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The carbonates of the post-Variscan basins of Sardinia: the evolution from Carboniferous–Permian humid-persistent to Permian arid-ephemeral lakes in a morphotectonic framework

Published online by Cambridge University Press:  31 May 2019

Luca Giacomo Costamagna*
Affiliation:
Dipartimento di Scienze Chimiche e Geologiche, Via Trentino 51, 09127 Cagliari, Italy

Abstract

Late to post-Variscan sedimentary basins of Sardinia were influenced during Pennsylvanian to Permian times by two main tectono-sedimentary cycles: a Pennsylvanian to Cisuralian cycle represented mainly by dark limnic deposits, overlain by a Guadalupian to a possibly Lopingian cycle, mostly characterized by red-bed deposits. Lacustrine waterbodies developed in some sedimentary basins that were filled with siliciclastic to frequently early silicified carbonate deposits, depending on the climate and environmental conditions, landscape morphology and tectonic regime. The limnic successions of the lower tectono-sedimentary cycle were deposited in permanent, tens of metres deep lakes in deep, narrow tectonic strike-slip basins under a temperate to warm-humid climate. They started as lakes with terrigenous sedimentary input and developed minor carbonate deposits mainly at the end of their story. Conversely, the red-bed successions of the upper cycle were deposited in ephemeral, shallow playa lakes related to wider basins in an extensive alluvial plain under a hot and arid climate. Here, the siliciclastic sediments are intercalated with thin carbonate beds that are typical of a high evaporation rate. The evolution of the lake type could be related not only to a major climatic shift, but also to the changing morphotectonic conditions of the Variscan chain influencing the local microclimate. Comparisons with coeval successions in the Provence Basin, the Massif Central Aumance basin (France) and the Saar–Nahe Basin (Germany) show both similarities and differences between the basins.

Type
Original Article
Copyright
© Cambridge University Press 2019 

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References

Accardo, L, Marini, C and Sarria, E (1984) I giacimenti antracitiferi sardi. L’Industria Mineraria 1, 23–9.Google Scholar
Aldinucci, M, Dallagiovanna, G, Durand, M, Gaggero, L, Martini, IP, Pandeli, E, Sandrelli, F and Tongiorgi, M (2006) Late Paleozoic to Triassic continental deposits from Provence, Ligurian Alps and NW Tuscany. Field Trip Guidebook, International Meeting, Siena (Italy), 18–23 September 2006, 92 pp.Google Scholar
Arp, G (1995) Lacustrine bioherms, spring mounds, and marginal carbonates of the Ries-impact-crater (Miocene, Southern Germany). Facies 33, 3590.CrossRefGoogle Scholar
Arthaud, F and Matte, P (1977) Late Paleozoic strike-slip faulting in southern Europe and northern Africa: results of a right lateral shear zone between the Appalachians and the Urals. Geological Society of America Bulletin 88, 1305–20. doi: 10.1130/0016-7606 2.0.CO;2>CrossRefGoogle Scholar
Barca, S, Carmignani, L, Eltrudis, A and Franceschelli, M (1995) Origin and evolution of the Permian–Carboniferous basin of Mulargia lake (South-Central Sardinia, Italy) related to the Late-Hercynian extensional tectonics. Comptes Rendus de l’Academie des Sciences Paris 321, 171–8.Google Scholar
Barca, S and Costamagna, LG (2002) Analisi di facies e stratigrafia della successione permo?-triassica di Campumari-Coremò (Iglesiente, Sardegna SW). Bollettino della Società Geologica Italiana 122, 2545.Google Scholar
