Nacre tablet thickness records formation temperature in modern and fossil shells

Nacre, the iridescent outer lining of pearls and inner lining of many mollusk shells, is composed of periodic, parallel, organic sheets alternating with aragonite (CaCO3) tablet layers. Nacre tablet thickness (TT) generates both nacre's iridescence and its remarkable resistance to fracture. Des...

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Bibliographic Details
Published in:Earth and planetary science letters 2017-02, Vol.460 (C), p.281-292
Main Authors: Gilbert, Pupa U.P.A, Bergmann, Kristin D., Myers, Corinne E., Marcus, Matthew A., DeVol, Ross T., Sun, Chang-Yu, Blonsky, Adam Z., Tamre, Erik, Zhao, Jessica, Karan, Elizabeth A., Tamura, Nobumichi, Lemer, Sarah, Giuffre, Anthony J., Giribet, Gonzalo, Eiler, John M., Knoll, Andrew H.
Format: Article
Language:English
Subjects:
biomineral
iridescence
MATERIALS SCIENCE
mollusk
paleo-climate
PEEM
proxy
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Summary:Nacre, the iridescent outer lining of pearls and inner lining of many mollusk shells, is composed of periodic, parallel, organic sheets alternating with aragonite (CaCO3) tablet layers. Nacre tablet thickness (TT) generates both nacre's iridescence and its remarkable resistance to fracture. Despite extensive studies on how nacre forms, the mechanisms controlling TT remain unknown, even though they determine the most conspicuous of nacre's characteristics, visible even to the naked eye. Thermodynamics predicts that temperature (T) will affect both physical and chemical components of biomineralized skeletons. The chemical composition of biominerals is well-established to record environmental parameters, and has therefore been extensively used in paleoclimate studies. The physical structure, however, has been hypothesized but never directly demonstrated to depend on the environment. Here we observe that the physical TT in nacre from modern and fossil shallow-water shells of the bivalves Pinna and Atrina correlates with T as measured by the carbonate clumped isotope thermometer. Based on the observed TT vs. T correlation, we anticipate that TT will be used as a paleothermometer, useful to estimate paleotemperature in shallow-water paleoenvironments. Here we successfully test the proposed new nacre TT thermometer on two Jurassic Pinna shells. The increase of TT with T is consistent with greater aragonite growth rate at higher T, and with greater metabolic rate at higher T. Thus, it reveals a complex, T-dependent biophysical mechanism for nacre formation. •We show that nacre tablet thickness (TT) correlates with formation temperature (T).•The TT vs. T correlation can be used as a thermometer to measure paleo-temperatures.•This is a physical, not a chemical proxy, and thus is less sensitive to diagenesis.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2016.11.012