Freshwater plumes and brackish lakes: Integrated microfossil and O-C-Sr isotopic evidence from the late Miocene and early Pliocene Bouse Formation (California-Arizona) supports a lake overflow model for the integration of the lower Colorado River corridor

Bright, Jordon; Cohen, Andrew S.; Dettman, David L.; Pearthree, P.A.

doi:10.1130/ges01610.1

Cited by 16 publications

(19 citation statements)

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“…The Bouse Formation deposits display tidal cyclicity similar to that of the modern Gulf of California (Marinone, 1997;O'Connell et al, 2017), and the tectonic setting and basin geometries are well-constrained (Dorsey et al, 2018;Gardner & Dorsey, 2021). Published analyses, however, are incomplete, and some studies favour a lacustrine origin for the Bouse Formation in its southern exposures along the lower Colorado River region (Spencer & Jonathan Patchett, 1997;House et al, 2008;Spencer et al, 2013;Bright et al, 2016Bright et al, , 2018a.…”

Section: Introductionmentioning

confidence: 99%

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

et al. 2021

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Mixed carbonate-siliciclastic deposits provide unique insights into hydrodynamic processes that control sedimentation in tidal systems. This study presents sedimentological and ichnological data from the upper Miocene to lower Pliocene Bouse Formation, which accumulated during regional transgression at the margin of a tidal strait near the north end of the ancestral Gulf of California. The basal carbonate member of the Bouse Formation records deposition in a tide-influenced, compositionally mixed carbonate-siliciclastic system dominated by salt marsh, tidal flat and channel environments. The basal carbonate member is an overall deepening up succession of facies associations comprising: Facies Association 1siliciclastic-rich heterolithic facies, lime mudstone with desiccation cracks, and plant debris rich carbonate silt interpreted as siliciclastic-rich tidal flats; Facies Association 2well-sorted gravels, siliciclastic-rich sandy strata, lime mudstone with desiccation cracks, and sandy microbial micrite interpreted as tidal-channel deposits; Facies Association 3carbonate-rich heterolithic lime mudstone to well-sorted, cross-bedded bioclastic grainstone interpreted as intertidal to shallow subtidal deposits; and Facies Association 4lime mudstone interpreted as shallow to deep subtidal low-energy deposits that record the end of tidal conditions in the basin. Trace fossils include marine forms Gyrolithes, Teichichnus and Thalassinoides, and non-diagnostic forms Arenicolites, Cochlichnus, Conichnus, Lockeia, Planolites, Skolithos and Treptichnus (known from marine, brackish and freshwater environments). The diminutive size of trace fossils reflects brackish conditions created by mixing of freshwater and seawater. This study provides evidence for a late Miocene to early Pliocene humid climate in southwestern North America, in stark contrast to the modern hyperarid climate. Factors that controlled the relative percentage of mixed carbonate and siliciclastic sediment include siliciclastic input from local rivers, in situ carbonate production, current energy, degree of tidal mixing and relative sea level. Pronounced facies variability at bedform, outcrop and basin scale documented in this study appears to be an important characteristic of mixed carbonate-siliciclastic deposits in tidal depositional systems.

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Section: Introductionmentioning

confidence: 99%

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

et al. 2021

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“…The Bouse Formation in the studied area formed at the margin of a tidal strait near the north end of the Gulf of California oblique rift as indicated by marine and brackish-water fossils and a wide range of tidal sedimentary structures (e.g., Buising, 1990;Turak, 2000;McDougall, 2008;McDougall & Miranda-Martinez, 2014;Dorsey et al, 2018;Garnder & Dorsey, in press). Although some authors favour an isolated inland-lake model for the Bouse Formation in the study area (Spencer & Patchett, 1997;House et al, 2008;Spencer et al, 2008Spencer et al, , 2013Bright et al, 2016Bright et al, , 2018a2018b), the lacustrine model is incompatible with abundant evidence for intertidal, marine to brackish-water fossils and trace fossils, and widespread tideinfluenced sedimentary structures (Buising, 1990;Turak, 2000;O'Connell et al, 2017;Dorsey et al, 2018;Garnder & Dorsey, in press).…”

Section: Regional Geologymentioning

confidence: 92%

“…The Bouse Formation deposits display tidal cyclicity similar to that of the modern Gulf of California (Marinone, 1997;O'Connell et al, 2017), and the tectonic setting and basin geometries are well constrained (Dorsey et al, 2018;Garnder & Dorsey, in press). Published analyses, however, are incomplete, and some studies favour a lacustrine origin for the Bouse Formation in its southern exposures along the lower Colorado River region (e.g., Spencer & Patchett, 1997;House et al, 2008;Spencer et al, 2013;Bright et al, 2016Bright et al, , 2018aBright et al, , 2018b. Spencer et al (2008) (grey).…”

Section: Introductionmentioning

confidence: 99%

Mixed carbonate-siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo-Gulf of California