Barca, S and Costamagna, LG (2003) The Upper Carboniferous S. Giorgio succession (Iglesiente, SW Sardinia): stratigraphy, depositional setting and evolution of a Post-Hercynian molassic basin. Bollettino della Società Geologica Italiana, Special Volume 2, 8998.Google Scholar
Barca, S and Costamagna, LG (2005) Stratigrafia ed analisi di facies dei depositi permiani del Lago Mulargia (Sardegna sud-orientale): primi risultati. Geologica Romana 38, 1117.Google Scholar
Barca, S and Costamagna, LG (2006a) Stratigrafia, analisi di facies ed architettura deposizionale della successione permiana di Guardia Pisano (Sulcis, Sardegna SW). Bollettino della Società Geologica Italiana 125, 319.Google Scholar
Barca, S and Costamagna, LG (2006b) The Late Carboniferous to Early Triassic basins of Sardinia: relationships between depositional facies, climate and tectonic cycles. In International Conference on “Stratigraphy and Palaeogeography of Late- and Post-Hercynian Basins in the Southern Alps, Tuscany and Sardinia (Italy), and Comparisons with other Western Mediterranean Areas and Geodynamic Hypotheses”, 18–23 September 2006, Siena, Italy, Abstract, pp. 35–6.Google Scholar
Barca, S, Costamagna, LG and Del Rio, M(1994) Affioramenti permo-carboniferi e mesotriassici fra Porto Piscinas e Punta Acqua Durci (Arburese, Sardegna SW). Bollettino della Società Sarda di Scienze Naturali 30, 111.Google Scholar
Barca, S, Costamagna, LG, Janssen, S and Von Der Handt, A (2001) I bacini permiani tardo-ercinici della Sardegna centrale: nuove osservazioni paleogeografiche e tettoniche. In FIST – Geoitalia 2001, 3° Forum Italiano di Scienze della Terra, Riassunti. Fasc. 10, Chieti 2001, pp. 203–4.Google Scholar
Baucon, A, Ronchi, A, Felletti, F and Neto de Carvalho, C (2014) Evolution of crustaceans at the edge of the end-Permian crisis: ichnonetwork analysis of the fluvial succession of Nurra (Permian–Triassic, Sardinia, Italy). Palaeogeography, Palaeoclimatology, Palaeoecology 410, 74103. doi: 10.1016/j.palaeo.2014.05.034.CrossRefGoogle Scholar
Biddle, KT and Blick, NC (eds) (1985) Strike-Slip Deformation, Basin Formation, and Sedimentation. SEPM Special Publication no. 37, 386 pp.CrossRefGoogle Scholar
Boni, M and Iannace, A (1988) Epigenetic dolomitization and mineralization in SW Sardinia. In Actes du Colloque International “Mobilità et Concentration des Métaux de Base Dans les Coavertures Sédimentaires: Manifestations, Mécanismes, Prospection”, 28–30 March 1988, Paris, pp. 171–86.Google Scholar
Boni, M, Parente, G, Bechstad, Th, De Vivo, B and Iannace, A (2000) Hydrothermal dolomites in SW Sardinia (Italy): evidence for a widespread late Variscan fluid flow event. Sedimentary Geology 131, 181200.CrossRefGoogle Scholar
Boucot, AJ, Xu, C and Scotese, CR (2013) Phanerozoic Paleoclimate: An Atlas of Lithologic Indicators of Climate. SEPM Concepts in Sedimentology and Paleontology, Vol. 11, 478 pp.Google Scholar
Boy, JA, Haneke, J, Kowalczyk, G, Lorenz, V, Schindler, Th, Stollhofen, H and Thum, H (2012) Rotliegend im Saar-Nahe-Becken, am Taunus-Südrand und im nördlichen Oberrheingraben. In Stratigraphie von Deutschland X – Rotliegend (eds Lützner, H and Kowalczyk, G), pp. 254377. Schriftenreihe der Deutschen Gesellschaft für Geowissenschaften, SDGG 61.Google Scholar
Busson, G (1982) Le Trias comme période salifère. Geologische Rundschau 71, 857–80.CrossRefGoogle Scholar
