Dillon J. Osleger J.-H. Chen Barbara E. Wortham Robert G. Stamm Tamara I. Nemyrovska Julie M. Griffin Vladislav I. Poletaev Bruce R. Wardlaw Isabel P. Montanez 2018 <p>Reconstructions of paleo-seawater chemistry are largely inferred from biogenic records of epicontinental seas. Recent studies provide considerable evidence for large-scale spatial and temporal variability in the environmental dynamics of these semi-restricted seas that leads to the decoupling of epicontinental isotopic records from those of the open ocean. We present conodont apatite δ¹⁸O_PO4 and ⁸⁷Sr/⁸⁶Sr records spanning 24 Myr of the late Mississippian through Pennsylvanian derived from the U–Pb calibrated cyclothemic succession of the Donets Basin, eastern Ukraine. On a 2 to 6 Myr-scale, systematic fluctuations in bioapatite <span>δ</span>¹⁸<span>O</span>_PO4 and ⁸⁷Sr/⁸⁶Sr broadly follow major shifts in the Donets onlap–offlap history and inferred regional climate, but are distinct from contemporaneous more open-water <span>δ</span>¹⁸<span>O</span>_PO4 and global seawater Sr isotope trends. </p><p>A −1 to −6‰ offset in Donets <span>δ</span>¹⁸<span>O</span>_PO4 values from those of more open-water conodonts and greater temporal variability in <span>δ</span>¹⁸<span>O</span>_PO4 and ⁸⁷<span>Sr/</span>⁸⁶<span>Sr</span> records are interpreted to primarily record climatically driven changes in local environmental processes in the Donets sea. Systematic isotopic shifts associated with Myr-scale sea-level fluctuations, however, indicate an extrabasinal driver. We propose a mechanistic link to glacioeustasy through a teleconnection between high-latitude ice changes and atmospheric <i>p</i>CO₂ and regional monsoonal circulation in the Donets region. Inferred large-magnitude changes in Donets seawater salinity and temperature, not archived in the more open-water or global contemporaneous records, indicate a modification of the global climate signal in the epicontinental sea through amplification or dampening of the climate signal by local and regional environmental processes. This finding of global climate change filtered through local processes has implications for the use of conodont <span>δ</span>¹⁸<span>O</span>_PO4 and ⁸⁷<span>Sr/</span>⁸⁶<span>Sr</span> values as proxies of paleo-seawater composition, mean temperature, and glacioeustasy.</p> application/pdf 10.1016/j.epsl.2018.03.051 en Elsevier Carboniferous climate teleconnections archived in coupled bioapatite δ18OPO4 and 87Sr/86Sr records from the epicontinental Donets Basin, Ukraine article