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Oldman Formation

The Oldman Formation is a (Campanian) geological formation in , , comprising the middle unit of the Belly River Group and renowned for its rich fossil assemblages preserved in fluvial sediments. Named by Russell and Landes in 1940, the formation's type section is exposed along the from near its confluence with the St. Mary River (about 9.6 km south of ) northward to the vicinity of . It overlies the Foremost Formation, with the basal contact marked by the Herronton sandstone zone, and underlies the along a diachronous boundary that reflects changes and stratigraphic thickening southward. The unit extends across the plains of , thinning eastward into and correlating with the in northern . Thickness varies regionally, reaching up to 328 meters near in the southwest and thinning to as little as 10 meters in the north or 122 meters in eastern , where it loses distinct identity. Lithologically, it consists predominantly of nonmarine clastic rocks, including light gray to brownish sandstones (fine- to coarse-grained), sandy to argillaceous shales, mudstones, siltstones, and minor carbonaceous beds with coal seams and bentonites in the upper ; the lower portion features greenish, brownish, or reddish shales that contribute to characteristic badland topography. These sediments were deposited in an environment with meandering and braided fluvial channels, swampy lowlands, and seasonal streams under a , as inferred from botanical remains and growth rings in fossils. Paleontologically, the Oldman Formation is world-famous for its exceptional vertebrate record, particularly at , where exposures of the formation have yielded disarticulated dinosaur bones (including hadrosaurs, ceratopsians, and theropods) concentrated in channel deposits, alongside , mollusks, salamanders, and rare . This fauna, dating to approximately 78–77 million years ago, supports biostratigraphic correlations across western and highlights a diverse in a freshwater setting with limited marine influence.

Geological Context

Location and Extent

The Oldman Formation occupies a position within the in , . It is primarily exposed in badlands terrain along the valley and its tributaries in southeastern Alberta, with prominent outcrops at , a . The formation's subsurface extent underlies much of , spanning townships 1 to 47 and ranges 1 West of the 4th Meridian to 5 West of the 5th Meridian, with surface exposures ranging from near the Alberta-Saskatchewan border westward to the eastern foothills of the . Its boundaries are influenced by facies changes, limiting mappability west of range 21 West of the 4th Meridian and north of township 34. As the middle unit of the Belly River Group, it overlaps regionally with adjacent formations in this broader stratigraphic package. Thickness of the Oldman Formation varies regionally, thinning northward and eastward while increasing southwestward due to depositional patterns. It measures approximately 40 m at in southeastern , reaches 80–126 m in southeastern exposures near township 2, and attains up to 230 m in southwestern near township 8. The type section is defined along the near , extending from the confluence with the St. Mary River (approximately 9.6 km south of ) to the vicinity of itself.

History of Research

The geological investigation of the Oldman Formation began in the early with expeditions targeting dinosaur-bearing strata in . American paleontologist led expeditions from 1910 to 1915 along the , where he collected significant specimens, including a duck-billed from the Oldman Formation in 1912. Subsequent Canadian expeditions in the 1910s through 1930s, led by figures such as Charles H. Sternberg and his sons, further identified key localities within the Belly River Group, which encompassed what would later be defined as the Oldman Formation. The formation was formally named in 1940 by L.S. Russell and R.W. Landes after the , with its type section established near the of the Oldman and St. Mary rivers south of , . Initially defined as the middle unit of the Belly River Formation, replacing earlier informal terms like "Pale Beds," it was recognized for its continental sandstones and shales. The establishment of in 1955 marked a pivotal development, protecting extensive exposures of the upper Oldman Formation and transforming the site into a major international research hub for and . Key stratigraphic revisions occurred in the late , particularly in the and , driven by detailed field mapping and sedimentological analysis. In 1971, J.R. McLean proposed consolidating the Belly River units into a single Judith River Formation, challenging prior divisions. Building on this, D.A. Eberth and A.P. Hamblin in 1993 formalized the separation of the Oldman Formation from the overlying , citing a regional disconformity, distinct lithologic characteristics such as reduced content in the Oldman, and faunal turnover. Post-2000 research has refined the formation's architecture and correlations. A 2016 lithostratigraphic revision by R.R. Rogers and colleagues correlated the Oldman Formation with the in , emphasizing shared depositional sequences and resolving prior ambiguities in cross- mapping. More recently, a 2024 study conducted analyses of Oldman along the US-Canada , identifying multiple sediment sources through petrographic of quartz-rich arenites and olivine-bearing intervals, which illuminated fluvial and beach depositional shifts. Concurrent 2024 stratigraphic updates using well-log data further documented the Oldman Formation's southward thickening and diachronous contacts, enhancing regional models of the Belly River Group.

