996.
Spalding, M. D., Fox, H. E., Allen, G. R., Davidson, N., Ferdaña, Z. A., Finlayson, M. A. X., Halpern, B. S., Jorge, M. A., Lombana, A. L., Lourie, S. A. & Martin, K. D. (2007). Marine ecoregions of the world: a bioregionalization of coastal and shelf areas. BioScience 57(7), 573-583.
*Stachowicz, J. J. & Hay, M. E. (2000). Geographic variation in camouflage specialization by a decorator crab. The American Naturalist 156(1), 59-71.
Steindler, L., Beer, S. & Ilan, M. (2002). Photosymbiosis in intertidal and subtidal tropical sponges. Symbiosis-Rehovot 33(3), 263-274.
Stephens, K. M., Galvin, J., Lawless, A. & McCormack, G. P. (2013). Reproductive cycle and larval characteristics of the sponge Haliclona indistincta (Porifera: Demospongiae). Journal of the Marine Biological Association of the United Kingdom 93(4), 899-907.
*Stevely, J. M., Sweat, D. E., Bert, T. M., Sim-smith, C. & Kelly, M. (2010). Commercial bath sponge (Spongia and Hippospongia) and total sponge community abundance and biomass estimates in the Florida middle and upper Keys, USA. Proceedings of the 63rd Gulf and Caribbean Fisheries Institute 62, 394-403.
*Stevely, J. M., Sweat, D. E., Bert, T. M., Sim-smith, C. & Kelly, M. (2011). Sponge mortality at Marathon and Long Key, Florida: Patterns of species response and population recovery. Proceedings of the 63rd Gulf and Caribbean Fisheries Institute 63, 385-400.
*Strehlow, B. W., Jorgensen, D., Webster, N. S., Pineda, M. C. & Duckworth, A. (2016). Using a thermistor flowmeter with attached video camera for monitoring sponge excurrent speed and oscular behaviour. PeerJ 4, e2761.
Stubler, A. D., Furman, B. T. & Peterson, B. J. (2015). Sponge erosion under acidification and warming scenarios: differential impacts on living and dead coral. Global Change Biology 21(11), 4006-4020.
Stubler, A. D., Robertson, H., Styron, H. J., Carroll, J. M. & Finelli, C. M. (2017). Reproductive and recruitment dynamics of clionaid sponges on oyster reefs in North Carolina. Invertebrate Biology 136(4), 365-378.
Suchanek, T. H., Carpenter, R. C., Witman, J. D. & Harvell, C. D. (1983). Sponges as important space competitors in deep Caribbean coral reef communities. The Ecology of Deep and Shallow Coral Reefs 1(1), 55-60.
Sukhotin, A. & Berger, V. (2013). Long-term monitoring studies as a powerful tool in marine ecosystem research. Hydrobiologia 706(1), 1-9.
*Sullivan, B., Faulkner, D. J. & Webb, L. (1983). Siphonodictidine, a metabolite of the burrowing sponge Siphonodictyon sp. that inhibits coral growth. Science 221(4616), 1175-1176.
*Tanaka, K. & Aoki, M. (2000). Seasonal traits of reproduction in a gnathiid isopod Elaphognathia cornigera (Nunomura, 1992). Zoological Science 17(4), 467-475.
*Thinesh, T., Jose, P. A., Hassan, S., Selvan, K. M. & Selvin, J. (2015). Intrusion of coral-killing sponge (Terpios hoshinota) on the reef of Palk Bay. Current Science 109(6), 1030-1032.
*Thinesh, T., Mathews, G., Raj, K. D. & Edward, J. K. P. (2017). Outbreaks of Acropora white syndrome and Terpios sponge overgrowth combined with coral mortality in Palk Bay, southeast coast of India. Diseases of Aquatic Organisms 126(1), 63-70.
Thomas, T., Moitinho-Silva, L., Lurgi, M., Björk, J. R., Easson, C., Astudillo-García, C., Olson, J. B., Erwin, P. M., López-Legentil, S., Luter, H. & Chaves-Fonnegra, A. (2016). Diversity, structure and convergent evolution of the global sponge microbiome. Nature Communications 7, 11870.
