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Chinle Formation

The Chinle Formation is a Late Triassic continental sedimentary rock unit deposited across the Colorado Plateau region of the southwestern United States during the Norian and Rhaetian stages, approximately 227 to 205 million years ago.^[1] It comprises a diverse array of fluvial, lacustrine, and floodplain deposits, including mudstones, sandstones, siltstones, claystones, conglomerates, and minor limestones, often exhibiting vibrant colors such as red, purple, green, and gray due to iron oxides and other minerals.^[2] The formation unconformably overlies the Moenkopi Formation or older Permian strata and is typically overlain by the Wingate Sandstone or other units of the Glen Canyon Group, with thicknesses varying from less than 200 feet in its northern and eastern extents to over 1,700 feet in southern sections.^[3] Exposed primarily in Arizona, New Mexico, Utah, Colorado, and Nevada, the Chinle Formation forms striking badlands and mesas, notably within Petrified Forest National Park, where its layered outcrops reveal a record of ancient river systems and seasonal wetlands influenced by a tropical monsoon climate.^[2] It is subdivided into several members, including the basal Shinarump Conglomerate (channel sandstones and gravels), the colorful Blue Mesa and Petrified Forest members (variegated mudstones with paleosols), the Sonsela Sandstone (cross-bedded sandstones), and the upper Owl Rock Member (limestones and siltstones indicating lacustrine conditions).^[1] These subdivisions reflect evolving depositional environments, from high-energy fluvial channels in the lower units to quieter floodplain and lake settings higher up, with sediment sourced from distant highlands like the Uncompahgre Uplift and volcanic inputs from the south.^[2] The Chinle Formation holds immense paleontological value, preserving one of the most diverse Late Triassic terrestrial ecosystems known, including early dinosaurs such as the theropod Coelophysis bauri (abundant at sites like Ghost Ranch, New Mexico), Chindesaurus bryansmalli, and other basal saurischians, alongside phytosaurs, aetosaurs, amphibians like Metoposaurus, freshwater fish, invertebrates, and extensive plant remains.^[4] Its fossil assemblages, often found in channel fills and floodplains, indicate semi-arid habitats with seasonal flooding that supported riparian vegetation, including conifers, ferns, and cycads, many of which are preserved as spectacular silicified logs in the Petrified Forest Member.^[2] Economically, the formation has been significant for uranium deposits hosted in its organic-rich mudstones, while its exposures provide critical data on Pangean paleogeography, climate, and the radiation of archosaurian reptiles during the Mesozoic transition.^[2]

Geology

Overview and Lithology

The Chinle Formation is a Late Triassic (Norian–Rhaetian) sedimentary rock unit exposed across the Colorado Plateau region of the southwestern United States, encompassing parts of Arizona, New Mexico, Utah, Nevada, and Colorado.^[5] It consists primarily of mudstone, siltstone, sandstone, and conglomerate, with interbedded layers of volcanic ash-derived bentonitic clay.^[2] Named for its exposures in Chinle Valley, northeastern Arizona, the formation's type section is located at coordinates 36.155°N, 109.579°W.^[6] The unit overlies the Moenkopi Formation or equivalent Permian strata with an unconformity and is typically overlain by the Wingate Sandstone or Kayenta Formation of the Glen Canyon Group.^[2] In its core areas, such as the Petrified Forest region of Arizona, the Chinle Formation reaches a typical thickness of 300–400 meters, with a maximum recorded thickness exceeding 520 meters in east-central Arizona and west-central New Mexico.^[2] Dominant lithologies include red to purple mudstones and claystones, which form the bulk of the formation and exhibit variegated colors due to iron oxide variations.^[6] These are interbedded with channel-form sandstones, fine-grained siltstones, and conglomeratic lenses containing chert and quartz pebbles, alongside bentonitic clays resulting from the alteration of volcanic materials.^[2] Concentrations of petrified wood occur locally within silicified horizons, particularly in mudstone-dominated intervals.^[2] The formation's overall composition reflects a mix of fine- to coarse-grained clastics with subordinate calcareous elements, such as thin limestone beds in some sections.^[6]

Depositional Environment

The Chinle Formation was deposited in a semi-arid floodplain environment characterized by meandering rivers, ephemeral lakes, and playas across a vast continental back-arc basin during the Late Triassic. This setting formed part of the broader Chinle Group's depositional system, influenced by volcanic arc activity along the western Sonoma Margin, which supplied tuffaceous sediments and contributed to basin subsidence. The formation's sediments accumulated in a low-paleolatitude position (approximately 5°–15° N), within a cratonic basin subdivided into major depocenters like the Four Corners region and minor ones such as the Uinta and Piceance basins.^[7]^[8] Sedimentary structures provide key evidence for this fluvial-lacustrine system. Cross-bedded sandstones, including trough and planar types up to several meters thick, indicate active river channels and point-bar accretion in moderate- to high-sinuosity streams. Mudcracks, desiccation features, and evaporite nodules in floodplain mudstones and siltstones reflect periodic aridity and subaerial exposure, while tuffaceous layers and volcaniclastics point to explosive volcanism from the western arc. These features collectively suggest a dynamic landscape of channel migration, overbank flooding, and localized lacustrine-deltaic deposition.^[7]^[9]^[8] The paleoclimate was warm and seasonal, dominated by monsoonal rainfall patterns that supported riparian vegetation along river corridors amid overall aridity. This tropical monsoonal regime, with concentrated summer precipitation, fostered episodic flooding and sediment transport, though drier conditions prevailed toward the end of deposition. Potential climatic perturbations, such as those linked to the Manicouagan impact event around 214 Ma, may have influenced hydroclimate variability, though evidence for direct impact-related disruptions remains inconclusive.^[7]^[10]^[9] Tectonically, the Chinle Formation records deposition within the Dockum-Chinle foreland basin system, driven by Pangean rifting and dynamic subsidence associated with the Sonoma orogeny. Uplifts like the ancestral Uncompahgre and Front Range supplied coarse clastics, while arc-related volcanism to the west enhanced sediment influx and basin accommodation. This context integrated fluvial systems draining eastward from the rising Cordilleran margin into a subsiding interior basin.^[7]^[11]^[8] Sedimentation exhibited cyclicity tied to wet-dry climate oscillations, manifesting as stacked fining-upward sequences from coarse channel sandstones and conglomerates grading into finer floodplain mudstones and siltstones. These cycles, often 1–10 m thick, reflect repeated fluvial aggradation during wet phases followed by pedogenesis and exposure in dry intervals, culminating locally in eolian sand sheets. Such patterns underscore the interplay of climatic seasonality and tectonic controls on basin evolution.^[7]^[8]^[12]

