Does Abalone Nacre Form by Heteroepitaxial Nucleation or by Growth through Mineral Bridges?

Citations Over TimeTop 1% of 1997 papers

Abstract

We present experimental support for a model of abalone nacre growth that is based on mineral bridges between successive aragonite tablets rather than on heteroepitaxial nucleation. Interlamellar sheets of organic polymers delineate the aragonite tablets but allow the tablets to grow mineral bridges through pores in the sheets. Atomic force microscope images of interlamellar organic sheets from flat pearls made by Haliotis rufescens (red abalone; marine gastropod mollusk) reveal a fibrous core and holes of 5−50 nm in diameter. Scanning ion conductance microscopy shows that these holes are actually pores through the interlamellar sheets. With the help of statistical analysis we can associate the pore-to-pore spacings in the interlamellar sheets with the observed offsets of successive nacre tablets. These results, supplemented by AFM, SEM, and TEM images, support and extend the model of biofabrication of gastropod nacre which is based on mineral bridges between the aragonite tablets.

Related Papers

• → An integrated investigation of the effects of ocean acidification on adult abalone (Haliotis tuberculata)(2020)39 cited
• → Ecology of New Zealand abalones, Haliotis species (Mollusca: Gastropoda)(1972)57 cited
• → Can Ulva reticulata replace Gracilariopsis heteroclada as natural food for the abalone Haliotis asinina?(2021)7 cited
• → Effect of Macroalgae Protein Levels on Some Reproductive Aspects and Physiological Parameters for the Abalone, Haliotis tuberculata coccinea (Reeve 1846)(2012)13 cited
• Comparative performances of juvenile abalone (Haliotis tuberculata coccinea) fed on enriched and non enriched macroalgae(2008)