Summary
An integrated study of the early Messinian reef complex cropping out along the eastern coast of the Salento Peninsula (southern Italy), including stratigraphy, facies analysis and paleoecological aspects, is here presented. Fourteen facies types belonging to three main facies associations (back reef and shelf, shelf-edge, slope) have been recognized. They document a wide spectrum of depositional environments, reef building organisms and growth fabrics, in response to depth and other environmental factors in different parts of the reef complex.
The biotic structure of the reef is also described and discussed in detail. It consists of different types of reef building organisms and of their bioconstructions (mainlyPorites coral reefs,Halimeda bioherms and vermetidmicrobial “trottoirs”), that differ in composition and structure according to their position on the shelf edge-toslope profile.
Results indicate that the reef complex of the Salento Peninsula has strong similarities with the typical early Messinian reefs of the Mediterranean region. However, the recognition of some peculiar features, i.e. the remarkable occurrence ofHalimeda bioherms and of vermetid-microbial “trottoirs”, gives new insights for better understanding reef patterns and development of the reef belt during the Late Miocene in the Mediterranean.
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Antonioli, F., Chemello, R., Improta, S. and Riggio, S. (1998): I Reef a Vermetidi e il Loro Uso come Marker Paleoclimatico nelle Aree Temperate.—Atti 79o Congr. Naz. Soc. Geol. Ital.,A, 66–69, Palermo
Antonioli, F., Chemello, R., Improta, S. and Riggio, S. (1999):Dendropoma lower intertidal reef formation and their palaeoclimatological significance, NW Sicily—Mar. Geol.,161, 155–170, Amsterdam
Baroncelli, M.A. (2001): Ricostruzione paleoecologica di un'associazione aPetaloconchus glomeratus (Vermetidae) del Pliocene della Valle Botto (Piemonte, Italia, N.O.). —Boll. Mus. Reg. di Scienze Nat. Torino, Torino (in press)
Betzler C., Martin J.M. and Braga, J.C. (2000): Non tropical carbonates related to rocky submarine cliffs (Miocene, Almeria, southern Spain).—Sed. Geol.,131, 51–65, Amsterdam
Bonaduce, G., Ruggieri G., Russo, A. and Bismuth, H. (1992): Late Miocene Ostracods from the Ashtart 1 well (Gulf of Gabes, Tunisia).—Boll. Soc. Paleont. It.,31/1, 3–93, Modena
Bosellini, A., Mutti, E. and Ricci Lucchi, F. (1989): Rocce e successioni sedimentarie.—Utet, 395 p., Torino
Bosellini, A., Bosellini, F.R., Colalongo, M.L., Parente, M., Russo, A. and Vescogni, A. (1999): Statigraphic architecture of the Salento coast from Capo d'Otranto to S. Maria di Leuca (Apulia, southern Italy).—Riv. Ital. Paleont. Strat.,105/3, 397–416, Milano
Bosellini, F.R. (1998): Diversity, Composition and Structure of Late Eocene Shelf Edge Coral Associations (Nago Lime-stone, Northern Italy).—Facies,39, 203–226, Erlangen
Bosellini, F.R. and Perrin, C. (1994): The coral fauna of Vitigliano: qualitative and quantitative analysis in a back reef environment (Castro Limestone, Late Oligocene, Salento Peninsula, southern Italy).—Boll. Soc. Paleont. It.,33/2, 171–181 Modena
Bosellini, F.R. and Russo, A. (1992): Stratigraphy and facies of an Oligocene fringing reef (Castro Limestone Salento Peninsula, southern Italy).—Facies,26, 146–166, Erlangen
