The San Cassiano Formation is well-exposed in the vicinity Cortina d’ Ampezzo, a town within the Dolomites, NE Italy. It is considered a litho-stratigraphic unit belonging to the Western Tethys domain (^{Feist-Burkhardt et al., 2008}). The formation was deposited in the Middle-Late Triassic, particularly in the Ladinian-Carnian, when the climate and paleogeography of the Earth changed drastically. In addition, the increase of volcanic activity during the late Anisian-Ladinian forced pluvialization was causing a substantial decrease in annual mean temperature over the Western Tethys domain (^{Szulc, 2000}, ^{Feist-Burkhardt et al ., 2008}). Such alterations strongly influenced the marine biotas of the world, especially reef communities. Thus, an important transition in marine faunas’ composition and structure can be observed during this time interval, from relatively low species diversity (Ladinian-early Carnian) to a higher diversity during the late Carnian and Norian (^{Fagerstrom, 1987}; ^{Flügel, 2002}). In the Late Triassic, a significant renovation of reef invertebrates took place, from sponge-dominated frameworks during the Carnian to coral-dominated associations during the Norian and Rhaetian (^{Dagys, 1974}; ^{Fagerstrom, 1987}; ^{Flügel, 2002}). In both stages, thecideid brachiopods were already present (^{Benigni and Ferliga, 1989}; ^{Dagys, 1993}).

• ^{Feist-Burkhardt et al., 2008}
  Triassic

  The Geology of Central Europe, 2008
  Feist-Burkhardt, S., Götz, A.E., Szulc, J., Borkhataria, R., Geluk, M., Haas, J., Hornung, J., Jordan, P., Kempf, O., Michalík, J., Nawrocki, J., Reinhardt, L., Ricken, W., Röhling, H.-G., Rüffer, T., Török, Á., Zühlke, R., 2008, Triassic, in McCann, T. (ed.), The Geology of Central Europe Volume 2: Mesozoic and Cenozoic. London, The Geological Society, 749-822. https://doi.org/10.1144/CEV2P.1
• ^{Szulc, 2000}
  Middle Triassic evolution of the northern Peri-Tethys area as influenced by early opening of the Tethys Ocean

  Annales Societatis Geologorum Poloniae, 2000
  Middle Triassic evolution of the northern Peri-Tethys area as influenced by early opening of the Tethys Ocean
• ^{Feist-Burkhardt et al ., 2008}
  Triassic

  The Geology of Central Europe, 2008
  Feist-Burkhardt, S., Götz, A.E., Szulc, J., Borkhataria, R., Geluk, M., Haas, J., Hornung, J., Jordan, P., Kempf, O., Michalík, J., Nawrocki, J., Reinhardt, L., Ricken, W., Röhling, H.-G., Rüffer, T., Török, Á., Zühlke, R., 2008, Triassic, in McCann, T. (ed.), The Geology of Central Europe Volume 2: Mesozoic and Cenozoic. London, The Geological Society, 749-822. https://doi.org/10.1144/CEV2P.1
• ^{Fagerstrom, 1987}
  The evolution of reef communities, 1987
  Fagerstrom, J.A., 1987, The evolution of reef communities: New York, John Wiley & Sons, 600 p.
• ^{Flügel, 2002}
  Triassic Reef Patterns

  Phanerozoic Reef Patterns, 2002
  Flügel, E., 2002, Triassic Reef Patterns, in Kiessling, W., Flügel, E., Golonka, J.,(eds.), Phanerozoic Reef Patterns: Oklahoma, SEPM Special Publications, 72, 391-464. https://doi.org/10.2110/pec.02.72.0391
• ^{Dagys, 1974}
  Triasovie Brachiopod

  Novosibirsk, Nauka, 1974
  Dagys, A.S., 1974, Triasovie Brachiopod. V.: Novosibirsk, Nauka, 332 p.
• ^{Fagerstrom, 1987}
  The evolution of reef communities, 1987
  Fagerstrom, J.A., 1987, The evolution of reef communities: New York, John Wiley & Sons, 600 p.
• ^{Flügel, 2002}
  Triassic Reef Patterns

  Phanerozoic Reef Patterns, 2002
  Flügel, E., 2002, Triassic Reef Patterns, in Kiessling, W., Flügel, E., Golonka, J.,(eds.), Phanerozoic Reef Patterns: Oklahoma, SEPM Special Publications, 72, 391-464. https://doi.org/10.2110/pec.02.72.0391
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Dagys, 1993}
  Geographic differentiation of Triassic brachiopods

  Palaeogeography, Palaeoclimatology, Palaeoecology, 1993
  Geographic differentiation of Triassic brachiopods

In this context, the San Cassiano Formation is well-recognized by its diversity of reef communities in which numerous marine taxa have been identified and recorded, such as foraminifera, sponges, corals, polychaete galleries, ostracods, gastropods, bivalves, scaphopods, cephalopods, bryozoans, brachiopods, echinoids, holothuroids, ophiuroids, and crinoids (^{Fursich and Wendt, 1977}; ^{Reitner, 1987}; ^{Benigni and Ferliga, 1989}; ^{Russo, 2005}; ^{Nutzel and Kaim, 2014}; ^{Hausmann and Nutzel, 2015}; ^{Sánchez-Beristain and Reitner, 2016}, ²⁰¹⁷; ^{Roden et al., 2020}).