Stratigraphy

Principal Members and Subunits

The Chinle Formation comprises a series of formal members that define its vertical stratigraphic succession, transitioning from coarse-grained fluvial deposits at the base to finer-grained lacustrine and aeolian-influenced sediments higher in the section. In 1972, J. H. Stewart and colleagues revised the nomenclature, formalizing five to six principal members to establish a consistent framework applicable across the Colorado Plateau region, based on lithologic distinctions and regional mapping. This revision addressed earlier informal usage and emphasized the formation's overall upward-fining trend.^[2] The lowermost unit, the Shinarump Member (also termed Shinarump Conglomerate), consists of channel-filling, cross-bedded sandstones and conglomerates with chert and quartzite pebbles, averaging 10–20 meters thick but reaching up to 76 meters in channel fills. It rests unconformably on the Moenkopi Formation or older Permian strata, with a sharp, scoured basal contact marking erosion prior to deposition. This member reflects initial fluvial incision and sedimentation in a meandering river system.^[2] Conformably overlying the Shinarump is the Blue Mesa Member, dominated by mottled, bentonitic mudstones in gray, blue, purple, and green hues, interbedded with minor sandstone lenses such as the informal Newspaper Sandstone, a prominent cliff-former. These deposits, up to 100 meters thick, indicate expansive floodplain environments with periodic fluvial influence. The member transitions gradationally upward into the overlying unit.^[2]^[1] The Sonsela Member, sandstone-dominated and 10–30 meters thick, forms resistant ledges and includes informal subunits like the Rainbow Forest Bed, a white, cross-bedded sandstone containing petrified logs and conglomeratic intervals. It represents renewed fluvial channelization, with point-bar and crevasse-splay deposits, and intertongues laterally with mudstones of adjacent members. This unit caps exposures in areas like Petrified Forest National Park.^[2]^[1] The Petrified Forest Member, the formation's thickest division at 40–150 meters or more, features variegated, bentonitic mudstones and siltstones with petrified wood logs, swelling clays, and gypsum beds, preserving a rich record of overbank and distal fluvial settings. It overlies the Sonsela conformably or with minor disconformities and includes colorful, fossiliferous beds that weather into badlands topography. Informal refinements, such as the Painted Desert subunit, have been added in later studies to delineate internal variations within this member.^[2]^[1] Capping the main fluvial-lacustrine sequence is the Owl Rock Member, composed of limy, reddish-brown mudstones and siltstones with pedogenic limestone lenses and calcrete horizons, reaching up to 150 meters thick. This unit signifies a shift to shallow lacustrine and playa-lake conditions, with gradational lower contacts and freshwater bivalve fossils. It fines upward from the underlying mudstones, completing the formation's depositional progression.^[2] The uppermost Church Rock Member, consisting of red, non-bentonitic sandstones and siltstones up to 100 meters thick, forms steep cliffs and includes ledge-forming beds like the Hite Bed. It overlies the Owl Rock conformably or disconformably and is interpreted as eolian or sabkha-influenced deposits in a drying climate. In eastern exposures, the Church Rock correlates laterally with the Dockum Group's upper units, though facies transitions and faunal differences have led to ongoing debates about their continuity versus separation as distinct basins.^[2]

Regional Variations

The Chinle Formation displays notable stratigraphic variations across its extent in the southwestern United States, influenced by paleotopography, sediment supply, and proximity to depositional basins. In Arizona and western New Mexico, the formation is most completely developed, encompassing all principal members from the basal Shinarump Conglomerate to the upper Owl Rock and Church Rock members, with a maximum thickness exceeding 300 meters in the Petrified Forest region.^[2] The Shinarump Member is particularly prominent here as a conglomerate-dominated unit, reaching up to 76 meters thick and marking fluvial channel deposits at the base.^[13] In central New Mexico, the formation thins to approximately 200 meters, with the Sonsela and Petrified Forest members often merging into a single, thicker red-bed sequence characterized by increased eolian sandstone influences in the upper portions.^[2] This merger reflects a reduction in accommodation space and a shift toward more arid depositional conditions compared to the west.^[13] To the north in Monument Valley and southern Utah, the basal Shinarump Member is commonly absent due to erosion or non-deposition, resulting in a total thickness of around 300 meters where the carbonate-rich Owl Rock Member dominates the upper section with limestone lenses and marls.^[2] These upper units interfinger laterally with precursors to the Navajo Sandstone, indicating a transition to eolian dune systems.^[13] At its eastern extent in the Texas Panhandle, the Chinle Formation correlates laterally with the Dockum Group, where the Tecovas Formation serves as an equivalent to the middle and upper Chinle units, featuring coarser-grained fluvial sandstones and conglomerates indicative of higher-energy river systems.^[2] In Nevada, the formation is markedly reduced to about 100 meters thick, incorporating more abundant volcanic tuffs and ash-fall deposits owing to its proximity to Late Triassic magmatic arcs.^[13]

History of Research

Discovery and Naming

The strata now recognized as the Chinle Formation were first noted during geological surveys of the western United States in the 1870s, where they were described as colorful shales and marls in the Grand Canyon region by John Wesley Powell and Clarence E. Dutton as part of broader reconnaissance efforts mapping the Colorado Plateau.^[2] Powell's 1875 expedition report highlighted the variegated shales overlying older red beds, while Dutton's 1882 monograph on the Tertiary history of the Grand Canyon district provided detailed observations of these bentonitic and gypsiferous layers, emphasizing their role in the region's dramatic erosional landscapes without assigning a formal name. The formation received its formal name in 1917 from Herbert E. Gregory, who designated it the "Chinle Formation" based on prominent exposures along Chinle Valley (now Chinle Wash) in northeastern Arizona, within the Navajo Country.^[14] In his USGS Professional Paper 93, Gregory described it as a sequence of red, purple, and variegated shales, marls, thin sandstones, and limestone conglomerates, up to 1,182 feet thick in the type section, overlying the Shinarump Conglomerate and underlying the Wingate Sandstone, with an assigned Late Triassic age supported by fossil evidence including petrified wood and Unio shells.^[14] He subdivided it informally into four divisions (A through D) based on lithologic variations, noting its widespread distribution across Arizona, New Mexico, Utah, and Colorado. Early mapping efforts in the 1920s incorporated the Chinle Formation into USGS geologic folios of the Colorado Plateau, such as the La Plata folio (1899) and others like the Abajo Mountains area (USGS Professional Paper 453, 1964), where initial thickness estimates ranged from 400 to 1,000 feet but were later revised downward to around 500–800 feet in many areas due to better exposures and correlations.^[15] These mappings built on Gregory's reconnaissance, delineating the formation's extent in relation to surrounding Triassic units. The establishment and expansion of Petrified Forest National Monument in the 1930s, including New Deal-era infrastructure by the Civilian Conservation Corps, highlighted the formation's abundant fossil wood deposits within its shales, drawing attention to its paleontological significance and prompting initial focused stratigraphic studies in the Painted Desert region. Gregory's original definition included some lower units now assigned to the Moenkopi Formation equivalents, which were separated during mid-20th-century revisions in the 1950s to refine Triassic boundaries across the plateau.^[16]