Bosellini, F.R., Russo, A. and Vescogni, A. (2001): Messinian reef-building assemblages of the Salento Peninsula (southern Italy): palaeobathymetric and palaeoclimatic significance.—Palaeogeogr., Palaeoclim., Palaeoec, Spec Issue,175/1–4, 7–26, Amsterdam
Bosence, D.W.J. (1983): Description and classification of rhodoliths (rhodoids, rhodolites).—In: Peryt, T.M. (Ed.): Coated Grains.—217–224. Berlin (Springer)
Brakel, W.H. (1977): Corallite variation inPorites and the species problem in corals.—Proc. 3rd Int. Coral Reef Symp.,1, 457–462, Miami
Braga, J.C. and Martin, J.M. (1996): Geometries of reef advance in response to relative sea-level changes in a Messinian (upper-most Miocene) fringing reef (Cariatiz reef, Sorbas Basin, SE Spain).—Sed. Geol.,107, 61–81, Amsterdam
Braga, J.C., Martin, J.M. and Riding, R. (1996): Internal structure of segment reefs:Halimeda algal mounds in the Mediterranean Miocene.—Geology,24/1, 35–38, Boulder
Budd, A.F., Johnson, K.G. and Potts, D.C. (1994): Recognizing morphospecies in colonial reef corals: I. Landmark-based methods.—Palaeobiology,20/4, 484–505, Washington
Camoin, G.F., Colonna, M., Montaggioni, L.F., Casanova, J., Faure, G. and Thomassin, B.A. (1997): Holocene sea level changes and reef development in the southwestern Indian Ocean.—Coral Reefs,16, 247–259, Berlin
Chafetz, H.S. (1986): Marine peloids: a product of bacterially induced precipitation of calcite.—Journ. Sed. Petr.,56, 812–817, Tulsa
Chevalier, J.P. (1961): Recherches sur les Madréporaires et les formations récifales miocènes de la Méditerranée occidentale.—Thèse. Mém. Soc. Géol. Fr., N. S. Paris, XL,93, 1–558, Paris
Colalongo, M.L., Di Grande, A., D'Onofrio, S., Giannelli, L., Iaccarino, S., Mazzei, R., Romeo, M. and Salvatorini, G. (1979): Stratigraphy of Late Miocene Italian sections straddling the Tortonian/Messinian boundary.—Boll. Soc. Paleont. It.,18/2, 258–302, Modena
Dabrio, C.J., Esteban, M. and Martin, J.M. (1981): The coral reef of Nijar, Messinian (Uppermost Miocene), Almeria Province, S. E. Spain.—Journ. Sed. Petr.,51/2, 521–539, Tulsa
Esteban, M. (1979): Significance of the Upper Miocene coral reefs of the Western Mediterranean.—Palaeogeogr., Palaeoclim., Palaeoec.,29, 169–188, Amsterdam
Esteban, M. (1996): An Overview of Miocene Reefs from Mediterranean Areas: General Trend and Facies Models.—In: Franseen, E.K., Estaban, M., Ward W.C. and Rouchy, J. (Eds.): Models for Carbonate Stratigraphy from Miocene Reef Complexes of Mediterranean Region.—SEPM Concepts in Sedimentology and Paleontology,5, 3–53, Tulsa
Focke, J.W. (1977): The effect of a potentially reef-building vermetid-coralline algal community on a eroding limestone coast, Curaçao, Netherland Antilles.—Proc. 3rd Int. Coral Reef Symp., 239–245, Miami
Franseen, E.K., Esteban, M., Ward, W.C. and Rouchy, J.M. (1996): Models for Carbonate Stratigraphy from Miocene Reef Complexes of Mediterranean Region.—SEPM Concepts in Sedimentology and Paleontology,5, 1–384, Tulsa
Ginsburg, R.N. and Schroeder, J.H. (1973): Growth and submarine fossilization of algal cup reefs, Bermuda.—Sedimentology,20, 575–614, Amsterdam
