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Współczesne głębokomorskie budowle węglanowe - nieznany świat podmorskich oaz

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EN
Modern deep-water carbonate buildups - the unknown world of submarine oases.
Języki publikacji
PL
Abstrakty
EN
Deep-marine carbonate buildups constitute one of the most spectacular and enigmatic features found on modern seafloors. Despite some characteristics shared by all the deep-marine carbonate buildups, they represent, in fact, several distinct types, which differ in terms of their geneses, as well as sedimentary, biotic and geochemical features. These structures can be roughly divided into hydrocarbon seep limestones, carbonate-built hydrothermal vents and deep-water coral reefs. The former group include carbonate concretions, lenses, mud mounds and mud volcanoes forming as a result of decrease in alkalinity, caused by an activity of methane-oxidizing microbes. The rare examples of hydrothermal-derived limestone columns, in turn, grow in response to mixing of ambient, cold seawater and warm, Ca2+-rich fluids originating from peridotite massifs. In contrast, growth of the deep-water coral reefs appears to be stimulated largely by hydrological and bathymetric constraints, whereas a potential input of fluid seepage is rather of subordinate importance in diagenetic lithification of these structures. Surprisingly, studies on deep-water carbonates may turn out to be relevant also for understanding the shallow-water carbonate factories, providing evidence, that abiotic factors are more important in marine limestone precipitation than previously thought.
Rocznik
Strony
325--332
Opis fizyczny
Bibliogr. 68 poz., rys.
Twórcy
  • Instytut Geoekologii i Geoinformacji, Uniwersytet im. Adama Mickiewicza, ul. Dzięgielowa 27, 61-680 Poznań, mjakub@amu.edu.pl
Bibliografia
  • 1.AGIRREZABALA L.M. 2009 - Mid-Cretaceous hydrothermal vents and authigenic carbonates in a transform margin, Basque-Cantabrian Basin (western Pyrenees): a multidisciplinary study. Sedimentology, 56: 969-996.
  • 2.BEAUCHAMP B. & SAVARD M. 1992 - Cretaceous chemosynthetic carbonate mounds in the Canadian Arctic. Palaios, 7: 434-450.
  • 3.BECKER E.L., CORDES E.E., MACKO S.A. & FISHER CH.R. 2009 - Importance of seep primary production to Lophelia pertusa and associated fauna in the Gulf of Mexico. Deep Sea Research. Part I: Oceanographic Research Papers, 56: 786-800.
  • 4.BEŁKA Z. 1994 - Carbonate mud buildups in the Devonian of the central Sahara: evidences for submarine hydrothermal venting. Prz. Geol., 42: 341-346.
  • 5.BEŁKA Z. 1998 - Early Devonian Kess-Kess carbonate mud mounds of the eastern Anti-Atlas (Morocco), and their relation to submarine hydrothermal venting. J. Sediment. Res., 68: 368-377.
  • 6.BEŁKA Z., BERKOWSKI B., EISENMANN P., DOPIERALSKA J. & SKOMPSKI S. 2003 - Fauna podmorskich źródeł hydrotermalnych z dewonu Maroka. Prz. Geol., 51: 246.
  • 7.BERKOWSKI B. 2006 - Vent and mound rugose coral associations from the Middle Devonian of Hamar Laghdad (Anti-Atlas, Morocco). Geobios, 39: 155-170.
  • 8.BITTER P.H., VON, SCOTT S.D. & SCHENK P.E. 1992 - Chemosynthesis: an alternate hypothesis for Carboniferous biotas in bryozoan/ microbial mounds, Newfoundland, Canada. Palaios, 7: 466-484.
  • 9.BRADLEY A.S., HAYES J.M. & SUMMONS R.E. 2009 - Extraordinary 13C enrichment of diether lipids at the Lost City Hydrothermal Field indicates a carbon-limited ecosystem. Geochim. Cosmochim. Acta, 73: 102-118.