Stratigraphy

Lithology

The Oldman Formation is predominantly composed of light grey to yellow-weathering, fine- to coarse-grained sandstones that exhibit upward-fining trends and form to sheet-like bodies up to 33 m thick. These sandstones display such as trough and low-angle , reflecting deposition in dynamic fluvial channels. Interbedded with the sandstones are grey to greenish-grey mudstones, muddy siltstones, and occasional layers, with bentonitic shales and sandstones becoming more prominent in the upper portion of the formation. Sandstones dominate the overall , particularly in the lower member, comprising stacked units that form the bulk of the unit's volume. Petrographically, the sandstones are quartz-rich, with grains making up 20–60% of the framework and minor proportions of and lithic fragments, indicative of relatively mature sediments derived from recycled orogenic sources. The upper sandstones are particularly mature, showing a high proportion of relative to other components. Typical vertical successions in the formation begin at erosional bases overlain by coarse-grained, fining-upward units in the lower Comrey Member, transitioning upward to interbedded fine sandstones and mudstones in the upper siltstone member, with mud-dominated intervals prevalent toward the top. These patterns reflect episodic avulsion and floodplain in a fluvial system.

Age

The Oldman Formation dates to the middle stage of the epoch, with deposition spanning approximately 78.5 to 76.5 . This temporal range is constrained by the upper Foremost Formation at ~78.5 , marking the base of the Oldman, and the formation's upper contact at ~76.5 . The relies primarily on of layers, including 40Ar/39Ar analyses of sanidine and crystals from volcanic ashes, which yield ages for horizons within the formation. More recent high-precision U-Pb CA-ID-TIMS dating of zircons from , such as the Fieldstation in the lower Oldman at 76.718 ± 0.020 Ma, refines these estimates and supports the overall timeframe. Magnetostratigraphic data further anchor the unit, placing it entirely within polarity Chron 33n, a long normal interval characteristic of the middle . Biostratigraphic correlations to global Campanian stages utilize marine index fossils from adjacent units, with the Oldman bracketed below by the Baculites obtusus ammonite zone and above by the Baculites compressus zone; foraminiferal biozones, such as those dominated by Hedbergella and Globotruncana species, provide additional ties to standard chronologies. These markers align the formation with the middle (Scaphites leei to compressus standard zones) on the international timescale. Deposition occurred over an estimated ~2 million years, reflecting steady alluvial accumulation with no major internal hiatuses; a subtle disconformity at the upper boundary with the indicates a brief depositional pause of less than 0.3 before resumption.

Stratigraphic Relationships

The Oldman Formation is the middle unit of the Belly River Group in , , conformably overlying the lower Foremost Formation and disconformably underlying the upper . This stratigraphic positioning reflects a progression from paralic to fluvial depositional environments within the Stage of the . The contact with the underlying Foremost Formation is conformable, characterized by a sharp lithologic transition marked by an abrupt increase in sandstone content at the base of the Oldman Formation, representing a shift to more fluvial-dominated without significant or . In contrast, the upper boundary with the is a disconformity defined by an erosional surface, often capped by a clay-pebble lag deposit indicative of channel incision and localized . This discontinuity represents a brief of less than 0.3 million years, as constrained by U-Pb of beds bracketing the contact around 76.3 Ma, during which time non-deposition or occurred prior to renewed fluvial . Laterally, the Oldman Formation correlates with the lower in north-central and the upper in northwestern , USA, forming part of a broader clastic wedge deposited across the Western Interior Basin during the . These equivalents exhibit similar fluvial and alluvial , with correlations supported by biostratigraphic markers such as assemblages and palynomorph zones, highlighting the diachronous nature of the formation's margins due to varying sediment supply and subsidence rates. Within the Belly River Group, the Oldman Formation thickens southward toward the international border, reaching up to 230 m in thickness, while maintaining its intermediate position between the thinner Foremost Formation below and the thicker above.

