Succession of the Formation in Vajo dell'Anguilla (Verona Province)
Has been traditionally classified as a Sinemurian-Pliensbachian Formation, but a large and detailed dataset of isotopic 13C and 87Sr/86Sr data, estimated the Rotzo Formation to span only over the Early Pliensbachian, bracketed between the Jamesoni-Davoei biozones, marked in the Loppio Oolitic Limestone-Rotzo Fm contact by a carbon isotope excursion onset similar to the Sinemu-Pliens boundary event, while the other sequences fit with the a warm phase that lasts until the Davoei biozone. A more recent work reinforced this datation, constraining the lowermost levels to 192.30 Ma and the uppermost to 185.99 Ma. The Rotzo Formation represented the Carbonate Platform, being located over the Trento Platform and surrounded by the Massone Oolite (marginal calcarenitic bodies), the Fanes Piccola Encrinite (condensed deposits and emerged lands), the Lombadian Basin Medolo Group and Belluno Basin Soverzene Formation (open marine), and finally towards the south, deep water deposits of the Adriatic Basin. The Pliensbachian Podpeč Limestone of Slovenia, the Aganane Formation & the Calcaires du Bou Dahar of Morocco represent regional equivalents, both in deposition and faunal content.
This formation was deposited within a tropical lagoon environment, similar to modern Bahamas which was protected by oolitic shoals and bars from the open deep sea located to the east (Belluno Basin) and towards the west (Lombardia Basin). It is characterized by a rich paleontological content. It is notable mostly thanks to its great amount of big aberrant bivalves, among which is the genus Lithiotis, described in the second half of the nineteenth century. The unusual shape of Lithiotis and Cochlearites shells, extremely elongated and narrow, characterized by a spoon-like body space placed in a high position, rarely preserved, seems to suggest their adaptation to soft and muddy bottoms with a high sedimentation rate. The Bellori outcrop displays about 20 m of limestones with intercalated clays and marls rich in organic matter and sometimes fossil wood (coal) and amber. The limestones are well stratified, with beds 10 cm to more than one metre thick, whereas the clayey levels range between 3 and 40 cm in thickness.
An in-situ bed of Pachygervillia from the lower Rotzo Formation
The sedimentary cover of the Southern Alps has been recognized as a well-preserved section of the Mesozoic Tethys' southern continental margin, featuring a horst and graben structure linked to the rifting associated with the opening of the central North Atlantic that in the Late Triassic and Early Jurassic, created elevated blocks separated by troughs. While the western margin (Piedmont and Lombardy) quickly submerged in the Early Jurassic (As seen by the Moltrasio Formation), the eastern regions maintained shallow water sedimentation, including the Friuli and Trento Platforms, this last one latter evolving into a pelagic plateau, and separated from the Lombardian basin by the Garda escarpment fault system.
The Early Jurassic Calcari Grigi Group represents the shallow-water sedimentation phase of the Trento Platform, revealing several sites over an area of about 1,500 km2. The continuity of dinosaur tracks from the Hettangian-Pliensbachian interval indicates a stable connection between the Southern Alps' carbonate tidal flats and nearby vegetated lands and freshwater sources, although the exact locations of these lands remain uncertain. Detailed sedimentological studies of the Calcari Grigi Group, particularly the Rotzo Formation, describe it as a shallow subtidal platform with an inner lagoon bordered by oolitic shoals.
The Coste dell'Anglone ichnosite for example, situated on the margin of this lagoon within a sandy barrier complex, was influenced by pioneer plants like Hirmeriellaceae in semi-arid conditions. Sedimentary structures indicate a shallow water tidal environment with heterolithic stratification pointing to steady flows at low current velocities. The presence of dinosaur tracks and supratidal markers suggests repeated subaerial exposure, contrasting with previous interpretations of the site as fully subtidal.
These findings align with the lagoon-barrier island complex scenario, featuring a subtidal ramp gently inclined to the west and an intertidal-supratidal barrier island complex trending approximately N-S, now corresponding to the Mt. Brento-Biaina and Mt. Baldo chains.
The presence of the families Centropyxidae and Difflugiidae testifies the presence of a mixed marine-terrestrial depositional system, lacking large bodies of water.
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara Bellori Garzon di Scotto Ponte dell`Anguillara
Isolated Tests/Shells
A foraminifer of the family Hauraniinae.
Kristanita
K. inflata
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara
Isolated Tests/Shells
A foraminifer of the Duotaxidae family
Lituosepta
L. recoarensisL. compressaL. ssp.
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara Bellori Ponte dell`Anguillara
Isolated Tests/Shells
A foraminifer of the Mesoendothyridae family.