  • 10.BRADLEY A.S. & SUMMONS R.E. 2010 - Multiple origins of methane at the Lost City Hydrothermal Field. Earth Planet. Sci. Lett., 297: 34-41.
  • 11.BUCHARDT B., ISRAELSON C., SEAMAN P. & STOCKMANN G. 2001 - Ikaite tufa towers in Ikka Fjord, southwest Greenland: their formation by mixing of seawater and alkaline spring water. J. Sediment. Res., 71: 176-189.
  • 12.CAMPBELL K.A. 2006 - Hydrocarbon seep and hydrothermal vent paleśnvironments and paleontology: past developments and future research directions. Palaeogeogr., Palaeoclim., Palaeścol., 232: 362-407.
  • 13.CAMPBELL K.A., FARMER J.D. & DES MARAIS D. 2002 - Ancient hydrocarbon seeps from the Mesozoic convergent margin of California: carbonate geochemistry, fluids and palaeśnvironments. Geofluids, 2: 63-94.
  • 14.CANET C., PROL-LEDESMA R.M., MELGAREJO J.-C. & REYES A. 2003 - Methane-related carbonates formed at submarine hydrothermal springs: a new setting for microbially-derived carbonates? Mar. Geol., 199: 245-261.
  • 15.DAVIES A.J., DUINEVELD G.C.A., LAVALEYE M.S.S., BERGMAN M.J.N., HAREN H., VAN & ROBERTS J.M. 2009 - Downwelling and deep-water bottom currents as food supply mechanisms to the cold-water coral Lophelia pertusa (Scleractinia) at the Mingulay Reef complex. Limnol. Oceanogr., 54: 620-629.
  • 16.DE MOL B., VAN RENSBERGEN P., PILLEN S., VAN HERREWEGHE K., VAN ROOIJ D., MCDONNELL A., HUVENNE V., IVANOV M., SWENNEN R. & HENRIET J.P. 2002 - Large deep- -water coral banks in the Porcupine Basin, southwest of Ireland. Mar. Geol., 188: 193-231.
  • 17.EICKMANN B., BACH W. & PECKMANN J. 2009 - Authigenesis of carbonate minerals in Modern and Devonian ocean-floor hard rocks. J. Geol., 117: 307-323.
  • 18.FENG D., CHEN D. & PECKMANN J. 2009 - Rare earth elements in seep carbonates as tracers of variable redox conditions at ancient hydrocarbon seeps. Terra Nova, 21: 49-56.
  • 19.FLÜGEL E. 2004 - Microfacies of carbonate rocks. Analysis, interpretation and application. Springer, Berlin.
  • 20.FOUBERT A., DEPREITER D., BECK T., MAIGNIEN L., PANNEMANS B., FRANK N., BLAMART D. & HENRIET J.-P. 2008 - Carbonate mounds in a mud volcano province off north-west Morocco: key to processes and controls. Mar. Geol., 248: 74-96.
  • 21.FREIWALD A., HÜHNERBACH V., LINDBERG B., WILSON J.B. & CAMPBELL J. 2002 - The Sula Reef Complex, Norwegian shelf. Facies, 47: 179-200.
  • 22.FREIWALD A. & ROBERTS J.M. (red.) 2005 - Cold-water corals and ecosystems. Springer, New York.
  • 23.FRÜH-GREEN G.L., KELLEY D.S., BERNASCONI S.M., KARSON J.A., LUDWIG K.A., BUTTERFIELD D.A., BOSCHI CH. & PROSKUROWSKI G. 2003 - 30 000 years of hydrothermal activity at the Lost City vent field. Science, 301: 495-498.
  • 24.GAILLARD CH., RIO M., ROLIN Y. & ROUX M. 1992 - Fossil chemosynthetic communities related to vents or seeps in sedimentary basins: the pseudobioherms of southeastern France compared to other world examples. Palaios, 7: 451-465.
