Abstract
Invertebrate taphonomy can provide significant information about the post-mortem processes that affected the fossil record. In the East Pisco Basin of southern Peru, a Panopea Ménard de la Groye, 1807 shell bed was found in the upper Miocene strata of the Pisco Formation, hinting at a peculiar biostratinomic and diagenetic history. This bed contains abundant invertebrate fossil molds cemented by dolomite. The specimens of the deep infaunal bivalve, Panopea sp., occur together with bivalves representative of shallow infaunal species (Trachycardium sp. and Dosinia ponderosa [Gray, 1838]) and balanid barnacles, which are sessile encrusters. The Panopea specimens host compound molds evidencing an abundant encrusting fauna, including serpulids, ?foraminifera, bryozoans, and barnacles that colonized the inner surfaces of the valves before their final burial. We hypothesize that short-term, storm-related processes exhumed the living bivalves, resulting in a sedimentological concentration of relatively well-preserved shells. After the death of the exhumed bivalves, the inner surfaces of the articulated Panopea shells, representing hard-substratal, sheltered environments on an otherwise unstable sandy seafloor (i.e., “benthic islands”), were colonized by different encrusting organisms. Following the final burial, dolomite precipitated, cementing the sediment infill of the valves. Lastly, a decrease of pH occurred at the sulfate reduction-methanogenesis boundary, inducing the dissolution of the shell carbonate.
Highlights
Shell concentrations result from complex sedimentologic and biologic processes and are rich sources of paleontologic and stratigraphic information as well as excellent tools for reconstructing past depositional settings (e.g. Meldahl 1993; Hendy et al 2009)
In the East Pisco Basin of southern Peru, a Panopea Ménard de la Groye, 1807 shell bed was found in the upper Miocene strata of the Pisco Formation, hinting at a peculiar biostratinomic and diagenetic history
The East Pisco Panopea molds were compared with eight specimens of Panopea generosa Gould, 1850 collected by the West Coast Geoduck Research Corporation (WCGRC) of the Underwater Harvesters Association (UHA)
Summary
Shell concentrations result from complex sedimentologic and biologic processes and are rich sources of paleontologic and stratigraphic information as well as excellent tools for reconstructing past depositional settings (e.g. Meldahl 1993; Hendy et al 2009). Alteration and diagenetic solution may compromise paleontological reconstructions, the different modes of preservation of fossil macro-invertebrates can be used for reconstructing paleoenvironmental and diagenetic patterns and processes in the past Taphonomy of a Panopea shell bed Bosence 1991; Del Rio et al 2001). In this regard, external and internal molds can be extremely useful since they provide evidence of the macro-invertebrate assemblage even when most of the shell material has been dissolved. External and compound molds resulting from authigenic preservation (Schopf 1975) may record the organisms that encrusted the shells themselves, providing a more complete record of the biological diversity of the paleoenvironments in which such fossils occur (Luci & Cichowolski 2014)
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