Atomic Force Microscopy of the Nacreous Layer in Mollusc Shells

Abstract

We present atomic force microscopy observations of mature nacre, specifically the polygonal aragonite tablets which comprise the mineral portion of nacre, in two types of molluscs, a bivalve (Atrina serrate) and a gastropod (Haliotis rufescens). By imaging in liquids it was possible to dissolve away the nacre layer by layer to reveal both the structure of a single, tablet and its relationship to vertically adjacent tablets. Atrina tablets (inner face) had a concave appearance; the central depression was surrounded by elongate rings mimicking the orientation and aspect ratio of the unit cell rectangle. Unit cell orientations were generally aligned vertically and laterally between tablets of Atrina, although occasional twinning was also observed. Etching (with HCI) initially removed a top crust in bleached Atrina tablets, revealing a flatter base without the elongate rings. Further etching lifted off individual tablets to reveal underlying nacreous layers, showing no morphological registry between vertically adjacent tablets. The nacreous structure of Haliotis differed from Atrina in three ways: (1) the tablets were flatter and showed no top crust or elongate rings; (2) the positions of the central depressions approximately repeated between nacreous layers, showing that the (presumed) nucleation sites line up along a given stack; and (3) the unit cell orientations were not preserved between laterally adjacent tablets but were between vertically adjacent tablets-an observation which could not be made by X-my crystallography

Document Details

Document Type

Technical Report

Publication Date

Feb 25, 1994

Accession Number

ADA278097

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