Seasonality from Speleothems
Author | : |
Publisher | : |
Total Pages | : 304 |
Release | : 2013 |
ISBN-10 | : OCLC:867868043 |
ISBN-13 | : |
Rating | : 4/5 (43 Downloads) |
Download or read book Seasonality from Speleothems written by and published by . This book was released on 2013 with total page 304 pages. Available in PDF, EPUB and Kindle. Book excerpt: Speleothems are carbonate cave deposits that can preserve a geochemical record of local climate as they grow. Oxygen isotope ratios and trace element concentrations in speleothem calcite provide important continental proxies of past climate change. Conventionally, geochemical analyses of speleothems are performed at a sampling resolution that corresponds to several decades or centuries of growth; as a result, seasonal climate change is averaged and information is lost. This thesis applies new, high-resolution analytical approaches to both pre-historic and modern speleothems from Soreq Cave (Israel) in order to unlock seasonal climate information over both decadal and millennial time-scales. In pre-historic Soreq Cave speleothems, a combination of ion microprobe analyses of oxygen isotope ratios (ơ18O) and imaging by confocal laser fluorescent microscope (CLFM) provides sub-annual-scale climate information from 34-1 ka. During this time period, distinct differences in both the pattern of fluorescent banding and the gradient of ơ18O measured in situ across single, annual growth-bands indicate changes in the seasonal climate of the Eastern Mediterranean region. Before 15 ka, results suggest a reduced gradient of seasonal precipitation relative to the annual cycle of wet and dry seasons that is apparent throughout the Holocene. Detailed analysis of the Younger Dryas termination reveals a rapid onset of environmental change; fluorescent bands indicate that, as recorded by local rainfall, the termination spanned a minimum of 12 years. Similar analyses in a modern Soreq speleothem (1990-2008) are used to test and calibrate interpretations of seasonal-resolution geochemistry. In addition to ion microprobe analyses of ơ18O and trace element concentrations, two continuous datasets were measured across the modern sample: trace element concentrations measured by laser-ablation ICP-MS and a fluorescence-intensity transect measured by CLFM. Correlations between these datasets are combined with modern rainfall and dripwater analyses to illustrate how seasonal climate signals are transmitted to speleothems in Soreq Cave. Given the wide geographic distribution of caves and the rarity of seasonal-resolution paleoclimate records, the methods developed in this dissertation represent an important new approach for assessing past changes in seasonal climate around the globe and the associated shifts in atmospheric circulation.