Porifera-microbialites of the Lower Liassic (Northern Calcareous ...

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106 Garrison RE, Fischer AG (1969) Deep-water limestones and radiolarites of the Alpine Jurassic. In: Friedman GM (ed) Depositional Environments in Carbonate Rocks. Society of Economic Paleontologists and Mineralogists, Special Publication 14: 20-56 Gawlick H-J (1998) Obertriassische Brekzienbildung und Schollengleitung im Zlambachfaziesraum (Pötschenschichten) - Stratigraphie, Paläogeographie und diagenetische Überprägung des Lammeregg-Schollenkomplexes (Nördliche Kalkalpen, Salzburg). Jahrbuch der Geologischen Bundesanstalt Wien 141/2: 147-165 Gawlick H-J (2000) Paläogeographie der Ober-Trias Karbonatplattform in den Nördlichen Kalkalpen. Mitteilungen der Gesellschaft der Geologie- und Bergbaustudenten in Wien 44: 45-95 Germann K (1971) Mangan-Eisen-führende Knollen und Krusten in jurassischen Rotkalken der Nördlichen Kalkalpen. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte 1971: 133-156 Geyer OF (1962) Über Schwammgesteine (Spongiolith, Tuberolith, Spiculit und Gaizit). Hermann-Aldinger-Festschrift, Schweizerbart, Stuttgart, p. 51-59 Geyer OF (1977) Die “Lithiotis-Kalke” im Bereich der unterjurassischen Tethys. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen 153: 304-340 Göhner D (1980) “Covel dell’Angiolono”-ein mittelliassisches Lithiotis-Schlammbioherm auf der Hochebene von Lavarone (Provinz Trento, Norditalien). Neues Jahrbuch für Geologie und Paläontologie, Monatshefte 1980: 600-619 Golebiowski R, Braunstein RE (1988) A Triassic/Jurassic Boundary Section in the Northern Calcareous Alps (Austria). Berichte der Geologischen Bundesanstalt Wien 15: 39-46 Guex J, Bartolini A, Taylor D (2002) Discovery of Neophyllites (Ammonitina, Cephalopoda, Early Hettangian) in the New York Canyon sections (Gabbs Valley Range, Nevada) and discussion of the δ 13 C negative anomalies located around the Triassic-Jurassic boundary. Bulletin de Géologie de l’Université de Lausanne 355: 247-255 Hallam A (1981) The End-Triassic bivalve extinction event. Palaeogeography, Palaeoclimatology, Palaeoecology 35: 1-44 Hallam A (1989) The case for sea-level change as a dominant causal factor in mass extinction of marine invertebrates. Philosophical Transactions of the Royal Society, London B 325: 437- 455 Hallam A (1990) The end-Triassic mass extinction event. Geological Society of America, Special paper 247: 577-583 Hallam A (2002) How catastrophic was the end-Triassic mass extinction?. Lethaia 35: 147-157 Hallam A, Goodfellow WD (1990) Facies and Geochemical Evidence Bearing on the End- Triassic Disappearance of the Alpine Reef Ecosystem. Historical Biology 4: 131-138
References 107 Hallam A, Wignall, (1997) Mass extinctions and their aftermath. Oxford University Press, New York Harries PJ, Kauffman EG, Hansen TA (1996) Models for biotic survival following mass extinction. Geological Society, Special Publication 102: 41-60 Hautmann M (2004) Effect of end-Triassic CO2 maximum on carbonate sedimentation and marine mass extinction. Facies 50: 257-261 Heckel PH (1972) Possible inorganic origin for stromatactis in calcilutite mounds in the Tully Limestone, Devonian of New York. Journal of Sedimentary Petrology 42: 7-18 Heinrich R, Hartmann M, Reitner J, Schäfer P, Freiwald A, Steinmetz S, Dietrich P, Tiede J (1992) Facies Belts and Communities of the Arctic Vesterisbanken Seamount (Central Greenland Sea). Facies 27: 71-104 Hesselbo SP, Jenkyns HC (1995) A comparison of the Hettangian to Bajocian successions of Dorset and Yorkshire. In: Taylor PD (ed) Field Geology of the British Jurassic. Geological Society London, pp. 105-150 Hesselbo SP, Robinson SA, Surlyk F, Piasecki S (2002) Terrestrial and marine extinction at the Triassic-Jurassic boundary synchronized with major carbon-cycle perturbation. A link to initiation of massive volcanism? Geology 30/3: 251-254 Hoefs J (1997) Stable Isotope Geochemistry. Springer, Berlin Hongo Y, Nozaki Y (2001) Rare earth element geochemistry of hydrothermal deposits and Calyptogena shell from Iheya Ridge vent field, Okinawa Trough. Geochemical Journal 35: 347-354 Hooper JNA, Van Soest RWM (2002) Systema Porifera, A Guide to the Classification of Sponges. Kluwer Academic, Plenum Publishers, New York Ijima I (1926) Hexactinellida of the Siboga expedition. In: Weber M (ed) Uitkomsten op zoologisch, botanisch, oceanographisch et geologisch gebied versameld in Nederlansk Oost- Indie 1899-1900, 6: 1-138, Brill, Leiden Jurgan H (1969) Sedimentologie des Lias der Berchtesgadener Kalkalpen. – Geologische Rundschau 58: 464-501 Keupp H, Jenisch A, Herrmann R, Neuweiler F, Reitner J (1993) Microbial carbonate crusts – a key to the environmental analysis of fossil spongiolites?. Facies 29: 41-54 Kieslinger A (1964) Die nutzbaren Gesteine Salzburgs, Salzburg, Berglandbuch Krainer K, Mostler H (1997) Die Lias-Beckenentwicklung der Unkener Synklinale (Nördliche Kalkalpen, Salzburg) unter besonderer Berücksichtigung der Scheibelberg Formation. Geologisch-Paläontologische Mitteilungen Innsbruck 22: 1-41
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Porifera-microbialites of the Lower
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Abstract In the aftermath of the Tr
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Zusammenfassung Nach dem Aussterbee
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Content 1. Introduction ...........
