Abstract
Abstract. Middle and Upper Quaternary volcanic events are often difficult to date, in particular when minerals suitable for 40Ar/39Ar-dating are missing. Here, we present first tests of a newly developed technique to use the thermoluminescence (TL) of maar tephra and crustal xenoliths for dating the eruption event. We take into consideration that resetting of the latent geological TL of country rock fragments during eruption may be incomplete. We therefore develop the “partial heat – longest plateau” (PHLP) technique to approach the inherited TL signal at eruption. This technique can overcome TL age overestimates due to incomplete zeroing, as is demonstrated for some eruptions in the Quaternary Eifel Volcanic Field, Germany, in the time range from 11 to 300 ka old. Although we avoid the often observed strong anomalous fading of volcanic feldspars and other volcanic minerals by using heated country rock xenoliths, we still face the problem of longer-term anomalous fading which may be responsible for apparent age underestimates. The orange-red TL emissions (RTL) of pure fine-grained quartz extracts from crustal xenoliths are also tested from two samples. This approach needs, however, further systematic investigations into the TL characteristics of RTL.
Highlights
Thermoluminescence (TL) dating has often been tested for volcanic minerals but faces the problems of strong anomalous fading of volcanic feldspars (WINTLE 1973) or of very low TL signals from other volcanic minerals except for quartz
From Pulvermaar a physical dating is not yet available, but from geomorphologic evidence its age is assumed to fall within the last glacial maximum (LGM; LORENZ & ZIMANOWSKI 2000)
Found evidence for grain sizedependent resetting in maar tephra, arguing for a resetting by frictional heating or thermally assisted hydrostatic pressure, or both, rather than merely thermal resetting by heat transfer
Summary
Thermoluminescence (TL) dating has often been tested for volcanic minerals (see, e.g., FATTAHI & STOKES 2003) but faces the problems of strong anomalous fading of volcanic feldspars (WINTLE 1973) or of very low TL signals from other volcanic minerals except for quartz The latter is, not present in mafic volcanic rocks unless as xenoliths derived from older country-rock in the direct vicinity of the vent. In order to circumvent these problems, we tried to use xenoliths (cf CHEN et al 2001) and maar tephra derived from country-rock to date their last resetting during the volcanic activity by TL. Hydroclastic maar eruptions occurred in both fields but are more typical for the West
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