Variation in isotopic composition (C, O and Sr) of Holocene Mactra isabelleana (Bivalvia) from the coast of Buenos Aires Province, Argentina

Abstract

The 13C/12C and 18O/16O ratios of carbonate (incremental growth bands and whole shells) of the bivalve Mactra isabelleana collected from Holocene (including modern) littoral deposits along the coastal area of Buenos Aires Province, close to the Rió de la Plata river, reflect different environments which stayed relatively constant throughout the Holocene. Differences in 13C/12C and 18O/16O ratios along the growth axis of two shells from the modern estuarine and marine situations constrain the differences between the two types of environment. The data show a marked cyclicity from both sites but the increase in river flow during the winter is reflected by very low d18O and d13C values in the estuarine shell. In contrast the shell from the marine site has fewer cycles with lower amplitude which are consistent with seasonal temperature variations away from the influence of river input. The differences in the isotopic cyclic variations between the marine and estuarine sites average out in the whole shell analysis to produce different mean compositions. Whole-shell analysis on a large number of individuals from both geographically and stratigraphically different sites identified three groups of data. Group 1 shells have a range in d13C and d18O values consistent with coastal marine waters. Group 2 shells are 18O-deficient with respect to coastal marine water and include the modern samples from the estuarine environment. Group 3 shells have the lowest d13C values and are indicative of lagonnal environments. Variation in C, O and Sr isotope ratios of individual shells occurs within these groups due to the complex interplay of environmental and biological controls; therefore a large number of isotopic determinations are needed to characterize these types of assemblages.