Yong-Fei, Jim, Yuri, and all other interested parties, The bottom line is that nobody has reliably measured the Sr diffusion coefficient in micas. Empirical closure temperature estimnates from the Alps provide some constraints and Giletti (1991) provides a some preliminary data for biotite (800-900C). For the purposes of carrying out the modelling I had to make some rather bold assumptions in my 1997 paper. As Yong-Fei points out it is true that the D0 and E values I used for muscovite do not conform to a compensation relationship (they cannot because E is assumed to be the same as biotite). Whether he has a valid point or not rests on how much dependence one puts on a compensation relationship - the idea being that if one plots E vs. log D0 for the same species diffusing in different minerals (or alternatively different species diffusing in the same mineral) then you will, supposedly, get a straight line relationship. I am sitting here with a plot in front of me of log D0 and E for Sr diffusion in different minerals and, although one might be able to fit a line through biotite (my estimated values), K-feldspar, hornblende and labradorite, other minerals such as albite and garnet plot up to 2 log units in D0 away from the line. Therefore I personally don't give much credence to the compensation line approach - its too uncertain to make estimates of the diffusion parameters that are better than anybody else's at the present time. I end my 1997 paper with a plea that somebody actually goes and measures these diffusion coefficients to save us all these speculative arguments. It is astonishing that mica Rb-Sr dating (one of the major geochronological systems used in dating uplift of mountain belts) has never been experimentally calibrated. Any offers? All the best, Gawen Jenkin For more information on diffusion, closure temperatures, ore deposits and a nearly working web version of COOL see my web site (below). . Dr Gawen RT Jenkin Lecturer in Applied Geology direct dial:+44 (0116) 252 3934 Department of Geology general office:+44 (0116) 252 3933 Leicester University fax:+44 (0116) 252 3918 LE1 7RH http://www.le.ac.uk/geology/grtj1