Thomassen, S. & Riisgård, H. U. (1995). Growth and energetics of the sponge Halichondria panicea. Marine Ecology Progress Series 128, 239-246.
*Thompson, J. E. (1985). Exudation of biologically-active metabolites in the sponge Aplysina fistularis. Marine Biology 88(1), 23-26.
*Thompson, J. E., Walker, R. P. & Faulkner, D. J. (1985). Screening and bioassays for biologically-active substances from forty marine sponge species from San Diego, California, USA. Marine Biology 88(1), 11-21.
*Topsent, E. (1887). Contribution à l'étude des Clionides. Archives de Zoologie Experimentale et Generale 5, 1-166.
*Topsent, E. (1900). Étude monographique des spongiaires de France 3. Monaxonida (Hadromerina). Archives de Zoologie Experimentale et Generale 8, 1-331.
*Trautman, D. A., Hinde, R. & Borowitzka, M. A. (2000). Population dynamics of an association between a coral reef sponge and a red macroalga. Journal of Experimental Marine Biology and Ecology 244, 87-105.
*Tsubaki, R. & Kato, M. (2014). A novel filtering mutualism between a sponge host and its endosymbiotic bivalves. PLoS One 9(10), e108885.
*Tsurumi, M. & Reiswig, H. M. (1997). Sexual versus asexual reproduction in an oviparous rope-form sponge, Aplysina cauliformis (Porifera: Verongida). Invertebrate Reproduction and Development 32(1), 1-9.
Turingan, R. G., Wainwright, P. C. & Hensley, D. A. (1995). Interpopulation variation in prey use and feeding biomechanics in Caribbean triggerfishes. Oecologia 102(3), 296-304.
*Turon, X., Becerro, M. A., Uriz, M. J. & Llopis, J. (1996). Small-scale association measures in epibenthic communities as a clue for allelochemical interactions. Oecologia 108(2), 351-360.
*Turon, X., Codina, M., Tarjuelo, I., Uriz, M. J. & Becerro, M. A. (2000). Mass recruitment of Ophiothrix fragilis (Ophiuroidea) on sponges: settlement patterns and post-settlement dynamics. Marine Ecology Progress Series 200, 201-212.
Turon, X., Garriga, A. & Erwin, P. M. (2013). Lights and shadows: growth patterns in three sympatric and congeneric sponges (Ircinia spp.) with contrasting abundances of photosymbionts. Marine Biology 160(10), 2743-2754.
*Tyler, J. C. & Böhlke, J. E. (1972). Records of sponge-dwelling fishes, primarily of the Caribbean. Bulletin of Marine Science 22(3), 601-642.
*Ugalde, D., Gòmez, P. & Simões, N. (2015). Marine sponges (Porifera: Demospongiae) from the Gulf of Mexico, new records and redescription of Erylus trisphaerus (de Laubenfels, 1953). Zootaxa 3911(2), 151-183.
*Uriz, M. J., Maldonado, M., Turon, X. & Martí, R. (1998). How do reproductive output, larval behaviour, and recruitment contribute to adult spatial patterns in Mediterranean encrusting sponges?Marine Ecology Progress Series 167, 137-148.
*Uriz, M. J., Rosell, D. & Maldonado, M. (1992a). Parasitism, commensalism or mutualism? The case of Scyphozoa (Coronatae) and horny sponges. Marine Ecology Progress Series 81, 247-255.
*Uriz, M. J., Rosell, D. & Martín, D. (1992b). The sponge population of the Cabrera Archipelago (Balearic Islands): characteristics, distribution, and abundance of the most representative species. Marine Ecology 13(2), 101-117.
*Uriz, M. J., Turon, X., Becerro, M. A., Galera, J. & Lozano, J. (1995). Patterns of resource allocation to somatic, defensive, and reproductive functions in the Mediterranean encrusting sponge Crambe crambe (Demospongiae, Poecilosclerida). Marine Ecology Progress Series 124, 159-170.
