Abstract
In contrast with the number of studies on tropical species, analyses of the variation of growth parameters with environmental variables in temperate areas are very scarce. The growth of only four species of scleractinians has been analyzed in natural Mediterranean populations: Cladocora caespitosa (Family: Faviidae), Balanophyllia europaea and Leptopsammia pruvoti (Family: Dendrophylliidae), and Caryophyllia inornata (Family: Caryophylliidae). Notwithstanding the importance of obtaining information on coral population dynamics, the first study on a Mediterranean scleractinian dates back less than 10 years. To date, field analyses of the relationships between environmental parameters and growth and population dynamics of Mediterranean scleractinians are available only for two solitary dendrophyliid species: B. europaea and L. pruvoti. Available literature on growth and population dynamics of natural scleractinian populations of the Mediterranean Sea is reviewed in the present work. As general trends, it seems that: (1) solitary species have a definite growth pattern, in contrast with colonial species; and (2) symbiotic species are more sensitive to increasing temperatures and more vulnerable to global warming. Knowledge on the growth and population dynamics of Mediterranean species has significantly increased in the last 20 years, and more effort is still required to gather the necessary information for protecting a hotspot of biodiversity like the Mediterranean Sea from the threats of global environmental change.
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Al-Horani FA (2005) Effects of changing seawater temperature on photosynthesis and calcification in the scleractinian coral Galaxea fascicularis, measured with O2, Ca2+ and pH microsensors. Sci Mar 69:347–354
Al-Horani FA, Ferdelman T, Al-Moghrabi SM, de Beer D (2005) Spatial distribution of calcification and photosynthesis in the scleractinian coral Galaxea fascicularis. Coral Reefs 24:173–180
Babcock RC (1991) Comparative demography of three species of scleractinian corals using age- and size-dependent classifications. Ecol Monogr 6:225–244
Bablet JP (1985) Report on the growth of a scleractinian. In: Proceedings of 5th international coral reef symposium 4, Tahiti, pp 361–365
Baird AH, Marshall PA (2002) Mortality, growth and reproduction in scleractinian corals following bleaching on the Great Barrier Reef. Mar Ecol Prog Ser 237:133–141
Bak RPM, Meesters EH (1998) Coral population structure: the hidden information of colony size-frequency distributions. Mar Ecol Prog Ser 162:301–306
Ballesteros E (2006) Mediterranean coralligenous assemblages: a synthesis of the present knowledge. Oceanogr Mar Biol Annu Rev 44:123–195
Barnes DJ, Lough JM (1989) The nature of skeletal density banding in scleractinian corals: fine banding and seasonal patterns. J Exp Mar Biol Ecol 2:119–134
Bosscher H (1993) Computerized tomography and skeletal density of coral skeletons. Coral Reefs 12:97–103
Bucher DJ, Harriott VJ, Roberts LG (1998) Skeletal micro-density, porosity and bulk density of acroporid corals. J Exp Mar Biol Ecol 228:117–136
Buddemeier RW, Kinzie RA III (1976) Coral growth. Oceanogr Mar Biol Annu Rev 14:183–225
Cantin NE, Cohen AL, Karnauskas KB, Tarrant AM, McCorkle DC (2010) Ocean warming slows coral growth in the central Red Sea. Science 329:322–325
Carlon DB (2002) Production and supply of larvae as determinants of zonation in a brooding tropical coral. J Exp Mar Biol Ecol 268:33–46
Caroselli E, Prada F, Pasquini L, Nonnis Marzano F, Zaccanti F, Falini G, Levy O, Dubinsky Z, Goffredo S (2011) Environmental implications of skeletal micro-density and porosity variation in two scleractinian corals. Zoology 114:255–264