Major Studies and Revisions

In the mid-20th century, United States Geological Survey (USGS) researchers, including J.H. Stewart, advanced the stratigraphic framework of the Chinle Formation through detailed mapping and lithologic analysis across the Colorado Plateau. Stewart's 1957 study in southeastern Utah divided the formation into key members such as the Temple Mountain, Shinarump, Monitor Butte, Moss Back, Petrified Forest, Owl Rock, and Church Rock, establishing a foundational nomenclature for regional correlations. This work also delineated boundaries with the underlying Moenkopi Formation based on erosional unconformities and lithologic contrasts, while distinguishing the Chinle from the temporally equivalent but laterally distinct Dockum Group in the subsurface of the Texas Panhandle. Complementing these efforts, Stewart et al.'s comprehensive 1972 USGS Professional Paper provided an overview of the Chinle's distribution, dividing it into lower bentonitic and upper redbed divisions and emphasizing its continental depositional origins.^[2] The 1980s and 1990s saw further refinements led by S.G. Lucas, who elevated the Chinle to group status in 1993, formalizing its internal divisions as formations (e.g., Bluewater, Petrified Forest) and members (e.g., Painted Desert) while standardizing biostratigraphic correlations across the western United States. Lucas's revisions addressed inconsistencies in member definitions and resolved debates over the Wingate Sandstone-Chinle boundary, reassigning the Rock Point Member to the upper Chinle based on sedimentologic and paleontologic evidence rather than treating it as part of the overlying eolian Wingate.^[17] These updates promoted a more unified nomenclature, facilitating comparisons with exposures in the San Juan and Paradox basins. From the 2000s onward, integration of radiometric techniques transformed understandings of Chinle stratigraphy. High-precision U-Pb zircon dating, as detailed in Rasmussen et al.'s 2020 study of a core from Petrified Forest National Park, refined depositional age models for members like the Sonsela and Owl Rock, constraining their timelines and enabling precise correlations across the basin. This built on earlier magnetostratigraphic work by Kent et al. (2018), which anchored the formation's chronology to global Triassic scales. Controversies regarding the Dockum Group's relationship to the Chinle were largely resolved in the 2010s through integrated geochronology and provenance studies, confirming the units as contiguous lateral equivalents within a shared fluvial system spanning the Colorado Plateau to the Southern Plains. Additionally, detrital zircon and geochemical analyses established volcanic provenance from the Mogollon Highlands to the south, linking Chinle tuffs and sandstones to early Mesozoic Cordilleran arc magmatism.^[5]^[18]^[19] Recent post-2020 research has addressed remaining gaps, particularly in eastern exposures. Gehrels et al.'s 2020 LA-ICP-MS geochemical analysis of detrital zircons from Chinle tuffs enhanced tuff bed correlations, revealing spatiotemporal variations in volcanic inputs and improving stratigraphic resolution in poorly exposed areas of the San Juan Basin. Subsequent studies have further refined paleoenvironmental reconstructions, including a 2022 stable isotope analysis of the Sonsela Member providing geochronologically constrained paleoclimate data, and a 2025 study documenting a diverse vertebrate assemblage with pterosaurs from a bone bed in the Petrified Forest area, enhancing biostratigraphic correlations. These advancements, along with paleohydrological modeling of channel deposits (2025), underscore ongoing efforts to refine the Chinle's framework amid evolving paleogeographic reconstructions.^[20]^[21]^[22]^[23]

Age and Chronology

Radiometric Dating

Radiometric dating of the Chinle Formation primarily relies on uranium-lead (U-Pb) geochronology of zircon crystals extracted from volcanic ash beds (tuffs) and tuffaceous sandstones within the formation. These zircons, which crystallize in magma shortly before eruption and deposition, provide crystallization ages that serve as maximum depositional ages for the enclosing strata, with typical error margins of ±0.1 to 0.5 Ma achieved through high-precision methods such as chemical abrasion-isotope dilution-thermal ionization mass spectrometry (CA-ID-TIMS). Whole-rock and single-crystal analyses target ash layers interbedded with fluvial and lacustrine deposits, allowing calibration of the formation's chronology against the Adamanian and Revueltian land vertebrate faunachrons.^[5] The basal units of the Chinle Formation, including the Shinarump Conglomerate and Mesa Redondo Member, yield U-Pb ages of approximately 224–222 Ma from detrital and volcanic zircons in tuffaceous units, indicating early Norian initiation.^[20] The Blue Mesa Member is dated to around 222–220 Ma based on CA-ID-TIMS analyses from ash beds in Petrified Forest National Park, Arizona, and nearby regions.^[5] The overlying Mesa Redondo Member constrains to ~221.7 Ma from similar methods applied to tuffs in core samples from the park.^[5] The Sonsela Member spans 218–213 Ma, with CA-ID-TIMS dates from multiple ash layers in the Petrified Forest National Park core revealing a depositional duration of several million years during the mid-Norian.^[5] A notable example is the Fluvial Egg Bed within the upper Sonsela, dated at 213.4 ± 0.3 Ma in a 2020 study, which resolved prior uncertainties in correlating this vertebrate-bearing horizon across the Southwest.^[5] The upper Chinle Formation, including the Owl Rock and Church Rock members, records ages of approximately 210–208 Ma in the late Norian, derived from youngest detrital zircon populations in fluvial sandstones.^[5] Collectively, these dates confirm a Norian temporal span for the Chinle Formation of about 224–209 Ma, with some regional variations possibly extending into the earliest Rhaetian in eastern exposures; this integrates with biostratigraphic correlations to refine global Late Triassic stage boundaries.^[5]^[24]