Depositional Environments

Fluvial Channel Systems

The fluvial systems of the Oldman Formation are primarily represented by multistory bodies that indicate deposition in meandering to low-sinuosity rivers, with widths reaching up to 100 m and preserved depths of 5–10 m. These sandstones form to sheet-like deposits, often amalgamated and traceable laterally for hundreds of meters to over a kilometer, reflecting repeated and avulsion in a low-gradient setting. The overall fluvial transitioned from more braided, low-sinuosity systems in the lower parts to increasingly meandering patterns upward, driven by tectonic influences from the rising Cordilleran highlands. Sedimentary structures within these channel sandstones include prominent trough cross-bedding with sets up to 0.5–1 m thick, indicative of dune in active channel beds, alongside low-angle planar cross-beds and current ripples that record lower flow regimes. Lateral accretion surfaces and inclined heterolithic (IHS) are common in point-bar sequences, dipping at 5–25° and revealing cyclic alternations of sand and drapes formed during channel and seasonal flooding. These features highlight the dynamic of the channels, where point bars accumulated through lateral , preserving fining-upward successions that fine from coarse sands to silty drapes. Typical channel-fill successions begin with sharp-based scours up to several meters deep, filled by gravelly lags containing mudstone rip-up clasts, calcrete nodules, and occasional extraclasts like wood fragments or bone material, marking episodes of high-energy erosion during flood events. These basal units grade upward into medium- to fine-grained, trough cross-bedded sandstones that represent the main channel-fill, progressively fining to ripple-cross-laminated silts and thin mud layers as flow velocities waned. The paleoflow was predominantly eastward, as evidenced by paleocurrent indicators such as cross-bed orientations and IHS dips, with sediments derived from eroding highlands in the western Cordilleran region of southeastern British Columbia and western Montana. This eastward drainage pattern evolved in response to ongoing Laramide tectonism, which increased sediment supply from the uplifting western source areas.

Floodplain and Overbank Settings

The floodplain and overbank settings of the Oldman Formation are characterized by fine-grained mudstone and siltstone intervals that represent low-energy depositional environments, including crevasse splays, levees, and fills of abandoned channels. These deposits form tabular units interbedded with coarser channel sandstones, recording periodic overbank flooding in a fluvial system. Mudstones and siltstones dominate these facies, such as massive light grey to buff mudstone (0.3–2.6 m thick) with carbonaceous detritus and coal laminae, and horizontally stratified siltstone to sandstone (0.3–3 m thick) containing rip-up clasts and unionid shells, indicating deposition from waning flood flows. Vertical profiles in overbank sequences exhibit cyclical fining-upward patterns, transitioning from thin sandstones or siltstones at the base to thicker mudstones, reflecting episodic sediment delivery during floods followed by settling in standing water. These successions, often 0.7–3.4 m thick per cycle, stack to form broader overbank intervals up to 20 m, with development signaling prolonged exposure between flooding events. are evident in siliceous muddy siltstones (0.8–1.5 m thick) featuring nodules, staining, and gleying (mottled colors from iron reduction), indicative of seasonal aridity and fluctuating water tables on interfluve floodplains. traces, including conical and clay-lined structures (up to several decimeters deep), are common throughout these mudstones and siltstones, documenting and in periodically waterlogged conditions. Lateral variability in overbank deposits is pronounced, with finer mudstones and siltstones thickening eastward as energy decreased away from active channels, while coarser levee and crevasse splay sands thin in the same direction. Crevasse splays appear as current-rippled fine sandstones (0.62–1.7 m thick) with carbonaceous debris, sourced from levee breaches and spreading sediment across the floodplain. Levees, represented by stratified siltstones adjacent to channels, show pedogenic features like slickensides and meniscate burrows, reflecting repeated exposure and bioturbation. Abandoned channel fills consist of massive mudstones (0.2–2.5 m thick) with plant debris and coal clasts, preserving low-energy ponding after avulsion. These elements collectively illustrate a dynamic floodplain influenced by frequent overbank events in a warm, seasonal climate.

