Marine Early Triassic Osteichthyes from Spiti, Indian Himalayas

Marine Early Triassic Osteichthyes from Spiti, Indian Himalayas

Swiss J Palaeontol (2016) 135:275–294 DOI 10.1007/s13358-015-0098-6 Marine Early Triassic Osteichthyes from Spiti, Indian Himalayas 1 1 1 1 Carlo Romano • David Ware • Thomas Bru¨hwiler • Hugo Bucher • Winand Brinkmann1 Received: 12 March 2015 / Accepted: 11 August 2015 / Published online: 28 September 2015 Ó Akademie der Naturwissenschaften Schweiz (SCNAT) 2015 Abstract A new, marine osteichthyan (bony fish) fauna strata of other localities. The study of Early Triassic fish from the Early Triassic of northern India is presented. The assemblages, including the presented one, is fundamental material was collected in situ at localities within Pin Valley for our understanding of the great osteichthyan diversifi- (Lahaul and Spiti District, Himachal Pradesh, India) and is cation after the Late Permian mass extinction event. dated as middle-late Dienerian (one specimen possibly earliest Smithian). The new ichthyofauna includes a lower Keywords Neotethys Á Northern Indian Margin Á jaw of the predatory basal ray-finned fish Saurichthys,a Gondwana Á Anoxia Á Biotic recovery Á Urohyal nearly complete specimen of a parasemionotid neoptery- gian (cf. Watsonulus cf. eugnathoides), as well as further Abbreviations articulated and disarticulated remains (Actinopterygii CMNFV Canadian Museum of Nature (Fossil indet., Actinistia indet.), and thus comprises the most Vertebrate), Ottawa, Canada complete Triassic fish fossils known from the Indian sub- MNHN.F Muse´um National d’Histoire Naturelle, Paris, continent. Saurichthys is known from many Triassic France localities and reached a global distribution rapidly after the PIMUZ Pala¨ontologisches Institut und Museum, Late Permian mass extinction event. Parasemionotidae, a Universita¨tZu¨rich, Zu¨rich, Schweiz species-rich family restricted to the Early Triassic, also achieved widespread distribution during this epoch. Com- parison of the Spiti material with other parasemionotid species reveals similarities with Watsonulus eugnathoides from Madagascar. However, taxonomic ambiguities within Introduction Parasemionotidae prevent a specific attribution of the Spiti specimen. The new material also includes an isolated Bony fishes flourished in the wake of the Late Permian actinistian urohyal exhibiting morphology distinct from mass extinction event, reaching a distinct diversity peak in any previously described urohyal. Marine Dienerian black the Middle Triassic (e.g. Romano et al. 2014a; Scheyer shale deposited on continental shelves are common not et al. 2014; Tintori et al. 2014; Friedman 2015). While only in the Himalayas but also in other geographic regions. research on Middle Triassic fishes recently experienced a Anoxic depositional settings provide ideal preservational renaissance following the discovery of new fossiliferous conditions for vertebrate fossils, suggesting that additional assemblages (e.g. Luoping biota, South China; Hu et al. ichthyofaunas could still be discovered in marine Dienerian 2010), knowledge of Early Triassic ichthyofaunas has been improving at a much slower pace. One reason for this discrepancy is the remote location of classical Early Tri- & Carlo Romano assic fish Lagersta¨tten, i.e. Greenland, Madagascar, Spits- [email protected] bergen (Svalbard, Norway), and British Columbia 1 Palaeontological Institute and Museum, University of Zurich, (Canada), implicating logistically difficult and often Karl Schmid-Strasse 4, 8006 Zurich, Switzerland expensive fieldwork (Scheyer et al. 2014). Moreover, for 276 C. Romano et al. most of these Lagersta¨tten the pinnacle of research took subdivision of Tozer 1965). In 2010, additional fieldwork place several decades ago (e.g. Stensio¨ 1921, 1925, 1932; was conducted by members of the PIMUZ to explore the Piveteau 1934, 1939–1940; Nielsen 1936; Lehman 1952; fish richness of Dienerian strata at three selected localities Lehman et al. 1959; Beltan 1968) and many of the near the villages of Guling, Mud, and Tilling (Pin Valley, described taxa are in need of revision and/or lack detailed Fig. 1). The excursion was successful and yielded an biostratigraphic information. Even though other localities additional articulated individual as well as numerous yielding marine and freshwater bony fishes of Early Tri- fragmentary remains. The material recovered during the assic age are frequent (e.g. Lo´pez-Arbarello 2004; Brink- 2009 and 2010 expeditions is curated by the PIMUZ. mann et al. 2010; Romano et al. 2014a), most of them have All specimens were found in situ within the lower part not proven to be rich in well-preserved fossils. A geo- of the Limestone and Shale Member of the Mikin Forma- graphic province that has a particularly poor record of tion, which is dated as middle Dienerian to earliest Smi- Triassic fishes in spite of the widespread occurrences of thian on the basis of ammonoids (e.g. Bru¨hwiler et al. suitable strata is the Himalayan Range (Deecke 1927; 2010; Ware et al. 2015, in production a; Fig. 2). The Chang and Miao 2004). stratigraphic interval from which the fishes come from