Bustillo, MA (2010) Silicification of continental carbonates. In Carbonates in Continental Settings (eds Alonso-Zarza, A and Tanner, LH), pp. 153–74. Developments in Sedimentology, Vol. 62. Amsterdam: Elsevier.Google Scholar
Carmignani, L, Carosi, R, Di Pisa, A, Gattiglio, M, Musumeci, G, Oggiano, G and Pertusati, PC (1994) The Hercynian chain in Sardinia. Geodinamica Acta 7, 3147.CrossRefGoogle Scholar
Cassinis, G, Cortesogno, L, Gaggero, L, Pittau, P, Ronchi, A and Sarria, E (2000) Late Paleozoic continental basins of Sardinia: field trip guidebook. In International Field Conference on “The Continental Permian of the Southern Alps and Sardinia (Italy). Regional Reports and General Correlations”, 15–25 September 1999, Brescia, p. 116.Google Scholar
Cassinis, A, Cortesogno, L, Gaggero, L, Ronchi, A, Sarria, E, Serri, R and Calzia, P (2003a) Reconstruction of igneous, tectonic and sedimentary events in the latest Carboniferous – Early Permian Seui basin (Sardinia, Italy) and evolutionary model. Bollettino della Società Geologica Italiana, Special Volume 2, 99117.Google Scholar
Cassinis, G, Cortesogno, L, Gaggero, L, Ronchi, A and Valloni, R (1996) Stratigraphic and petrographic investigations into the Permo-Triassic continental sequences of Nurra (NW Sardinia). Cuadernos de Geologia Iberica 21 (Special Issue), 149–69.Google Scholar
Cassinis, G, Durand, M and Ronchi, A (2003b) Permian–Triassic continental sequences of Northwest Sardinia and South Provence: stratigraphic correlations and palaeogeographical implications. Bollettino della Società Geologica Italiana, Special Volume 2, 119–29.Google Scholar
Cassinis, G, Perotti, C and Ronchi, A (2013) Geological remarks on the Carboniferous–Permian continental successions of Southwestern Europe. In The Carboniferous–Permian Transition (eds Lucas, SG, Krainer, K and Schneider, JW), pp. 5763. New Mexico Museum of Natural History and Science Bulletin, Vol. 60.Google Scholar
Cassinis, G and Ronchi, A (2002) The (Late-) Post-Variscan continental successions of Sardinia. Rendiconti della Società Paleontologica Italiana 1, 169–76.Google Scholar
Cleal, CJ, Scanu, GG, Buosi, C, Pittau, P and Kustatscher, E (2016) Middle Pennsylvanian vegetation of the San Giorgio Basin, southern Sardinia (Italy). Geological Magazine 154, 1155–70. doi: 10.1017/S0016756816000765.CrossRefGoogle Scholar
Cocozza, T (1966) Il Permo-Carbonifero del bacino di San Giorgio (Iglesiente, Sardegna sud-occidentale). Memorie della Società Geologica Italiana 6, 607–42.Google Scholar
Comaschi Caria, I (1959) Le piante fossili della Sardegna. Rivista Italiana di Paleontologia Stratigrafica, Memoria 7, 1122.Google Scholar
Costamagna, LG (2011) Facies analysis, stratigraphy and petrographic data from the Permian Middle Triassic Cala Bona – Il Cantaro rock sections (Alghero, NW Sardinia, Italy): contribution to the post-Variscan Nurra basin evolution. Atti della Società Toscana di Scienze Naturali, Serie A 116, 6784.Google Scholar
Costamagna, LG (2012) Alluvial, aeolian and tidal deposits in the Lower to Middle Triassic “Buntsandstein” of NW Sardinia (Italy): a new interpretation of the Neo-Tethys transgression. Zeitschrift der Deutschen Gesellschaft für Geowissenschaften 163, 165–83. doi: 10.1127/1860-1804/2012/0163-0165.CrossRefGoogle Scholar
Costamagna, LG (2015) Middle Jurassic continental to marine transition in an extensional tectonics context: the Genna Selole Fm depositional system in the Tacchi area (Central Sardinia, Italy). Geological Journal 51, 722–36. doi: 10.1002/gj.26807.CrossRefGoogle Scholar