Sediment Provenance

The sediments of the Oldman Formation were primarily derived from the erosion of the Cordilleran foreland in northwestern , with contributions from volcanic terranes and additional inputs from southwestern and southeastern . This source region reflects a transborder sediment flux across the U.S.- border, as confirmed by recent petrographic analyses of sandstones near the border. The quartzose nature of the sands indicates recycled orogenic sources, characterized by high degrees of mineralogical maturity due to prolonged and . Provenance indicators include a high -to- ratio, often reaching approximately 90% and 10% in certain units like member, alongside minor volcanic lithics such as clasts in the overlying Comrey member. These features point to a mixed sedimentary and volcanic input, with the dominance of grains suggesting derivation from pre-existing sedimentary rocks in the , supplemented by limited first-cycle volcanic material from the Cordilleran region. Such compositions distinguish the Oldman Formation from more -rich units in adjacent formations. Sediment transport occurred primarily via axial fluvial systems, with paleocurrent directions oriented eastward and northeastward, prograding into the foredeep of the during a period of maximum seaway retreat around 78–77 Ma. These systems delivered clastic material across the basin, resulting in a southwesterly thickening trend that reflects the proximal influence of the northwestern sources. In comparison to the underlying Foremost Formation, the Oldman Formation exhibits a shift toward more mature sands, attributed to extended reworking and sorting during fluvial transport from a distinct northwestern source, rather than the predominantly southwesterly of the Foremost. This maturation is evident in the increased content and reduced labile components, enhancing the textural uniformity of Oldman sandstones.

Paleoenvironment

Paleoclimate

The paleoclimate during deposition of the Oldman Formation was characterized by a warm-temperate with seasonal , as indicated by paleosols featuring nodules that formed under semi-arid to arid conditions with alternating wet and dry periods. These paleosols, commonly developed on mudstones, reflect periodic cracking and during dry seasons, interspersed with sufficient rainfall to support fluvial . The relative sparsity of seams—limited to a single thin zone near the top of the formation—further supports limited swamp development and overall drier conditions compared to coal-richer underlying units. Clumped isotope analyses of pedogenic carbonates from formations in the Western Interior Basin yield mean annual temperature estimates of approximately 16–20 °C, with evidence for extended dry seasons that influenced and sediment stability. This warmth aligns with broader patterns in the Western Interior Basin, where equable temperatures prevailed but seasonality increased inland. Relative to the underlying Foremost Formation, which records more humid, coastal-influenced conditions, the Oldman Formation documents a shift toward greater , attributed to the early effects of the that enhanced topographic barriers and orographic rainfall shadows. Climatic variability was regionally pronounced, with wetter regimes near the paleoshoreline in the lower and upper units—supporting more stable fluvial channels—and progressively drier inland settings in the middle unit, where ephemeral streams dominated. These patterns subtly shaped depositional environments by promoting channel avulsion and floodplain exposure during dry phases.