O’Connell¹,

Dorsey²,

Hood³

et al. 2022

Preprint

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Mixed carbonate-siliciclastic deposits provide unique insights into hydrodynamic processes that control sedimentation in tidal systems. This study presents sedimentologic an¬¬d ichnologic data from the upper Miocene¬ to lower Pliocene Bouse Formation, which accumulated during regional transgression at the margin of a tidal strait near the north end of the ancestral Gulf of California. The basal carbonate member of the Bouse Formation records deposition in a tide-influenced, compositionally mixed carbonate-siliciclastic system dominated by salt marsh, tidal flat, and channel environments. The basal carbonate member is an overall deepening up succession of facies associations (FA) comprising: FA1 siliciclastic-rich heterolithic facies, lime mudstone with desiccation cracks, and plant debris rich carbonate silt interpreted as siliciclastic-rich tidal flats; FA2 well-sorted gravels, siliciclastic-rich sandy strata, lime mudstone with desiccation cracks, and sandy microbial micrite interpreted as tidal-channel deposits; FA3 carbonate-rich heterolithic lime mudstone to well sorted, crossbedded bioclastic grainstone interpreted as intertidal to shallow subtidal deposits; and FA4 lime mudstone interpreted as shallow to deep subtidal low-energy deposits that record the end of tidal conditions in the basin. Trace fossils include marine forms Gyrolithes, Teichichnus, Thalassinoides, and non-diagnostic forms Arenicolites, Cochlichnus, Conichnus, Lockeia, Planolites, Skolithos, and Treptichnus (known from marine, brackish, and freshwater environments). The diminutive size of trace fossils reflects brackish conditions created by mixing of freshwater and seawater. This study provides evidence for a late Miocene to early Pliocene humid climate in southwestern North America, in stark contrast to the modern hyperarid climate. Factors that controlled the relative percent of mixed carbonate and siliciclastic sediment include siliciclastic input from local rivers, in situ carbonate production, current energy, degree of tidal mixing, and relative sea level. Pronounced facies variability at bedform, outcrop, and basin scale documented in this study appears to be an important characteristic of mixed carbonate-siliciclastic deposits in tidal depositional systems.

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“…3). The fossil record of the lower Bouse Formation includes a bewildering mixture of apparently marine or estuarine (e.g., planktic foraminiferans, barnacles, and Thalassinoides trace fossils) and lacustrine (ostracodes, Chara, molluscs) fossils (Bright et al, 2018b). Sigmoidal bedding and other depositional features interpreted to be of marine tidal origin (O'Connell et al, 2017) were also interpreted by Spencer et al (2018) to indicate a lacustrine origin.…”

Section: Introductionmentioning

confidence: 92%

The Bouse Formation, a controversial Neogene archive of the evolving Colorado River: a scientific drilling workshop report (28 February–3 March 2019 – BlueWater Resort & Casino, Parker, AZ, USA)

et al. 2019

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Neogene deposits of the lower Colorado River valley, especially the Miocene(?) and early Pliocene Bouse Formation, have been the focus of intense debate regarding the early paleoenvironmental history of this important continental-scale river system in southwestern North America and its integration with the proto-Gulf of California. Fine-grained units within these Neogene deposits also hold a promising archive of Pliocene paleoclimate history for this part of the world. Because the depocenter deposits of the Bouse Formation and the deposits that overlie and underlie it are poorly exposed and highly weathered, the formation is ripe for study through collection of drill cores. A workshop was held 28 February-3 March 2019 in Parker, AZ, USA, to discuss how scientific drilling might be employed to help resolve the Bouse controversies and improve our understanding of paleoclimate history in the region.Published by Copernicus Publications on behalf of the IODP and the ICDP.

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Freshwater plumes and brackish lakes: Integrated microfossil and O-C-Sr isotopic evidence from the late Miocene and early Pliocene Bouse Formation (California-Arizona) supports a lake overflow model for the integration of the lower Colorado River corridor

Abstract: This paper is published under the terms of the CC-BY-NC license.

Cited by 16 publications

References 158 publications

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

Mixed carbonate-siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo-Gulf of California

The Bouse Formation, a controversial Neogene archive of the evolving Colorado River: a scientific drilling workshop report (28 February–3 March 2019 – BlueWater Resort & Casino, Parker, AZ, USA)

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Freshwater plumes and brackish lakes: Integrated microfossil and O-C-Sr isotopic evidence from the late Miocene and early Pliocene Bouse Formation (California-Arizona) supports a lake overflow model for the integration of the lower Colorado River corridor

Abstract: This paper is published under the terms of the CC-BY-NC license.

Cited by 16 publications

References 158 publications

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

Mixed carbonate–siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo‐Gulf of California

Mixed carbonate-siliciclastic tidal sedimentation in the Miocene to Pliocene Bouse Formation, palaeo-Gulf of California

The Bouse Formation, a controversial Neogene archive of the evolving Colorado River: a scientific drilling workshop report (28 February–3 March 2019 – BlueWater Resort &amp; Casino, Parker, AZ, USA)

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The Bouse Formation, a controversial Neogene archive of the evolving Colorado River: a scientific drilling workshop report (28 February–3 March 2019 – BlueWater Resort & Casino, Parker, AZ, USA)