*Usher, K. M. & Ereskovsky, A. V. (2005). Larval development, ultrastructure and metamorphosis in Chondrilla australiensis Carter, 1873 (Demospongiae, Chondrosida, Chondrillidae). Invertebrate Reproduction & Development 47(1), 51-62.
Usher, K. M., Sutton, D. C., Toze, S., Kuo, J. & Fromont, J. (2004). Sexual reproduction in Chondrilla australiensis (Porifera: demospongiae). Marine and Freshwater Research 55(2), 123-134.
Van Lier, J. R., Harasti, D., Laird, R., Noble, M. M. & Fulton, C. J. (2017). Importance of soft canopy structure for labrid fish communities in estuarine mesohabitats. Marine Biology 164(3), 45.
Van Soest, R. W., Boury-Esnault, N., Vacelet, J., Dohrmann, M., Erpenbeck, D., De Voogd, N. J., Santodomingo, N., Vanhoorne, B., Kelly, M. & Hooper, J. N. (2012). Global diversity of sponges (Porifera). PLoS One 7(4), e35105.
*Van Soest, R. W. M. & Verseveldt, J. (1987). Unique symbiotic octocoral-sponge association from Komodo. Indo-Malayan Zoology 4, 27-32.
Vance, R. R. (1979). Effects of grazing by the sea urchin, Centrostephanus coronatus, on prey community composition. Ecology 60(3), 537-546.
Verdín-Padilla, C., Carballo, J. L. & Camacho, M. (2010). A qualitative assessment of sponge-feeding organisms from the Mexican Pacific Coast. The Open Marine Biology Journal 4, 39-46.
Vergés, A., McCosker, E., Mayer-Pinto, M., Coleman, M. A., Wernberg, T., Ainsworth, T. & Steinberg, P. D. (2019). Tropicalisation of temperate reefs: implications for ecosystem functions and management actions. Functional Ecology 33(6), 1000-1013.
*Vermeij, M. J. A. (2006). Early life-history dynamics of Caribbean coral species on artificial substratum: the importance of competition, growth and variation in life-history strategy. Coral Reefs 25(1), 59-71.
*Vicente, V. P. (1978). An ecological evaluation of the West Indian demosponge Anthosigmella varians (Hadromerida: Spirastrellidae). Bulletin of Marine Science 28(4), 771-779.
Vicente, V. P. (1990). Overgrowth activity by the encrusting sponge Chondrilla nucula on a coral reef in Puerto Rico. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 436-442. Smithsonian Institution Press, Washington, DC.
*Villamizar, E., Díaz, M. C., Rützler, K. & De Nóbrega, R. (2014). Biodiversity, ecological structure, and change in the sponge community of different geomorphological zones of the barrier fore reef at Carrie Bow Cay, Belize. Marine Ecology 35(4), 425-435.
*Villamizar, E. & Laughlin, R. A. (1991). Fauna associated with the sponges Aplysina archeri and Aplysina lacunosa in a coral reef of the Archipielago de Los Roques, National Park, Venezuela. Fossil and Recent Sponges, pp. 522-542.
*Vogel, S. (1974). Current-induced flow through the sponge, Halichondria. The Biological Bulletin 147(2), 443-456.
*Volz, P. (1939). Die Bohrschwamme (Clioniden) der Adria. Thalassia 3, 1-64.
*Von Pütter, A. (1914). Der Stoffwechsel der Kieselschwämme. Zeitschrift für Allgemeine Physiologie 16, 65-114.
*Voultsiadou-Koukoura, E. & Koukouras, A. (1993). Remarks on sponge-decapod associations in the North Aegean Sea. Bios (Macedonia, Greece) 1(1), 252-256.
*Voultsiadou-Koukoura, H. E., Koukouras, A. & Eleftheriou, A. (1987). Macrofauna associated with the sponge Verongia aerophoba in the North Aegean Sea. Estuarine, Coastal and Shelf Science 24(2), 265-278.