• ^{Fursich and Wendt, 1977}
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps

  Paleogeography, Palaeoclimatology Palaeoecology, 1977
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps
• ^{Reitner, 1987}
  A new calcitic sphinctozoan sponge belonging to the Demospongiae from the Cassian Formation (Lower Carnian; Dolomites, Northern Italy) and its phylogenetic relationship

  Geobios, 1987
  A new calcitic sphinctozoan sponge belonging to the Demospongiae from the Cassian Formation (Lower Carnian; Dolomites, Northern Italy) and its phylogenetic relationship
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Russo, 2005}
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy

  Annali dell’ Università degli Studi di Ferrara, Museologia Scientifica e Naturalistica, 2005
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy
• ^{Nutzel and Kaim, 2014}
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy

  Paläontologische Zeitschrift, 2014
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy
• ^{Hausmann and Nutzel, 2015}
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

  Lethaia, 2015
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ²⁰¹⁷
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas

  Boletín de la Sociedad Geológica Mexicana, 2017
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas
• ^{Roden et al., 2020}
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

  Palaeontology, 2020
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

Brachiopods are moderately common in this stratigraphic unit, with specimens from the orders Athyridida, Thecideida, and Terebratulida (^{Bittner, 1900}; ^{Benigni and Ferliga, 1989}; ^{Nutzel and Kaim, 2014}; ^{Hausmann and Nutzel, 2015}). Thecideids are mainly represented by different species from the genus Thecospira. Despite the apparent abundance of these brachiopods in the San Cassiano Formation reported by ^{Benigni and Ferliga in 1989}, there is currently only one report of a thecideid from this formation preserved in life position. It is the most abundant species in the unit, namely Thecospira tyrolensis (^{Benigni and Ferliga, 1989}). This suggests that preservation is very uncommon. Such information is important since it contributes to the paleoecological knowledge of these Triassic brachiopods, allowing us to know how they were deposited and attached to the substrate in reef environments.

• ^{Bittner, 1900}
  Brachiopoden aus der Trias des Bakonyer Waldes

  Resultate der Wissenschaftlichen Erforschung Balatonsees, 1900
  Bittner, A., 1900, Brachiopoden aus der Trias des Bakonyer Waldes: Resultate der Wissenschaftlichen Erforschung Balatonsees, Paläontologische Anhang, 59p.
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Nutzel and Kaim, 2014}
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy

  Paläontologische Zeitschrift, 2014
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy
• ^{Hausmann and Nutzel, 2015}
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

  Lethaia, 2015
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy
• ^{Benigni and Ferliga in 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

Brachiopods of the Western Tethys domain had a high degree of latitudinal migration in the Tethyan ocean during the Middle-Late Triassic (^{Dagys, 1993}). This work represents the first record of preservation of Thecospira semseyi and Th. tenuistriata in life position, thus providing more paleoecological knowledge of thecideids as components from Tethys reef communities.

• ^{Dagys, 1993}
  Geographic differentiation of Triassic brachiopods

  Palaeogeography, Palaeoclimatology, Palaeoecology, 1993
  Geographic differentiation of Triassic brachiopods

The San Cassiano Formation (Ladinian-Carnian,) belongs geographically to the Dolomites. Its type locality can be found in the vicinity of the town of San Cassiano (Figure 1). It was first identified by ^{Münster (1834}, ¹⁸⁴¹⁾, who named it ‘Cassianer Schichten’ (i.e., Cassian Beds) referring to San Cassiano, located in the province of Alto Adige. This formation was firstly recognized by ^{von Hauer (1858)}. It is made up by two members: a Lower Member (Ladinian-Carnian) and an Upper Member (Carnian). Both notably outcrop at the localities of Seelandalpe and Misurina (Figure 1), with a similar lithology, namely strata consisting of interbedded marl and limestone. These strata are considerably rich in fossils (e.g. ^{Fürsich and Wendt, 1977}; ^{Russo et al., 1997}; ^{Sánchez-Beristain and Reitner, 2016}, ²⁰¹⁸, ²⁰¹⁹; ^{Roden et al., 2020}), which preservation is extraordinary. Many of them preserve their original mineral composition (^{Neuweiler and Reitner, 1995}; ^{Sánchez-Beristain and Reitner, 2016}, ²⁰¹⁸), in such an extent that certain localities where this formation outcrops are labelled as Fossil-Lagerstätten (^{Fürsich, 2000}), as well as Liberation Fossil-Lagerstätten according to ^{Roden et al. (2020)}.

• ^{Münster (1834}
  Über das Kalkmergel-Lager von St. Cassian in Tyrol und die darin vorkommenden Ceratiten

  Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, 1834
  Über das Kalkmergel-Lager von St. Cassian in Tyrol und die darin vorkommenden Ceratiten
• ¹⁸⁴¹⁾
  Beschreibung und Abbildung der in den Kalkmergelschichten von St. Cassian gefundenen Versteinerungen

  Beiträge zur Geognosie und Petrefakten-Kunde des Südöstlichen Tirols vorzüglich der Schichten von St. Cassian, 1841
  Beschreibung und Abbildung der in den Kalkmergelschichten von St. Cassian gefundenen Versteinerungen
• ^{von Hauer (1858)}
  Erläuterungen zu einer geologischen Übersichtskarte der Schictgebirge der Lombardei