Grasso, M., Lentini, F. and Pedley, H.M. (1982): Late Tortonian-Lower Messinian (Miocene) palaeogeography, of SE Sicily: information from two new formations of the Sortino Group.—Sedim. Geol.,32, 279–300, Amsterdam
Grasso, M. and Pedley, H.M. (1989): Paleoenvironment of the Upper Miocene coral build-ups along the northern margins of the Caltanissetta Basin (Central Sicily)—Atti 3o Simposio di Ecologia e Paleoecologia delle Comunità Bentoniche, 373–389, Taormina
Hadfield, M.G., Kay, E.A., Gillett, M.U. and Lloyd, M.C. (1972): The Vermetidae (Mollusca, Gastropoda) of the Hawaiian Islands.—Mar. Biol.,12, 81–98, Berlin
Hine, A.C., Hallock P., Harris, M.W., Mullins H.T., Belknap D.F. and Jaap, W.C. (1988):Halimeda bioherms along an open seaway: Miskito Channel, Nicaragua Rise, SW Caribbean Sea.—Coral Reefs,6, 173–178, Berlin
Hughes, R.N. (1979): Coloniality in Vermetidae (Gastropoda)—In: Larwood, G. and Rosen, B.R. (Eds): Biology and Systematics of Colonial Organisms.—Systematics Ass. Spec. Vol.11, 243–253, London (Academic Press)
Insalaco, E. (1996): Upper Jurassic microsolenid biostromes of northern and central Europe: facies and depositional environment.— Palaeogeogr., Palaeoclim., Palaeoec.,121, 169–194, Amsterdam
Insalaco, E. (1998): The descriptive nomenclature and classification of growth fabrics in fossil scleractinian reefs.—Sed. Geol.,118, 159–186, Amsterdam
Jones, B. and Hunter, I.G. (1995): Vermetids Buildups from Grand Cayman, British West Indies.—J. Coast. Res.,11/4, 973–983, Fort Lauderdale, Florida
Keupp, H. and Bellas S.M. (2000): Neogene development of the sedimentary basins of NW Crete island, Chania Prefecture, South Aegean Arc System (Greece).—Berliner geowiss. Abh., E34, 3–117, Berlin
Laborel, J. (1986): Vermetid gastropods as sea level indicators.—In: Van de Plassche, O. (Ed.): Sea level research: a manual for the collection and evaluation of data.—Geo Books, 281–310, Norwich
Mankiewicz, C. (1988): Occurrence and paleoecologic significance ofHalimeda in late Miocene reefs, southeastern Spain.—Coral Reefs,6, 271–279, Berlin
Marshall, J.F. and Davies, P.J. (1988):Halimeda bioherms of the northern Great Barrier Reef.—Coral Reefs,6, 139–148, Berlin
Martin, J.M. and Braga, J.C. (1994): Messinian events in the Sorbas Basin in southeastern Spain and their implications in the recent history of the Mediterranean.—Sed. Geol.,90, 257–268, Amsterdam
Martin, J.M., Braga, J.C. and Riding, R. (1997): Late MioceneHalimeda algal-microbial segment reef in the marginal Mediterranean Sorbas Basin, Spain.—Sedimentology,44, 441–456, Amsterdam
Moisette, P. and Saint Martin, J.P. (1992): Upwelling and benthic communities in the Messinian of western Mediterranean—Paleontol. Evoluc.,24–25, 245–254, Sabadell
Montaggioni, L.F. (1999): Post glacial reef growth history in the Indo Pacific—Int. Symp. “Paleoceanology of reefs and carbonate platforms: Miocene to Modern”, Abstract book, 147, Aix-en-Provence
Montenat, C., Ott D'Estevou, P., Laziat, J.C. and Chapel, J. (1980). La signification des faunes marines contemporaines des évaporites messiniennes dans le SE de l'Espagne. Conséquences pour l'interprétation des conditions d'isolement de la Méditerranée occidentale.—Géol. Méd.,7/1, 81–90, Marseille
Neumann, A.C. and Macintyre, I. (1985): Reefs response to sea level rise: keep-up, catch-up or give-up.—Proc. 5th Int. Coral Reef Symp.,3, 105–110, Tahiti