Meandrovoluta
M. asiagoensis
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Monte Baldo
Isolated Tests/Shells
A foraminifer of the Cornuspiridae family
Mayncina
M. termieri
Garzon di Scotto Bellori Ponte dell`Anguillara
Isolated Tests/Shells
A foraminifer of the Mayncinidae family
Orbitopsella
O. primaevaO. preacursorO. dubariO. circumvulvataO. spp.
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Campomolon Bellori Ponte dell`Anguillara Sega di Noriglio Rotzo Val d'Assa Monte Gallo
Isolated Tests/Shells
A foraminifer of the Mesoendothyridae family.
Ophtalmidium
O. concentricumO. sp.
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara
Isolated Tests/Shells
A foraminifer of the family Ophthalmidiidae.
Paleomayncina
P. termieri
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara
Isolated Tests/Shells
A foraminifer of the Planiseptinae family.
Pseudocyclammina
P. liasicaP. spp.
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara
Isolated Tests/Shells
A foraminifer of the Pfenderinidae family.
Pseudopfenderina
P. cf. butterlini
Altopiano di Asiago Tonezza del Cimone Altopiano di Folgaria Recoaro Gruppo del Pasubio Monte Baldo Monte Scandolara
Isolated Tests/Shells
A foraminifer of the Pseudopfenderininae family.
Invertebrates
Microfossils of the Rotzo Formation consist of benthic foraminifera, calcareous algae, Ostracoda and coprolites. Foraminifera are mainly benthic agglutinated species belonging to the superfamily Lituolacea (suborder Textulariina), while lamellar and porcellaneous-walled species are very rare. The bivalve Opisoma excavatum is very common.
A Demosponge, member of Suberitidae. Monospecific assamblages with encrusting and symbiont forms are found abundantly on lagoonal facies, distributed in several stratigraphic horizons.
Sette Comuni Erbezzo Vajo dell'Anguilla Cimoncello di Toraro Campomolon
Isolated Shells
A Terebratulidan, member of Plectoconchidae. The main Branchiopod locally associated with the local Lithiotid facies, where they formed rare mass occurrences at discrete intervals.
The Rotzo Formation is known mostly due to its massive bivalve associations of the genera Lithiotis, Cochlearites and Lithioperna that extended all along the Pliensbachian Trento Platform forming mass accumulations of specimens that formed Reef-Like structures. This fauna appeared after the early Pliensbachian C-cycle perturbation, that triggered the diffusion of the Lithiotis Fauna, noted on the rapid widespread of this biota after the event layers. All of the genera related with this fauna appeared on the lower Jurassic, and all but one became extinct before the Middle Jurassic. This "Reefs" had a strong zonation, starting with the bivalves Gervilleioperna and Mytiloperna, restricted to intertidal and shallow-subtidal facies. Lithioperna is limited to lagoonal subtidal facies and even in some low-oxygen environments. Finally Lithiotis and Cochlearites are found in subtidal facies, constructing buildups. This sections formed various kinds of ecosystems on the Trento platform, where it appeared in branched corals filled with (Spongiomorpha), Domal corals (Stromatoporida), tubular corals, Styllophyllidae corals, unidentified Cerioidea colonial corals, regular echinoid debris, sponges, and the solitary coral Opelismilia sp., with also aggregated snail shells.
An oyster, member of Plicatostylidae. It is one of the Three main bivalves recovered on the Lithiotis Facies, with its accumulations generally overlying megalodontid coquinas.
A clam, member of Neomiodontidae. The so-called Eomiodon horizon represents the lower Rotzo Formation, composed of organic-rich marlstones with abundant specimens of this genus, typical of stressed environment with low salinity. This genus considered an opportunistic shallow infaunal suspension feeder, and the marker genus for brackish environments.
An oyster, member of Plicatostylidae. On the Rotzo formation this genus become abundant along rootlets, indicative of a very shallow and restricted lagoon or marsh environment.
Gervillioperna
Gresslya
G. elongata
Vajo dell'Anguilla Cimoncello di Toraro Campomolon Noriglio
An oyster, member of Plicatostylidae. A large bivalve, up to 70 cm length. This genus was found to be a bivalve with a byssate juvenile stage that developed different modes of life on the adulthood depending on the individual density and bottom firmness.
An oyster, member of Plicatostylidae. It is the major Bivalve identified on the formation, and the genus that gives the name to the "Lithiotis fauna". Its accumulation have had different denominations on literature, such as banks, bioherms, biostromes, bivalve reefs or bivalve mounds.
M. mirabilisM. bittneriM. lepsiiM. transalpinusM. cf. pernoidesM. spp.
Vaio del Paradiso Bellori Vaio dell'Anguilla Val d'Assa Sega di Noriglio Cornacalda Mandrielle Monte Gaza Ciago bei Verzano Campodalbero Pasubio Albaredo Giazzera Valgola Valbona Rotzo Mezzaselv Monte Gaza Verzano
A clam, member of Astartidae. Is considered a genus that evolved from shallow burrowing ancestors, becoming a secondarily semi-infaunal edgewise recliner adapted to photosymbiosis.