Biostratigraphy

The biostratigraphy of the Chinle Formation relies heavily on tetrapod fossil assemblages to establish relative dating and intra-formational correlations, defining two primary land-vertebrate faunachrons (LVFs) within the Norian Stage: the Adamanian and Revueltian. The Adamanian LVF characterizes the lower to middle portions of the formation, particularly the Blue Mesa Member, where assemblages are dominated by the metoposaurid amphibian Metoposaurus bakeri, alongside key index fossils such as the aetosaur Desmatosuchus spurensis and the phytosaur Smilosuchus gregorii. These taxa provide zoning markers for the early Norian, with the Adamanian spanning approximately 220–215 Ma based on calibration with radiometric dates. In contrast, the Revueltian LVF occurs in the upper Sonsela Member and overlying units, marked by the aetosaur Typothorax coccinarum and the phytosaur Machaeroprosopus species, signaling a faunal shift in the late Norian around 215–208 Ma. Additional index fossils like the phytosaurs Angistorhinus grandis (Adamanian) and Redondasaurus (upper Chinle, transitional to Apachean) further refine these zones, enabling precise stratigraphic placement of fossil localities.^[25] Floral biostratigraphy complements tetrapod zoning through palynomorph assemblages and conchostracan distributions, offering insights into plant community dynamics across the formation. Palynological studies delineate three informal assemblage zones: Zone I in the lowermost Chinle (early Norian), dominated by Oweia and Klauselite spores; Zone II spanning the Shinarump to lower Petrified Forest Members (early–mid Norian), with increased diversity including Lunatisporites and Infernopollenites; and Zone III in the upper Petrified Forest and equivalent units (mid Norian), featuring higher gymnosperm pollen abundance reflective of drier conditions. Conchostracans, such as Ferganaconchasta in lower units and Estheriella in upper strata, provide supplementary zonation, particularly in lacustrine facies, though their resolution is coarser than tetrapods. A notable mid-Chinle floral peak involves bennettitalean and ginkgophyte elements, correlating with Zone II palynomorphs and indicating humid phases before aridification.^[26] These biozones facilitate robust correlations beyond the Chinle, aligning the Adamanian with lower Dockum Group strata in Texas and the middle European Keuper facies, while the Revueltian matches upper Dockum and late Keuper equivalents, underscoring Pangaean-wide Norian synchroneity. The vertical stacking of biozones reflects significant faunal turnover at the Adamanian–Revueltian boundary, involving ~40% extinction of Adamanian taxa (e.g., Placerias and Trilophosaurus) and origination of Revueltian forms, likely driven by climate shifts toward aridity and possibly punctuated by volcanic events like the Manicouagan impact. This turnover enhances correlation utility, as the abrupt shift in index fossil dominance mirrors environmental perturbations recorded in sedimentary cyclicity.^[27]^[25]

Paleontology

Fauna

The fauna of the Chinle Formation encompasses a rich Late Triassic assemblage of vertebrates and invertebrates, indicative of fluvial, lacustrine, and floodplain environments across the Colorado Plateau.^[9] This diversity highlights ecological roles ranging from apex predators to basal herbivores and filter feeders, with over 80 vertebrate taxa documented from key localities like the Placerias Quarry alone.^[28] Among vertebrates, early dinosaurs are represented by basal saurischians such as Chindesaurus bryansmalli and Coelophysis-like forms, primarily from the Sonsela Member, functioning as small terrestrial carnivores or scavengers.^[28] Phytosaurs, exemplified by Machaeroprosopus species, were crocodylomorph-like semi-aquatic predators that dominated riverine habitats; the Placerias Quarry has yielded holotype specimens for multiple taxa including several phytosaurs.^[28] Aetosaurs like Desmatosuchus haplocerus served as armored herbivores, often preserved in groups suggesting social behavior, as seen in concentrations of up to 14 individuals.^[28] Large temnospondyl amphibians, including Anaschisma browni, occupied aquatic niches as ambush predators in ponds and streams, with extensive remains indicating perennial water bodies.^[29] Recent discoveries as of 2025 include the oldest known stem caecilian, Funcusvermis gilmorei, from the Chinle Formation in Petrified Forest National Park (dated to approximately 220 million years ago), extending the caecilian fossil record by about 35 million years and supporting a dissorophoid origin for living amphibians.^[30] Additionally, a new tanystropheid reptile was reported in August 2025 from the same park, further diversifying the known reptile assemblage.^[31] Invertebrates include unionid bivalves such as Antediplodon terraerubrae, which acted as infaunal filter feeders in high-velocity streams, preserved as disarticulated valves in fluvial deposits.^[32] Conchostracans like Lioestheria spp. thrived in shallow, ephemeral, high-alkalinity ponds, signaling fluctuating salinity conditions.^[32] Insects are evidenced by trace fossils, including termite (Isoptera) nests and beetle borings in petrified wood, pointing to early social behaviors in terrestrial settings.^[33] Fish assemblages feature hybodont sharks (Hybodus) and semionotid actinopterygians, which inhabited perennial fluvial and lacustrine systems as mid-level predators and prey.^[9] Tetrapod diversity patterns show a peak during the Revueltian land-vertebrate faunachron, with faunal turnover between Adamanian and Revueltian assemblages in the Sonsela Member, including shifts in herbivores, phytosaurs, and metoposaurs.^[34] Evidence of predation is preserved in coprolites containing actinopterygian fish scales and bone fragments, attributed to carnivores like phytosaurs or theropods in swampy environments.^[35] Recent discoveries of theropod tracks in Utah exposures further demonstrate bipedal locomotion among early dinosaurs.^[36] Fossil taphonomy favors concentration in channel lags, where disarticulated remains like bivalve valves accumulate during floods, and mudflat ponds, which preserve articulated skeletons through rapid burial in organic-rich mudstones.^[9]

