Hydrodynamic sorting in a coastal marine skeletal assemblage

Stojanowski, Christopher M.

doi:10.1002/oa.620

Cited by 5 publications

(4 citation statements)

References 93 publications

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“…Archaeological, paleontological and forensic studies concerning aquatic bone taphonomy have a number of commonalities in approach and cross-discipline applications. Archaeological and paleontological disciplines largely employ fieldbased observations of fluvially deposited human and faunal assemblages (see for example Aslan and Behrensmeyer, 1996;Behrensmeyer, 1982;Gifford and Behrensmeyer 1977;Stojanowski, 2002), and laboratory flume experiments to recreate transport and modification processes (for example Boaz and Behrensmeyer 1976;Coard, 1999;Peterson and BigalkeI, 2013;Trapani, 1998). Others have adopted a geochemical approach, using the trace element compositions of fossil bone from marine vertebrate assemblages to determine a degree of mixing and taphonomic averaging (see Trueman et al, 2003).…”

Section: Current Analytical Approachesmentioning

confidence: 99%

Experimental abrasion of water submerged bone: The influence of bombardment by different sediment classes on microabrasion rate

Griffith

Thompson

et al. 2016

Journal of Archaeological Science: Reports

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Section: Current Analytical Approachesmentioning

confidence: 99%

Experimental abrasion of water submerged bone: The influence of bombardment by different sediment classes on microabrasion rate

Griffith

Thompson

et al. 2016

Journal of Archaeological Science: Reports

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“…For marine vertebrates, only a few paleontologic studies have compared the trends in preservation along environmental gradients [13] , [14] . A number of actualistic studies have assessed problems of decomposition, disarticulation, sorting, abrasion, scavenging, and bloating in marine vertebrates [15] – [23] . Additionally, several forensic studies focused on decomposition, disarticulation, bloating, hydraulic sorting, bone modification, and marine scavenging, using experiments with pigs or forensic case data, are applicable to marine vertebrate taphonomy [11] , [24] – [28] .…”

Section: Introductionmentioning

confidence: 99%

Comparative Taphonomy, Taphofacies, and Bonebeds of the Mio-Pliocene Purisima Formation, Central California: Strong Physical Control on Marine Vertebrate Preservation in Shallow Marine Settings

Boessenecker

Perry²,

Schmitt

2014

PLoS ONE

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BackgroundTaphonomic study of marine vertebrate remains has traditionally focused on single skeletons, lagerstätten, or bonebed genesis with few attempts to document environmental gradients in preservation. As such, establishment of a concrete taphonomic model for shallow marine vertebrate assemblages is lacking. The Neogene Purisima Formation of Northern California, a richly fossiliferous unit recording nearshore to offshore depositional settings, offers a unique opportunity to examine preservational trends across these settings.Methodology/Principal FindingsLithofacies analysis was conducted to place vertebrate fossils within a hydrodynamic and depositional environmental context. Taphonomic data including abrasion, fragmentation, phosphatization, articulation, polish, and biogenic bone modification were recorded for over 1000 vertebrate fossils of sharks, bony fish, birds, pinnipeds, odontocetes, mysticetes, sirenians, and land mammals. These data were used to compare both preservation of multiple taxa within a single lithofacies and preservation of individual taxa across lithofacies to document environmental gradients in preservation. Differential preservation between taxa indicates strong preservational bias within the Purisima Formation. Varying levels of abrasion, fragmentation, phosphatization, and articulation are strongly correlative with physical processes of sediment transport and sedimentation rate. Preservational characteristics were used to delineate four taphofacies corresponding to inner, middle, and outer shelf settings, and bonebeds. Application of sequence stratigraphic methods shows that bonebeds mark major stratigraphic discontinuities, while packages of rock between discontinuities consistently exhibit onshore-offshore changes in taphofacies.Conclusions/SignificanceChanges in vertebrate preservation and bonebed character between lithofacies closely correspond to onshore-offshore changes in depositional setting, indicating that the dominant control of preservation is exerted by physical processes. The strong physical control on marine vertebrate preservation and preservational bias within the Purisima Formation has implications for paleoecologic and paleobiologic studies of marine vertebrates. Evidence of preservational bias among marine vertebrates suggests that careful consideration of taphonomic overprint must be undertaken before meaningful paleoecologic interpretations of shallow marine vertebrates is attempted.

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“…37 Christensen et al 2014. 38 For example see Behrensmeyer 1982;Stojanowski 2002;Griffith et al 2016. 39 Evans 2014.…”

Section: Forensic Taphonomymentioning

confidence: 99%

The Body in the Ditch: Alternative Funerary Practices on the Northern Frontier of the Roman Empire?

et al. 2019

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Disarticulated human remains were recovered from a first-century fort ditch at Vindolanda on the north-west frontier of the Roman Empire. Ancient DNA analysis revealed the skeleton to be that of a male individual and forensic taphonomic analysis suggested a primary deposition of the body in a waterlogged environment with no obvious evidence of formal burial. Occurrences of disarticulated human remains outside a cemetery context are often overlooked in Roman bioarchaeology. This discovery adds to the growing body of literature regarding alternative funerary practice in the Empire, highlighting that the concept of burial and disposal of the dead is more complex than ancient historical sources suggest. Details of the DNA analysis are provided in the Supplementary Material available at https://doi.org/10.1017/S0068113X1900014X.

show abstract

Hydrodynamic sorting in a coastal marine skeletal assemblage

Cited by 5 publications

References 93 publications

Experimental abrasion of water submerged bone: The influence of bombardment by different sediment classes on microabrasion rate

Experimental abrasion of water submerged bone: The influence of bombardment by different sediment classes on microabrasion rate

Comparative Taphonomy, Taphofacies, and Bonebeds of the Mio-Pliocene Purisima Formation, Central California: Strong Physical Control on Marine Vertebrate Preservation in Shallow Marine Settings

The Body in the Ditch: Alternative Funerary Practices on the Northern Frontier of the Roman Empire?

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