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1 Pan-European Correlation of the Triassic 8th International Field Workshop TRIASSIC OF SOUTHEAST FRANCE (PROVENCE : Var & Alpes-Maritimes) Marc DURAND a, Jean-Paul CARON b & Hans HAGDORN c with contribution of José B. DIEZ-FERRERd September 4-8, 2011 a) 47 rue de Lavaux, F-54520, mada.durand@orange. fr b) 14-16 avenue de Fuveau, Allée Val brise 2, F-13013, [email protected] c) Muschelkalk Museum, D-74653 Ingelfingen, [email protected] d) Universidade de Vigo, SP-36200 Vigo, [email protected] The printed preliminary version was sponsored by the AGPT (Association des Géologues du Permien et du Trias) 2 General outlines of the French South-East Basin Marc DURAND The South-East Basin (Fig. 1) is one of the three great Mesozoic basins of France. It is limited to the west, along the Variscan Massif Central by a major fracture swarm (Cévennes Fault) trending SW-NE, going on, by the southern edge of the Jura Basin, up to the Swiss Alps. To the east and south- east, its infill was intensely affected by the Alpine and Pyrenean deformations respectively, so that the passage of this palaeogeographic domain to the Alpine area of sedimentation, with which it communicated, is difficult to specify. Most representations show a high zone towards the south, between the Maures and the Pyrenees, giving to the basin a roughly triangular shape (e.g. BAUDRIMONT & DUBOIS 1977). This morphology, which really prevailed during a part of the Jurassic, did not exist yet in the Triassic. As the palaeocurrents of the Buntsandstein and the biofacies of Muschelkalk show, the basin was open to the SW (Catalonia); moreover it is clear that the region of Toulon was then very close to the Nurra in NE Sardinia (RONCHI & DURAND 2002, CASSINIS et al. 2003). Fig. 7 Fig. 1 – Zones of outcrop of theTriassic series within the South-Est Basin. 3 On the western side of the basin, Triassic strata crop out mainly at the south-eastern edge of the Massif Central (crystalline basement) along the Vivarais (Ardèche) and Cévennes mountains. Pinching out to the west, on a rather short distance, they thicken to the east: from about 50 m above the outcropping basement, to 320 m in Balazuc well (AQUILINA et al. 1996) about 20 km eastwards, and 430 m in Valvignères well again 20 km further. Until now no borehole still reached the basement in the central part, where evaporites are particularly developed. Along the Ardèche margin the Triassic sedi- mentation began only during the Anisian. A reference section can be chosen in the Balazuc borehole (Fig. 2). The first marine deposits are sand prone : „Grès du Roubreau‟ Formation. Associated dolostones yielded bivalve fragments and Ladinian foraminifera. Mudrocks layers, more or less cemented by dolomite, yielded Chondrichthyan scales and conodonts. It is particularly noteworthy that the sole illustrated specimen of conodont from the whole western part of the basin (Fig. 3), ascribed to the Ladinian Pseudofurnishius huddlei (HIRSCH in COUREL et al. 1998), is a Tethyan taxon indicative of the Sephardic province (HIRSCH 1972) also known as „Westmediterran-Arabische Faunen- provinz‟ (KOZUR 1980). Nevertheless, another marine formation, representing the most continuous lithostrati- graphic marker : „Barre carbonatée médiane‟, 9 m thick on average, is located higher. Palynological results of the Balazuc borehole corroborated the previous stratigraphic data (palynology, micropaleontology, tetrapod palaeoichnology), confirming an Anisian- Ladinian age for the 'Grès du Roubreau', and dating the base of the 'Barre carbonatée médiane' at the Ladinian-Carnian boundary (FAUCONNIER et al. 1996). Fig. 2 – Reference section of the Balazuc well (Deep Geology of France program) for the Vivarais Edge (Ardèche) of the Massif Central. After COUREL Fig. 3 – Conodont from the Barre carbonatée et al. (1998) and COUREL & DEMATHIEU (2000). médiane. From FINELLE (1981 : pl.4-14). 