  Jahrbuch der Kaiserlich Königlichen Geologischen Reichsanstalt, 1858
  Erläuterungen zu einer geologischen Übersichtskarte der Schictgebirge der Lombardei
• ^{Fürsich and Wendt, 1977}
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps

  Paleogeography, Palaeoclimatology Palaeoecology, 1977
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps
• ^{Russo et al., 1997}
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)

  Facies, 1997
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ²⁰¹⁸
  Four new fossil associations identified in the Cipit boulders from the St. Cassian Formation (Ladinian-Carnian; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2018
  Four new fossil associations identified in the Cipit boulders from the St. Cassian Formation (Ladinian-Carnian; Dolomites, NE Italy)
• ²⁰¹⁹
  Microbialite-dominated fossil associations in Cipit Boulders from Alpe di Specie and Misurina (St. Cassian Formation, Middle to Upper Triassic, Dolomites, NE Italy)

  TIP Revista Especializada en Ciencias Químico-Biológicas, 2019
  Microbialite-dominated fossil associations in Cipit Boulders from Alpe di Specie and Misurina (St. Cassian Formation, Middle to Upper Triassic, Dolomites, NE Italy)
• ^{Roden et al., 2020}
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

  Palaeontology, 2020
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation
• ^{Neuweiler and Reitner, 1995}
  Epifluorescence-microscopy of selected automicrites from lower Carnian Cipit-boulders of the Cassian Formation (Seeland Alpe, Dolomites)

  Facies, 1995
  Epifluorescence-microscopy of selected automicrites from lower Carnian Cipit-boulders of the Cassian Formation (Seeland Alpe, Dolomites)
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ²⁰¹⁸
  Four new fossil associations identified in the Cipit boulders from the St. Cassian Formation (Ladinian-Carnian; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2018
  Four new fossil associations identified in the Cipit boulders from the St. Cassian Formation (Ladinian-Carnian; Dolomites, NE Italy)
• ^{Fürsich, 2000}
  Die Fleckenriffe der Cassianer Schichten, Trias der Dolomiten, Italien

  Europäische Fossillagerstätte, 2000
  Die Fleckenriffe der Cassianer Schichten, Trias der Dolomiten, Italien
• ^{Roden et al. (2020)}
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

  Palaeontology, 2020
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

Despite the exceptional degree of preservation in the deposits of the San Cassiano Formation (e.g. ^{Hausmann and Nützel, 2015}; ^{Roden et al., 2020}), it is even higher in the “Cipit” olistoliths, commonly named Cipit boulders in the English language literature (^{Sánchez-Beristain and Reitner, 2016}), and whose etymology derives from the altered toponym of the Tschapit creek (^{von Richthofen, 1860}). These boulders come, for the most part, from patch reefs (e.g ^{Wendt, 1982}) and from platform facies -mostly dolomitized- from both the Lower and Upper Cassian Dolomite (Figure 2), which were subjected to subsequent processes of emersion and karstification (^{Biddle, 1981}; ^{Russo et al., 1997}). These processes aided the settlement of the olistoliths coming from the platform margins into the San Cassiano basin. (^{Russo et al., 1997}). The boulders subject of this study come entirely from the Upper Member of the San Cassiano Formation (Figure 2), and are mainly composed by automicrite (up to 75%), allomicrite (up to 50%), framestones made up of skeletal components (up to 50%) and primary or secondary cements (up to 10%) as dominant facies. As a rule, automicritic facies and skeletal framestones are mutually exclusive, or, given the dominance of one of them, the other tends to decrease significantly (^{Sánchez-Beristain and Reitner, 2016}, ²⁰¹⁷).

• ^{Hausmann and Nützel, 2015}
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

  Lethaia, 2015
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy
• ^{Roden et al., 2020}
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation

  Palaeontology, 2020
  Fossil liberation: a modelt o explain high biodiversity in the Triassic Cassian Formation
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ^{von Richthofen, 1860}
  Geognostische Beschreibung der Umgegend von Pedrazzo, St. Cassian und der Seiser Alpe in Südtirol, Gotha, 1860
  Geognostische Beschreibung der Umgegend von Pedrazzo, St. Cassian und der Seiser Alpe in Südtirol, Gotha
• ^{Wendt, 1982}
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)

  Facies, 1982
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)
• ^{Biddle, 1981}
  The basinal Cipit boulders: indicators of Middle to Upper Triassic buildup margins, Dolomite Alps, Italy

  Rivista Italiana di Paleontologia e Stratigrafia, 1981
  The basinal Cipit boulders: indicators of Middle to Upper Triassic buildup margins, Dolomite Alps, Italy
• ^{Russo et al., 1997}
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)

  Facies, 1997
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)
• ^{Russo et al., 1997}
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)

  Facies, 1997
  The Mud Mound Nature of the Cassian Platform Margins of the Dolomites. A Case History: the Cipit Boulders from Punta Grohmann (Sasso Piatto Massif, Northern Italy)
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ²⁰¹⁷
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas

  Boletín de la Sociedad Geológica Mexicana, 2017
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas

The exceptional state of preservation of the “Cassian Patch Reefs” (^{Wendt, 1982}) and their derived Cipit boulders has allowed a broad scope of studies, such as the evaluation of diagenetic pathways (^{Russo et al., 1991}), the determination of palaeotemperatures by means of stable isotopes (^{Stanley and Swart, 1995}) and the finding of almost unaltered organic matter (^{Neuweiler and Reitner, 1995}; ^{Sánchez-Beristain and Reitner, 2012}). These erratic reef boulders can be collected at, among other localities, both the Seelandalpe (“Alpe di Specie”) or in Misurina, where preservation state is at its best (^{Sánchez-Beristain and Reitner, 2012}).