Costamagna, LG and Barca, S (2008) Depositional architecture and sedimentology of the Tuppa Niedda Conglomerates (Late Carboniferous, Arburese, SW Sardinia, Italy). Bollettino della Società Geologica Italiana 128, 625–36.Google Scholar
Courel, L, Bonnion, S, Gelard, JP and Paquette, Y (1989) Le bassin houiller permien de l’Aumance: bassin intramontagneux en distension sur failles réactivées. In Dinamique et Méthodes d’Étude des Basins Sédimentaires, pp. 179–95. Paris: Éditions Technip.Google Scholar
Del Rio, M (1973) Palinologia di un livello “permo-carbonifero” del bacino di San Giorgio (Sardegna sud-occidentale). Bollettino della Società Geologica Italiana 93, 485–94.Google Scholar
Dercourt, J, Gaetani, M, Vrielynck, B, Barrier, E, Biju-Duval, B, Brunet, MF, Cadet, JP, Crasquin, S and Sandulescu, M (eds) (2000) Atlas Peri-Tethys, Palaeogeographical Maps. Paris: CCGM-CGMW. 24 maps and explanatory notes, 269 pp.Google Scholar
Deroin, JP and Bonin, B (2003) Late Variscan tectonomagmatic activity in Western Europe and surrounding areas: the Mid-Permian Episode. Bollettino della Società Geologica Italiana, Special Volume 2, 169–84.Google Scholar
Dieni, I, Fischer, JC, Massari, F, Salard-Cheboldaeff, M and Vozenin-Serra, C (1983) La succession de Genna Selole (Baunei) dans le cadre de la paléogéographie mésojurassique de la Sardaigne orientale, Memorie di Scienze Geologiche, Padova 36, 117–48.Google Scholar
Durand, M (2008) Permian to Triassic continental successions in Southern Provence (France): an overview. Bollettino della Società Geologica Italiana 127, 697716.Google Scholar
Flügel, E (2004) Microfacies of Carbonate Rocks: Analysis, Interpretation and Application. Berlin: Springer, 980 pp.CrossRefGoogle Scholar
Fluteau, F, Besse, J, Broutin, J and Ramstein, G (2001) The Late Permian climate. What can be inferred from climate modelling concerning Pangea scenarios and Hercynian range altitude? Palaeogeography, Palaeoclimatology, Palaeoecology 16, 3971. doi: 10.1016/S0031-0182(00)00230-3 CrossRefGoogle Scholar
Fondi, R (1980) Orme di microsauri nel Carbonifero superiore della Sardegna. Memorie della Società Geologica Italiana 20, 347–56.Google Scholar
Fontana, D, Neri, C, Ronchi, A and Stefani, C (2001) Stratigraphic architecture and composition of the Permian and Triassic siliciclastic succession of Nurra (North-Western Sardinia). Natura Bresciana, Annali del Museo Civico di Scienze Naturali Brescia Monografia 25, 149–61.Google Scholar
Fouch, TD and Dean, WE (1982) Lacustrine and associated clastic depositional environment. In Sandstone Depositional Environments (eds Sholle, PA and Spearing, D), pp. 87114. American Association of Petroleum Geologists Memoir 31.Google Scholar
Freytet, P, Galtier, J, Schneider, J, Ronchi, A, Tintori, A and Wernerburg, R (2002) Early Permian biota from Southeastern Sardinia (Ogliastra and Gerrei). Rendiconti della Società Paleontologica Italiana 1, 169–76.Google Scholar
Freytet, P, Lebreton, ML and Paquette, Y (1992) The carbonates of the Permian Lakes of North Massif Central, France. Carbonates and Evaporites 7, 122–31.CrossRefGoogle Scholar
Freytet, P, Toutin-Morin, N, Broutin, J, Debriette, P, Durand, M, El Wartiti, M, Gand, G, Kerp, H, Orzag, F, Paquette, Y, Ronchi, A and Sarfati, J (1999) Paleoecology of non-marine algae and stromatolites: Permian of France and adjacent countries. Annales de Paléontologie 85 (2), 99–53.CrossRefGoogle Scholar