Orme, R. and Riding, R. (1995):Halimeda Segment Reefs of the northern Great Barrier Reef.—British Sedimentological Research Group, 1995 Annual Meeting Abstract, 12–16, 64, Durham
Pedley, M. (1996a): Miocene reefs distribution and their association in the central Mediterranean region: an overview.—In: Franseen, E.K., Esteban, M., Ward, W.C. and Rouchy, J. (eds.): Models for Carbonate Stratigraphy from Miocene Reef Complexes of Mediterranean Region.—SEPM Concepts in Sedimentology and Paleontology,5, 73–87, Tulsa
Pedley, M. (1996b): Miocene reefs facies of the Pelagian Region (Central Mediterranean).—In: Franseen, E.K., Esteban, M., Ward, W.C. and Rouchy, J. (Eds.): Models for Carbonate Stratigraphy from Miocene Reef Complexes of Mediterranean Region.—SEPM Concepts in Sedimentology and Paleontology,5, 247–259, Tulsa
Pedley, H. and Grasso, M. (1994): A model for the Late Miocene reef tripolaceous associations of Sicily and its relevance to aberrant coral growth-forms and reduced biological diversity within the Paleomediterranean—Géol. Méd.,21/1–2, 109–121, Marseille
Pérès, J.M. and Picard, J. (1964): Noveau Manuel de Bionomie Bentique de la Mer Mediterranée.—Rec. Trav. Sta. Mar. Endoume,31, 1–137, Marseille
Perrin, C. (2000): changes of palaeozonation patterns within Miocene coral reefs, Gebel Abu Shaar, Gulf of Suez, Egypt.—Lethaia,33, 253–268, Oslo
Perrin, C., Bosence, D.W. and Rosen, B. (1995): Quantitative approaches to palaeozonation and palaeobathymetry of corals and coralline algae in Cenozoic reefs.—In: Bosence, D.W., Allison, P.A. (Eds.): Marine Palaeoenvironmental Analysis from Fossils.—Geol. Soc., Spec. Publ.,83, 181–229, London
Phipps, C.V. and Roberts, H.H. (1988): Seismic characteristics and accretion history ofHalimeda bioherms on Kalukalukuang bank, eastern Java Sea (Indonesia)—Coral Reefs,6, 149–159, Berlin
Pisera, A. (1985): Paleoecology and lithogenesis of the Middle Miocene (Badenian) algal vermetid reefs from the Roztocze Hills, south eastern Poland.—Acta Geol. Polon.,35/1–2, 89–155, Warszawa
Pomar, L. (1991): Reef geometries, erosion surfaces and high-frequency sea-level changes, upper Miocene Reef Complex, Mallorca, Spain.—Sedimentology,38, 243–269, Amsterdam
Pomar, L., Ward, W.C. and Green, D.G. (1996): Upper Miocene Reef Complex of the Llucmajor area, Mallorca, Spain.—In: Franseen, E.K., Esteban, M., Ward, W.C. and Rouchy, J. (Eds.): Models for Carbonate Stratigraphy from Miocene Reef Complexes of Mediterranean Region.—SEPM Concepts in Sedimentology and Paleontology,5, 191–225, Tulsa
Reitner, J. (1993): Modern cryptic microbialite/metazoan facies from Lizard Island (Great Barrier Reef, Australia) formation and concepts.—Facies,29, 3–40, Erlangen
Riding, R., Martin, J.M. and Braga, J.C. (1991): Coral-stromatolite reef framework, Upper Miocene, Almeria, Spain.—Sedimentology,38, 799–818, Amsterdam
Riegl, B. and Piller, W.E. (1997): Intra-colony variability of calice characteristics in RecentPorites lutea Edwards and Haime, 1916: implications for fossil identification.—Bol. R. Soc. Esp. Hist. Nat. (Sec. Geol.),91/1–4, 305–316, Madrid
Roberts, H.H., Aharon, P. and Phipps, C.V. (1988): Morphology and sedimentology ofHalimeda bioherms from the eastern Java Sea (Indonesia).—Coral Reefs,6, 161–172, Berlin