Pachygervillia
P. anguillaensisP. taramellii
Vaio dell'Anguilla Vajo del Paradiso Val di Sella Viote section
P. (Pachymegalodon) chamaeformisP.vacekiP. trigonalisP. (Durga) crassaP. (Durga) nicolisiP. ssp.
Bellori Between Pedescala and Castelletto Between Ferrazza and Campodalbero Nosellari Chiesa Carbonare Osteria alla Stanga Between Chiesa S.Martino and Zaffoni Between Boccaldo and Pozza Rovereto Leno di Terragnolo Cimoncello di Toraro Campomolon Folgaria Cornacalda
Bellori Between Pedescala and Castelletto Between Ferrazza and Campodalbero Nosellari Sega di Noriglio Chiesa Carbonare Osteria alla Stanga Between Chiesa S.Martino and Zaffoni Between Boccaldo and Pozza Rovereto Leno di Terragnolo
An ichnogenus that represents the resting trace resting activity of brittle stars (Ophiuroidea). The recovered from the Rotzo formation are probably from specimens trapped on tidal changes.
An Ostracodan of the family Cytherideidae. The assemblage is dominated (>95%) by this taxon.
Annelida
Genus
Species
Provenance
Material
Notes
Images
Schistomeringos
S. expectatus
Between Ferrazza and Campodalbero Between Nosellari and Dazio Between Virti and Osteria alla Stanga Between Chiesa S. Martino and Zaffoni
Isolated scolecodonts
A polychaete of the family Dorvilleidae. Unlike the modern counterparts that live in deeper environments, this species is found linked with shallow marine facies
On the local limestone deep burrowing is a very common type of biogenic activity, as is shown due to the presence of a large characteristic network of burrows which reach down to the lagoonal, marly-clayey assigned strata, suggesting intense bioturbation by large unknown organisms, perhaps giant decapod crustaceans (probably members of the family Erymidae), although, the burrows found are not closely related to the ones of Shrimps or other decapods, but resemble those of Stomatopoda and Malacostraca.
On the Inter-supratidal levels show that on the Rotzo Formation the tracksites were rarely hit by Storm Waves. Bella Lastra Tracksite recovers this environment, where the shales present (Where Fish & Crocodrylomorph Remains where found) are filled with plant roots, pollen grains, spores, freshwater ostracodes and the bivalve Eomiodon. This was deposited mostly on a Lagoonar environment with abundant shed vegetation. The main local Track record recovers specially Theropoda and Sauropoda, where the Sauropods are the most abundant tracks present (70%), moving the Otozum-like Sauropodomorphs of lower levels, with the climate changing from arid to humid. The Coste dell'Anglone ichnosite is considered as derived from semi-arid tidal flat deposits, due to the abundance of Cheirolepidiaceae Pollen. As the Pliensbachian Trento Platform is considered to be formed by a channelized barrier formed by sand, with reiterate tide emersions. The dinosaurs living here probably trampled on the subtidal flats looking for fishes trapped on tidal-derived ponds.
Theropod tracks, type member of the ichnofamily Anchisauripodidae, incertae sedis inside Neotheropoda. All tracks were probably produced by individuals with the same functional anatomy of the hind foot.
Coste dell'Anglone tracksite Bella Lasta tracksite Stol dei Campiluzzi tracksite
Footprints
Theropod tracks, member of the ichnofamily Eubrontidae, incertae sedis inside Neotheropoda. The tracks measure 30 cm long and have a distinctive robust digit III. The Coste dell´Anglone tracksite had a pes with the metatarsal III elongated, as found on Dilophosaurus.
Thyreophoran tracks, type member of the ichnofamily Moyenisauropodidae, incertae sedis inside Neornithischia. The tracks adscribed share some morphological affinity with those referred to the Ankylosauridae, such as the ichnogenera Metatetrapodus and Tetrapodosaurus, and probably belonged to medium-sized Scelidosaurs or other kind of Thyreophorans.
Sauropodomorph tracks, member of the ichnofamily Otozoidae, incertae sedis inside Sauropodomorpha. It wears morphological and morphometrical appearance that suggests relationships with a "prosauropod" trackmaker.
The local Footprints of Otozoum may have belonged to a genus similar to that of Lamplughsaura
Sauropod tracks, type member of the ichnofamily Parabrontopodidae, incertae sedis inside Sauropodomorpha. The larger tracks comprise elliptic pes (L=70 cm; W=50 cm) and subcirluar manus prints (L=33 cm; W=30 cm), what are among the largest known dinosaur tracks of the lower jurassic.