Caroselli E, Zaccanti F, Mattioli G, Falini G, Levy O, Dubinsky Z, Goffredo S (2012) Growth and demography of the solitary scleractinian coral Leptopsammia pruvoti along a sea surface temperature gradient in the Mediterranean Sea. PLoS One 7:e37848
Carricart-Ganivet JP (2004) Sea surface temperature and the growth of the West Atlantic reef-building coral Montastraea annularis. J Exp Mar Biol Ecol 302:249–260
Cerrano C, Bavestrello G, Bianchi CN, Cattaneo-Vietti R, Bava S, Morganti C, Morri C, Picco P, Sara G, Schiaparelli S, Siccardi A, Sponga F (2000) A catastrophic mass-mortality episode of gorgonians and other organisms in the Ligurian Sea (north-western Mediterranean), summer 1999. Ecol Lett 3:284–293
Chadwick-Furman NE, Goffredo S, Loya Y (2000) Growth and population dynamic model of the reef coral Fungia granulosa Kluzinger, 1879 at Eilat, northern Red Sea. J Exp Mar Biol Ecol 249:199–218
Coma R, Ribes M, Serrano E, Jimenez E, Salat J, Pasqual J (2009) Global warming-enhanced stratification and mass mortality events in the Mediterranean. Proc Natl Acad Sci U S A 106:6176–6181
Connell JH (1973) Population ecology of reef building corals. In: Jones OA, Endean R (eds) Biology and geology of coral reefs, vol. II: biology 1. Academic, New York
Cooper TF, De’ath G, Fabricius KE, Lough JM (2008) Declining coral calcification in massive Porites in two nearshore regions of the northern Great Barrier Reef. Glob Change Biol 14:529–538
Dodge RE, Brass GW (1984) Skeletal extension, density and calcification of the reef coral, Montastraea annularis: St. Croix, U.S. Virgin Islands. Bull Mar Sci 34:288–307
Edmunds PJ (2010) Population biology of Porites astreoides and Diploria strigosa on a shallow Caribbean reef. Mar Ecol Prog Ser 418:87–104
Fadlallah YH (1983) Population dynamics and life history of a solitary coral, Balanophyllia elegans, from central California. Oecologia 58:200–207
Garrabou J, Perez T, Sartoretto S, Harmelin JG (2001) Mass mortality in red coral Corallium rubrum populations in the Provence region (France, NW Mediterranean). Mar Ecol Prog Ser 217:263–272
Garrabou J, Coma R, Bensoussan N, Bally M, Chevaldonne P, Cigliano M, Diaz D, Harmelin JG, Gambi MC, Kersting DK, Ledoux JB, Lejeusne C, Linares C, Marschal C, Perez T, Ribes M, Romano JC, Serrano E, Teixido N, Torrents O, Zabala M, Zuberer F, Cerrano C (2009) Mass mortality in the NW Mediterranean rocky benthic communities: effects of the 2003 heat wave. Glob Change Biol 15:1090–1103
Gattuso JP, Allemand D, Frankignoulle M (1999) Photosynthesis and calcification at cellular, organismal and community levels in coral reefs: a review on interactions and control by carbonate chemistry. Am Zool 39:160–183
Glassom D, Chadwick NE (2006) Recruitment, growth and mortality of juvenile corals at Eilat, northern Red Sea. Mar Biol 142:411–418
Goffredo S, Chadwick-Furman NE (2003) Comparative demography of mushroom corals (Scleractinia, Fungiidae) at Eilat, northern Red Sea. Mar Biol 142:411–418
Goffredo S, Lasker HR (2006) Modular growth of a gorgonian coral generates predictable patterns of colony and population growth. J Exp Mar Biol Ecol 336:221–229
Goffredo S, Lasker HR (2008) An adaptive management approach to an octocoral fishery based on the Beverton-Holt model. Coral Reefs 27:751–761
Goffredo S, Zaccanti F (2004) Laboratory observations of larval behavior and metamorphosis in the Mediterranean solitary coral Balanophyllia europaea (Scleractinia, Dendrophylliidae). Bull Mar Sci 74:449–458
Goffredo S, Mattioli G, Zaccanti F (2004) Growth and population dynamics model of the Mediterranean solitary coral Balanophyllia europaea (Scleractinia, Dendrophylliidae). Coral Reefs 23:433–443
Goffredo S, Radetić J, Airi V, Zaccanti F (2005) Sexual reproduction of the solitary sunset cup coral Leptopsammia pruvoti (Scleractinia, Dendrophylliidae) in the Mediterranean. 1. Morphological aspects of gametogenesis and ontogenesis. Mar Biol 147:485–495