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Introduction 9 1. Introduction In U
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Geological Setting 11 2. Geological
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Geological Setting 13 Fig. 2. Locat
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Methods 15 3. Methods In the Rot-Gr
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Localities (Facies and Sponge Analy
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54 and ferromanganese crusts. The b
Page 56 and 57: 56 5.1.1. The Sponge Fauna of the S
Page 58 and 59: 58 Skeleton: Lyssacinosid type with
Page 60 and 61: 60 Fig. 29a. Skeleton types and ass
Page 62 and 63: 62 new data from recent species to
Page 64 and 65: 64 sheltered by the adjacent sand d
Page 66 and 67: 66 In addition to the episodic sedi
Page 68 and 69: 68 found in the most condensed sect
Page 70 and 71: 70 5.2.1. The Sponge Fauna of the S
Page 72 and 73: 72 5.2.2. Diagenesis Sponge-dominat
Page 75 and 76: Fossil Record of Sponges 75 6. Foss
Page 77 and 78: Fossil Record of Sponges 77 Fig. 35
Page 83 and 84: Comparison with other Spiculites 83
Page 85: Comparison with other Spiculites 85
Page 88 and 89: 88 Hallam 1996; Hallam and Goodfell
Page 90 and 91: 90 From the Lower Liassic Kendlbach
Page 92 and 93: 92 At Steinplatte/Plattenkogel loca
Page 94 and 95: 94 8.2. Major and Trace Elements We
Page 96 and 97: 96 sediments. Due to this “contam
Page 98 and 99: 98 significance of microbial involv
Page 100 and 101: 100
Page 102 and 103: 102 � The Lower Liassic sediments
Page 104 and 105: 104 Böhm F (1992) Mikrofazies und
Page 108 and 109: 108 Krause FF, Scotese CR, Nieto C,
Page 110 and 111: 110 Olsen PE, Kent DV, Sues H-D, Ko
Page 112 and 113: 112 Schulze FE (1904) Hexactinellid
Page 114 and 115: 114 Wendt J (1969) Stratigraphie un
Page 116 and 117: Plate 1 Glasenbachklamm - Lower Lia
Page 118 and 119: Plate 2 Mühlstein-South - Hornstei
Page 120 and 121: Plate 3 Sonntagkendlgraben - Flecke
Page 122 and 123: Plate 4 Hochgern - Liassic sediment
Page 124 and 125: Plate 5 Scheibelberg - Type locatio
Page 126 and 127: Plate 6 Luegwinkel - Liassic sedime
Page 128 and 129: Plate 7 Moosbergalm - Slope and bas
Page 130 and 131: Plate 8 Tannhauser Berg - Liassic s
Page 132 and 133: Plate 9 Adnet / Rot-Grau-Schnöll Q
Page 134 and 135: Plate 10 Adnet / Rot-Grau-Schnöll
Page 144 and 145: Plate 15 Adnet / Lienbacher Quarry
Page 146 and 147: Plate 16 Adnet / Eisenmann Quarry -
Page 148 and 149: Plate 17 Steinplatte / Plattenkogel
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Plate 21 Diapir of Murguia / Spain
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Plate 22 Arctic Vesterisbanken Seam
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Supplement 1.1 (datas to Fig. 42) -
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Supplement 1.2 (datas to Fig. 43 +
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Supplement 2. (datas to Fig. 47) -
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Supplement 3.2 (datas to Fig. 46) -
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Supplement 4. - Energy Dispersive X
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Supplement 6. - Register of Localit
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Steinplatte/Fischer’s Coral Garde
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Publications Parts of this study ar
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Curriculum Vitae Geboren in Bremerh
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