is Here we present a previously unknown Early Triassic often referred to as the ‘‘Meekoceras beds’’ (e.g. Krafft and marine bony fish fauna from Pin Valley (Lahaul and Spiti Diener 1909), the ‘‘Gyronites beds’’ (e.g. Krystyn et al. District, Himachal Pradesh, India), a collection area which 2004) or the ‘‘Ambites beds’’ (Bru¨hwiler et al. 2010). It has the potential for further discoveries. Within Gondwana, consists of black shale layers rich in organic matter and the present-day Indian subcontinent includes some of the pyrite with a few intercalated tempestitic limestone beds largest numbers of sites producing Early Triassic chon- and large, early diagenetic, calcareous concretions (for drichthyan and osteichthyan remains, but most localities references and further details concerning the lithostratig- yield only microfossils or rare and incomplete larger raphy of the Dienerian of Spiti see Ware et al. in produc- specimens, often with very limited biochronostratigraphic tion a). Articulated fish fossils usually occur in calcareous age constraints (see ‘‘Discussion’’). The new ichthyofauna concretions, whereas the intercalated black shale layers from Spiti not only includes the most complete macrofos- frequently yield isolated remains, such as bones or sils ever described from the Triassic of India (both marine incomplete fins. Black shale is typically deposited in an and freshwater), it is also complemented with a detailed anoxic, reducing environment on the outer platform. Dur- biostratigraphic framework based on ammonoids (Bru¨h- ing the Early Triassic, the study area was situated on the wiler et al. 2010; Ware et al. 2015, in production a, b) and northern margin of Gondwana (Neotethys realm) at a conodonts (e.g. Goel 1977; Krystyn et al. 2004; Goude- palaeolatitude of ca. 30°S (Fig. 1a). mand 2010, 2014). Future excavations in Spiti and neigh- Within the Spiti Subdistrict, outcrops of the Lower bouring areas may thus help widen our understanding of Triassic and Anisian (lower Middle Triassic) Mikin For- Gondwanan fish faunas at the time of recovery after the mation (cf. Bhargava et al. 2004) are widespread (Fig. 1). end-Permian mass extinction event. The aim of this paper The prominent, cliff-forming Niti Limestone Member is to describe the first finds of Early Triassic fishes from (Spathian, upper Olenekian, upper Lower Triassic) of the Spiti, which have been recovered during two short field Mikin Formation is easily recognizable in the field. The trips. Mikin Formation partly extends into remote areas and some sections may be difficult to access. Moreover, the fish-bearing beds of the Limestone and Shale Member are Material and geological setting often covered by firn, rubble and/or vegetation. Some of the most accessible outcrops are found within the valleys of The specimens described below were recovered from dif- the Pin River and its tributary streams at roughly 3800 m ferent sites within Pin Valley, Spiti area, northern India above sea level (Fig. 1). There, sections near the villages of (Fig. 1). The Spiti Subdistrict of Himachal Pradesh is Mud (sometimes spelled Muth or Mudh) and Gulling have famous for its well-exposed Early Triassic ammonoid- and been intensively exploited for ammonoids and conodonts conodont-rich sections (e.g. Diener 1897, 1912; Hayden (e.g. Diener 1897, 1908; Krafft and Diener 1909; Krystyn 1904; Krafft and Diener 1909; Goel 1977; Krystyn et al. and Orchard 1996; Bhargava et al. 2004; Krystyn et al. 2004; Goudemand 2010; Bru¨hwiler et al. 2010, 2012; Ware 2004, 2007a, b; Bru¨hwiler et al. 2010, 2012; Goudemand et al. in production a), but the occurrence of fish macro- 2010, 2014; Ware et al. in production a). fossils within these strata was unknown until 2009, when Early Triassic ammonoids from Spiti are known since two articulated specimens were discovered near the village the late 19th century (Diener 1897). The taxonomy and of Mud (cf. Fig. 1) in sediments of Dienerian age (late biostratigraphy of Dienerian and Smithian ammonoids Induan, Early Triassic; we herein use the Early Triassic from the Spiti Subdistrict were recently revised by Ware Bony fishes from the Early Triassic of Spiti 277 Fig. 1 a Map of Early Triassic Pangaea (modified from PALEOMAP highlighted; d locality map of Pin Valley and surrounding areas project, www.scotese.com), with indication of the approximate within the Spiti Subdistrict (indicated as black frame in c). White stars location of Spiti (white star) on the Northern Indian Margin (Gond- in d indicate the three finding sites near the villages of Guling, Mud, wana, Neotethys realm), b map of present-day South Asia, with and Tilling, where the described fish material was found. Exposures Himachal Pradesh of India indicated as dark grey area, c map of of the Early Triassic and Anisian Mikin Formation are indicated in Himachal Pradesh (enlarged from b), with Lahaul and Spiti District dark grey and main roads of Spiti and Pin Valley by dashed lines in d et al. (2015, in production a) and Bru¨hwiler et al. (2010, urohyal. Comparative studies have shown that the sar- 2012), respectively. Bru¨hwiler et al.

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