查看文章

Reconstructing the history of Earth's atmospheric radiocarbon (14C) through the detection limit has been a long term goal of the scientific community, because of the usefulness of 14C as a chronometer for records of Quaternary Earth history, and because variations in atmospheric 14C are, in part, recorders of changes in Earth's carbon cycle. This dissertation represents the result of work that aims to reconstruct the history of Earth's atmospheric 14C, both through studies of intervals of interest to the climate-carbon feedback cycle in the deglacial interval, and through attempting to develop speleothem records of atmospheric 14C in older intervals where knowledge of atmospheric 14C is currently lacking. The major results of this dissertation include a record of deglacial ventilation ages in the Santa Barbara Basin. This record demonstrates that the hypothesized "old water" mass thought to have been responsible for the deglacial atmospheric CO2 rise and concurrent ∆14C decline is unlikely to have existed in the Santa Barbara Basin. Also included in this dissertation is the result of work to reconstruct atmospheric 14C during the Younger Dryas climate event based on New Zealand kauri. The remainder of the dissertation is composed of works that aim to develop speleothem-based records of atmospheric 14C, and to understand carbon incorporation in speleothems. These works demonstrate that there do exist some speleothems, most notably Hulu Cave H82, that have low and stable dead carbon incorporation and are are valuable sources of records of atmospheric 14C. Records speleothem 14C from Heshang Cave HS4 suggest that increases in …