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Lance Formation

The Lance Formation is a geological unit of Late Cretaceous (Maastrichtian) age, representing the uppermost division of Cretaceous rocks in the western United States, primarily exposed in the Powder River Basin of northeastern Wyoming and extending into adjacent parts of Montana, South Dakota, and North Dakota. It dates to approximately 69–66 million years ago, spanning the final stages of the dinosaur era just prior to the Cretaceous-Paleogene extinction event. Named after Lance Creek in Niobrara County, Wyoming, the formation was originally referred to as the "Ceratops beds" due to its abundant fossils of ceratopsian dinosaurs such as Triceratops. Composed predominantly of fluvial channel sandstones (fine- to medium-grained, comprising about 30% of the unit), interbedded with mudrocks, shales, siltstones, and thin coal and lignite beds (making up the remaining 70%), it records deposition in a coastal plain and eastward-flowing river system following the retreat of the Western Interior Seaway. Thickness varies regionally from 200 to over 1,500 feet (60–450 meters), with the formation conformably overlying the Fox Hills Sandstone and disconformably or unconformably overlain by the Paleocene Fort Union Formation, marking the Cretaceous-Tertiary boundary. Paleontologically significant, the Lance Formation yields a diverse vertebrate assemblage, including dinosaurs like Tyrannosaurus rex, Triceratops horridus, hadrosaurs, and ornithomimids, as well as early mammals, turtles, crocodilians, and rare bird fossils, providing critical insights into the ecosystems immediately preceding the end-Cretaceous mass extinction; it also contains evidence of the boundary event, such as an iridium-enriched clay layer at sites like Dogie Creek, attributed to asteroid impact. Equivalent to the Hell Creek Formation in Montana and South Dakota, the Lance has been extensively studied for its stratigraphic, sedimentologic, and hydrogeologic properties, including its role as a minor aquifer in southeastern Wyoming.

Geological Setting

Location and Extent

The Lance Formation is primarily exposed in eastern , , particularly in Niobrara County around the Lance Creek oil field, where it was first described from outcrops along Lance Creek. These exposures form part of the broader , with the formation's type section located in this region. The formation covers significant portions of outcrop area within the Powder River Basin, featuring scattered exposures along the eastern flank of the in counties such as Niobrara, Johnson, and Converse, and extending into adjacent areas of western , eastern Montana, and western . Thickness varies regionally from about 90 meters in the northern portions near the South Dakota border to up to 600 meters in the southern exposures, a pattern influenced by Laramide tectonic folding and differential subsidence during deposition. In modern , the Lance Formation is prominently revealed through differential patterns that carve landscapes, particularly in the rolling hills and dissected terrains of eastern , enhancing its accessibility for geological study. It is overlain by the Fort Union Formation and underlain by the Fox Hills Sandstone, with the Meeteetse Formation in other basins.

Stratigraphy

The Lance Formation caps a sequence of marginal marine to terrestrial deposits in the Bighorn and Wind River basins of . It conformably overlies the Meeteetse Formation in the Bighorn and Wind River basins and the Fox Hills Sandstone in the , reflecting a gradual transition from more marine-influenced to fully continental fluvial environments during the stage (approximately 70-66 Ma). The formation is unconformably overlain by the Eocene Fort Union Formation across much of its extent, with the angular unconformity and erosional surface marking significant tectonic uplift and the Cretaceous-Paleogene boundary, though locally the contact may appear conformable in subsurface settings. The type section of the Lance Formation is defined at Lance Creek in , within the , originally referred to as the "Ceratops beds," for which the name Lance Formation was adopted by the (USGS). In the , the Lance conformably overlies the Fox Hills Sandstone, highlighting lateral facies variations across basins. Laterally, the Lance Formation correlates with the Hell Creek Formation to the east in Montana and the northern Dakotas, as well as the Scollard Formation in Alberta, Canada, forming a broad belt of Maastrichtian fluvial and floodplain deposits along the western margin of the retreating Western Interior Seaway. These equivalents share similar lithologic characteristics and biostratigraphic markers, though the Lance tends to exhibit greater sandstone content in its southern exposures. Internally, the formation is informally divided into a lower sandstone-dominated member, characterized by thick channel sandstones comprising up to 30% of the section, and an upper mudstone-dominated member with interbedded shales, siltstones, and minor coals representing overbank and floodplain accumulation. This lithologic transition reflects progradational shifts in a fluvial depositional system, with total thickness varying from 90 to 600 meters across Wyoming.