Goffredo S, Airi V, Radetić J, Zaccanti F (2006) Sexual reproduction of the solitary sunset cup coral Leptopsammia pruvoti (Scleractinia, Dendrophylliidae) in the Mediterranean. 2. Quantitative aspects of the annual reproductive cycle. Mar Biol 148:923–932
Goffredo S, Caroselli E, Pignotti E, Mattioli G, Zaccanti F (2007) Variation in biometry and population density of solitary corals with environmental factors in the Mediterranean Sea. Mar Biol 152:351–361
Goffredo S, Caroselli E, Mattioli G, Pignotti E, Zaccanti F (2008) Relationships between growth, population structure and sea surface temperature in the temperate solitary coral Balanophyllia europaea (Scleractinia, Dendrophylliidae). Coral Reefs 27:623–632
Goffredo S, Caroselli E, Mattioli G, Pignotti E, Dubinsky Z, Zaccanti F (2009) Inferred level of calcification decreases along an increasing temperature gradient in a Mediterranean endemic coral. Limnol Oceanogr 54:930–937
Goffredo S, Caroselli E, Mattioli G, Zaccanti F (2010) Growth and population dynamic model for the non-zooxanthellate temperate solitary coral Leptopsammia pruvoti (Scleractinia, Dendrophylliidae). Mar Biol 157:2603–2612
Goffredo S, Vergni P, Reggi M, Caroselli E, Sparla F, Levy O, Dubinsky Z, Falini G (2011) The skeletal organic matrix from Mediterranean coral Balanophyllia europaea influences calcium carbonate precipitation. PLoS One 6:e22338
Green DH, Edmunds PJ, Carpenter RC (2008) Increasing relative abundance of Porites astreoides on Caribbean reefs mediated by an overall decline in coral cover. Mar Ecol Prog Ser 359:1–10
Grigg RW (1974) Growth rings: annual periodicity in two gorgonian corals. Ecology 55:876–881
Grigg RW (1975) Age structure of a longevous coral: a relative index of habitat suitability and stability. Am Nat 109:647–657
Grigg RW (1984) Resource management of precious corals: a review and application to shallow water reef building corals. P S Z N I Mar Ecol 5:57–74
Guzner B, Novoplansky A, Chadwick NE (2007) Population dynamics of the reef-building coral Acropora hemprichii as an indicator of reef condition. Mar Ecol Prog Ser 333:143–150
Harper JL (1977) Population biology of plants. Academic, London
Highsmith RC (1979) Coral growth rates and environmental control of density banding. J Exp Mar Biol Ecol 37:105–125
Hoegh-Guldberg O (2011) The impact of climate change on coral reef ecosystems. In: Dubinsky Z, Stambler N (eds) Coral reefs: an ecosystem in transition. Springer Science + Business Media BV, Dordrecht
Howe SA, Marshall AT (2002) Temperature effects on calcification rate and skeletal deposition in the temperate coral, Plesiastrea versipora (Lamarck). J Exp Mar Biol Ecol 275:63–81
Hughes RN (1989) A functional biology of clonal animals. Chapman and Hall, New York
Hughes TP, Jackson JBC (1980) Do corals lie about their age-some demographic consequences of partial mortality, fission and fusion. Science 209:713–715
Hughes TP, Jackson JBC (1985) Population dynamics and life histories of foliaceous corals. Ecol Monogr 55:141–166
Hughes TP, Baird AH, Bellwood DR, Card M, Connolly SR, Folke C, Grosberg R, Hoegh-Guldberg O, Jackson JBC, Kleypas J, Lough JM, Marshall P, Nyström M, Palumbi SR, Pandolfi JM, Rosen B, Roughgarden J (2003) Climate change, human impacts, and the resilience of coral reefs. Nature 301:929–933
Johnson KG (1992) Population dynamics of a free-living coral: recruitment, growth and survivorship of Manicina areolata (Linnaeus) on the Caribbean coast of Panama. J Exp Mar Biol Ecol 164:171–191
Johnson KG, Budd AF, Stemann TA (1995) Extinction selectivity of neogene Caribbean reef corals. Paleobiology 21:52–73
Kain JM (1989) The seasons in the subtidal. Br Phycol J 24:203–215
Kenter JAM (1989) Applications of computerized tomography in sedimentology. Mar Geotechnol 8:201–211