  • 25.HENRIET J.P., DE MOLB., PILLEN S., VANNESTE M., VAN ROOIJ D., VERSTEEG W., CROKER P.F., SHANNON P.M., UNNITHAN V., BOURIAK S. CHACHKINE P. & BELGICA 97 SHIPBOARD PARTY 1998 - Gas hydrate crystals may help build reefs. Nature, 391: 648-649.
  • 26.HENRY L.-A. & ROBERTS J.M. 2007 - Biodiversity and ecological composition of macrobenthos on cold-water coral mounds and adjacent off-mound habitat in the bathyal Porcupine Seabight, NE Atlantic. Deep Sea Research. Part I: Oceanographic Research Papers, 54: 654-672.
  • 27.HOVLAND M. 1990 - Do carbonate reefs form due to fluid seepage? Terra Nova, 2: 8-18.
  • 28.HOVLAND M. 2008 - Deep-water coral reefs: unique biodiversity hot-spots. Springer, New York.
  • 29.JAMES N.P. 1979 - Introduction to carbonate facies models. [W:] Walker R.G. (red.) Facies Models. Can. Repr. Ser., 1: 105-107.
  • 30.JENSEN P., AAGAARD I., BURKE JR R.A., DANDO P.R., JØRGENSEN N.O., KUIJPERS A., LAIER T., O'HARA S.C.M. & SCHMALJOHANN R. 1992 - "Bubbling reefs" in the Kattegat: submarine landscapes of carbonate-cemented rocks support a diverse ecosystem at methane seeps. Mar. Ecol. Prog. Ser., 83: 103-112.
  • 31.JOACHIMSKI M.M., BUGGISCH W., MOUNJI D., BOURQUE P.-A. & SAVARD M.M. 1999 - Hydrothermal origin of Devonian conical mounds (kess-kess) of Hamar Lakhdad Ridge, Anti-Atlas, Morocco: comment and reply. Geology, 27: 863.
  • 32.KAIM A. 2009 - Ekosystemy chemosyntetyczne i ich zapis kopalny. Rocz. Muz. Ewol. Inst. Paleobiol. PAN, 1: 32-44.
  • 33.KELLEY D.S., KARSON J.A., BLACKMAN D.K., FRÜH-GREEN G.L., BUTTERFIELD D.A., LILLEY M.D., OLSON E.J., SCHRENK M.O., RŚ K.K., LEBON G.T., RIVIZZIGNO P. & THE AT3-60 SHIPBOARD PARTY 2001 - An off-axis hydrothermal vent field near the Mid-Atlantic Ridge at 30° N. Nature, 412: 145-149.
  • 34.KENNEDY M.J., CHRISTIE-BLICK N. & SOHL L.E. 2001 - Are Proterozoic cap carbonates and isotopic excursions a record of gas hydrate destabilization following Earth's coldest intervals? Geology, 29: 443-446.
  • 35.LAVOIE D. & CHI G. 2010 - An Ordovician "Lost City" - venting serpentinite and life oases on Iapetus seafloor. Can. J. Earth. Sci., 47: 199-207.
  • 36.LE GUILLOUX E., OLU K., BOURILLET J.F., SAVOYE B., IGLÉSIAS S.P. & SIBUET M. 2009 - First observations of deep-sea coral reefs along the Angola margin. Deep Sea Research. Part II: Topical Studies in Oceanography, 56: 2394-2403.
  • 37.LEIN A.Y., BOGDANOVAO.Y., BOGDANOV Y.A. & MAGAZINA L.I. 2007 - Mineralogical and geochemical features of authigenic carbonates on seepings and hydrothermal fields (by the examples of the Black Sea reefs and the mounds of the lost city field). Oceanology, 47: 537-553.
  • 38.LESICKI A. 1998 - Mesozoic barnacles (Crustacea: Cirripedia) and other relic species of the hydrothermal vent fauna versus the problem of its origin. Prz. Zool., 42: 135-155.
