1 DR. TEAL: A thousand cubic meters spread over a million square 



2 . meters-- 



3 (Simultaneous discussion.) 



4 DR. BOTHNER: That is 10\ 



5 DR. GRASSLE: I think we probably ought to let Mike write this 



6 paragraph with help from John. I think we are taking too much time 



7 writing it now. 



8 DR. TEAL: That comes to--assuming that it is all concentrated 



9 in-- 



10 DR. BOTHNER: My notes attribute that to Butman. I mean, I might 



11 have gotten the notes wrong. 



12 DR. GRASSLE: That's right. Brad started it and Mike did it and 



13 John did it--all three did it. 



14 DR. MILLER: That is right. 



15 MR. BOURNE: It says 2 grams per liter per day and then I have in 



16 parentheses 0.6 cm/year compared with 0.1 cm/year. Both rates are 



17 relatively low, is what it says. 



18 DR. KRAEUTER: Yours was the real one and theirs was the 



19 theoretical. 



20 MR. BOURNE: What it should have said is 0.06 cm/year. If it is 



21 really 0.1 cm/year, based on what you just got through--yes, that is 



22 close. 



23 DR. GRASSLE: So the two of you are going to get a paragraph 



24 straight. 



25 DR. TEAL: Just change it to 0.06. In the paragraph that I am 



26 writing about making these calculations, I am going to say that the 



27 assumption there is highly conservative-- 



28 DR. GRASSLE: Yes. 



29 DR. TEAL:--and that the resultant values are going to be way above 



30 what we could reasonably expect. 



31 DR. VALENTINE: I just have one question about this millimeter 



32 rate. How far from the rig was that? 



33 DR. TEAL: That is more than 500 meters away--or, assuming that 



34 everything gets transported-- 



386 