Gaetani, M, Arche, A, Kiersnowski, H, Chuvachov, B, Crasquin, S, Sandulescu, M, Seghedi, A, Zagorchev, I, Poisson, A, Hirsch, F, Vaslet, D, Le Metour, J, Ziegler, M, Abbate, E, Ait-Brahim, L, Barrier, E, Bouaziz, S, Bergerat, F, Brunet, MF, Cadet, JP, Stephenson, R, Guezou, JC, Jabaloy, A, Lepvrier, C and Rimmele, G (2000) Map 3: Wordian. In Atlas Peri-Tethys, Palaeogeographical Maps (eds Dercourt, J, Gaetani, M, B Vrielynck, E Barrier, B Biju-Duval, MF Brunet, JP Cadet, S Crasquin and M Sandulescu). Paris: CCGM-CGMW.Google Scholar
Gaggero, L, Gretter, N, Langone, A and Ronchi, A (2017) U–Pb geochronology and geochemistry of Late Paleozoic volcanism in Sardinia (Southern Variscides). Geoscience Frontiers 1, 122. doi: 10.1016/j.gsf.2016.11.015 Google Scholar
Gasperi, G and Gelmini, R (1979) Ricerche sul Verrucano: 4 – il Verrucano della Nurra (Sardegna nord-occidentale). Memorie della Società Geologica Italiana 20, 215–31.Google Scholar
Korsch, RJ and Schäfer, A (1995) The Permo-Carboniferous Saar-Nahe basin, south-west Germany and north-east France: basin formation and deformation in a strike-slip regime. Geologische Rundshau 84, 293318.CrossRefGoogle Scholar
La Marmora, A (1857) Voyage en Sardaigne, ou Description Statistique, Physique et Politique de cette Ile. Vol. III e IV + Atlante. Bocca: Turin. Trad. Italiana del Prof. V. Martelli, Cagliari, 1927.Google Scholar
Lovisato, D (1884) Nota sopra il Permiano ed il Triassico della Nurra in Sardegna. Bollettino del Reale Comitato Geologico d’Italia 15, 305–24.Google Scholar
Marchetti, L, Petti, FM, Zoboli, D and Pillola, GL (2018) Vertebrate and invertebrate trace fossils in the Late Pennsylvanian (Carboniferous) fluvio-lacustrine San Giorgio Basin (South-West Sardinia): remarks on the oldest continental ichnoassociation of Italy. Ichnos 25, 94105. doi: 10.1080/10420940.2017.1337572 CrossRefGoogle Scholar
Massari, F (1986) Some thoughts on the Permo-Triassic evolution of the south-alpine area. Memorie della Società Geologica Italiana 34, 179–88.Google Scholar
McCann, T (ed.) (2008) The Geology of Central Europe. Vol. 1: Precambrian and Palaeozoic; Vol. 2: Mesozoic and Cenozoic. London: Geological Society of London, 1449 pp.Google Scholar
McCann, T, Pascal, C, Timmerman, MJ, Krzywiec, P, Lopez-Gomez, J, Wetzel, A, Krawczyk, CM, Rieke, H and Lamarche, J (2006) Post-Variscan (end Carboniferous – Early Permian) basin evolution in Western and Central Europe. In European Lithosphere Dynamics (eds Gee, DG and Stephenson, RA), pp. 355–88. Geological Society of London Memoirs 32.Google Scholar
Muttoni, G, Kent, DV, Garzanti, E, Brack, P, Abrahamsen, N and Gaetani, M (2003) Early Permian Pangea ‘B’ to Late Permian Pangea ‘A’. Earth and Planetary Science Letters 215, 379–94.CrossRefGoogle Scholar
Olsen, PE (1991) Tectonic, climatic and biotic modulation of lacustrine ecosystems – examples from Newark Supergroup of Eastern North America. In Lacustrine Basin Exploration: Case Studies and Modern Analogs (ed. Katz, B), pp. 209–24. American Association of Petroleum Geologists Memoir 50.Google Scholar
Pecorini, G (1974) Nuove osservazioni sul Permo-Trias di Escalaplano (Sardegna sud-orientale). Bollettino della Società Geologica Italiana 93, 991–9.Google Scholar
Pillola, GL (1990) Lithologie et trilobites du Cambrien inferieur du SW de la Sardaigne (Italie): implications palèobiogèographiques. Comptes Rendus de l’Acadèmie des Sciences Paris 310, 321–8.Google Scholar
Pittau, P, Barca, S, Cocherie, A, Del Rio, M, Fanning, M and Rossi, P (2002) Le bassin permien de Guardia Pisano (SW Sardaigne, Italie): palynostratigraphie, paléophytogéographie, corrélations et âge radiométrique des produits volcaniques associés. Geobios 35, 561–80.CrossRefGoogle Scholar