4 It should be noticed that, in two wells on the Ardèche margin, remains of dasycladacean algae were revealed, by cathodoluminescence, in the „Argiles sulfatées supérieures‟ of Carnian age (CROS & ARBEY 1999). On the eastern side of the basin, the Triassic crops out, more widely, around the Maures- Estérel-Tanneron massif and the Mercantour-Argentera massif with its annex : the Dôme de Barrot. It is in this eastern region, where marine facies are best developed, that we shall limit the present field-trip (see figures 1, 4 and 7). Palaeogeographic relationships It was often appealed to a hypothetical „Burgundian Gate‟ to explain faunal immigrations from the Tethys towards the Germanic basin (e.g.: WAGNER 1956, BOIGK & SCHÖNEICH 1974, URLICHS & MUNDLOS 1985, HAGDORN et al. 1998, URLICHS 1999, POSENATO 2002a, KLUG et al. 2005, GÖTZ & LENHARDT 2011). Nevertheless, if some recent papers does not call any more upon it (e.g. MÁRQUEZ- ALIAGA et al. 2000, REIN 2008), it is partly because work completed within the framework of the Synthèse géologique du Sud-Est de la France (COUREL et al. 1984, LIENHARDT et al. 1984) had already shown, on the one hand, the unlikelihood of a fully marine communication with the Tethys by Burgundy during Anisian and Ladinian, and on the other hand, the need for a connexion via Switzerland as soon as the Anisian. The first assertion rests on the existence of two ecological barrier. One found expression in the lagoonal ‘Trigonodus Dolomite‟ facies (of the ‟Rottweil-Formation‟), at the top of the Upper Muschelkalk, stretching from southwestern Germany to the south-west of Vosges above the „Eperon bourguignon‟ (COUREL et al. 1973), and the other is represented by the „Eperon lyonnais‟ (COUREL et al. 1984), more in the south. The second assertion seems allowed, since another migration way was proposed in northern Switzerland, near the Alpenrhein depression (SZULC 2000), and named “Alemannic Gate” (KOZUR & BACHMANN 2010). Recent work specified its localization and showed its opening as soon as the earliest Anisian (GISLER et al. 2007). It is thus improbable that the Germanic Basin, limited by thresholds, and the basin of the South- East of France, more open on Tethys, underwent a same succession of environmental fluctuations. This is why stratigraphical correlations seem a priori easier with Mediterranean regions. During the Triassic, the currently emerged region nearest to Provence was that of Nurra (NW- Sardinia, Italy). In this relatively small area, above a „Buntsandstein‟ very comparable with that of Toulon (see Stop 4 of Monday 5th), crops out – parsimoniously and in complex tectonic structures – a cal- careous „Muschelkalk‟ divided into two main parts by a dolomitic-marl interval (POSENATO 2002a). At Monte Santa Giusta, it is estimated about 190 m thick by BARTUSCH (1985) versus about 60 m by CARILLAT et al. (1999). Biostratigraphy, based on palynomorphs and Tethyan conodonts (of which Carinella truempyi defined in Provence: see Stop 5 of Monday 5th ) allows to assume a Lower Ladinian to Lower Carnian age for that formation (CARILLAT et al.1999). The classical Punta del Lavatoio section (Alghero), which was recently recognized as overturned (POSENATO et al. 2002), exposes only a rather short segment, rich in macrofossils (POSENATO 2002b), corresponding more or less to the Provençal „Formation II‟ (Caron 1967a,b; see figure 8). At this place the coexistence of the ammonoids Ceratites (Austroceratites) toulonensis and Gevanites cornutus was noted by URLICHS and POSENATO (2002). 5 General outlines of the Buntsandstein in Provence and Alpes-Maritimes Marc DURAND On the regional scale there is no difficulty distinguishing the Buntsandstein Group which constitutes the base of the Mesozoic sedimentary pile in Provence. Although reduced in thickness (maximum 80 m) it crops out along a narrow, practically continuous belt from Sanary (SW) to Cannes (NE) (Fig. 4). It reflects a clear change from local drainage systems in several distinct basins – a characteristic of the Permian palaeogeography – to a single widespread system that is typical of the Triassic, and thus constitutes the major criterion used to define the „Buntsandstein‟ in France. It is noteworthy that, in Provence, the main Triassic palaeocurrents flowed to the SW, along the Maures Massif, that is – at least for the Toulon-Cuers area – in a direction opposite to the Permian palaeoflow (DURAND et al. 1989b, DURAND 1993). Fig. 4 – Overall sketch of the Buntsandstein (non marine basal Triassic) and Permian exposures in Provence. The Permian-Triassic Boundary The boundary betweeen the Permian and Triassic Systems can be observed in the field in many places in Provence and Alpes-Maritimes, with aspects changing over a short distance.Three different main types of contact can be distinguished in Provence (DURAND 2006 ; Fig. 5). 