Rotzo Formation nearby land hosted Bahamian-type biomes (San Salvador Island Mangroves in the picture) with nearby "Taxodium swamp"-like coniferous associations dominated by the Pagiophyllum producer
The Rotzo Formation was deposited on a Lagoon on the emerged Trento Platform, leading to a well preserved fossil flora record, collected and studied since the 19th century. The great level of floral fossilization has even allow to discovery fossil amber on the Bellori section. This amber has allowed to determine that the environment was a shallow tropical lagoon, only a few metres deep, closed seawards by oolitic shoals and bars. This levels are dominated by a high abundance of Classopollis sp. (Cheirolepidiaceae), associated with dry and wet climates in coastal areas. The abundance of this group of conifers is also proven by the high presence of cuticles of Pagiophyllum cf. rotzoanum. Beyond this genera, spores are highly diversified, including from Sphenophyta, Selaginellales to Ferns, with abundance (more than 50%) of trilete spores (Deltoidospora), what suggest a good freshwater availability corresponding to a wet climate, proven also by the presence of aquatic miospores of algae such as Botryococcus and Pseudoschizaea. The climate was arid on some seasons with monsoon months. The abundance of marine fauna on this sediments, including fragments of corals, bryozoans, bivalves, echinoids, and foraminifera, suggest transport from brackish lagoons and marshes, probably occurred during storm events. Overall data points to a marshy and/or submerged paleoenvironment, comparable to the present-day Taxodium swamp or cypress swamp and a Bahamian-type marine environment in a rather wet monsoonal climate as in the modern southeastern Asia. The abundant presence of glossy black charcoal little fragments point to wildfires being a consistent local landscape feature.
Amber
The Rotzo Formation records one of the few Early Jurassic assamblages with Amber in the world, the nicknamed "Bellori amber" found near the village of the same name. Made mostly of small droplets of less than 1 mm with exceptionally preserved morphology its likely the amber producing plants were likely not stressed or affected by disease. Due to the small size animal inclusion have not been found. However various plant materials, identified "mummified wood" and wood tissue are known. Additionally large amounts of CircumpollesCheirolepidiaceous pollen, and occasional freshwater algae Pseudoschizaea remains are included. Several cuticle fragments are attributed to the araucariaceous or Hirmeriellaceae genus Pagiophyllum. Those lived on a coastal and wet palaeoenvironment similar to the present-day Taxodium swamps with monsoonal seasons as in the modern southern Asia. More recently, an additional outcrop with amber, located in Vajo dell'Anguilla, was recovered, with again samples in thousands of thin filaments.
Algae
Genus
Species
Provenance
Material
Notes
Images
Palaeodasycladus
P. fragilisP. gracilisP. mediterraneusP. spp.
Coste dell'Anglone Marocche di Dro Bellori Garzon di Scotto Foza section Chizzola
Imprints
A green alga of the family Dasycladaceae. A reefal algae usually found in carbonate settings along all the Mediterranean
D. rhomboidalisD. parolinianaD. angustifoliaD. visianicaD. micophylla
Roverè di Velo Val d´Assa Val Juliani Val Salorno
Fronds
Affinities with Corystospermaceae. Represents the largest "Seed Fern" Leaf in the fossil record, with leaves up to 70 cm, having an habit resembling the extant angiosperm Nypa fruticans.
Affinities with the genus Trichopitys, as probably a member of Karkeniaceae, with strong resemblance with the genus Baiera, lumped in some papers as Baiera lindleyana.
Baiera a taxon that has been said to include Trevisania
B. tropidimorphyrnB. graciliformeB. kendallianumB. appropinquatumB. praetermissum
Roverè di Velo Pernigotti Boca di Trappola Rotzo Valle Zulliani
Branched shoots Isolated leaves
Affinities with Araucariaceae or Cheirolepidiaceae. Brachyphyllum tropidimorphyrn shows close resemblance between African and Venetian conifers and its distribution suggests a lowland araucarian forest.
Brachyphyllum kendallianum from the Rotzo Formation
A possible Conifer leaf. Was suggested to have affinities with Czekanowskiales, sometimes found inside Ginkgoopsida, yet recent finds of it associated with the cone genera Sphaerostrobus and Ourostrobus points to a coniferophyte affinity, maybe as a member of Palissyaceae.
Roverè di Velo Val d´Assa Rotzo Scandolara Squaranton Bienterle
Isolated Leaves Pollen Organ
Incertae sedis inside Coniferales, initially identified as "Yuccites schimperianus", suggested as a member of its own family, the "Pelourdeaceae". A hygrophytic riparian conifer with herbaceous or shrubby habit.
Affinities with Palyssiaceae. Extinct group conifer leaves with similarities with Sequoia or Amentotaxus. Maybe Includes the species "Taxites vicentina".