• ^{Wendt, 1982}
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)

  Facies, 1982
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)
• ^{Russo et al., 1991}
  Depositional and diagenetic history of the Alpe di Specie (Seelandalpe) fauna (Carnian, Northeastern Dolomites)

  Facies, 1991
  Depositional and diagenetic history of the Alpe di Specie (Seelandalpe) fauna (Carnian, Northeastern Dolomites)
• ^{Stanley and Swart, 1995}
  Evolution of the coral-zooxanthellate symbiosis during the Triassic: A geochemical approach

  Paleobiology, 1995
  Evolution of the coral-zooxanthellate symbiosis during the Triassic: A geochemical approach
• ^{Neuweiler and Reitner, 1995}
  Epifluorescence-microscopy of selected automicrites from lower Carnian Cipit-boulders of the Cassian Formation (Seeland Alpe, Dolomites)

  Facies, 1995
  Epifluorescence-microscopy of selected automicrites from lower Carnian Cipit-boulders of the Cassian Formation (Seeland Alpe, Dolomites)
• ^{Sánchez-Beristain and Reitner, 2012}
  Paleoecology of microencrusters and encrusting “coralline” sponges in Cipit boulders from the Cassian formation (upper Ladinian-lower Carnian, Dolomites, Northern Italy)

  Paläontologische Zeitschrift, 2012
  Paleoecology of microencrusters and encrusting “coralline” sponges in Cipit boulders from the Cassian formation (upper Ladinian-lower Carnian, Dolomites, Northern Italy)
• ^{Sánchez-Beristain and Reitner, 2012}
  Paleoecology of microencrusters and encrusting “coralline” sponges in Cipit boulders from the Cassian formation (upper Ladinian-lower Carnian, Dolomites, Northern Italy)

  Paläontologische Zeitschrift, 2012
  Paleoecology of microencrusters and encrusting “coralline” sponges in Cipit boulders from the Cassian formation (upper Ladinian-lower Carnian, Dolomites, Northern Italy)

For further details concerning the geology and stratigraphy of the region, readers are referred to the works of ^{Bosellini and Rossi (1974)} and ^{Müller-Wille and Reitner (1993)}.

• ^{Bosellini and Rossi (1974)}
  Triassic carbonate buildups of the dolomites, Northern Italy

  Reefs in time and space: Selected examples from the recent and ancient, 1974
  Triassic carbonate buildups of the dolomites, Northern Italy
• ^{Müller-Wille and Reitner (1993)}
  Palaeobiological reconstructions of selected sphinctozoan sponges from the Cassian Beds (Lower Carnian) of the Dolomites (Northern Italy)

  Berliner Geowissenschaftliche Abhandlungen, 1993
  Palaeobiological reconstructions of selected sphinctozoan sponges from the Cassian Beds (Lower Carnian) of the Dolomites (Northern Italy)

The material consists of seven complete specimens preserved in thin sections of carbonate rocks from the Triassic (Ladinian-Carnian) of the San Cassiano Formation. The samples are housed in the collections of the Geowissenschafltiches Museum der Universität Göttingen (GZG), and were photographed using a Zeiss Axioplan Microscope with Plan Neofluar Objectives 2.5x, 5x and 10x, and a mounted photographic equipment VISICOL made by Visitron Systems GmbH, Germany.

Supraspecific morphological features were corroborated by means of the Treatise on Invertebrate Paleontology, specifically the chapter of the order Thecideida (^{Baker, 2006}). Analyzed material was identified in the following thin sections: JR X1, FSM XXVI-2, JR III- 19, JR III-66 and JR III-11.

• ^{Baker, 2006}
  Thecideida

  Treatise on invertebrate paleontology, 2006
  Baker, P.G., 2006, Thecideida, in Kaesler, R.L. (ed.), Treatise on invertebrate paleontology Part H, Brachiopoda, Revised, Volume 5: Kansas, The Geological Society of America, Inc. and the University of Kansas, Boulder, Colorado and Lawrence press, 906p.

• Order Thecideida ^{Elliot, 1958}

• Superfamily Thecospiroidea ^{Bittner, 1890}

• Family Thecospiridae ^{Bittner, 1890}

• Genus Thecospira^{Zugmayer, 1880}

• ^{Elliot, 1958}
  Classification of thecidean brachiopods

  Journal of Paleontology, 1958
  Elliott, G.F., 1958, Classification of thecidean brachiopods: Journal of Paleontology, 32, 373.
• ^{Bittner, 1890}
  Brachiopoden der Alpinen Trias

  Kaiserlich-Königlichen Geologische Reichsanstalt, 1890
  Bittner, A., 1890, Brachiopoden der Alpinen Trias: Kaiserlich-Königlichen Geologische Reichsanstalt, Abhandlungen, 325p.
• ^{Bittner, 1890}
  Brachiopoden der Alpinen Trias

  Kaiserlich-Königlichen Geologische Reichsanstalt, 1890
  Bittner, A., 1890, Brachiopoden der Alpinen Trias: Kaiserlich-Königlichen Geologische Reichsanstalt, Abhandlungen, 325p.
• ^{Zugmayer, 1880}
  Untersuchungen uber Rhätische Brachiopoden

  Kaiserlich-Koenigliche Geologische Reichsanstalt, Sitzungsberichte, 1880
  Zugmayer, H., 1880, Untersuchungen uber Rhätische Brachiopoden: Kaiserlich-Koenigliche Geologische Reichsanstalt, Sitzungsberichte, 30, 149-156.