6 Fig. 5 – Schematic diagram showing the locations, within a Lower Triassic palaeogeographical context, of the three forms presented by the Permian-Triassic boundary in Provence. Not to scale. From DURAND (2006). In the „Sanary type‟, most common, the very even infra-Triassic surface is disconformably blanketed with a „basal‟ oligomictic orthoconglomerate composed of exclusively siliceous pebbles. The thickness of this „Poudingue de Port-Issol‟ (GLINZBOECKEL & DURAND 1984) is commonly about 1 m and reaches a maximum of 8 m at the type section. The systematic occurrence of ventifacts in it, joined to the lack of transverse supply (as shown by a decrease of pebble size towards the borders) testify that the depositional area underwent clearly arid conditions. Another very important distinctive feature of this formation is its sharp upper boundary, marking an abrupt change in depositional style. The appearance of many indices of biotic activity (especially caliche nodules) conveys a climatic evolution into less extreme conditions, of semi-arid type. The apparently rapid character of the recorded climate change is probably due to only a more or less significant depositional hiatus. It should be noted moreover, that several sections in the neighbourhood of Toulon (Fabregas, Solliès-Ville) show the development of a palaeosol at the expense of the uppermost conglomerate layers; in another place (La Garonne beach) the Buntsandstein begins directly with a discontinous dolocrete, and the Port-Issol Fm. does not exist. The „Gonfaron type‟, less frequent than the former, corresponds to an apparent transition from Permian to Triassic deposits because of a lack of any conglomerate (see Stop 2 of Tuesday 6th). The „Vidauban type‟, the least frequent, is that of a clearly angular unconformity (see Stop 3 of Tuesday 6th). Figure 5 shows that the three types of contact between the Permian and Triassic series noticed in Provence depend on their location being more and more distant from the axis of the Triassic depositional basin. Attention must be drawn to the fact that the apparent transition does not correspond to the shorter basal gap. Dating elements The Buntsandstein of the south-eastern part of the „Bassin du Sud-Est‟ encompasses only a limited number of stratigraphic formations (Fig 6), which will be described at the occasion of the visit on their outcrops. The main part, beginning in many places above pebble beds (with ventifacts) totally devoid of clues about biotic activity, is everywhere barren of fossils, with sometimes the exception of invertebrate traces (Scoyenia, Beaconites, Phycodes, Arenicoloides, etc.) deserving further study but without biochronological significance. 7 Fig. 6 – Stratigraphy of the basal detrital series of the eastern part of the South-East Basin. From DURAND & GAND (2007). The only palaeontological elements that enable dating of that unit are palynomorphs from the uppermost part, in the Toulon area (Sollès-Ville), near Cannes-Grasse (Pégomas), as well on the Dôme de Barrot, where the Triassic sandstones where classically reputed “Werféniens”. Their assemblages, in the course of revision (J.B. DIEZ), seems everywhere of early Anisian age (ADLOFF in DURAND et al. 1989b). Very comparable associations also represent the oldest Triassic palynofloras in the upper Buntsandstein of the NE Iberian Peninsula and the Balearic Islands (DIEZ et al. 2010). Moreover occasional occurrences of tetrapod footprints were also noted, although in general rather badly preserved with compared with the Permian ones ; they are mostly chirotheroid traces (Chirotherium, Brachychirotherium) with some Rhynchosauroides and Capitosauroides. They are much less discriminating than palynomorphs, but their stratigraphical ranges also encompass the early Anisian (DEMATHIEU & DURAND 1991). Since the Port-Issol Conglomerate corresponds to the uppermost part of a cycle deposited under very arid conditions, of Smithian age (DURAND 2006 ; BOURQUIN et al. 2007, 2011), one can point out that neither the presence of the Upper Permian (i.e. Lopingian) nor of the lowermost Triassic (i.e. Induan) are proven in Provence up to now (DURAND 2006). Thus the sub-Triassic unconformity represents there probably a hiatus estimated at 10 - 15 Ma. Palaeogeography The sedimentological study of Buntsandstein of the Dôme de Barrot (palaeocurrents, nature and size of the phenoclasts) and of neighbouring sectors led to the definition of a particular paleogeo- graphic entity: the „Domaine prébriançonnais‟ (DURAND et al. 1988), definitely distinct from the „Bas- Rhône rift‟ on the one hand and from the „Sillon Provençal‟ on the other hand (Fig. 7), all three consti- tuting an integral part to the future large South-East Mesozoic Basin. 