Kersting D-K, Linares C (2012) Cladocora caespitosa bioconstructions in the Columbretes Islands Marine Reserve (Spain, NW Mediterranean): distribution, size structure and growth. Mar Ecol 33:427–436. doi:10.1111/j.1439-0485.2011.00508.x
Kinsey DW, Davies PJ (1979) Carbon turnover, calcification and growth in coral reefs. In: Trudinger PA, Swaine DJ (eds) Biogeochemical cycling of mineral forming elements. Elsevier, Amsterdam
Kleypas JA, McManus JW, Menez AB (1999) Environmental limits to coral reef development: where do we draw the line? Am Zool 39:146–159
Knittweis L, Jompa J, Richter C, Wolff M (2009) Population dynamics of the mushroom coral Heliofungia actiniformis in the Spermonde Archipelago, South Sulawesi, Indonesia. Coral Reefs 28:793–804
Knuston DW, Buddemeier RW, Smith SV (1972) Coral chronometers: seasonal growth bands in reef corals. Science 177:270–272
Kružić P, Požar-Domac A (2002) Skeleton growth rates of coral bank of Cladocora caespitosa (Anthozoa, Scleractinia) in Veliko jezero (Mljet National Park). Period Biol 104:123–129
Kružić P, Požar-Domac A (2003) Banks of the coral Cladocora caespitosa (Anthozoa, Scleractinia) in the Adriatic Sea. Coral Reefs 22:536
Kushmaro A, Loya Y, Fine M, Rosenberg E (1996) Bacterial infection and coral bleaching. Nature 380:396
Lejeusne C, Chevaldonné P, Pergent-Martini C, Boudouresque CF, Pérez T (2010) Climate change effects on a miniature ocean: the highly diverse, highly impacted Mediterranean Sea. Trends Ecol Evol 25:250–260
Lins de Barros MM, Pires DO (2006) Colony size-frequency distributions among different populations of the scleractinian coral Siderastrea stellata in southwestern Atlantic: implications for life history patterns. Braz J Oceanogr 54:213–223
Logan A, Anderson IH (1991) Skeletal extension growth rate assessment in corals, using CT scan imagery. Bull Mar Sci 49:847–850
Lough JM, Barnes DJ (2000) Environmental controls on growth of the massive coral Porites. J Exp Mar Biol Ecol 245:225–243
Loya Y (1976) The red sea coral Stylophora pistillata is an r strategist. Nature 259:478–480
Meesters WH, Hilterman M, Kardinaal E, Keetman M, de Vries M, Bak RPM (2001) Colony size–frequency distributions of scleractinian coral populations: spatial and interspecific variation. Mar Ecol Prog Ser 209:43–54
Miller MW (1995) Growth of a temperate coral: effects of temperature, light, depth, and heterotrophy. Mar Ecol Prog Ser 122:217–225
Nozawa Y, Tokeshi M, Nojima S (2008) Structure and dynamics of a high-latitude scleractinian coral community in Amakusa, southwestern Japan. Mar Ecol Prog Ser 358:151–160
Pauly D (1984) Fish population dynamics in tropical waters: a manual for use with programmable calculators. International Center for Living Aquatic Resources Management, Manila
Peirano A, Morri C, Bianchi CN (1999) Skeleton growth and density pattern of the temperate, zooxanthellate scleractinian Cladocora caespitosa from the Ligurian Sea (NW Mediterranean). Mar Ecol Prog Ser 185:195–201
Peirano A, Morri C, Bianchi CN, Rodolfo-Metalpa R (2001) Biomass, carbonate standing stock and production of the Mediterranean coral Cladocora caespitosa (L.). Facies 44:75–80
Peirano A, Morri C, Bianchi CN, Aguirre J, Antonioli F, Calzetta G, Carobene L, Mastronuzzi G, Orrù P (2004) The Mediterranean coral Cladocora caespitosa: a proxy for past climate fluctuations? Glob Planet Change 40:195–200
Peirano A, Abbate M, Cerrati G, Difesca V, Peroni C, Rodolfo-Metalpa R (2005) Monthly variations in calix growth, polyp tissue, and density banding of the Mediterranean scleractinian Cladocora caespitosa (L.). Coral Reefs 24:404–409
Peirano A, Kružić P, Mastronuzzi G (2009) Growth of Mediterranean reef of Cladocora caespitosa (L.) in the Late Quaternary and climate inferences. Facies 55:325–333
Perez T, Garrabou J, Sartoretto S, Harmelin JG, Francour P et al (2000) Mass mortality of marine invertebrates: an unprecedented event in the northwestern Mediterranean. C R Acad Sci Paris, Ser III 323:853–865