Type species. Thecidea haidingeri^{Suess, 1854}. Rhaetian (Kitsberg, Austria).

• ^{Suess, 1854}
  Über die Brachiopoden der Kössener Schichten. Kaiserliche Akademie der Wissenschaften (Wien)

  Mathematische-Naturwissenschaftliche Klasse, Denkschriften, 1854
  Über die Brachiopoden der Kössener Schichten. Kaiserliche Akademie der Wissenschaften (Wien)

• Thecospira semseyi^{Bittner, 1900}

• Figures 3A and 3B

• Synonymy

• Thecospira Semseyi^{Bittner, 1900, p. 41, pl. 4, figs. 40-65; pl. 5, fig. 1}.

• Thecospira aff. Semseyi Bittner. ^{Scalia, 1910, p. 23, pl. 2, figs. 19, 20}.

• Thecospira semseyi Bittner. ^{Dagys, 1972, p. 90, 91, 96, text-fig. 2}.

• Thecospiropsis semseyi (Bittner). ^{Dagys, 1974, p. 75, pl. 27, figs. 1-5, text-figs. 28, 46}.

• Thecospira semseyi Bittner. ^{Benigni and Ferliga, 1989, p. 521-527, 529-535, 545-547, pl. 57, figs. 4-7; pl. 58, fig. 6; pl. 62, figs. 1-3; text-figs. 4, 7-9, 15, 17B, 25}.

• ^{Bittner, 1900}
  Brachiopoden aus der Trias des Bakonyer Waldes

  Resultate der Wissenschaftlichen Erforschung Balatonsees, 1900
  Bittner, A., 1900, Brachiopoden aus der Trias des Bakonyer Waldes: Resultate der Wissenschaftlichen Erforschung Balatonsees, Paläontologische Anhang, 59p.
• ^{Bittner, 1900, p. 41, pl. 4, figs. 40-65; pl. 5, fig. 1}
  Brachiopoden aus der Trias des Bakonyer Waldes

  Resultate der Wissenschaftlichen Erforschung Balatonsees, 1900
  Bittner, A., 1900, Brachiopoden aus der Trias des Bakonyer Waldes: Resultate der Wissenschaftlichen Erforschung Balatonsees, Paläontologische Anhang, 59p.
• ^{Scalia, 1910, p. 23, pl. 2, figs. 19, 20}
  La fauna del Trias superiore del Monte Judica

  Memoria della Accademia Gioenia di Scienze Naturali in Catania, 1910
  Scalia, S., 1910, La fauna del Trias superiore del Monte Judica: Memoria della Accademia Gioenia di Scienze Naturali in Catania, 3, 1-51.
• ^{Dagys, 1972, p. 90, 91, 96, text-fig. 2}
  Ultrastruktura rakovin tekospirid i ich polojenie sisteme Brachiopod

  Paleontological Journal, 1972
  Ultrastruktura rakovin tekospirid i ich polojenie sisteme Brachiopod
• ^{Dagys, 1974, p. 75, pl. 27, figs. 1-5, text-figs. 28, 46}
  Triasovie Brachiopod

  Novosibirsk, Nauka, 1974
  Dagys, A.S., 1974, Triasovie Brachiopod. V.: Novosibirsk, Nauka, 332 p.
• ^{Benigni and Ferliga, 1989, p. 521-527, 529-535, 545-547, pl. 57, figs. 4-7; pl. 58, fig. 6; pl. 62, figs. 1-3; text-figs. 4, 7-9, 15, 17B, 25}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

Remarks. Brachiopods observed in two thin sections display the typical features of the species Th. semseyi. The rectimarginate and plano-convex shell; ventral valve strongly convex; interarea elongated; umbonal region affected by a small cementation surface, with well-defined umbo; and the dorsal valve with reduced inter-area and pointed umbo are traits that allow relating the samples with the species referred. Besides, our specimens coincide in size (shells up to 6.5 mm in length) with those samples described by ^{Benigni and Ferliga (1989)} from the San Cassiano Formation. Contrary to previous records of the species, in which have only been reported material detached (e.g. ^{Bittner, 1900}; ^{Dagys, 1972}, ¹⁹⁷⁴; ^{Benigni and Ferliga, 1989}), our specimens are observed as autochthonous components of their depositional environment, preserved in life position.