Wahab, M. A. A., De Nys, R., Abdo, D., Webster, N. & Whalan, S. (2014a). The influence of habitat on post-settlement processes, larval production and recruitment in a common coral reef sponge. Journal of Experimental Marine Biology and Ecology 461, 162-172.
Wahab, M. A. A., De Nys, R., Holzman, R., Schneider, C. L. & Whalan, S. (2017). Patterns of reproduction in two co-occurring Great Barrier Reef sponges. Marine and Freshwater Research 68(7), 1233-1244.
Wahab, M. A. A., De Nys, R., Webster, N. & Whalan, S. (2014b). Larval behaviours and their contribution to the distribution of the intertidal coral reef sponge Carteriospongia foliascens. PLoS One 9(5), e98181.
Wahab, M. A. A., De Nys, R., Webster, N. & Whalan, S. (2014c). Phenology of sexual reproduction in the common coral reef sponge, Carteriospongia foliascens. Coral Reefs 33(2), 381-394.
*Wall, M., Putchim, L., Schmidt, G. M., Jantzen, C., Khokiattiwong, S. & Richter, C. (2015). Large-amplitude internal waves benefit corals during thermal stress. Proceedings of the Royal Society B: Biological Sciences 282, 20140650.
*Wang, J. T., Chen, Y. Y., Meng, P. J., Sune, Y. H., Hsu, C. M., Wei, K. Y. & Chen, C. A. (2012a). Diverse interactions between corals and the coral-killing sponge, Terpios hoshinota (Suberitidae: Hadromerida). Zoological Studies 51(2), 150-159.
*Wang, J. T., Hirose, E., Hsu, C. M., Chen, Y. Y., Meng, P. J. & Chen, C. A. (2012b). A coral-killing sponge, Terpios hoshinota, releases larvae harboring cyanobacterial symbionts: an implication of dispersal. Zoological Studies 51, 314-320.
Wapstra, M. & Van Soest, R. W. M. (1987). Sexual reproduction, larval morphology and behaviour in demosponges from the southwest of the Netherlands. In Taxonomy of Porifera (eds J. Vacelet and N. Boury-Esnault), pp. 281-307. Springer, Berlin.
Webster, N. S. & Taylor, M. W. (2012). Marine sponges and their microbial symbionts: love and other relationships. Environmental Microbiology 14(2), 335-346.
Weisz, J. B., Lindquist, N. & Martens, C. S. (2008). Do associated microbial abundances impact marine demosponge pumping rates and tissue densities? Oecologia 155(2), 367-376.
Wells, H. W., Wells, M. J. & Gray, I. E. (1964). Ecology of sponges in Hatteras Harbor, North Carolina. Ecology 45(4), 752-767.
*Wendt, P., Van Dolah, R. & O'Rourke, C. (1985). A comparative study of the invertebrate macrofauna associated with seven sponge and coral species collected from the South Atlantic Bight. Journal of the Elisha Mitchell Science Society 101(3), 187-203.
*Westinga, E. P. H. C. & Hoetjes, P. C. (1981). The intrasponge fauna of Spheciospongia vesparia (Porifera, Demospongiae) at Curaçao and Bonaire. Marine Biology 62(2-3), 139-150.
Whalan, S., Battershill, C. & De Nys, R. (2007a). Sexual reproduction of the brooding sponge Rhopaloeides odorabile. Coral Reefs 26(3), 655-663.
Whalan, S., Battershill, C. & De Nys, R. (2007b). Variability in reproductive output across a water quality gradient for a tropical marine sponge. Marine Biology 153(2), 163-169.
*Whalan, S., Ettinger-Epstein, P., Battershill, C. & deNys, R. (2008a). Larval vertical migration and hierarchical selectivity of settlement in a brooding marine sponge. Marine Ecology Progress Series 368, 145-154.
*Whalan, S., Ettinger-Epstein, P. & deNys, R. (2008b). The effect of temperature on larval pre-settlement duration and metamorphosis for the sponge, Rhopaloeides odorabile. Coral Reefs 27(4), 783-786.
