Collapse of the Late Triassic megamonsoon in western equatorial Pangea, present-day American Southwest

Nordt, Lee C.; Atchley, Stacy C.; Dworkin, Steven I.

doi:10.1130/b31186.1

Cited by 57 publications

(100 citation statements)

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“…The occurrence of a juvenile K. perfectus in younger sediments than previously documented for the taxon is important for improving our understanding of the Adamanian-Revueltian faunal turnover, thought to correlate with a climatic shift to an increasingly arid regime with more pronounced seasonality (Dubiel et al, 1991;Parker and Martz, 2011;Nordt et al, 2015). Material of K. perfectus is common in Adamanian strata (Blue Mesa Member, lower Sonsela Member) of the park and rare in Revueltian strata (upper Sonsela Member, Petrified Forest Member), while material of A. gregorii demonstrates the inverse distribution pattern (Hunt and Lucas, 1993), which is thought to reflect a climate-associated transition from large metoposaurids to small ones (Parker and Martz, 2011;Atchley et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Given the pronounced seasonality that characterized the equatorial regions of the Upper Triassic, it would not be unexpected for aquatic taxa, particularly desiccationprone amphibians, to acquire adaptations that would allow them to tolerate more arid conditions during the dry season (Dubiel et al, 1991;Martz and Parker, 2010;Atchley et al, 2013;Nordt et al, 2015). For example, workers have postulated that M. diagnosticus, which features more robust forelimbs and musculature relative to Dutuitosaurus ouazzoui (two taxa with well-described articulated skeletons), may have been adapted for burrowing into lake sediments during the dry season .…”

Section: Discussionmentioning

confidence: 99%

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A juvenile Koskinonodon perfectus (Temnospondyli, Metoposauridae) from the Upper Triassic of Arizona and its implications for the taxonomy of North American metoposaurids

Gee

Parker²

2017

J. Paleontol.

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Abstract.-Metoposaurids are temnospondyl amphibians that are well known from Upper Triassic deposits in North America, Europe, India, and Africa. Two species of metoposaurids, Koskinonodon perfectus and Apachesaurus gregorii, are among the most common fossils found in the Petrified Forest National Park (PEFO) of the southwestern United States. The two are distinguished on the basis of several cranial traits and the morphology of their intercentra, and are more informally distinguished by their overall size and biostratigraphic range. While material of adult metoposaurids is extremely common in Upper Triassic deposits, described material of juveniles is very rare, which limits the study of ontogenetic trajectories that would assist in assessing whether diagnostic traits of the smaller A. gregorii are also ontogenetically influenced traits in juveniles of K. perfectus. Here we report on material from a juvenile specimen of K. perfectus from the Petrified Forest Member (Norian) of the Chinle Formation in the PEFO. This specimen is significant because it represents the highest known occurrence of the species within the PEFO, documents a rare occurrence of a juvenile specimen of a North American metoposaurid, and records a rare North American metoposaurid specimen that includes associated cranial and postcranial material. Additionally, the combination of cranial features diagnostic of K. perfectus and intercentra of proportions intermediate between K. perfectus and A. gregorii in this specimen raises questions about the utility of several characters for species discrimination in North American metoposaurids.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A juvenile Koskinonodon perfectus (Temnospondyli, Metoposauridae) from the Upper Triassic of Arizona and its implications for the taxonomy of North American metoposaurids

Gee

Parker²

2017

J. Paleontol.

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“…(A) Mean annual precipitation ( MAP ) derived from the chemical index of alteration minus potassium ( CIA –K) transfer function (Nordt et al ., ). (B) Mean annual temperatures ( MAT ) from the NAK (salinization) and δ 18 O PDB transfer functions (Nordt et al ., ).…”

