Day 058 - 30 Nov 94 - Page 06
1 Q. That is three of 60 each; the first thinning being the one
2 row in three or the two in five of pretty small trees?
3 A. Correct.
4
5 Q. And the subsequent ones being individual but larger trees?
6 A. Correct.
7
8 Q. At the end of the day you cut down what is serviceable
9 which is left of mature trees and that gives you 300
10 metres?
11 A. That is correct, my Lord.
12
13 Q. That is on one hectare over 40 years, so to get the annual
14 equivalent you would have to use 40 hectares?
15 A. Correct.
16
17 Q. That may not be what actually happens but it is a way of
18 doing the arithmetic?
19 A. It is a calculation.
20
21 Q. An annual calculation of some kind?
22 A. Yes.
23
24 Q. That is the full extent of that calculation?
25 A. That is the meaning of that calculation.
26
27 Q. Then if you want, therefore, to carry on the calculation,
28 you can divide it again by 40 to get 12 metre cubed per
29 annum per hectare?
30 A. Yes, this is the way by which they calculate the
31 potential yield from a forest by yield classes, and the 12
32 metre cubed per year is the method by which they actually
33 identified that this is a yield class 12 area of forest
34 which is a very normal production of volume.
35
36 Q. You are not saying that if you selected and marked out one
37 hectare you would actually be taking 12 cubic metres of
38 timber off that hectare every year?
39 A. No.
40
41 Q. You are not saying that if you marked out a section of
42 forest which was 40 hectares an area you would be taking
43 off 480 cubic metres each year because that is just not the
44 way the forestry is done?
45 A. That is correct.
46
47 Q. So you do this ---
48 A. Over the cycle.
49
50 Q. -- correct mathematics, as it were, to give you an
51 impression of what you are getting off areas of forest
52 cycle -- by cycle, over a long period of time; is that
53 right?
54 A. Yes, my Lord. That is actually why on the bottom of
55 that page he sets it out, showing that there is a yield
56 growth factor, in other words, your thinnings increase in
57 volume and your final clear fell produces in the end the
58 total volume that you anticipated.
59
60 Q. The 48 metre cubed left in the forest, what is that?