Taphonomy and Preservation

The of the Oldman Formation is predominantly fluvial, characterized by the formation of bonebeds within channel lag deposits resulting from hydraulic during riverine transport. These bonebeds typically contain disarticulated skeletal elements, reflecting moderate-distance transport and by stream flow in both meandering and braided channel systems. Fossils are more commonly preserved in channel sandstones than in overbank settings, indicating that many remains were incorporated into active fluvial environments rather than contexts. In contrast, overbank deposits of fine-grained muds occasionally preserve more articulated skeletal remains, where rapid burial during flooding events limited exposure to and . Such events promoted quick entombment in low-energy settings, reducing post-mortem disruption and enhancing the potential for intact preservation. The deposits played a minor but complementary role in this process, providing occasional sites for localized burial away from main channels. Diagenetic alterations in the Oldman Formation include of exposed sandstones, which exhibit high rates of approximately 4 mm per year due to their smectite-rich composition under semi-arid conditions. elevation variability of about 12 m across the formation's upper contact influences preservation quality, as differential affects exposure and stratigraphic integrity, leading to time-averaging in assemblages. While anoxic conditions in mud-rich overbank may have facilitated early mineralization, specific diagenetic features like pyritization are not prominently documented in channel-dominated contexts. Bone modification in the formation shows high rates of and fragmentation, primarily attributable to hydraulic and mechanical breakdown of remains prior to final . These processes result in sorted assemblages with rounded edges on larger elements, underscoring the dynamic fluvial regime's role in shaping the taphonomic record.

Fossil Content

Theropod Dinosaurs

The theropod dinosaurs of the Oldman Formation, dating to the middle stage of the (approximately 78–77 million years ago), comprised a range of carnivorous and omnivorous species that occupied apex, , and opportunistic roles within the floodplain-dominated . These dinosaurs, representing about 15% of the overall vertebrate fauna, included large tyrannosaurids as top predators alongside smaller maniraptoran and ornithomimid forms that likely scavenged or hunted smaller prey. Fossils, primarily isolated bones, teeth, and partial skeletons, occur in fluvial channel and overbank deposits, with theropods more abundant in certain localities such as those near Steveville, , where juvenile remains provide insights into and growth rates. Daspletosaurus torosus and D. wilsoni were the dominant large theropods, functioning as apex predators capable of preying on large ornithischians like hadrosaurs and ceratopsians. torosus, named from a partial ( CMN 8506) recovered from the upper Oldman Formation near Steveville, measured 8–9 meters in length and weighed around 2.5–3 tonnes, characterized by robust build, deep , and powerful bite force suited for bone-crushing predation. Multiple specimens of D. torosus, including adults and juveniles from the same stratigraphic levels, suggest possible gregarious , potentially involving familial groups or cooperative hunting, though direct evidence for pack dynamics remains interpretive. wilsoni, known from specimens assigned from the uppermost Oldman Formation and correlative , represents a transitional form between D. torosus and later species like D. horneri, with subtle cranial differences such as reduced ornamentation and intermediate robusticity, indicating evolutionary continuity across the formation. Both species coexisted with other tyrannosaurids like libratus but were rarer, emphasizing their specialized role in the carnivore guild. Smaller theropods diversified the guild with agile, forms. albertensis, a dromaeosaurid reaching 2 meters in length, is known from isolated teeth and skeletal elements, representing a rare but ecologically significant small carnivore likely adapted for pursuing small vertebrates or scavenging. langstoni, another dromaeosaurid (with troodontid-like features in its slender build and sickle claws), similarly measured about 2 meters and is documented by fragmentary remains, suggesting a role as a nimble predator or opportunist in understory habitats. altus, an ornithomimid ornithomimosaur, was a fast-running up to 3.5–4 meters long, with elongate limbs and a toothless ; its fossils, including partial skeletons, indicate a of , insects, and small animals, filling a niche as a swift forager. formosus, a troodontid with a large relative to body size (about 2 meters long), is represented by questionable records from the formation, potentially reassignable to other troodontids like ; it likely employed keen senses for nocturnal or opportunistic feeding. Rare avialan remains, possibly referable to early birds or basal paravians, occur sporadically but contribute little to the overall theropod assemblage. Localities such as the Steveville Bonebed have yielded juvenile theropod elements, including those attributable to , highlighting high mortality rates among young individuals and aiding reconstructions of .