Lithology and Depositional Environment

Rock Composition

The Lance Formation consists predominantly of interbedded sandstones, , and , with sandstones comprising approximately 30% of the total thickness and the remaining 70% made up of thinner sandstones and finer interfluve deposits including , mudstone, and claystone. The sandstones are typically friable, lenticular, and cemented with , ranging from very fine- to coarse-grained with an average of medium (0.25–0.5 mm). Petrographically, the sandstones are arkosic, averaging 65% quartz, 9% feldspar, and 26% lithic fragments, reflecting derivation from proximal granitic and volcanic source rocks uplifted during the Laramide Orogeny. Regional variations in mineralogy are notable: northern exposures show higher proportions of volcanic rock fragments (up to 57%) and plagioclase feldspar exceeding potassium feldspar, while southern areas are enriched in quartz (up to 57%) and intrusive lithics with potassium feldspar more abundant than plagioclase; central regions additionally contain green hornblende. These compositions indicate multiple western provenance areas, including the Elkhorn Mountains volcanics to the north, Beartooth Mountains to the central, and Granite Mountains intrusives to the south. Mudstones and shales form thick intervals up to 200 feet, often carbonaceous and micaceous, with layers evident as angular fragments in northern sections, derived from western arcs such as the Elkhorn Mountains. These finer sediments exhibit bentonitic characteristics in ash-rich zones due to alteration of volcanic material. Conglomerates are minor and restricted to basal occurrences in the Bighorn and Wind River Basins, featuring chert and pebbles up to several inches in diameter. The formation contains no significant limestone beds but includes minor, thin and seams. Sandstones commonly display large-scale with set heights up to several feet, reflecting paleocurrent directions from the west.

Sedimentary Facies

The Lance Formation represents a nonmarine , characterized by sediments derived from low-sinuosity draining eastward from the rising Laramide highlands into the western margin of the . These deposited a succession of fluvial channel sandstones and overbank mudstones, reflecting a setting with periodic overbank flooding and high rates. associations indicate a fluvio-deltaic influenced by tectonic uplift, with directions oriented southeastward toward the seaway. Channel sandstones, comprising approximately one-third of the formation, exhibit characteristics of meandering river systems, including lateral accretion surfaces and point-bar deposits formed by migrating . These sandstones are typically fine- to medium-grained, with trough and planar laminations indicating moderate to high flow energy within sinuous that periodically avulsed across the plain. The dominance of single-story channel fills, often 5–10 meters thick and laterally extensive, suggests low-sinuosity meandering rather than fully braided patterns, with paleocurrents reflecting influx from western highlands. Interbedded floodplain mudstones and siltstones form the majority of the succession, preserving evidence of periodic overbank flooding through crevasse splay sands that appear as thin, lenticular sheets extending from channel margins. These fine-grained deposits contain abundant paleosols, marked by root traces, pedogenic mottling, and hydromorphic features such as gleyed horizons, indicating during intervals of landscape stability on a swampy, waterlogged plain. The presence of coaly layers and carbonaceous shales further supports episodic inundation and organic accumulation in low-energy interfluve areas. Sedimentary features point to a subtropical climate with seasonal aridity, as evidenced by resulting from iron oxidation in well-drained, oxidizing soils and scattered nodules formed through pedogenic carbonate precipitation. Red shales and mottled mudstones reflect periodic exposure and pigmentation, while development implies fluctuating tables and dry intervals within an overall humid framework conducive to lush vegetation. A recent depositional model for nearly monospecific bonebeds in the Lance Formation attributes their formation to hydraulic in low-energy settings, where disarticulated skeletal elements were selectively concentrated following and initial transport. This process, involving fluvial reworking during events, sorted denser bones into deposits within trough cross-bedded sandstones, as confirmed by taphonomic analyses showing variable and chemical signatures of aqueous . Such bonebeds, often dominated by hadrosaurid remains, highlight the role of low-velocity flows in preserving attritional assemblages on the .

