CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Refining the Calibration of Oxygen Isotope Ratios in Nacella Limpet Shells, Tierra del Fuego, Argentina
Autor/es:
BRIZ I GODINO, I.; SURGE, D.; BAS, M.; NICASTRO, A.; ÁLVAREZ, M
Lugar:
Washington
Reunión:
Congreso; AGU Fall Meeting 2018; 2018
Institución organizadora:
AGU
Resumen:
Nacella deaurata (Gmelin, 1791) and N. magellanica (Gmelin, 1791) are common intertidal species of patelloid limpets found in the Magellanic biogeographic province of Tierra del Fuego, Argentina. These species are also prominent constituents of Holocene archaeological shell middens in the area and are therefore potentially valuable as paleoclimate archives of coastal sea surface temperature (SST). An earlier calibration study examined oxygen isotope (δ18O) time series of one individual from each species (Colonese et al., 2012). A range of estimated SST from shell δ18O values was based on maximum, minimum, and average δ18O-water values. They compared estimated SST with the range of measured SST at the collection site. Here, we present a refined calibration of both Nacella species. Five modern N. deaurata and N. magellanica specimens were collected alive on a nearly monthly basis from October 2015 to October 2016 in the Beagle Channel (54°52′49.62″S 67°16′26.49″W). Two archaeological shell middens containing both species occur at this location dating to the Vandal Minimum. Water temperature and δ18O data were also measured for each collection date to calculate expected δ18O-shell values. We sampled the last increment of growth along the growing edge of the posterior margin of 32 individuals for isotopic analysis. Shell-edge δ18O values have a predictable offset from expected values of +1.28±0.38? for N. deaurata, and +1.32±0.32? (VPDB) for N. magellanica, similar to other patelloid limpet species. Once corrected for this predictable offset, estimated SST agreed well with measured values. Our next step will sequentially micromill specimens harvested in October 2016 and compare estimated monthly SST to observed measurements. Our refined calibration of Nacella limpets will allow seasonal-scale SST reconstruction using archaeological specimens. Such high-resolution archives will provide much needed seasonality data at high southerly latitudes, as well as insights into human-climate interactions.