Oxygen Isotopes from Apatite of Middle and Late Ordovician Conodonts in Peri-Baltica (The Holy Cross Mountains, Poland) and Their Climatic Implications

This report provides oxygen isotopes from apatite of late Middle and Late Ordovician conodonts from the southern Holy Cross Mountains in south-eastern Poland. It was a unique time interval characterised by a significant change in the Ordovician climate, tectonic, and ocean chemistry. In the Middle and early Late Ordovician, the Holy Cross Mountains were located in the mid-latitude climatic zone at the southwestern periphery of Baltica; therefore, the delta O-18(apatite) values from this region provide new data on the O-18/O-16 budget in the Ordovician seawater reconstructed mainly from the tropical and subtropical realms. Oxygen isotopes from mixed conodont samples were measured using the SHRIMP IIe/MC ion microprobe in the Polish Geological Institute in Warsaw. The delta O-18(apatite) values range from 16.75 parts per thousand(VSMOW) to 20.66 parts per thousand(VSMOW) with an average of 18.48 parts per thousand(VSMOW). The oxygen isotopes from bioapatite of the studied section display an increasing trend, suggesting a progressive decrease in sea-surface temperature roughly consistent with an overall cooling of the Ordovician climate. Two distinctive positive excursions of delta O-18(apatite) have been reported in the upper Sandbian and middle Katian of the studied section and correlated with cooling events recognised in Baltica. They are interpreted as an isotope temperature proxy of climate changes triggered by a growing continental polar ice cap, but increased delta O-18(apatite) in the late Sandbian contradicts recently postulated climate warming during that time in subtropical Laurentia.

Automated summary

This report presents oxygen isotopes from apatite of late Middle and Late Ordovician conodonts from the southern Holy Cross Mountains in Poland, providing new data on the O-18/O-16 budget in the Ordovician seawater and its relationship with climate changes.