Flora

The flora of the Chinle Formation, preserved primarily as impressions, compressions, and permineralized remains in fluvial and floodplain deposits, is characterized by a diverse assemblage of Late Triassic vascular plants adapted to a tropical to subtropical climate with seasonal precipitation.^[37] Gymnosperms dominate the record, particularly conifers whose wood is abundantly preserved as petrified logs in the Petrified Forest Member, with Araucarioxylon representing a key genus exhibiting araucarian-type anatomy.^[38] Other prominent groups include horsetails such as Neocalamites and Equisetites, which formed dense stands in moist riparian zones; ferns like Clathropteris and Sphenopteris; and cycads, exemplified by pinnate leaves of Aricycas paulae.^[39] These plants reflect a vegetation structure influenced by increasing aridity during the Norian, with gymnosperms comprising the canopy and ferns and horsetails in the understory.^[40] Palynological assemblages from the formation further illuminate the floral composition, featuring abundant pollen from Bennettitales (e.g., Cycadopites) and Ginkgoales (e.g., Ginkgo).^[37] Spores from ferns and horsetails dominate lower units like the Shinarump Member, transitioning to bisaccate conifer pollen in upper strata, indicative of a shift toward drier conditions.^[37] The occurrence of Dicroidium pollen and foliage points to affinities with southern Gondwanan floras, suggesting dispersal via long-distance transport or paleogeographic connections during Pangea's fragmentation.^[39] Petrified wood represents a hallmark of the Chinle flora, with over 13 genera identified, including Chinleoxylon, Silicisilvaxylon, Arboramosa, and Protocupressinoxylon, primarily from conifers but also ginkgophytes and other gymnosperms.^[38] These logs underwent silicification through groundwater percolation rich in dissolved silica, replacing organic tissues while preserving cellular details and often imparting vibrant colors from iron oxides.^[38] Specimens reach impressive sizes, with some logs exceeding 2 meters in diameter and up to 20 meters in length, attesting to the presence of towering trees in ancient forests. Ecologically, the Chinle flora formed riparian forests along meandering rivers and floodplains, where conifers and cycads occupied elevated sites and an understory of herbaceous ferns and horsetails thrived in wetter microhabitats.^[9] Evidence of periodic wildfires, likely ignited by lightning in this seasonally dry setting, is provided by fusain charcoal fragments derived from gymnosperm wood, indicating fire as a structuring force in the ecosystem.^[41] Isotopic analysis of carbon in petrified wood confirms C3 photosynthesis pathways, consistent with woody gymnosperms in a semi-arid tropical environment.^[42]

Economic and Cultural Significance

Mineral Resources

The Chinle Formation hosts significant uranium deposits, primarily of the sandstone-hosted roll-front type, concentrated in permeable sandstones and associated mudstones of the Shinarump and Moss Back Members. These deposits formed through the mobilization of uranium from volcanic tuffs, which served as the primary source, followed by groundwater transport and precipitation in reducing environments.^[43] Major mining operations targeted these resources during the mid-20th century, with notable activity near Moab, Utah, sparked by Charlie Steen's 1952 discovery of high-grade pitchblende in the basal Chinle Formation, leading to a regional boom.^[44] Production peaked in the 1950s, exemplified by the Lisbon Valley district where over 6.6 million pounds of U₃O₈ were extracted in 1959 alone from Chinle-hosted ores, contributing to the broader Colorado Plateau output that exceeded 10 million pounds annually during that decade.^[45] Other mineral resources in the formation include bentonite clays formed from the alteration of volcanic ashes, widely used in oil and gas drilling fluids, and zeolites such as analcime in tuffaceous layers.^[46]^[47] Geological controls on mineralization involve porous sandstones serving as aquifers for uranium-bearing fluids, with organic matter in the sediments acting as reductants to precipitate uraninite and associated coffinite, often associated with equivalents of the Salt Wash sandstone facies in the Chinle sequence.^[48] Economic extraction has since declined sharply due to stringent environmental regulations and fluctuating uranium prices. A 2023 USGS assessment highlights remaining recoverable uranium resources in southern San Juan Basin sandstone-hosted deposits, including Chinle equivalents, estimated at approximately 21 million pounds U₃O₈, with in-situ leaching technologies increasingly viable for low-grade reserves.^[49]

Cultural and Conservation Importance

The Chinle Formation holds profound cultural significance for the Navajo (Diné) people, particularly in the Chinle Valley region, where sites like Canyon de Chelly National Monument are considered sacred landscapes tied to Diné oral traditions and emergence stories. These areas represent ancestral homelands where the Holy People shaped the world, and natural features such as petrified wood—known in some Diné narratives as "changing rock" (Náhoolyélí)—symbolize transformation and the interconnectedness of life and earth.^[50]^[51] The formation's scientific value is internationally recognized through Petrified Forest National Park, established in 1962 and placed on UNESCO's Tentative List in 2008 for its outstanding natural features and geological importance. Encompassing vast deposits of petrified wood and diverse Triassic fossils within the Chinle Formation, the park serves as a premier site for studying Late Triassic ecosystems, including early dinosaurs and flora, contributing essential data to global paleontological research.^[52] Conservation efforts focus on addressing multiple threats to the Chinle Formation, including natural erosion that exposes and fragments fossils in its bentonitic mudstones, illegal collection of petrified wood and specimens, and legacy pollution from mid-20th-century uranium mining on Navajo lands. Mining in Chinle-hosted deposits has contaminated groundwater and soil with uranium and arsenic, posing ongoing health risks to Diné communities. Protections stem from the Antiquities Act of 1906, which first designated Petrified Forest as a national monument to safeguard its resources, supplemented by the Paleontological Resources Preservation Act of 2009.^[1]^[53]^[54] Educationally, the formation supports public engagement through exhibits at institutions like the Museum of Northern Arizona, which houses extensive Chinle fauna and paleobotany collections used in research and interpretive programs. In Petrified Forest National Park, accessible trails such as the Blue Mesa Trail allow visitors to explore Chinle badlands and petrified logs, fostering awareness of Triassic life and conservation needs.^[55]^[56]