Ornithischian Dinosaurs

The Oldman Formation of , , hosts a diverse assemblage of ornithischian dinosaurs, primarily herbivorous forms that dominated the (middle ) terrestrial ecosystems. These taxa reflect adaptations to fluvial and environments, with evidence of inferred from monodominant bonebeds. Ornithischians constitute the majority of the dinosaurian remains recovered, underscoring their ecological importance as primary consumers in a characterized by systems and seasonal flooding. Hadrosaurids, or duck-billed dinosaurs, are among the most abundant ornithischians in the formation, represented by several genera that exhibit specialized cranial structures for browsing and social display. Brachylophosaurus canadensis, a brachylophosaurin hadrosaurid lacking a prominent nasal , is known from multiple specimens, including complete skulls and postcrania, collected from the lower to middle parts of the formation. This species likely inhabited coastal or near-coastal habitats, as suggested by its stratigraphic distribution in the Comrey Sandstone Zone. Corythosaurus casuarius, a lambeosaurine with a distinctive helmet-like , is documented by well-preserved skeletons and associated bonebeds, indicating gregarious habits among subadult individuals. The may have served acoustic or display functions within herds. These hadrosaurids likely formed large, migratory herds that traversed the floodplain, contributing to the formation's rich taphonomic record of multitaxic assemblages. Ceratopsians, or horned dinosaurs, add significant taxonomic diversity to the Oldman Formation's ornithischian , with basal centrosaurines and chasmosaurines reflecting early evolutionary radiations within . Albertaceratops nesmoi, a basal centrosaurine, is known from a nearly complete exhibiting elongate brow horns and a rectangular parietal frill, collected from the lower Oldman near southern Alberta's Milk River. This taxon suggests phylogenetic branching near the base of centrosaurines, contemporaneous with other early horned forms. Chasmosaurus sp., a chasmosaurine with a broad frill and short nasal horn, is identified from multiple cranial and postcranial elements from mid-formation exposures, indicating a preference for riverine habitats. Wendiceratops pinhornensis, a centrosaurine described in 2015 from a monodominant bonebed in the lower Oldman, features a unique array of curved suprategmental horns on its frill, supporting interpretations of display-driven evolution in ceratopsian ornamentation; the bonebed, containing over 100 individuals, evidences gregarious and catastrophic mortality events linked to flooding. Smaller ornithischians and associated reproductive traces further illustrate the formation's ornithischian diversity. Thescelosaurus neglectus, a thescelosaurid ornithopod, is represented by isolated postcranial elements suggestive of a bipedal, herbivorous lifestyle in vegetation, though remains are less common than those of larger taxa. Egg clutches attributed to non-avian dinosaurs, including the oospecies Prismatoolithus levis from the Devil's Coulee locality, preserve prismatic eggshells with bird-like microstructures, potentially linked to hadrosaurid or other ornithischian nesting behaviors in settings. Bonebeds dominated by ornithischians, such as those of hadrosaurs and ceratopsians, comprise approximately 70% of fossils in the formation, pointing to herd structures vulnerable to environmental stressors like river avulsions. These assemblages occasionally preserve evidence of interactions with contemporary theropods, such as bite marks on hadrosaur bones.