Pittau, P and Del Rio, M (2002) Palynofloral biostratigraphy of the Permian and Triassic sequences of Sardinia. Rendiconti della Società Paleontologica Italiana 1, 169–76.Google Scholar
Pittau, P, Del Rio, M and Funedda, A (2008) Relationships between plant communities characterization and basin formation in the Carboniferous–Permian of Sardinia. Bollettino della Società Geologica Italiana 127, 637–53.Google Scholar
Ronchi, A (2001) Upper Paleozoic and Triassic continental deposits of Sardinia: a stratigraphic synthesis. Natura Bresciana. Annali del Museo Civico di Scienze Naturali. Brescia Monografia 25, 139–48.Google Scholar
Ronchi, A, Broutin, J, Diez, JB, Freytet, P, Galtier, J and Lethiers, F (1998) New paleontological discoveries in some Early Permian sequences of Sardinia. Biostratigraphic and paleogeographic implications. Comptes Rendus de l’Academie des Sciences Paris 327, 713–9.Google Scholar
Ronchi, A, Cassinis, G, Durand, M, Fontana, C, Oggiano, G and Stefani, C (2011) Stratigrafia ed analisi di facies della successione continentale permiana e triassica della Nurra: confronti con la Provenza e ricostruzione paleogeografica. Geological Field Trips 3, 43 pp.CrossRefGoogle Scholar
Ronchi, A and Falorni, P (2004) Formazione di Rio su Luda. Carta Geologica d’Italia scala 1:50.000. Catalogo delle Formazioni. Unità Validate (a cura della Commissione Italiana di Stratigrafica). Quaderni serie III. 7 (fasc. V), 155–9.Google Scholar
Ronchi, A, Sacchi, E, Romano, M and Nicosia, U (2014) A huge caseid pelycosaur from north-western Sardinia and its bearing on European Permian stratigraphy and palaeobiogeography. Acta Palaeontologica Polonica 56, 723–38.CrossRefGoogle Scholar
Ronchi, A, Sarria, E and Broutin, J (2008) The “Autuniano Sardo”: basic features for a correlation through the Western Mediterranean and Paleoeurope. Bollettino della Società Geologica Italiana 127, 655–81.Google Scholar
Roscher, M and Schneider, JW (2006) Permo-Carboniferous climate: Early Pennsylvanian to Late Permian climate development of Central Europe in a regional and global context. In Non-Marine Permian Biostratigraphy and Biochronology (eds Lucas, SG, Cassinis, G and Schneider, JW), pp. 95136. Geological Society of London, Special Publication no. 265.Google Scholar
Rossi, Ph., Oggiano, G and Cocherie, A (2009) A restored section of the “southern Variscan realm” across the Corsica–Sardinia microcontinent. Comptes Rendus Geoscience 341, 224–38. doi: 10.1016/j.crte.2008.12.005 CrossRefGoogle Scholar
Sarria, E and Serri, R (1986) Tettonica compressiva tardopaleozoica nel bacino antracitifero di Seui (Sardegna centrale). Rendiconti della Società Geologica Italiana 9, 710.Google Scholar
Sass, E and Bein, A (1988) Dolomites and salinity: a comparative geochemical study. In Sedimentology and Geochemistry of the Dolostones (eds Shukla, V and Baker, PA), pp. 223–33. SEPM Special Publication no. 43.CrossRefGoogle Scholar
Schäfer, A (2005) Sedimentologisch-numerisch begründeter stratigraphischer Standard fur das Permo-Karbon des Saar-Nahe-Beckens. In Deutsche Stratigraphische Kommission, Stratigraphie von Deutschland, V: Das Oberkarbon (Pennsylvanium) in Deutschland (ed. Wrede, V), pp. 369–94. Courier Forschungsinstitut Senckenberg no. 254.Google Scholar
Schäfer, A (2008) Dyas Field Trip, Saar-Nahe Basin, 29–31 May 2008. Bonn: Steinmann Institute, 63 pp.Google Scholar