Roberts, H.H. and Macintyre, I.G. (1988): Preface toHalimeda Special Issue. Coral Reefs,6, 121, Berlin
Rosen, B.R. (1999): Paleoclimatic implications of the energy hypothesis from Neogene corals of the Mediterranean region—In: Agusti, J., Rook, L., Andrews, P. (eds.): The evolution of Neogene terrestrial ecosystems in Europe.—09–327, Cambridge (University Press)
Rosen, B., Aillud, G., Bosellini, F.R., Clack, N., Insalaco, E., Valldeperas, F.X. and Wilson, M. (in press): Platy coral assemblages: 210 million years of response to the limiting effect of depth, light and turbidity.—Proceedings of the 9th Int. Coral Reef Symp., Bali
Rouchy, J.M., Saint Martin, J.P., Maurin, A. and Bernet Rollande, M. (1986): Evolution et antagonisme des communautés bioconstructrices animales et végetalés à la fin du Miocène en Mediterranée occidentale: biologie et sédimentologie.—Bull. Centres Rech. Explor. Prod. Elf Aquitanie,10/2, 333–348, Pau
Ruggieri, G., Russo, A. and Bossio, A. (1977):Pokorniella italica (Ostracoda, Podocopida) nuova specie del Miocene superiore mediterraneo.—Boll. Soc. Paleont. It.,16/1, 129–136, Modena
Safriel, U.N. (1966): Recent vermetid formation on the Mediterranean coast of Israel.—Proc. Malac. Soc. Lond.,37, 27–34, London
Safriel, U.N. (1975): The Role of the Vermetid Gastropods in the Formation of Mediterranean and Atlantic Reefs.—Oecologia,20, 85–101, Berlin
Saint Martin, J.P. (1990): Les formations récifales coralliennes du Miocène supérieur d'Algérie et du Maroc.—Mém. Mus. Nat. Hist. Nat. (C),56, 1–366, Paris
Saint Martin, J.P. and André, J. (1992): Les construction coralliennes de la plateforme carbonatée messinienne de Malte (Méditerranée centrale)—Géol. Med.,19/3, 145–163, Marseille
Santisteban, C. (1981): Petrologia y sedimentologia de los materiales del Mioceno superior de la cuenca de Fortuna (Murcia) a la luz de la Teoria de la Crisis de Salinidad.—Unpublished Ph.D. Thesis, Universitat de Barcelona, 725 p., Barcelona
Savazzi, E. (1996): Adaptations of Vermetids and Siliquariid Gastropods.—Palaeontology,39, 157–177, London
Shier, D.E. (1969): Vermetid Reefs and Coastal Development in Ten Thousand Island, Southwest Florida.—Geol. Soc. America Bull.,80, 485–508, New York
Veron, J.E.N. and Pichon, M. (1982): Scleractinia of eastern Australia. Part IV. Family Poritidae.—Mon. Ser. Austr. Inst. Mar. Sci.,5, 1–159, Canberra
Vescogni, A. (2000): Evoluzione delle biocostruzioni a vermetidi e loro utilizzo come “markers” paleobatimetrici e paleoclimatici.—Giornale di Geologia, ser. 3a,62, 55–61, Bologna.
Woelkerling, W.J., Irvine, L.M. and Harvey, A.S. (1993): Growth-forms in non-geniculate coralline red algae (Corallinales, Rhodophyta).—Australian Systematics Botany,6, 571–637, Melbourne
Wood, R. (1999): Reef evolution.—414 p., Oxford (University Press)
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Bosellini, F.R., Russo, A. & Vescogni, A. The Messinian reef complex of the Salento Peninsula (southern Italy): Stratigraphy, facies and paleoenvironmental interpretation. Facies 47, 91–112 (2002). https://doi.org/10.1007/BF02667708
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DOI: https://doi.org/10.1007/BF02667708