Distribution

Geographic Extent

The Chinle Formation is exposed across approximately 140,000 to 150,000 square miles (362,000 to 388,000 km²) primarily within the southwestern two-thirds of the Colorado Plateau, encompassing the Four Corners states of Arizona, Utah, New Mexico, and Colorado, with additional outcrops in Nevada, Wyoming, and marginal extensions into eastern New Mexico, Oklahoma, Kansas, and Texas.^[2] The core exposures occur in northeastern Arizona, where the formation reaches thicknesses exceeding 1,000 feet (305 m), and it pinches out westward into southern Nevada, such as in the Spring Mountains and Valley of Fire areas, while thinning eastward into correlative Dockum Group strata in Texas.^[2]^[7] Subsurface occurrences extend beneath Triassic and younger cover rocks, particularly in northwestern Colorado within the Uinta, Piceance, and Eagle basins, where the formation underlies regions near Dinosaur National Monument and interfingers with lacustrine and fluvial systems.^[7] The total depositional basin, including the contiguous Chinle-Dockum system, covers a broader area estimated at over 200,000 square miles (518,000 km²), reflecting a vast Late Triassic fluvial-lacustrine paleoenvironment across the western United States.^[2] The formation's boundaries are defined by depositional pinch-outs and erosional edges: the northern limit lies near the San Rafael Swell in central Utah and extends into northeastern Utah and northwestern Colorado, thinning to 200–500 feet (61–152 m); the southern boundary reaches southeast Arizona along the north flank of the Mogollon Highland; westward, it abuts Basin and Range province fault blocks; and eastward, it transitions into Permian or older strata at the Colorado Plateau margin.^[2] In the Grand Canyon region, Laramide orogeny-related faulting and uplift during the Late Cretaceous to Early Cenozoic disrupted and elevated Chinle strata, contributing to their current structural configuration.^[57] Today, the Chinle Formation remains exposed across significant portions of the Colorado Plateau, comprising a notable fraction of its Mesozoic stratigraphic column, while much of its extent is buried beneath overlying Mesozoic units like the Glen Canyon Group and Cenozoic sediments in intermontane basins.^[2] This distribution highlights its role in the regional geology, with outcrops influencing landscapes from badlands in Petrified Forest National Park to subsurface reservoirs in Colorado.^[7]

Notable Fossil Sites

The Petrified Forest National Park in Arizona serves as a premier locality for Chinle Formation fossils, representing the type area for extensive petrified wood assemblages and early dinosaur remains. Recent discoveries as of 2025 include a new tanystropheid reptile, expanding known archosauromorph diversity in marginal marine-influenced settings.^[31]^[1] The Rainbow Forest area, within the Sonsela Member, exposes white cross-bedded sandstones and conglomerates rich in petrified logs from conifer-like trees such as Araucarioxylon arizonicum, alongside vertebrate fossils including theropod tracks and skeletal elements.^[1] In the Painted Desert, sections of the Blue Mesa, Petrified Forest, and Owl Rock Members yield diverse Triassic fauna, including phytosaurs, metoposaurs, and aetosaurs, preserved in colorful mudstones and volcaniclastic units that provide continuous stratigraphic exposure of Late Triassic ecosystems.^[1] Access is facilitated through park trails and interpretive sites, highlighting the site's role in understanding fluvial and floodplain paleoenvironments.^[1] Ghost Ranch in New Mexico hosts the renowned Coelophysis quarry, a key Revueltian-age site in the upper Chinle Formation that has produced over 1,000 individuals of the early theropod dinosaur Coelophysis bauri.^[58] Located in abandoned channel deposits of a siltstone overbank sequence, the quarry's fossils exhibit minimal weathering or predation marks, indicating rapid burial following a likely mass mortality event such as drought-induced catastrophe.^[58] This locality, excavated since the 1940s, has yielded nearly complete skeletons alongside associated Revueltian fauna like sphenodontians and drepanosaurids, offering unparalleled insights into theropod ontogeny and early dinosaur diversity.^[58] The site's ongoing paleontological work is accessible via guided tours from the Ruth Hall Museum of Paleontology.^[59] Exposures in Monument Valley, spanning Utah and Arizona, feature the type section of the Owl Rock Member of the Chinle Formation, where interbedded limestones and calcareous siltstones preserve palynofossils and plant remains indicative of late Norian lacustrine and marginal environments.^[16] These strata, including finely laminated limestones at sites like Owl Rock, contain pollen and spore assemblages that correlate with regional biostratigraphy, alongside sparse megafossils such as ferns and conifers.^[16] Navajo-guided tours provide access to these erosional remnants, emphasizing the area's role in documenting the transition to eolian conditions in the Late Triassic.^[16] The Placerias Quarry near St. Johns in east-central Arizona represents a dicynodont-dominated bonebed in the lower Bluewater Creek Formation of the Chinle Group, with approximately 40 individuals of the synapsid Placerias hesternus alongside diverse other tetrapods.^[60] Fossils accumulated in a low-energy soil horizon with high water table, showing little transport or size bias, consistent with a localized mortality event possibly tied to seasonal aridity approximately 219 million years ago.^[60] Recent stratigraphic mapping confirms its basal position, enhancing correlations with Adamanian faunas.^[60] In the Texas Panhandle, Dockum Group sites equivalent to the Chinle Formation, such as those in Garza County, have yielded significant phytosaur remains, including taxa like Machaeroprosopus and new leptosuchine forms from fluvial and lacustrine deposits.^[61] These localities preserve partial skeletons and biostratigraphically important skulls that track faunal turnover in Norian-Rhaetian assemblages, with over 20 phytosaur-bearing sites documented in the region.^[62] Access is limited to permitted excavations, underscoring their value for pseudosuchian evolution studies.^[63]