• ^{Benigni and Ferliga (1989)}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Bittner, 1900}
  Brachiopoden aus der Trias des Bakonyer Waldes

  Resultate der Wissenschaftlichen Erforschung Balatonsees, 1900
  Bittner, A., 1900, Brachiopoden aus der Trias des Bakonyer Waldes: Resultate der Wissenschaftlichen Erforschung Balatonsees, Paläontologische Anhang, 59p.
• ^{Dagys, 1972}
  Ultrastruktura rakovin tekospirid i ich polojenie sisteme Brachiopod

  Paleontological Journal, 1972
  Ultrastruktura rakovin tekospirid i ich polojenie sisteme Brachiopod
• ¹⁹⁷⁴
  Triasovie Brachiopod

  Novosibirsk, Nauka, 1974
  Dagys, A.S., 1974, Triasovie Brachiopod. V.: Novosibirsk, Nauka, 332 p.
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

Occurrence. Upper Member of the San Cassiano Formation (lower Carnian, Upper Triassic) of the Seelandalpe (Alpe di Specie) and Misurina; Alto Adige, Dolomites, NE Italy.

• Thecospira tenuistriata^{Bittner, 1890}

• Figures 3C-F

• Synonymy

• Thecidium sp. ^{Penecke, 1884, p. 383}.

• Thecospira sp. ^{Bittner, 1888, p. 128}.

• Thecospira tenuistriata^{Bittner, 1890, p. 143, pl. 38, figs. 27-31}.

• Thecospiropsis tenuistriata (Bittner). ^{Dagys, 1974, p. 75}.

• Thecospira tenuistriata Bittner. ^{Benigni and Ferliga, 1989, p. 518-520, 524, 525, 528, 529, 534-536, 542-545, pl. 57, figs. 8, 9; pl. 58, fig. 4; pl. 61, figs. 1-4; text-figs. 5, 11, 17C, 23, 24}.

• ^{Bittner, 1890}
  Brachiopoden der Alpinen Trias

  Kaiserlich-Königlichen Geologische Reichsanstalt, 1890
  Bittner, A., 1890, Brachiopoden der Alpinen Trias: Kaiserlich-Königlichen Geologische Reichsanstalt, Abhandlungen, 325p.
• ^{Penecke, 1884, p. 383}
  Aus der Trias von Kärnten

  Verhandlungen der K.K. Geologischen Reichsanstalt, 1884
  Penecke, K.A., 1884, Aus der Trias von Kärnten: Verhandlungen der K.K. Geologischen Reichsanstalt, 1884, 382-384.
• ^{Bittner, 1888, p. 128}
  Über das Auftreten von Arten der Gattung Thecospira Zugmayer in der alpinen Trias

  Verhandlungen der K.K. Geologischen Reichsanstalt, 1888
  Über das Auftreten von Arten der Gattung Thecospira Zugmayer in der alpinen Trias
• ^{Bittner, 1890, p. 143, pl. 38, figs. 27-31}
  Brachiopoden der Alpinen Trias

  Kaiserlich-Königlichen Geologische Reichsanstalt, 1890
  Bittner, A., 1890, Brachiopoden der Alpinen Trias: Kaiserlich-Königlichen Geologische Reichsanstalt, Abhandlungen, 325p.
• ^{Dagys, 1974, p. 75}
  Triasovie Brachiopod

  Novosibirsk, Nauka, 1974
  Dagys, A.S., 1974, Triasovie Brachiopod. V.: Novosibirsk, Nauka, 332 p.
• ^{Benigni and Ferliga, 1989, p. 518-520, 524, 525, 528, 529, 534-536, 542-545, pl. 57, figs. 8, 9; pl. 58, fig. 4; pl. 61, figs. 1-4; text-figs. 5, 11, 17C, 23, 24}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

Remarks. The material displays the traits described for Th. tenuistriata from the Carnian (Upper Triassic) of Cortina d’ Ampezzo, Italy (^{Benigni and Ferliga, 1989}). The uniplicate and biconvex shell; shells up to 0.75 cm in length; ventral valve moderately convex; umbonal region totally modified in a cementation area, with poorly developed interarea; dorsal valve lesser convex than the opposite valve; in addition to the umbo small and interarea minute are features that allow associating our specimens with this species of the genus Thecospira. The samples of Th. Tenuistriata also were observed in life position, encrusting other invertebrates.

• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

Occurrence. Upper Member of the San Cassiano Formation (lower Carnian, Upper Triassic) of the Seelandalpe (Alpe di Specie) and Misurina; Alto Adige, Dolomites, NE Italy.

The San Cassiano Formation is a Triassic (Ladinian-Carnian) unit characterized by its high diversity of marine benthic faunas, mainly related to massive reefs and patch reef areas corresponding to the coeval Cassian Dolomite (^{Wendt, 1982}; ^{Sánchez-Beristain and Reitner, 2017}). An important part of the San Cassiano Formation is composed of the Cipit boulders, which consist of facies dominated either by microbialites or by distinct reef builders (^{Reitner, 1987}; ^{Russo, 2005}; ^{Sánchez-Beristain and Reitner, 2016}, ²⁰¹⁷). Although sponges are the most common group of the Cipit boulders, other benthic groups have also been recorded as important bio-builder organisms, though in minor proportion, such as scleractinian corals and bryozoans (^{Fursich and Wendt, 1977}; ^{Russo, 2005}; ^{Nutzel and Kaim, 2014}; ^{Hausmann and Nutzel, 2015}). Apart from serving as base for the reef structures, these taxa also were a very valuable substratum to different encrusting taxonomical groups such as for aminifera, sponges, corals, serpulids, bivalves, and bryozoans, as well as craniid and thecideid brachiopods (^{Nebelsick et al., 2011}). Thus, in these environments proliferated a diverse number of protists and invertebrates, represented by numerous taxa.