  • 39.LIEBETRAU V., EISENHAUER A. & LINKE P. 2010 - Cold seep carbonates and associated cold-water corals at the Hikurangi Margin, New Zealand: new insights into fluid pathways, growth structures and geochronology. Mar. Geol., 272: 307-318.
  • 40.LITTLE C.T.S. & VRIJENHOEK R.C. 2003 - Are hydrothermal vent animals living fossils? Trends. Ecol. Evol., 18: 582-588.
  • 41.LUDWIG K.A., KELLEY D.S., BUTTERFIELD D.A., NELSON B.K. & FRÜH-GREEN G. 2006 - Formation and evolution of carbonate chimneys at the Lost City Hydrothermal Field. Geochim. Cosmochim. Acta, 70: 3625-3645.
  • 42.MCARTHUR A.G. & TUNNICLIFFE A. 1998 - Relics and antiquity revisited in the modern vent fauna. [W:] Mills R.A. & Harrison K. (red.) Modern ocean floor processes and the geological record. Geol. Soc., London.
  • 43.MCCOLLOM T.M. & SEEWALD J.S. 2007 - Abiotic synthesis of organic compounds in deep-sea hydrothermal environments. Chem. Rev., 107: 382-401.
  • 44.MIGASZEWSKI Z.M. & GAŁUSZKA A. 1999 - Smokersy - tajemnice głêbin oceanów. Prz. Geol., 47: 175-180.
  • 45.MORTENSEN P.B., HOVLAND T., FOSSA J.H. & FUREVIK D.M. 2001 - Distribution, abundance and size of Lophelia pertusa coral reefs in mid-Norway in relation to seabed characteristics. J. Mar. Biol. Assoc. UK, 81: 581-597.
  • 46.NESBITT H.W., YOUNG G.M., BOSMAN S.A. & LONGSTAFFE F.J. 2009 - Oceanic spreading center-generated basaltic crust and associated sulfidic and carbonate-rich hydrothermal deposits in the Archean (ca. 3 Ga), North Spirit Lake greenstone belt, Ontario, Canada. GSA Bull., 121: 1562-1569.
  • 47.NEWMAN W.A. 1985 - The abyssal hydrothermal vent invertebrate fauna. A glimpse of antiquity? Bull. Biol. Soc. Wash., 6: 231-242.
  • 48.NOÉ S., TITSCHACK J., FREIWALD A. & DULLO W.-CH. 2006 - From sediment to rock: diagenetic processes of hardground formation in deep-water carbonate mounds of the NE Atlantic. Facies, 52: 183-208.
  • 49.OLU K., SIBUET M., HARMEGNIES F., FOUCHER J.-P. & FIALA- -MÉDIONI A. 1996 - Spatial distribution of diverse cold seep communities living on various diapiric structures of the southern Barbados prism. Prog. Oceanogr., 38: 347-356.
  • 50.ORCUTT B.N., JOYE S.B., KLEINDIENST S., KNITTEL K., RAMETTE A., REITZ A., SAMARKIN V., TREUDE T. & BOETIUS A. 2010 - Impact of natural oil and higher hydrocarbons on microbial diversity, distribution, and activity in Gulf of Mexico cold-seep sediments. Deep Sea Research. Part II: Topical Studies in Oceanography, 57: 2008-2021.
  • 51.PALANDRI J.L. & REED M.H. 2004 - Geochemical models of metasomatism in ultramafic systems: serpentinization, rodingitization, and sea floor carbonate chimney precipitation. Geochim. Cosmochim. Acta, 68: 1115-1133.
  • 52.PECKMANN J., LITTLE C.T.S., GILL F. & REITNER J. 2005 - Worm tube fossils from the Hollard Mound hydrocarbon-seep deposit, Middle Devonian, Morocco: Palaeozoic seep-related vestimentiferans? Palaeogeogr., Palaeoclim., Palaeoecol., 227: 242-257.