Age and Chronology

Geochronological Dating

The Lance Formation is assigned to the Late Maastrichtian stage of the Period, spanning approximately 69 to 66 million years ago (Ma) and terminating immediately below the Cretaceous-Paleogene (K-Pg) boundary. This temporal range places it among the youngest nonmarine deposits in the Western Interior Basin of , recording the final phases of Laramide foreland sedimentation prior to the end-Cretaceous mass extinction. Absolute age constraints for the formation derive primarily from radiometric dating of volcanic ash layers. 40Ar/39Ar dating of sanidine crystals from bentonitic ash beds near the top of the Lance Formation yields an age of 66.0 ± 0.5 Ma, anchoring the uppermost strata to the immediate pre-K-Pg interval. Complementary U-Pb dating of zircon crystals from intercalated tuffs in the lower sections confirms ages of 69 to 67 Ma, delineating the base of the formation within the middle Late Maastrichtian. The Lance Formation correlates closely with the upper in , sharing a continuous depositional record without significant hiatus and aligning with global . Integrated high-precision 40Ar/39Ar and U-Pb data from boundary-proximal bentonites establish the K-Pg boundary at 66.043 ± 0.043 Ma, thereby confirming the Lance's top as contemporaneous with this global datum.

Biostratigraphic Correlation

The of the Lance Formation relies heavily on fossils, particularly from environments, to establish its position within the Stage of the . Ostracods provide additional resolution, forming assemblage zones that correlate the Lance with other units across Wyoming and adjacent regions; these nonmarine ostracods exhibit high abundance in shales and indicate stable lacustrine conditions during deposition. Dinosaur biostratigraphy further subdivides the Lance Formation, with the appearance of ornithomimids like in the middle to upper sections marking the transition to the Lancian North American land-vertebrate age, a late interval characterized by diverse theropod and ornithischian assemblages. The disappearance of certain hadrosaur taxa, such as earlier forms replaced by dominant in the upper divisions, helps delineate lower-upper boundaries within the formation, reflecting faunal turnover in fluvial settings. These patterns align the Lance with the uppermost Judith River Group equivalents in , where similar dinosaur successions occur. Mammalian biostratigraphy, based on multituberculates, indicates the upper Lance Formation is within the Lancian land-mammal age, with taxa like Mesodma and Paracimexomys appearing in uppermost horizons. This reflects the proximity of the formation to the Cretaceous-Paleogene boundary, where Lancian multituberculate diversity gives way to Puercan immigrants in overlying units, aiding in precise of boundary intervals. Seminal studies on Lance mammals highlight the role of ptilodontids in zoning, with lower sections dominated by endemic Lancian forms like Mesodma and Paracimexomys. Palynomorph assemblages in the Lance Formation are dominated by diverse angiosperm , including triprojectate forms like Proteacidites and Aquilapollenites, which signify a late floral turnover toward increased broadleaf dominance in the Western Interior. This high angiosperm diversity, comprising over 60% of palynofloras in lower sections, distinguishes the unit from earlier deposits and supports correlations with equivalent latest pollen zones. from ferns and gymnosperms decreases upward, mirroring continental-scale vegetation shifts before the end- . Overall, these biostratigraphic markers establish the Lance Formation as a key reference, equivalent to the upper in , the Frenchman Formation in , and parts of the Scollard Formation in , facilitating regional correlations across the Interior through shared successions.