References

[1]
Geologic Formations - Petrified Forest - National Park Service
Oct 10, 2025 · While not as numerous as the fossils of the Chinle Formation, fossils have been found even in the quaternary sediments, including fragments ...<|separator|>
[2]
[PDF] Related - Upper Triassic Strata in the Colorado Plateau Region
The Chinle Formation of Late Triassic age is composed of various rocks of ... U.S. Geological Survey on behalf of the U.S. Atomic Energy Commission, Di ...
[3]
Geolex — Chinle - National Geologic Map Database
Subunits: GROUP STATUS (alphabetical): Bull Canyon Formation (NM), Dockum Formation (TX), Garita Creek Formation (NM), Redonda Formation ( ...
[4]
[PDF] Paleoenvironments of Early Theropods, Chinle Formation (Late ...
The Late Triassic Chinle Formation is a continental, fluvial sequence that was deposited in a vast back-arc ba- sin on the western margin of Pangea (Stewart et ...
[5]
U-Pb zircon geochronology and depositional age models for the ...
Jul 20, 2020 · The Chinle Formation is recovered between a stratigraphic core depth of 20.6 m and 355.4 m and has a total stratigraphic thickness of 334.8 m.INTRODUCTION · GEOLOGIC SETTING · PREVIOUS U-Pb... · RESULTS
[6]
Geolex — Chinle publications - National Geologic Map Database
Aug 28, 2025 · Chinle formation. In Navajo country consists of (descending) : (1) Red shale and shaly sandstone; (2) lenses of limestone conglomerate containing red shale.
[7]
[PDF] Sedimentology and Depositional History of the Upper Triassic ...
This study examined the sedimentology and deposhional history of the Chinle Formation in outcrops in the Uinta, Piceance, and Eagle basins of northwestern.
[8]
New insights from the Sonsela Member, Upper Triassic Chinle ...
Apr 18, 2012 · The Chinle Formation is interpreted as a mud-dominated fluvial system deposited within a backarc basin (Fig. 1), likely controlled by dynamic ...
[9]
[PDF] Evidence from the Upper Triassic Chinle Formation, Colorado Plateau
The Pangaean megamonsoon is evidenced by the Chinle Formation, deposited during Pangaea's maximum size, ideal for monsoonal circulation, with conditions ...
[10]
Hematite reconstruction of Late Triassic hydroclimate over ... - PNAS
Feb 9, 2021 · The Chinle climate record provides no compelling evidence of an impact-induced event between 216 and 213 Ma. The most dramatic inflections of ...
[11]
[PDF] Possible tectonic controls on Late Triassic sedimentation in the ...
—Patterns of deposition of the Chinle Group formations record the influence of arc magmatism and the organization of a mobile foreland basin system during Late ...Missing: environment | Show results with:environment
[12]
Late Triassic Paleogeography and ... - AAPG Datapages/Archives
... fining-upwards cycles in the Chinle Formation. The six phases form a regional package but most areas contain deposits of only three or four of these phases ...Late Triassic Paleogeography... · Stratigraphy And Tectonics · Depositional Phases
[13]
[PDF] STRATIGRAPHY OF THE UPPER TRIASSIC CHINLE GROUp ...
The Chinle Group, of late Carnian-Rhaetian age, is divided into eight intervals, including Temple Mountain, Shinarump, Monitor Butte, and others.
[14]
[PDF] GEOLOGY OF THE NAVAJO COUNTRY
Jun 11, 2025 · This document, titled 'GEOLOGY OF THE NAVAJO COUNTRY', is a reconnaissance of parts of Arizona, New Mexico, and Utah, by Herbert E. Gregory.
[15]
https://ngmdb.usgs.gov/Prodesc/proddesc_88709.htm
[16]
[PDF] Stratigraphy of the Chinle and Moenkopi Formations, Navajo And ...
In 1946 the U.S. Geological Survey, at the request of the Bureau of Indian ... Cooley, M. E., 1957, Geology of the Chinle Formation in the upper Little ...
[17]
Revised stratigraphy of the lower Chinle Formation (Upper Triassic ...
Lucas (1993) also proposed several new lithostratigraphic units within the Chinle Group, notably the Cameron Formation and the Blue Mesa and Painted Desert ...
[18]
Regional correlation of the Sonsela Member (Upper Triassic Chinle ...
٠٦‏/٠٨‏/٢٠٢٥ · (2019) , and Rasmussen et al. (2020), Chinle Formation strata have the potential to record the timing of these changes in great detail given ...<|control11|><|separator|>
[19]
Sources of volcanic detritus in the basal Chinle Formation ...
Apr 1, 2016 · The Upper Triassic Chinle Formation in southwestern Laurentia is the oldest distinctive record of Early Mesozoic Cordilleran arc magmatism, ...
[20]
LA-ICPMS U–Pb geochronology of detrital zircon grains ... - GChron
Sep 23, 2020 · LA-ICPMS U-Pb geochronology was used on zircon grains from Coconino, Moenkopi, and Chinle formations. Coconino shows Proterozoic/Paleozoic ages ...
[21]
High-resolution U–Pb ages from the Upper Triassic Chinle ...
Sep 15, 2011 · The Chinle Formation in southwestern North America preserves a major Late Triassic record of paleoenvironmental and biotic change, including ...
[22]
[PDF] dynamics of the late triassic adamanian-revueltian extinction ...
Lucas, S.G.,1998, Global Triassic tetrapod biostratigraphy ... Adamanian-. Revueltian tetrapod faunal transition in the Chinle Formation of Petrified Forest.
[23]
The biostratigraphic importance of conchostracans in the continental ...
Conchostracans or clam shrimp (order Conchostraca Sars) are arthropods with a carapace consisting of two chitinous lateral valves. Triassic conchostracans ...
[24]
A Linkage Among Pangean Tectonism, Cyclic Alluviation, Climate ...
Dec 1, 2013 · It has long been recognized that two distinct vertebrate faunal assemblages occur in the Chinle Formation of Arizona, the Adamanian and the ...
[25]
[PDF] Vertebrate Paleontology of Arizona - Mike Taylor
New discoveries from the Upper Triassic Chinle Formation as the result of the ongoing paleontological inventory of Petrified Forest National Park, Arizona.
[26]
Description of the metoposaurid Anaschisma browni from the New ...
May 4, 2021 · This portion of the Chinle Formation and Dockum Group has long produced extensive remains of Anaschisma browni in Arizona, Texas, and New ...Missing: metoposaur | Show results with:metoposaur
[27]
[PDF] invertebrate paleontology of the upper triassic snyder quarry, chinle ...
record, the conchostracan is incomplete, and too little is known of Chinle conchostracans to use them in biostratigraphy (Lucas, 1997). Good. (1993a,b, 1998) ...
[28]
[PDF] Triassic Dinosaurs and Other Animals - Petrified Forest - NPS History
layers of the Chinle Formation are fossils of many types of invertebrates. Trace fossils including possible insect nests and beetle borings in the petrified ...
[29]
The Late Triassic (Norian) Adamanian–Revueltian tetrapod faunal ...
The Late Triassic (Norian) Adamanian–Revueltian tetrapod faunal transition in the Chinle Formation of Petrified Forest National Park, Arizona. Published online ...
[30]
Vertebrate coprolites and coprophagy traces, Chinle Formation ...
The preservation of herbivorous and carnivorous coprolites with bacterial, parasitological and muscle remains in the same formation and even the same outcrop ...
[31]
The Utah Geological Survey and the National Park Service