Schäfer, A (2012) Lacustrine environments in Carboniferous–Permian Saar-Nahe Basin, southwest Germany. In Lacustrine Sandstone Reservoirs and Hydrocarbon Systems (eds Baganz, OW, Bartov, Y, Bohacs, K and Nummedal, D), pp. 367–84. American Association of Petroleum Geologists Memoir 95.Google Scholar
Schäfer, A and Korsch, RJ (1998) Formation and fill of the Saar-Nahe basin (Permo-Carboniferous, Germany). Zeitschrift der Deutschen Geologischen Gesellschaft 149, 233–69.Google Scholar
Schäfer, A and Stapf, KRG (1978) Permian Saar–Nahe basin and recent Lake Constance (Germany): two environments of lacustrine algal carbonates. In Modern and Ancient Lake Sediments (eds Matter, A and Tucker, ME), 81107. International Association of Sedimentologists, Special Publication no. 2. Oxford: Blackwell Scientific Publications.Google Scholar
Schneider, J and Romer, RL (2010) The Late Variscan Molasses (Late Carboniferous to Late Permian) of the Saxo-Thuringian Zone. In Pre-Mesozoic Geology of Saxo-Thuringia – From the Cadomian Active Margin to the Variscan Orogen (eds Linnemann, U andRomer, RL), pp. 323–46. Stuttgart: Schweizerbart Science Publishers.Google Scholar
Talbot, MR and Allen, PA (1996) Lakes. In Sedimentary Environments: Processes, Facies and Stratigraphy (ed. Reading, HG), pp. 83–24. Oxford: Blackwell.Google Scholar
Toutin-Mourin, N (1985) Les depots carbonates lacustre et palustres du Permian provençal: differences et significations. Comptes Rendus de l’Academie des Sciences Paris 301, 1423–8.Google Scholar
Toutin-Mourin, N (1992) The Permian carbonates in Provence (Southeastern France). Carbonates and Evaporites 7, 108–21.CrossRefGoogle Scholar
Vai, GB (1991) Paleozoic strike-slip pulses and palaeogeography in the circum-Mediterranean Tethyan realm. Palaeogeography, Palaeoclimatology, Palaeoecology 87, 233–52. doi: 10.1016/0031-0182(91)90137-G CrossRefGoogle Scholar
Vai, GB (2003) Development of the palaeogeography of Pangaea from Late Carboniferous to Early Permian. Palaeogeography, Palaeoclimatology, Palaeoecology 196, 125–55. doi: 10.1016/S0031-0182(03)00316-X CrossRefGoogle Scholar
Vai, GB and Izart, A (2000 a) Moscovian In Atlas Peri-Tethys, Palaeogeographical Maps, Explanatory Notes (coord. Crasquin, S), pp. 110. Paris: CCGM-CGMW. Google Scholar
Vai, GB and Izart, A (2000 b). Artinskian In Atlas Peri-Tethys, Palaeogeographical Maps, Explanatory Notes (coord. Crasquin, S), pp. 1118. Paris: CCGM-CGMW.Google Scholar
Vardabasso, S (1966) Il Verrucano sardo. In Atti del Symposium sul Verrucano: Pisa, Settembre 1965. Società Toscana di Scienze Naturali, pp. 293310.Google Scholar
Werneburg, R, Ronchi, A and Schneider, J (2007) The Early Permian brachiosaurids (Amphibia) of Sardinia (Italy): systematic palaeontology, palaeoecology, biostratigraphy and palaeobiogeographic problems. Palaeogeography, Palaeoclimatology, Palaeoecology 252, 383404. doi: 10.1016/j.palaeo.2007.03.048 CrossRefGoogle Scholar
Ziegler, PA (1990) Geological Atlas of Western and Central Europe, 2nd Edition. The Hague: Shell Internationale Petroleum Maatschappij B.V, 240 pp., 56 pls.Google Scholar
Ziegler, PA (1993) Late Paleozoic – Early Mesozoic plate reorganization: evolution and demise of the Variscan fold belt. In Pre-Mesozoic Geology in the Alps (eds Von Raumer, JF and Neubauer, F), pp. 171201. Berlin: Springer-Verlag.Google Scholar
Ziegler, PA and Stampli, GM (2001) Late Paleozoic–Early Mesozoic plate boundary reorganization: collapse of the Variscan orogen and opening of the Neotethys. Natura Bresciana, Annali del Museo Civico di Scienze Naturali, Brescia Monografia 25, 1734.Google Scholar