History of Investigation

Discovery and Naming

The uppermost strata now known as the Lance Formation were first systematically explored for fossils in the late 1880s, when John Bell Hatcher collected abundant ceratopsian remains from exposures near Lance Creek in eastern . These early observations highlighted the fossil-rich nature of the "Ceratops beds," a term later applied to the unit for its abundant horned remains. The formation was named the "Lance Creek beds" in 1903 by paleontologist John Bell Hatcher, drawing from prominent exposures along Lance Creek in . The type locality is designated as the exposures along Lance Creek in , where the unit's characteristic sandstones, shales, and conglomerates are continuously exposed over several hundred feet. The name was formally adopted as the "Lance Formation" by the in 1910. Early stratigraphic work in the early led to confusion between the Lance Formation and the contemporaneous to the north, as both units shared similar lithologies and faunas across state boundaries, often lumped under informal terms like " beds." This ambiguity was largely resolved in the through detailed USGS mapping efforts that delineated their lateral equivalence and distinct geographic extents.

Key Research Developments

During the 1920s and 1930s, expeditions led by paleontologist in the Lance Formation of yielded significant fossil discoveries, including substantial skeletons of Tyrannosaurus rex and , which provided early insights into the formation's rich vertebrate assemblages. These finds, collected primarily for the , highlighted the Lance's potential as a key site for dinosaur research and influenced subsequent stratigraphic correlations across the Western Interior. In the 1970s, the U.S. Geological Survey undertook detailed stratigraphic mapping in the , clarifying the boundaries between the Lance Formation and the underlying Meeteetse Formation through analysis of lithologic transitions and sedimentary contacts. This work resolved ambiguities in regional correlations, demonstrating that the Lance overlies the Meeteetse via a conformable contact marked by changes in and proportions, thereby refining the chronostratigraphic framework for uppermost deposits in . Studies in the advanced depositional modeling of the Lance Formation, focusing on fluvial dynamics and in a setting influenced by Laramide orogenesis. For instance, research integrated lithofacies analysis, paleocurrent data, and detrital to reconstruct alluvial architecture, revealing how tectonic uplift affected channel migration and development. These models emphasized the formation's braided to meandering river systems, providing a conceptual basis for interpreting distributions within dynamic sedimentary environments. In 2022, detailed taphonomic and isotopic analysis of a large monospecific bonebed in the Lance Formation modeled hydraulic concentration processes, suggesting flood events concentrated disarticulated remains in low-energy channel deposits. The study, based on stable oxygen and carbon isotopes from and , indicated seasonal resource use and gregarious behavior, while hydraulic simulations explained the bonebed's spatial patterning without invoking mass mortality events. Recent investigations from 2024 to 2025 have uncovered sites in the Lance Formation, revealing rare fragments and expanding knowledge of diversity. Brownstein et al. (2024) described a partial juvenile skeleton with potential crown-group affinities, suggesting greater ornithurine presence in ecosystems and highlighting site-specific biases in larger fossil preservation. Complementing this, the first documented from the formation, attributed to Macroelongatoolithus and likely from ornithopod or theropod origins, was reported in 2025, indicating reproductive behaviors previously undocumented in this unit. These discoveries underscore the value of approaches for resolving fine-scale in the terminal .

