Abstract
We report the carbon (δ13C) and oxygen (δ18O) isotope records of three modern Tridacna derasa shells from Ishigaki-jima, southwestern Japan. The high-resolution δ13C profiles of samples from the inner shell layer on cross-sections fall within similar narrow ranges and display no regular variations or trends, such as an ontogenetic trend or abrupt short-term drops likely to be related to reproductive activity. This suggests that the calcification site of this species is not likely affected by photosynthetic CO2 uptake or CO2 incorporation during respiration. The δ18O profiles show distinct seasonal cycles. The intraspecific variability in the δ18O values is small in parts of the shell precipitated in the adult stage, but is not negligible in the juvenile and senescent stages. The differences in the monthly and seasonally resolved δ18O values among shells are less than 0.51‰ and 0.76‰, respectively. The shell δ18O values are nearly identical or close to the δ18O values for aragonite precipitated in oxygen isotope equilibrium with ambient seawater (δ18OEA). The largest differences between the shell δ18O and δ18OEA values calculated from the monthly and seasonally resolved data correspond to an overestimate of the seawater temperature by as much as 1.7°C and 2.3°C, respectively. However, these differences are smaller in the adult stage (<0.25‰) than in the other stages. This small difference allows an accurate reconstruction of the seawater temperature with an error of <1.1°C. Consequently, we recommend that multiple shell records be obtained because of the non-negligible intraspecific variations in their δ18O values. Growth banding, composed of alternating narrow white bands and wide light-grey bands, is discernible on cross-sections of the inner shell layer. The δ18Oshell data indicate that they were formed in winter and the other seasons, respectively.
Highlights
High-resolution paleoenvironmental records are required from various localities over the globe to understand past climate dynamics and predict future climate change
We investigated the intraspecific variations in the δ13Cshell and δ18Oshell values of samples from the inner shell layers, taken from cross-sections, of three modern T. derasa shells from Ishigaki-jima, Ryukyu Islands, southwestern Japan
These observations suggest that the calcification site of T. derasa is unlikely to be affected by CO2 uptake or influx caused by photosynthesis or respiration, respectively
Summary
High-resolution paleoenvironmental records are required from various localities over the globe to understand past climate dynamics and predict future climate change. Secreting organisms, such as corals and mollusks, are sensitive to the ambient environment and preserve various types of environmental information in their skeleton in the form of physical (e.g., increment width) or geochemical variations [1,2,3] Of these records, the oxygen isotope ratios (δ18O) of biogenic carbonates has widely been used to reconstruct paleoenvironments because it commonly reflects both sea-surface temperatures (SSTs) and the δ18O values of the ambient seawater (δ18Osw) in which the carbonates were secreted [4,5,6,7]. We first report the intraspecific (= intershell) variations in carbon (δ13Cshell) and oxygen (δ18Oshell) isotope ratios of samples from the inner shell layer on cross-sections of modern Tridacna derasa (Röding, 1798) [39]. We show the extent to which the δ18Oshell values of T. derasa reliably record oceanographic conditions, especially SSTs
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