*Whalan, S., Johnson, M. S., Harvey, E. & Battershill, C. (2005). Mode of reproduction, recruitment, and genetic subdivision in the brooding sponge Haliclona sp. Marine Biology 146(3), 425-433.
*Whalan, S. & Webster, N. S. (2014). Sponge larval settlement cues: the role of microbial biofilms in a warming ocean. Scientific Reports 4, 4072.
*Whalan, S., Webster, N. S. & Negri, A. P. (2012). Crustose coralline algae and a cnidarian neuropeptide trigger larval settlement in two coral reef sponges. PLoS One 7(1), e30386.
Wieczorek, S. K. & Hooper, R. G. (1995). Relationship between diet and food availability in the snow crab Chionoecetes opilio (O. Fabricius) in Bonne Bay, Newfoundland. Journal of Crustacean Biology 15(2), 236-247.
*Wiedenmayer, F. (1977). Shallow-water sponges of the western Bahamas. Experientia Supplementum (Vol. 28). Birkhauser.
Wilkinson, C. R. (1983). Net primary productivity in coral reef sponges. Science 219(4583), 410-412.
Wilkinson, C. R. (1987a). Interocean differences in size and nutrition of coral reef sponge populations. Science 236(4809), 1654-1657.
*Wilkinson, C. R. (1987b). Productivity and abundance of large sponge populations on Flinders Reef flats, Coral Sea. Coral Reefs 5, 183-188.
Wilkinson, C. R. & Cheshire, A. C. (1989). Patterns in the distribution of sponge populations across the central Great Barrier Reef. Coral Reefs 8(3), 127-134.
Wilkinson, C. R. & Cheshire, A. C. (1990). Comparisons of sponge populations across the Barrier Reefs of Australia and Belize: Evidence for higher productivity in the Caribbean. Marine Ecology Progress Series 67(3), 285-294.
Wilkinson, C. R. & Trott, L. L. (1985). Light as a factor determining the distribution of sponges across the central Great Barrier Reef. Proceedings of the Fifth International Coral Reef Congress. Vol. 5.
*Williams, G. J., Smith, J. E., Conklin, E. J., Gove, J. M., Sala, E. & Sandin, S. A. (2013). Benthic communities at two remote Pacific coral reefs: effects of reef habitat, depth, and wave energy gradients on spatial patterns. PeerJ 1, e81.
*Winkler, M. (2013). The Hydrocoral Errina antarctica from the chilean fjord region: associated fauna. Bachelor thesis, University of Koblenz-Landau.
Wisshak, M., Schönberg, C. H., Form, A. & Freiwald, A. (2013). Effects of ocean acidification and global warming on reef bioerosion lessons from a clionaid sponge. Aquatic Biology 19(2), 111-127.
Witman, J. D. (1998). Natural disturbance and colonization on subtidal hard substrates in the Gulf of Maine. Effects of Fishing Gear on the Sea Floor of New England, pp. 30-37.
*Witman, J. D. & Sebens, K. P. (1990). Distribution and ecology of sponges at a subtidal rock ledge in the central Gulf of Maine. In New Perspectives in Sponge Biology (ed. K. Rützler), pp. 391-396. Smithsonian Institution, Washington, DC.
Witte, U., Barthel, D. & Tendal, O. (1994). The reproductive cycle of the sponge Halichondria panicea Pallas (1766) and its relationship to temperature and salinity. Journal of Experimental Marine Biology and Ecology 183(1), 41-52.
*Woods, C. M. & Page, M. J. (1999). Sponge masking and related preferences in the spider crab Thacanophrys filholi (Brachyura: Majidae). Marine and Freshwater Research 50(2), 135-143.
Wörheide, G., Dohrmann, M., Erpenbeck, D., Larroux, C., Maldonado, M., Voigt, O., Borchiellini, C. & Lavrov, D. V. (2012). Deep phylogeny and evolution of sponges (phylum Porifera). Advances in Marine Biology 61, 1-78.
*Wright, J. T., Benkendorff, K. & Davis, A. R. (1997). Habitat associated differences in temperate sponge assemblages: the importance of chemical defence. Journal of Experimental Marine Biology and Ecology 213(2), 199-213.