Paleontology

Dinosaur Fauna

The dinosaur fauna of the Lance Formation documents a () assemblage typical of the Lancian North American land vertebrate age, comprising approximately 20 named taxa with a strong emphasis on large-bodied ornithischians and a variety of theropods, but no recorded sauropods. This diversity reflects a environment shared with equivalent units like the , where faunal interchange was high and low across the Western Interior. Ceratopsian remains, dominated by horridus, underscore their ecological prominence as the most abundant large herbivores. Theropod dinosaurs in the Lance Formation include the apex predator Tyrannosaurus rex, represented by multiple partial skeletons including isolated teeth, pedal phalanges, and limb bones that confirm its presence as a dominant in the local . The holotype specimen (CM 9380) of T. rex derives from stratigraphically equivalent beds in the , highlighting the shared tyrannosaurid fauna across these units. Smaller coelurosaurs are exemplified by Troodon formosus, known from teeth and fragmentary cranial material that has informed braincase studies revealing advanced sensory capabilities, such as enlarged olfactory bulbs indicative of keen smell. The dromaeosaurid Acheroraptor temertyorum is documented by a nearly complete right and left dentary, featuring distinctive hypertrophied postantral walls and apicobasal ridges on teeth, linking it phylogenetically to Asian velociraptorines and suggesting faunal connections between continents. Avian theropods add to the formation's diversity, with the enantiornithine Cimolopteryx rara preserved primarily through wing elements such as a and associated carpals from , providing insights into the aerial adaptations of these toothed stem-birds near the Cretaceous-Paleogene boundary. The avialan archibaldi is represented by partial skeletons including tarsometatarsi and pedal elements, indicating a robust, ground-dwelling form with predatory traits akin to modern hawks. These birds contribute to a broader avifauna that includes at least four major stem-bird clades. Ornithischian dinosaurs dominate the Lance Formation's large vertebrate record, led by the ceratopsian , the most common taxon with numerous skulls, postcrania, and bonebeds such as the multi-individual accumulation in eastern that preserves isotopic signatures of herd behavior and diet. The hadrosaur is notable for mummified specimens, including AMNH 5060 and others from the "Mummy Zone," which reveal hoof-like structures on manus digits and a subunguligrade posture, with preservation involving microbial clay molds rather than direct . Armored forms include the ankylosaur , identified by osteoderms and a broad skull indicating a low-slung, defensive . The pachycephalosaur Pachycephalosaurus wyomingensis is known from thick skull domes and fragmentary skeletons, suggesting head-butting behaviors inferred from dome . A notable recent discovery is a 2025 microsite near Lusk yielding the first dinosaurian eggshell fragments from the Lance Formation, tentatively attributed to an ornithopod or non-avian theropod based on ovaloolithid (Ovaloolithus) microstructure with a smooth outer surface and 1.1 mm thickness, expanding knowledge of reproductive strategies in late theropods.

Non-Dinosaur Vertebrates

The Lance Formation has yielded a rich assemblage of non-dinosaurian s, reflecting a diverse array of small terrestrial, semi-, and forms that coexisted with dinosaurs in a and riverine environment during the stage of the . These fossils, primarily recovered through screen-washing of matrix for microfossils, include over 30 mammalian alongside numerous reptiles, amphibians, and fish, underscoring an ongoing radiation of small vertebrates prior to the Cretaceous-Paleogene boundary. The overall non-dinosaurian exceeds 70 taxa, dominated by freshwater-adapted with limited marine influence in the upper strata. Mammals in the Lance Formation are predominantly small, shrew- to rat-sized forms, with multituberculates comprising the most abundant group. Multituberculates such as Nanocuris gracilis and Mesodma species exhibit specialized dentition for herbivory or omnivory, indicating ecological roles as seed-eaters or generalists in the understory. Marsupials, including Alphadon species like A. marshi, represent early metatherians with insectivorous to omnivorous diets, their molars showing tribosphenic patterns adapted for varied food processing. Small eutherian insectivores, such as Cimolestes and Gypsonictops, further diversify the assemblage, with approximately 30 mammalian species collectively demonstrating a pre-K-Pg diversification in body size and trophic niches. Reptiles are well-represented by semi-aquatic and aquatic taxa, including crocodilians like Brachychampsa meieri, a small alligatoroid with robust jaws suited to the formation's river systems. Turtles, such as the large terrestrial Basilemys sinuosus (reaching up to 1 meter in carapace length) and aquatic chelydrids, indicate both upland and riparian habitats. Squamates include champosaurs like Champsosaurus gigas, crocodile-like diapsids up to 2 meters long that inhabited freshwater environments, preying on and smaller vertebrates. Fish and amphibians dominate the aquatic components, with ray-finned teleosts such as Aquila emmonsi serving as biostratigraphic index species for the Lancian land-vertebrate age. Salamanders like Opisthotriton wyomingensis and anurans including Scapherpeton theton suggest humid, pond-margin settings, their fossils often preserved in channel deposits. These groups collectively highlight a freshwater-dominated , with non-dinosaurian vertebrates filling niches complementary to the larger dinosaurian herbivores and carnivores.

