Spatially correlated anomalous 40Ar/39Ar "age" variations in biotites about a lithologic contact near Simplon Pass, Switzerland: A mechanistic explanation for excess Ar

Forty-four biotite samples collected about a lithologic, contact between pelite and amphibolite were analyzed for 40Ar/39Ar and demonstrate the importance of bulk Ar diffusivity and system geometry-factors not usually considered in the interpretation and collection of 40Ar/39Ar age data. The resulting 40Ar/39Ar apparent ages range from 11.30 +/- 0.05 Ma to 17.90 +/- 0.10 Ma. The ages (and excess argon contents) are spatially and lithologically correlated. The pelite samples all yield ages clustering around similar to12 Ma, the age expected for cooling through biotite closure (similar to360degreesC) in this region of the Alps. Ages in the amphibolite biotites are older, showing a smooth trend between 15 Ma at the contact with the pelite to 18 Ma, 34 cm from the contact. This data shows that characterization of the Ar closure age for biotite in a given system should not rest on a single sample, as otherwise irresolvable differences in age between samples within the same outcrop can exist. A generalized mechanistic model for excess argon is presented. The presence (or absence) of excess Ar depends on an intrinsic system parameter, tau(T) the transmissive timescale, which is the characteristic time for 40Ar to escape through the local intergranular transporting medium (ITM) to some sink for argon. To prevent buildup of geochronologically significant excess 40Ar, tau(T) must be very short relative to the true closure age of the mineral. A FORTRAN code including radiogenic, Ar production, diffusive loss of Ar from biotite, and bulk Ar diffusion through the ITM has been developed. Application of numerical modeling suggests that the time-averaged effective bulk diffusivity, D-eff(Ar) in the biotite-amphibolite rock during early retrograde cooling is 2.2 +/- 1.0 x 10(-8) m(2)/yr (assuming steady state conditions) - the first such measurement available. Numerical modeling also provides information about the transmissivity and geologic history specific to the field site, including a drop in D-eff(Ar) at 15.5 +/- 1.0 Ma. The timing of this drop is related to coincident theological changes and the onset of rapid exhumation of the nappe stack. Copyright (C) 2002 Elsevier Science Ltd.