8 Fig. 7 – Tentative palaeogeographic reconstitution, starting from the study of the Buntsandstein facies, of the oriental part of the South-East Mesozoic Basin at the beginning of the Middle Triassic (according to DURAND et al 1988, supplemented). The paleogeography considered herein can be integrated neither in the Permian tectono- sedimentary context, dominated by a distension N-S, nor within the framework of the Mesozoic opening of Ligurian Tethys. Indeed, the Tethysian rifting , initiated well east of the Mercantour, is characterized by a purely distensif mode, since the affected domain remained primarily marine ; in the South-East of France, it resulted in the appearance, during the Lias, of narrow tilted blocks restricting the lateral extension of detrital spreadings. On the other hand, the widespread „Prébriançonnais„ Triassic fans imply the formation of an epeirogenic doming located more to the west, and stopped by the collapse of the Bas-Rhône basin, which would correspond thus with the model of rift generated by a mantellic plume. Although the Triassic crustal movements are often regarded as the discrete precursors of the Tethysian rifting they seem rather to correspond to a distinct event, as testify the various “abortive rifts” known not only on the opposite margin of the Tethys but also apart from the fields of Jurassic oceanic opening. 9 General outlines of the Muschelkalk and Keuper of Provence Jean-Paul CARON Among all the sedimentary series of Provence, Triassic deposits was those which were studied the least as regards stratigraphy, although the “Conchylien” was reported since 1829 by A. BRONGNIART « près Toulon, le cap de Seine et le pied du Mont Faron ». Middle Triassic limestones crop out near the city of Toulon, the harbour and the military fortifications; they were exploited in quarries since the 17th century to provide construction materials (hardcores), while the Urgonian limestones were used for dimension stones. Most quarries were open in fossiliferous limestones of the Muschelkalk, in which are intercalated marly layers, having yielded a plenty of fossils. The Triassic succession, suggested by HAUG (1925) on the sheet „Toulon‟ of the geological map at the 1/50,000 scale was used as reference up to the second edition (CARON in GOUVERNET 1969). The detailed survey undertaken for this second edition showed the diversity of the Triassic formations and their complex structure related to their implication in the Pyrenean - Provençal tectonics (mainly Paleocene - Eocene). The reconstituted, and simplified, stratigraphic scale presented herein (Fig. 8), in the course of establishment for the third edition, highlights the main features of the middle and upper Triassic. Lower Muschelkalk There is no continuous outcrop showing the passage from the „Grès en plaquette de Solliès‟ to the overlying beds (t 3a) of the Lower Muschelkalk. They are marls, clays and gypsum, which can be observed only on occasions thanks to work of civil engeneering, excavation, drilling, etc…(CARON & DUROZOY 1966). These rocks, ductile and tectonicaly incompetent, made it possible the Mesozoic sedimentary cover to get loose from the thick detrital formations (Permian and Buntsandstein), transgressive on the Variscan basement of the Maures Massif, which constitute the tectonic tegument. The displacement of the cover caused planing, with ablation of these rocks in certain sectors and their accumulation into others; it is particularly the case of gypsum which one finds in lenses under the Lower Muschelkalk limestones. It is thus not possible to give the initial stratigraphic thickness of these deposits, of which the present structural thickness varies from few meters with more than 30 m, and which are affected by disharmonic folds. This t 3a unit constitutes the decollement zone Ø 1, whose extension is quasi- general in Provence. The following unit (t 3b) represents the first calcareous formation of the Triassic, which was never identified nor differentiated from the fossiliferous limestones in the Toulon area before the sixties (CARON 1968, 1969), but is present in the whole Provence, including the eastern and northern parts. It was mapped by the author on the sheets at 1/50,000 „Toulon‟ (GOUVERNET 1969), „Cuers‟ (BLANC et al. 1974) and „Brignoles‟ (MENNESSIER et al. 1979), including sectors having not been the subject of recent revisions. Its main features will be evoked on Stop 3a of Monday 5th.

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(PROVENCE : Var & Alpes-Maritimes). Marc DURAND a. , Jean-Paul CARON b. & Hans HAGDORN c with contribution of José B. DIEZ-FERRERd. September 4-8, 2011 a) 47 rue de Lavaux, F-54520, mada.durand@orange. fr b) 14-16 avenue de Fuveau, Allée Val brise 2, F-13013, [email protected].
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