Paleoecology

Environmental Reconstruction

The Lance Formation represents a coastal lowland plain situated along the eastern margin of the receding during the late , characterized by fluvial and deltaic systems influenced by emerging Laramide orogenic uplifts to the west. Eastward-flowing rivers transported sediments across low-gradient alluvial plains, depositing sandstones, shales, and seams indicative of swampy and riparian environments proximal to the seaway's regressive shoreline. This setting fostered diverse habitats, including river channels, floodplains, and wetlands, as evidenced by sedimentary and fossil wood assemblages. Paleoclimate reconstructions indicate a subtropical regime with mean annual temperatures of approximately 20–25°C and no evidence of freezing conditions, supported by leaf physiognomy and palynological data from coeval strata. Ample , estimated at 1000–1500 mm per year, likely occurred in a pattern, promoting lush and accumulation in mires, as inferred from stable oxygen in freshwater carbonates and tooth enamel. Recent clumped isotope analyses reveal reduced latitudinal temperature gradients (~7°C across 14° paleolatitude) and bimodal δ¹⁸O water values distinguishing trunk rivers from local streams, highlighting humidity gradients driven by seasonal dynamics and highland weathering inputs. Vegetation was dominated by coniferous forests, including taxodiaceous and cupressaceous forms, interspersed with ferns, cycads, and a growing of early angiosperms, as documented in pollen spectra from the . Palynological assemblages show angiosperm comprising up to 70% of the in some samples, with triprojectate forms and other normapolles indicating humid, forested lowlands, though locally dominated florules in settings. These plant communities supported extensive riparian habitats, with beds up to 3 m thick reflecting peat-forming swamps. Hydrological features included seasonal river flooding, oxbow lakes, and persistent swamps, which created mosaic wetlands along the and facilitated nutrient-rich riparian zones. Fluvial channels with meandering patterns and overbank deposits point to episodic high-discharge events from western highlands, sustaining in ecosystems adjacent to the seaway. These dynamic systems, combined with subtropical warmth, supported a , humid environment conducive to dense growth and accumulation.

Taphonomy and Fossil Assemblages

The of the Lance Formation reflects its predominantly fluvial , where preservation varies by sedimentary context. Disarticulated and fragmentary bones are commonly concentrated in channel lag deposits, resulting from fluvial transport that abrades and scatters remains over distances of tens to hundreds of meters. In contrast, articulated or partially articulated skeletons, including rare "mummified" specimens with preserved impressions, occur in overbank fine-grained silts and clays, where low-energy conditions allowed rapid burial and minimal disturbance. These patterns indicate that post-mortem transport and sedimentation rates played key roles in differential preservation across the . Bonebeds in the Lance Formation often represent monospecific accumulations of large herbivores, formed through attritional processes involving trampling, scavenging, and hydraulic sorting. A notable example is the Hanson Ranch bonebed, discovered in 1996 in eastern , which has yielded over 13,000 elements primarily from , interpreted as a thanatocoenosis resulting from repeated trampling and fluvial concentration in a channel setting. Similarly, bonebeds, such as one excavated since 2016, preserve disarticulated remains of multiple individuals (at least five) in floodplain sands, with evidence of minimal scavenging due to rapid burial but indications of pre-burial trampling that fragmented and oriented bones chaotically. Recent depositional models emphasize that these accumulations formed on a low-gradient near a deltaic system, where seasonal flooding concentrated attritional mortality from herds. Preservation biases in the Lance Formation strongly favor large-bodied herbivores due to their greater durability, higher visibility during , and reduced susceptibility to complete during transport. Small taxa, including juveniles and diminutive vertebrates (<70 ), are underrepresented in macrofossil assemblages because of faster decay rates, greater fragmentation, and lower collection probabilities, though they appear more frequently in concentrated microsites via screen-washing techniques. This size-driven bias distorts paleoecological interpretations, overemphasizing megaherbivores like ceratopsids and hadrosaurids while underestimating small theropods and ornithischians. Notable fossil assemblages highlight the formation's microsite diversity, which captures underrepresented elements. A 2022-discovered microsite in eastern , described in 2025, yielded the first eggshells from the Lance Formation—attributed to the oofamily Ovaloolithidae (genus Ovaloolithus)—preserved in fine overbank sediments. These sites underscore how targeted sampling mitigates biases, providing insights into otherwise rare assemblages.

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