Wulff, J. L. (1991). Asexual fragmentation, genotype success, and population dynamics of erect branching sponges. Journal of Experimental Marine Biology and Ecology 149(2), 227-247.
*Wulff, J. L. (1994). Sponge feeding by Caribbean angelfishes, trunkfishes and filefishes. In Sponges in Time and Space (eds R. M. W.Van Soest, T. M. G. Van Kempen and J.-C. Braekman), pp. 265-271. A.A. Balkema, Rotterdam.
Wulff, J. L. (1995). Sponge-feeding by the Caribbean starfish Oreaster reticulatus. Marine Biology 123(2), 313-325.
*Wulff, J. L. (1997). Parrotfish predation on cryptic sponges of Caribbean coral reefs. Marine Biology 129, 41-52.
Wulff, J. L. (2001). Assessing and monitoring coral reef sponges: why and how? Bulletin of Marine Science 69(2), 831-846.
Wulff, J. L. (2006a). Ecological interactions of marine sponges. Canadian Journal of Zoology 84(2), 146-166.
Wulff, J. L. (2006b). Rapid diversity and abundance decline in a Caribbean coral reef sponge community. Biological Conservation 127(2), 167-176.
Wulff, J. L. (2012). Ecological interactions and the distribution, abundance, and diversity of sponges. Advances in Marine Biology 61, 273-344.
*Wulff, J. L. (2013). Recovery of sponges after extreme mortality events: Morphological and taxonomic patterns in regeneration versus recruitment. Integrative and Comparative Biology 53(3), 512-523.
Wulff, J. L. (2017). Bottom-up and top-down controls on coral reef sponges: disentangling within-habitat and between-habitat processes. Ecology 98(4), 1130-1139.
Yahel, G., Sharp, J. H., Marie, D., Häse, C. & Genin, A. (2003). In situ feeding and element removal in the symbiont-bearing sponge Theonella swinhoei: Bulk DOC is the major source for carbon. Limnology and Oceanography 48(1), 141-149.
*Yoshioka, P. M. & Yoshioka, B. B. (1991). A comparison of the survivorship and growth of shallow-water gorgonian species of Puerto Rico. Marine Ecology Progress Series. Oldendorf 69(3), 253-260.
*Zarrouk, S., Ereskovsky, A. V., Mustapha, K. B., Abed, A. E. & Perez, T. (2013). Sexual reproduction of Hippospongia communis (Lamarck, 1814) (Dictyoceratida, Demospongiae): comparison of two populations living under contrasting environmental conditions. Marine Ecology 34, 432-442.
*Zea, S. (1993). Cover of sponges and other sessile organisms in rocky and coral reef habitats of Santa Marta, Colombian Caribbean Sea. Caribbean Journal of Science 29(1-2), 75-88.
*Zea, S. (1994). Patterns of coral and sponge abundance in stressed coral reefs at Santa Marta, Colombian Caribbean. Sponges in Time and Space, pp. 257-264.
*Zea, S. (2001). Patterns of sponge (Porifera, Demospongiae) distribution in remote, oceanic reef complexes off the southwestern Caribbean. Revista de la Academia Colombiana de Ciencias Exactas. Fisicas y Naturales 25(97), 579-592.
Zhukova, N. (2014). Lipids and fatty acids of nudibranch mollusks: Potential sources of bioactive compounds. Marine Drugs 12(8), 4578-4592.
*Zilberberg, C., Maldonado, M. & Sole-Cava, A. M. (2006a). Assessment of the relative contribution of asexual propagation in a population of the coral-excavating sponge Cliona delitrix from the Bahamas. Coral Reefs 25, 297-301.
*Zilberberg, C., Sole-Cava, A. M. & Klautau, M. (2006b). The extent of asexual reproduction in sponges of the genus Chondrilla (Demospongiae: Chondrosida) from the Caribbean and the Brazilian coasts. Journal of Experimental Marine Biology and Ecology 336(2), 211-220.