  • 53.PECKMANN J. & THIEL V. 2004 - Carbon cycling at ancient methane - seeps. Chem. Geol., 205: 443-467.
  • 54.PICHLER T. & VEIZER J. 2004 - The precipitation of aragonite from hallow-water hydrothermal fluids in a coral reef, Tutum Bay, Ambitle Island, Papua New Guinea. Chem. Geol., 207: 31-45.
  • 55.PORTMAN C., ANDREWS J.E., ROWE P.J., LEEDER M.R. & HOOGEWERFF J. 2005 - Submarine-spring controlled calcification and growth of large Rivularia bioherms, Late Pleistocene (MIS 5e), Gulf of Corinth, Greece. Sedimentology, 52: 441-465.
  • 56.PROL-LEDESMA R.M., DANDO P.R. & RONDE C.E.J., DE 2005 - Special issue on "shallow-water hydrothermal venting". Chem. Geol., 224: 1-4.
  • 57.RIDING R. 2002 - Structure and composition of organic reefs and carbonate mud mounds: concepts and categories. Earth-Sci. Rev., 58: 163-231.
  • 58.ROBERTS J.M., DAVIES A.J., HENRY L.A., DODDS L.A., DUINEVELD G.C.A., LAVALEYE M.S.S., MAIER C., SOEST R.W.M., VAN, BERGMAN M.J.N., HÜHNERBACH V., HUVENNE V.A.I., SINCLAIR D.J., WATMOUGH T., LONG D., GREEN S.L. & HAREN H., VAN 2009 - Mingulay reef complex: an interdisciplinary study of cold-water coral habitat, hydrography and biodiversity. Mar. Ecol. Prog. Ser., 397: 139-151.
  • 59.RONIEWICZ E. 1960 - Nowe spojrzenie na warunki powstawania biohermalnych utworów koralowych. Prz. Geol., 8: 436-437.
  • 60.RUSSELL M.J., HALL A.J. & MARTIN W. 2010 - Serpentinization as a source of energy at the origin of life. Geobiology, 8: 355-371.
  • 61.SCHLAGER W. 2003 - Benthic carbonate factories of the Phanerozoic. Int. J. Earth Sci., 92: 445-464.
  • 62.SORBY H.C. 1879 - The structure and origin of limestones. Proc. Geol. Soc. London, 35: 59-95.
  • 63.STANTON R.J. 1967 - Factors controlling shape and internal facies distribution of organic carbonate buildups. AAPG Bull., 51: 2462-2467.
  • 64.TEICHERT C. 1958 - Cold- and deep-water coral banks. AAPG Bull., 42, 1064-1082.
  • 65.TUNNICLIFFE V., JUNIPER S.K. & SIBUET M. 2003 - Reducing environments of the deep sea floor. [W:] Tyler P.A. (red.) Ecosystems of the world: the deep sea. Elsevier Press, Amsterdam.
  • 66.UNEP/GRID-Arendal 2008 - World ocean bathymetric map. UNEP/GRID-Arendal Maps and Graphics Library (http://maps.grida.no/go/ graphic/world-ocean-bathymetric-map). Dostêp: 20.11.2011 r.
  • 67.WEHRMANN L.M., TEMPLER S.P., BRUNNER B., BERNASCONI S.M., MAIGNIEN L. & FERDELMAN T.G. 2011 - The imprint of methane seepage on the geochemical record and early diagenetic processes in cold-water coral mounds on Pen Duick Escarpment, Gulf of Cadiz. Mar. Geol., 282: 118-137.
  • 68.WHITICAR M.J. 1999 - Carbon and hydrogen isotope systematics of bacterial formation and oxidation of methane. Chem. Geol., 161: 291-314.
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Bibliografia
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bwmeta1.element.baztech-article-BUS6-0035-0087
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