Jan 3, 2023 · One of the most fossil-rich formations on the Colorado Plateau is the Triassic-age Chinle Formation, which is exposed in many of Utah's national ...
[32]
[PDF] Aspects of the Palynology of the Chinle Formation (Upper Triassic ...
Although Ash (1980) has delimited three floral zones based chiefly on leaf remains in American Upper Triassic rocks including the Chinle Formation, no previous ...Missing: conchostracan | Show results with:conchostracan
[33]
None
Summary of each segment:
[34]
Contributions to the Upper Triassic Chinle flora in the American ...
Aug 6, 2025 · The flora of the Chinle Formation provides an excellent opportunity to trace vegetation dynamics during the Norian Stage, which was marked ...Missing: paleobotany | Show results with:paleobotany
[35]
[PDF] New data from the Chinle Formation, Petrified Forest National Park
is close to the Norian-Rhaetian boundary age at. 209.5 Ma according to the “long-Rhaetian” age model (Muttoni et al., 2004; Ogg, 2012), imply- ing that the ...
[36]
Late Triassic charcoal from Petrified Forest National Park, Arizona ...
The presence of the charcoal proves that on occasion natural wildfires, most probably ignited by lightning, must have occurred in the Chinle Triassic ...
[37]
Collapse of the Late Triassic megamonsoon in western equatorial ...
Aug 6, 2025 · We show from field properties, geochemical transfer functions, and isotopic analysis ... 2015) from the Chinle Formation in the Petrified Forest ...
[38]
Sandstone-hosted uranium deposits of the Colorado Plateau, USA
The Shinarump and Moss Back Members of the Chinle Formation contain most of the Triassic-hosted uranium mineralization in the Plateau (Finch, 1959). Deposits ...
[39]
Charles Augustus Steen - National Mining Hall of Fame and Museum
Charles Augustus (Charlie) Steen's discovery of pitchblende in the Chinle formation in southeastern Utah's Big Indian District changed the course of the US ...
[40]
Lisbon Valley, Utah's Largest Uranium District
Annual ore production reached a record high in 1959, when over 6.6 million pounds U3O8 were produced, but production declined there after due to ore purchase ...
[41]
[PDF] Clay Minerals in Triassic Rocks of the Colorado Plateau
strata near the base of the Chinle formation, and the nature of clays found in uranium ores. Uranium deposits in the sandstones near the base of the Chinle ...Missing: zeolites coal
[42]
Analcime - IZA Commission on Natural Zeolites
Ferruginous analcimolite occurs in the Triassic Chinle Formation of Utah, USA, (Keller, 1953). ... Sheppard, R.A. and Hay, R.L. (2001) Formation of zeolites in ...<|control11|><|separator|>
[43]
[PDF] GEOLOGICAL ENVIRONMENTS OF SANDSTONE-TYPE URANIUM ...
The two main uranium- deposit forms are tabular and roll-front, each related to a distinctive geochemical process of ground-water infiltration type of ...<|control11|><|separator|>
[44]
[PDF] Uranium and thorium occurrences in New Mexico
About 112,500 tons (102,058 metric tons) of $30 per pound of U308 reserves are in the San Juan Basin, about 55% of the total $30 reserves in the united States.
[45]
Uranium Mineral Systems | U.S. Geological Survey - USGS.gov
More than 4,000 sandstone-hosted uranium occurrences host over 1.2 billion pounds of mined and in situ U3O8 throughout the Colorado Plateau. Most of the ...<|control11|><|separator|>
[46]
History & Culture - Canyon de Chelly National Monument (U.S. ...
Apr 29, 2025 · The Navajo, or Dine' as they call themselves, continue to raise families and plant crops just as the “Ancient Ones” had. The farms, livestock ...
[47]
Navajo Places [1 ed.] 9781607818014, 9780874806236
Yet, certain aspects of Diné tradition deserve closer examination. For ... Náhoolyélí (“Turning [Changing] Rock”); Tsé ¥dadzisdlí'í (“Rock that People ...
[48]
Petrified Forest National Park - UNESCO World Heritage Centre
It contains the largest deposits of petrified wood in the world, as well as important fossils of plants and animals, including early dinosaurs, all in a ...
[49]
A Path to Understanding and Mitigating Threats to National Park ...
Sep 30, 2025 · A Path to Understanding and Mitigating Threats to National Park ... illegal fossil collection from public lands, including national parks.Red Flag · Piece By Piece · CatfishedMissing: Chinle Formation
[50]
[PDF] Uranium Migration in the Navajo Nation and Shallow Water Sources ...
Apr 7, 2025 · In the Monument Valley Mining District, uranium is produced from the Shinarump Member of the Chinle. Formation. Young, Malan, and Gray mapped ...
[51]
Geology & Paleontology Collection - Museum of Northern Arizona
a diverse and important collection of Triassic fauna from the Chinle Formation; a significant collection of amphibians, turtles, dinosaurs, pterosaurs, and ...
[52]
Trails - Petrified Forest National Park (U.S. National Park Service)
Portions of some trails are deemed accessible. See the descriptions below for more specific information. If you are looking for off-trail adventures, check out ...Missing: Chinle | Show results with:Chinle
[53]
[PDF] The Sequence Stratigraphy of the Chinle Formation in the Dinosaur ...
Sedimentary structures within the Gartra include medium-to-large scale planar and trough cross-bedding within stacked, lenticular shaped, channel deposits.
[54]
Geology and taphonomy of the Coelophysis quarry, Upper Triassic ...
May 20, 2016 · Colbert in the red siltstone beds of the Upper Triassic Chinle Formation, the quarry has yielded the remains of at least 1,000 individuals from ...
[55]
Ghost Ranch - New Mexico Bureau of Geology & Mineral Resources
Most of the facilities at Ghost Ranch are built on the mudstones of the Painted Desert Member of the Petrified Forest Formation. Several of the notable fossil ...Geologic Setting · Triassic · Jurassic
[56]
(PDF) Stratigraphic Position and Age of the Upper Triassic Placerias ...
Jun 17, 2025 · The Placerias quarry is a dicynodont-dominated bonebed in Upper Triassic Chinle Group strata near St. Johns in east-central Arizona, USA. Though ...
[57]
Taphonomy and Depositional Setting of the Placerias Quarry ...
Mar 3, 2017 · Sedimentologic and taphonomic data indicate that the Placerias Quarry was a site of bone accumulation in a soil with a high water table.Abstract · INTRODUCTION · GEOGRAPHIC AND... · THE PLACERIAS QUARRY...
[58]
Geolex — Dockum publications - National Geologic Map Database
Aug 28, 2025 · Skull of phytosaur MACHAEROPROSOPUS discovered in Sloan Canyon formation ... Chinle Formation of Dockum Group in TX and NM. The name Chinle ...
[59]
Phytosaur biostratigraphy of the Dockum Group in southern Garza ...
Phytosaur biostratigraphy of the Dockum Group in southern Garza County, west Texas. Fossil localities are in gray, preceded by a MOTT prefix, and used to plot ...
[60]
A new taxon of phytosaur (Archosauria: Pseudosuchia) from the ...
Sep 16, 2010 · Phytosaurs are a major component of the fauna of the Chinle Formation and Dockum Group of the south-western United States, and 'leptosuchine ...