Queguiner J (1978) The Mediterranean as a maritime trade route. Ocean Manag 3:179–189
Richardson AJ, Poloczanska ES (2008) Under-resourced, under threat. Science 320:1294–1295
Rinkevich B (1989) The contribution of photosynthetic products to coral reproduction. Mar Biol 101:259–263
Rinkevich B (1995) Restoration strategies for coral reefs damaged by recreational activities—the use of sexual and asexual recruits. Restor Ecol 3:241–251
Rodolfo-Metalpa R, Bianchi CN, Peirano A, Morri C (2000) Coral mortality in NW Mediterranean. Coral Reefs 19:24
Rodolfo-Metalpa R, Richard C, Allemand D, Ferrier-Pages C (2006) Growth and photosynthesis of two Mediterranean corals, Cladocora caespitosa and Oculina patagonica, under normal and elevated temperatures. J Exp Biol 209:4546–4556
Ross MA (1984) A quantitative study of the stony coral fishery in Cebu, Philippines. P S Z N I Mar Ecol 5:75–91
Roth L, Koksal S, van Woesik R (2010) Effects of thermal stress on key processes driving coral-population dynamics. Mar Ecol Prog Ser 411:73–87
Schiller C (1993a) Ecology of the symbiotic coral Cladocora caespitosa (L.) (Faviidae, Scleractinia) in the bay of Piran (Adriatic Sea): I. Distribution and biometry. P S Z N I Mar Ecol 14:205–219
Schiller C (1993b) Ecology of the symbiotic coral Cladocora caespitosa (Faviidae, Montastreinae) in the bay of Piran: II. Energy budget. P S Z N I Mar Ecol 14:221–238
Shenkar N, Fine M, Loya Y (2005) Size matters: bleaching dynamics of the coral Oculina patagonica. Mar Ecol Prog Ser 294:181–188
Shuhmacher H, Zibrowius H (1985) What is hermatypic? A redefinition of ecological groups in corals and other organisms. Coral Reefs 4:1–9
Silenzi S, Bard E, Montagna P, Antonioli F (2005) Isotopic and elemental records in a non-tropical coral (Cladocora caespitosa): discovery of a new high-resolution climate archive for the Mediterranean Sea. Glob Planet Change 49:94–120
Solomon S, Qin D, Manning M, Marquis M, Averyt K, Tignor MMB, Le Roy Miller Jr H, Chen Z (2007) Climate Change 2007: the physical science basis. Contribution of Working Group I to the fourth assessment report of the Inter-governmental Panel on Climate Change. Cambridge University Press, Cambridge
Sparre P, Ursin E, Venema SC (1989) Introduction to tropical fish stock assessment. FAO fisheries technical paper, Rome
Tanzil JTI, Brown BE, Tudhope AW, Dunne RP (2009) Decline in skeletal growth of the coral Porites lutea from the Andaman Sea, South Thailand between 1984 and 2005. Coral Reefs 28:519–528
Teixido N, Garrabou J, Harmelin JG (2011) Low dynamics, high longevity and persistence of sessile structural species dwelling on Mediterranean coralligenous outcrops. PLoS One 6:e23744
Thresher RE, Adkins J, Thiagarajan N (2011) Modal analysis of the deep-water solitary scleractinian, Desmophyllum dianthus, on SW Pacific seamounts: inferred recruitment periodicity, growth and mortality rates. Coral Reefs 30:1063–1070
Vermeij MJA (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 25:59–71
Vermeij MJA, Sandin SA (2009) Density-dependent settlement and mortality structure the earliest life phases of a coral population. Ecology 89:1994–2004
Von Bertalanffy L (1938) A quantitative theory of organic growth (inquiries on growth laws II). Hum Biol 10:181–213
Zibrowius H (1980) Les scléractiniaires de la Méditeranée et de l’Atlantique nord-oriental. Mem Inst Oceanogr (Monaco) 11:1–284
Zibrowius H (1982) Taxonomy in ahermatypic scleractinian corals. Paleontogr Am 54:80–85
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Caroselli, E., Goffredo, S. (2014). Mediterranean Coral Population Dynamics: A Tale of 20 Years of Field Studies. In: Goffredo, S., Dubinsky, Z. (eds) The Mediterranean Sea. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6704-1_15
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