Varve analysis dating
In fact, a plausible explanation for the couplets was presented in the young-earth creationist literature one year prior to Davidson and Wolgemuth’s article. Davidson and Wolgemuth, however, present a new “spin” on the argument: they claim that the correlation between these “varve” counts and radiocarbon dates (as well as tree-ring counts), proves that the Lake Suigetsu varves are true annual events, thus presenting an unanswerable argument for an old earth. This deposit formed within just a few hours (Morris and Austin 2009, 50, 52–54). “A Novel Approach to Varve Counting Using μXRF and X-Radiography in Combination with Thin-Section Microscopy, Applied to the Late Glacial Chronology from Lake Suigetsu, Japan.” Quaternary Geochronology 13: 70–80. Likewise, interpretation of other rock units consisting of many thin laminations makes more sense if one assumes that the laminae were formed rapidly.
It appears then, that claiming a varve is an annual event is an assumption in itself; one steeped in uniformitarian thought, but not reality. “Improved C Dating of a Tephra Layer (AT Tephra, Japan) Using AMS on Selected Organic Fractions.” Nuclear Instruments and Methods in Physics Research B (223–224): 555–559. This review article focuses in particular on their claim that the good correlation between “varve” counts in Japan’s Lake Suigetsu (Fig. 1) and the radiocarbon ages for plant fossils found within the lake’s sediments present an unanswerable argument for an old earth. Their article claims that the very large number of Lake Suigetsu varve counts is strong evidence for an old earth. Creation scientists would argue that most of the lamination couplets are not true annual events.
Search for varve analysis dating:
However, recent research by Schieber, Southard and Thaisen (2007) and Schieber and Yawar (2009), using the Indiana University Flume Laboratory, has demonstrated that the commonly observed laminated mudrocks, so prevalent throughout the rock record and around the globe, formed by moving water, and energetic deposition.