Giants among micromorphs: Were cincinnatian (Ordovician, Katian) small shelly phosphatic faunas dwarfed?

Benjamin F. Dattilo; Rebecca L. Freeman; Winfried S. Peters; William P. Heimbrock; Bradley Deline; Anthony J. Martin; Jack W. Kallmeyer; Jessie Reeder; Anne Argast

doi:10.2110/palo.2015.040

Giants among micromorphs: Were cincinnatian (Ordovician, Katian) small shelly phosphatic faunas dwarfed?

Benjamin F. Dattilo
, Rebecca L. Freeman
, Winfried S. Peters
, William P. Heimbrock
, Bradley Deline
, Anthony J. Martin
, Jack W. Kallmeyer
, Jessie Reeder
, Anne Argast

Earth and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Small fossils are preserved as phosphatic (carbonate fluorapatite) micro-steinkerns (∼0.5 mm diameter) in Upper Ordovician beds of the Cincinnati area. Mollusks are common, along with bryozoan zooecia, echinoderm ossicles, and other taxa. Similar occurrences of Ordovician micromorphic mollusks have been interpreted as ecologically dwarfed and adapted to oxygen-starved conditions, an interpretation with implications for ocean anoxia. An alternative explanation for small phosphatic steinkerns is taphonomic. Stable carbonate fluorapatite selectively filled small voids, thus preserving small fossils, including larval/young mollusks. Reworking concentrated small phosphatic steinkerns from multiple generations while larger, unfilled calcareous shells were destroyed, resulting in small fossils progressively replacing larger fossils. With thin sections and insoluble residues, we document evidence that many of these steinkerns are incomplete ("teilsteinkerns") recording small parts of larger, normal-sized animals, or juveniles, along with smaller species. This finding suggests that these fossil assemblages are taphonomically, not ecologically, size-limited. Based on the ecology of modern oxygen minimum zones in which shelled mollusks are rare, the presence of abundant shelled organisms actually argues against severe oxygen stress. Our results also imply that the process by which the "small shelly fossils" of the Cambrian were preserved continued into the Ordovician.

Original language	English
Pages (from-to)	55-70
Number of pages	16
Journal	Palaios
Volume	31
Issue number	3
DOIs	https://doi.org/10.2110/palo.2015.040
State	Published - Mar 2016

Bibliographical note

Publisher Copyright:
Copyright © 2016, SEPM (Society for Sedimentary Geology).

Funding

BFD acknowledges the support of American Chemical Society Petroleum Research Fund Grant # 55225-UR8. RLF thanks the University of Kentucky College of Arts and Sciences for a College Research Activity Award. Both BFD's and WSP's contribution were facilitated by sabbatical leaves granted by Indiana University-Purdue University Fort Wayne. AJM thanks John K. Pope (Miami University) for guidance on his M.S. study of this fossil assemblage in the early 1980s. WPH thanks the Miami University Library for access to publications. We all thank Steve Felton for help finding phosphatic strata. Access to SEM and photomicrographic equipment provided by the Argast Family Imaging and Analysis Lab at Indiana University-Purdue University Fort Wayne. Carlton Brett and an anonymous reviewer provided helpful suggestions to improve the original manuscript.

Funders	Funder number
University of Kentucky Graduate School, College of Arts and Sciences
Miami Clinical and Translational Science Institute, University of Miami
American Chemical Society Petroleum Research Fund	55225-UR8
Indiana University-Purdue University Indianapolis

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Paleontology

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Cite this

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title = "Giants among micromorphs: Were cincinnatian (Ordovician, Katian) small shelly phosphatic faunas dwarfed?",

abstract = "Small fossils are preserved as phosphatic (carbonate fluorapatite) micro-steinkerns (∼0.5 mm diameter) in Upper Ordovician beds of the Cincinnati area. Mollusks are common, along with bryozoan zooecia, echinoderm ossicles, and other taxa. Similar occurrences of Ordovician micromorphic mollusks have been interpreted as ecologically dwarfed and adapted to oxygen-starved conditions, an interpretation with implications for ocean anoxia. An alternative explanation for small phosphatic steinkerns is taphonomic. Stable carbonate fluorapatite selectively filled small voids, thus preserving small fossils, including larval/young mollusks. Reworking concentrated small phosphatic steinkerns from multiple generations while larger, unfilled calcareous shells were destroyed, resulting in small fossils progressively replacing larger fossils. With thin sections and insoluble residues, we document evidence that many of these steinkerns are incomplete ({"}teilsteinkerns{"}) recording small parts of larger, normal-sized animals, or juveniles, along with smaller species. This finding suggests that these fossil assemblages are taphonomically, not ecologically, size-limited. Based on the ecology of modern oxygen minimum zones in which shelled mollusks are rare, the presence of abundant shelled organisms actually argues against severe oxygen stress. Our results also imply that the process by which the {"}small shelly fossils{"} of the Cambrian were preserved continued into the Ordovician.",

author = "Dattilo, \{Benjamin F.\} and Freeman, \{Rebecca L.\} and Peters, \{Winfried S.\} and Heimbrock, \{William P.\} and Bradley Deline and Martin, \{Anthony J.\} and Kallmeyer, \{Jack W.\} and Jessie Reeder and Anne Argast",

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Giants among micromorphs: Were cincinnatian (Ordovician, Katian) small shelly phosphatic faunas dwarfed?

Abstract

Bibliographical note

Funding

ASJC Scopus subject areas

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