Phylogenetic implications and diagenetic stability of macromolecules from pleistocene and recent shells of Mercenaria mercenaria (mollusca,bivalvia)

The phylogeny and diagenesis of Pleistocene and Recent bivalves were studied immunologically by use of a conventional antiserum elicited against an EDTA‐soluble macromolecular extract from shells of the modern bivalve mollusc Mercenaria mercenaria. ELISA tests of the antiserum with shell fragments of a wide range of modern bivalves gave taxonomically significant results. The antiserum reacted with palaeoheterodonts and heterodonts but not with representatives of other bivalve subclasses. This phylogenetic reactivity was also apparent in tests with fossil shells, although the specificity and overall strength of the reaction were both reduced. Absorption of the antiserum with etched shell powders of various (palaeo)heterodonts yielded more specific antibody preparations.

Investigations of shell matrix diagenesis, using the anti‐Mercenaria serum, demonstrated that small amounts of original determinants could be detected even in fossils over one million years old. The reactivity of the serum with extracts of fossil Mercenaria decreased with sample age. The relationship between serum reactivity and the degree of amino acid racemization was almost linear. Clearly, the various determinants to which antibodies were elicited were being destroyed at different rates.