Section: Discussionmentioning

confidence: 99%

“…The varying extent of feldspar weathering, kaolinite and smectite neoformation, and pseudomatrix development indicates differences in the intensity of meteoric eogenetic diagenesis. The evolution of meteoric diagenetic features can be compared and correlated to other climate studies of western equatorial Pangea that document an anomalously wet climate in the earlier Chinle that gradually transitioned to a drier climate during later Chinle deposition (Robinson, ; Parrish & Peterson, ; Sims & Ruffell, ; Dubiel et al ., ; Parrish, ; Dubiel, ; Frances, ; Retallack et al ., ; Tanner, ; Prochnow et al ., ; Tanner & Lucas, ; Dubiel & Hasiotis, ; Trendell et al ., ; Atchley et al ., ; Nordt et al ., ). These studies document the climate evolution using a wide range of indicators, including megascopic pedological features, associated geochemical signatures, the distribution of aquatic and semi‐aquatic tetrapods (phytosaurs and metasaurs), abundance of water loving plants (i.e.…”

Section: Discussionmentioning

confidence: 99%

“…(A) Location of Petrified Forest National Park ( PEFO ) in north‐eastern Arizona, and the eight outcrops comprising the composite section of the Chinle Formation used in this study. Outcrop numbers are in order from oldest to youngest: 1 – Hunt Valley; 2 – Lower Tepees; 3 – Upper Tepees; 4 – Blue Mesa Overlook; 5 – Mountain Lion Mesa; 6 – Citadel; 7 – Lacey Point; 8 – Chinde Mesa (modified from Nordt et al ., ). (B) Chinle Formation stratigraphy including lithostratigraphic, geochronological and sequence stratigraphic framework.…”

Section: Geological Settingmentioning

confidence: 99%

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Eogenetic diagenesis of Chinle sandstones, Petrified Forest National Park (Arizona, USA): A record of Late Triassic climate change

et al. 2017

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Fluvially derived tuffaceous Chinle sandstones from Petrified Forest National Park provide a well‐preserved Late Triassic archive of climate information. Petrographic analysis of 38 Chinle sandstones provides new insight into the depositional history and evolution of palaeoclimate during Chinle deposition. This study focuses on the relationship between climate and meteoric diagenesis as a guide for constraining climate change in western equatorial Pangea during the Late Triassic. Petrographic analysis of Chinle sandstones reveals their wide range of textural attributes, as well as pedogenic and shallow burial diagenetic features that occurred during the Late Triassic. These diverse petrological characteristics are indicative of the evolving Late Triassic climate, when placed into a well‐constrained stratigraphic and geochronological framework. The stratigraphic succession is characterized by variations in the abundance of framework grains, detrital matrix, weathering intensity of feldspar and volcanic rock fragments, and the mineralogy of clay cements. Climate records from Chinle palaeosol geochemistry indicate a progression from wet to dry conditions. This trend is also reflected in the meteoric diagenetic features of Chinle sandstones. During deposition of the lower Chinle, elevated rainfall promoted the weathering of labile volcanic detritus to kaolinite, whereas feldspars (especially plagioclase) were partially or completely dissolved. In the upper Chinle, a trend towards drier conditions favoured the formation of smectite and less feldspar dissolution resulting in a higher abundance of well‐preserved plagioclase grains. Shallow burial meteoric weathering reactions in Chinle sandstones reflect the evolving climate during the Late Triassic.

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14th Symposium on Mesozoic Terrestrial Ecosystems and Biota

2023

The Anatomical Record

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Collapse of the Late Triassic megamonsoon in western equatorial Pangea, present-day American Southwest

Cited by 57 publications

References 78 publications

A juvenile Koskinonodon perfectus (Temnospondyli, Metoposauridae) from the Upper Triassic of Arizona and its implications for the taxonomy of North American metoposaurids

A juvenile Koskinonodon perfectus (Temnospondyli, Metoposauridae) from the Upper Triassic of Arizona and its implications for the taxonomy of North American metoposaurids

Eogenetic diagenesis of Chinle sandstones, Petrified Forest National Park (Arizona, USA): A record of Late Triassic climate change

14th Symposium on Mesozoic Terrestrial Ecosystems and Biota

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