Non-Dinosaurian Vertebrates

The non-dinosaurian assemblage of the Oldman Formation (middle , , ) is dominated by and semi-aquatic taxa, reflecting the formation's fluvial and depositional environments, with co-occurrence alongside diverse faunas in shared habitats. These vertebrates include , crocodilians, mammals, amphibians, and , providing insights into the freshwater ecosystems of the Western Interior Basin during the . Fossils are primarily recovered from channel sandstones and overbank mudstones, indicating habitats ranging from river systems to wetlands. Turtles are among the most common non-dinosaurian vertebrates in the Oldman Formation, with remains often concentrated in fluvial deposits and settings. Adocus, a medium-sized trionychid turtle, is particularly abundant in sandstones, where clutches of eggs and shell fragments suggest nesting and aquatic lifestyles adapted to riverine environments. In contrast, Basilemys, a large nanhsiungchelyid turtle reaching up to 1 meter in length, is more frequently preserved in mudstones, indicating a preference for overbank or lacustrine habitats. These represent key components of the herbivorous and omnivorous guilds in the formation's ecosystems. Crocodilians are represented by both small and potentially large forms, though overall rare compared to , with osteoderms and teeth primarily from and overbank . Smaller alligatoroids, such as cf. , are identified from isolated teeth and skeletal elements, suggesting generalist predators in freshwater settings. These taxa highlight a gradient from small, abundant crocodylomorphs to infrequent giants in the Oldman paleoenvironment. Mammals in the Oldman Formation are rare but taxonomically diverse, consisting mainly of multituberculates and , with early eutherian records marking significant evolutionary milestones. Multituberculates, such as Meniscoessus intermedius from the lowermost Oldman, are known from isolated teeth and jaws, representing rodent-like herbivores or omnivores adapted to forested floodplains. , a primitive , is documented by dentary fragments and teeth, indicating insectivorous or frugivorous habits in habitats. Eutherians appear for the first time in North American records with taxa like Gypsonictops lewisi, a leptictid proteutherian known from molars, suggesting basal placental diversification in the formation. These small, nocturnal mammals likely occupied niches below the level of larger vertebrates, with fossils concentrated in overbank deposits. Amphibians are diverse and indicative of persistent freshwater conditions across the Oldman Formation, with salamanders far outnumbering frogs in the preserved record. Salamanders, including taxa like Prodesmodon, are represented by vertebrae and jaw fragments, often in fine-grained sediments, pointing to a variety of aquatic and semi-aquatic lifestyles in rivers and ponds. Frogs are rare, with isolated elements suggesting anurans adapted to margins, though specific taxa remain poorly resolved. No or remains are confirmed from the formation, underscoring the dominance of lissamphibian amphibians in its aquatic niches. Fish remains, though not abundant, include actinopterygians and chondrichthyans from and overbank deposits, reinforcing the freshwater character of Oldman paleoenvironments. Notable taxa encompass osteoglossids, such as a new from the formation, alongside gars (Lepisosteidae) and rarer (e.g., rhinobatoids), with scales and centra indicating diverse trophic levels in fluvial systems. These aquatic vertebrates coexisted with terrestrial forms, contributing to a complex in the coastal plain setting.

Invertebrates and Plants

The fossil record of the Oldman Formation is dominated by freshwater molluscs, including bivalves such as of the Sphaerium (e.g., Sphaerium livingstonensis and Sphaerium mclearni), which are preserved as shells in shales and sandstones indicative of riverine environments. Gastropods and ostracods also occur, often in coquinas within fine-grained overbank deposits, with ostracods found in ostracod-bearing sandstones and gastropods alongside bivalves in shales. Trace , including meniscate-filled burrows attributed to activity, are common in sediments, while are rare, represented by occasional impressions or fragments in bonebeds and amber-like deposits. Plant fossils in the Oldman Formation include leaf impressions of , cycads, , and early angiosperms, preserved primarily as compressions in fine-grained shales associated with fluvial overbank settings. , particularly coniferous specimens such as those identified as four distinct species, points to riparian forests along ancient river channels, with growth rings suggesting periodic water availability. assemblages, dominated by triprojectate angiosperm forms alongside and spores, indicate a seasonal with increasing angiosperm influence in the late landscape. These and collectively reveal a freshwater-dominated , with diverse molluscan assemblages and floral elements confirming habitats of rivers, ponds, and vegetated floodplains supporting riparian woodlands and . Preservation of these fossils typically involves of leaves and delicate structures in organic-rich shales from low-energy overbank deposits, while calcified and occur in paleosols developed on floodplains, reflecting episodes of in a semi-arid to seasonal .

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