• ^{Wendt, 1982}
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)

  Facies, 1982
  The Cassian Patch Reefs (Lower Carnian, Southern Alps)
• ^{Sánchez-Beristain and Reitner, 2017}
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas

  Boletín de la Sociedad Geológica Mexicana, 2017
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas
• ^{Reitner, 1987}
  A new calcitic sphinctozoan sponge belonging to the Demospongiae from the Cassian Formation (Lower Carnian; Dolomites, Northern Italy) and its phylogenetic relationship

  Geobios, 1987
  A new calcitic sphinctozoan sponge belonging to the Demospongiae from the Cassian Formation (Lower Carnian; Dolomites, Northern Italy) and its phylogenetic relationship
• ^{Russo, 2005}
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy

  Annali dell’ Università degli Studi di Ferrara, Museologia Scientifica e Naturalistica, 2005
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy
• ^{Sánchez-Beristain and Reitner, 2016}
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)

  Paläontologische Zeitschrift, 2016
  Palaeoecology of new fossil associations from the Cipit boulders, St. Cassian Formation (Ladinian-Carnian, Middle-Upper Triassic; Dolomites, NE Italy)
• ²⁰¹⁷
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas

  Boletín de la Sociedad Geológica Mexicana, 2017
  Reptonoditrypa cautica, briozoo incrustante de los olistolitos Cipit de la Formación San Cassiano (Triásico, Ladiniano/Carniano; NE de Italia) y sus implicaciones paleoecológicas
• ^{Fursich and Wendt, 1977}
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps

  Paleogeography, Palaeoclimatology Palaeoecology, 1977
  Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps
• ^{Russo, 2005}
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy

  Annali dell’ Università degli Studi di Ferrara, Museologia Scientifica e Naturalistica, 2005
  Biofacies evolution in the Triassic platforms of the Dolomites, Italy
• ^{Nutzel and Kaim, 2014}
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy

  Paläontologische Zeitschrift, 2014
  Diversity, palaeoecology and systematics of a marine fossil assemblage from the Late Triassic Cassian Formation at Settsass Scharte, N Italy
• ^{Hausmann and Nutzel, 2015}
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

  Lethaia, 2015
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy
• ^{Nebelsick et al., 2011}
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates

  Annalen des Naturhistorischen Museums in Wien, 2011
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates

In particular, thecideids are abundant in specific localities where Cipit boulders occur. Both complete specimens and dissociated valves can be found. These brachiopods probably descended from the order Spiriferida (^{Williams et al., 2000}), and are the last order that appeared in the fossil record. Thecideids are characterized by small shells (though some exceptions), which can cement on hard substrates, especially in cryptic habitats (^{Simonet Roda et al., 2021}). They have even been considered brachiopods representing cryptic relicts from the past (^{Nebelsick et al., 2011}). Particularly, thecideids are well-recognized in the Carnian of the San Cassiano Formation, highlighting the genus Thecospira because of its abundance and specific diversity, represented by Thecospira tyrolensis, Thecospira semseyi, Thecospira tenuistriata, Thecospira haidingeri and Thecospira davidsonii (^{Benigni and Ferliga, 1989}; ^{Hausmann and Nutzel, 2015}).

• ^{Williams et al., 2000}
  Brachiopod classification

  Treatise on Invertebrate Paleontology, 2000
  Brachiopod classification
• ^{Simonet Roda et al., 2021}
  The evolution of thecideide microstructures and textures: traced from Triassic to Holocene

  Lethaia, 2021
  The evolution of thecideide microstructures and textures: traced from Triassic to Holocene
• ^{Nebelsick et al., 2011}
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates

  Annalen des Naturhistorischen Museums in Wien, 2011
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates
• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Hausmann and Nutzel, 2015}
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

  Lethaia, 2015
  Diversity and palaeoecology of a highly diverse Late Triassic marine biota from the Cassian Formation of north Italy

Thecospira samples are frequent in the Cortina d’ Ampezzo area, and it is common to find disarticulated valves or complete specimens separated from the substrate. The occurrence of individual valves can be attributed to the abnormally widegape that facilitates postmortem disarticulation of valves. However, in the case of complete samples, cemented shells could have detached from the substrate (calcareous sponges or coral associations) due to the high energy environment (^{Benigni and Ferliga, 1989}; ^{Baker, 2006}). The study made by ^{Benigni and Ferliga (1989)} proves this. Their prospection and results included about 273 complete specimens and 719 isolated dorsal valves of all species mentioned. It is worth noting that only one sample of Th. tyrolensis was attached to its original substrate, displaying a life position (^{Benigni and Ferliga, 1989, pl. 60, fig. 3}). Even though it has been reported that these brachiopods preferred encrusting calcareous sponges and, to a lesser extent, bivalves and other thecideids, the record of these brachiopods in situ is scarce and uncommon. Given that the different species of Thecospira display dissimilar interareas, cementation areas, and shell shapes, added to the poor record of specimens in situ, the finding of Th. semseyi and Th. tenuistriata in life position in thin sections of calcareous rocks from the San Cassiano Formation allows knowing how these taxa encrusted in biogenic substrates from the Triassic.

• ^{Benigni and Ferliga, 1989}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Baker, 2006}
  Thecideida

  Treatise on invertebrate paleontology, 2006
  Baker, P.G., 2006, Thecideida, in Kaesler, R.L. (ed.), Treatise on invertebrate paleontology Part H, Brachiopoda, Revised, Volume 5: Kansas, The Geological Society of America, Inc. and the University of Kansas, Boulder, Colorado and Lawrence press, 906p.
• ^{Benigni and Ferliga (1989)}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)
• ^{Benigni and Ferliga, 1989, pl. 60, fig. 3}
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

  Rivista Italiana di Paleontologia e Stratigrafia, 1989
  Carnian Thecospiridae (Brachiopoda) from San Cassiano Formation (Cortina d’ Ampezzo, Italy)

In the case of Th. semseyi, the shells were apparently not firmly attached to the substrate like in other species of the genus, mainly by the small cementation surface. In Figure 3A two specimens embedded in fabric composed by microbialite and a calcareous sponge are observed, whereas another juvenile brachiopod is encrusting the ventral valve of the larger thecideid. Because Th. semseyi inhabited reef environments, it should be strongly joined to any hard substrate; however, it is probable that its cementation surface was not enough. Therefore, apart from being cemented, such brachiopods could have lived embedded into the biogenic matrix, becoming trapped in the host fabric while it was growing (e.g., calcareous sponge). This process may have helped the species resist the high energy high environment. Nonetheless, it is probable that the tissue of the bio-builder had not covered all brachiopods in such a way that shells would be completely uprooted from the substrate and deposited in the calcareous mud (Figure 3B). On the contrary, Th. tenuistriata displays an umbonal region totally modified in a cementation area, allowing brachiopods to be attached firmly to the bio-builder. This can be observed in Figure 3D, where the cementation region of the thecideid is evident. Regarding Figures 3C and 3E, apart from the large attachment area, the calcareous sponge fabric is present, growing next to the brachiopod.

It is worth noting that shells studied herein do not show any transport signal, since all specimens are articulated and are still attached to the substrate (except Figure 3B). In addition, the commissures are partially opened, free of any encrustation of sponge or bryozoan growing. In Figure 3A, there is even a complete juvenile specimen encrusting another one. Considering that epibionts are always preserved in situ with respect to their substrate (^{Torres-Martínez et al., 2021}), the features of brachiopods allow corroborating that the samples of both species were fossilized in life position. Given that the finding of these specimens makes it possible to identify the arrangement of the biotic association to the moment of the sedimentary deposit, we noticed that Th. semseyi and Th. tenuistriata continued alive despite the fabric of the sponge was imbibing the ventral valve of the encrusting brachiopods.

• ^{Torres-Martínez et al., 2021}
  Paleoecology of the first Devonian-like sclerobiont association on Permian brachiopods from southeastern Mexico

  Acta Palaeontologica Polonica, 2021
  Paleoecology of the first Devonian-like sclerobiont association on Permian brachiopods from southeastern Mexico

As mentioned above, these brachiopods are common in the Cipit boulders, and are characterized by their facies related to cryptic marine environments. This habitat preference has been associated with their small to minute size, since this feature has allowed them to feed and survive in relatively shallow water (^{Harper, 2002}), avoiding predation by other invertebrates (e.g., echinoids) (^{Asgaard and Stentoft, 1984}). From the Triassic, thecideids began to diversify in cryptic environments, becoming one of the most important encrusters, along with sponges, serpulids, oysters, and bryozoans during the Jurassic and Cretaceous (^{Nebelsick et al., 2011}).

• ^{Harper, 2002}
  Fossil Brachiopoda of the Caribbean Region: Biodiversity Patterns, 2002
  Fossil Brachiopoda of the Caribbean Region: Biodiversity Patterns
• ^{Asgaard and Stentoft, 1984}
  Recent micromorph brachiopods from Barbados: palaeoecological and evolutionary implications

  Geobios, 1984
  Recent micromorph brachiopods from Barbados: palaeoecological and evolutionary implications
• ^{Nebelsick et al., 2011}
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates

  Annalen des Naturhistorischen Museums in Wien, 2011
  Cryptic relicts from the past: Palaeoecology and taphonomy of encrusting thecideid brachiopods in Paleogene carbonates

Thecideids, and especially the genus Thecospira, have been recorded in different localities from the Triassic of the San Cassiano Formation, represented by the species Th. tyrolensis, Th. semseyi, Th. tenuistriata, Th. davidsonii, and Th. haidingeri.

Although the material of these brachiopods is common with both complete specimens and dissociated valves, until now only one specimen of Th. tyrolensis had been recorded in life position, being still attached to the original substrate. This study reports the first preservation in life position of Th. semseyi and Th. tenuistriata.

Apparently, the Th. semseyi shells were not firmly attached to the substrate, mainly by the small cementation surface. Hence, apart from being cemented, such brachiopods could have lived embedded into the biogenic matrix, becoming trapped in the host fabric while it was growing. In contrast, Th. tenuistriata displays an umbonal region totally modified into a cementation area, allowing brachiopods to be attached firmly to the bio-builder.

Most shells studied do not show any transport signal since all specimens are articulated and are still attached to the substrate. Furthermore, the commissures are partially opened, free of any encrustation of sponge or bryozoan growing. The preservation of the brachiopods suggests that both species were fossilized in life position. Moreover, Th. semseyi and Th. tenuistriata continued to live despite the fabric of the host was covering the ventral valve of the brachiopods.