100 200 100 30 60 100 150 20 1
( 1) 2 2.5 ha 300 418 517 ( )( ) 0.42ha -1 \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ -1 () 0.42ha 2.963m 1m 0.432 11,111 /m3 1m 931 6 (7m3 ) 5557 1 1m3 794 1m 67 \ \ \ 2
\ \ \ \ \ \ \ \ \ \ \ \ -2-1 \ \ \ \ \ \ -1 m 5 4. 1 3-2 -3 35 ( 1.3)18 24 3
-2-2 () 4
-3 5. () () () () ( )() () () 5
(-) (-) (-2 ) () () 5 20-4 5-4 6. () 6
-5 \ \ \ \ \ -5 40 40 () 782.3 /m3 1.476 / 187.0 /m3 1.513 / -3 (m3 m) 1.358 /m3 m 1.213 / -2-6 7
\ \ \ \ \ \ \ \ -6 5 7. D/ta + bd + cbaall + ddbaall + a = 2.476 Exp(-0.056) b = 0.0187 Exp(-0.0124) c = 11.4770 Exp(-0.0314)/-100000 d = 463.71 Exp(-0.1038)/10000000 Exp(x) e x (x ) 17 110 16 ( 3) -7 8
-7 () -8-8 50 a,b,c,d a = 1.8011 Exp(-0.0492) b = 0.0136 Exp(-0.0056) 9
c = 8.3488 Exp(-0.0246)/-100000 d = 337.32 Exp(-0.097)/10000000 35 35 8. () 100 45 BA BA 1 BA 1 BA BA -9 400m3/ha 30-40m3/ha /m3 \ \ \ \ \ \ \ \ \ -9 /m3 10 20 10
125-10 16 26 / 0.616-26 0.0 0.6 10000 /m3 5070 /m3 \ \ \ \ \ \ \ -10 35 10 20 125-11 \ \ \ \ \ \ \ \ -11 35 10 20 11
10 20 BAall ( ) -12-13-14 \ \ \ \ \ \ \ \ \ -12 10 2 20 2 30 20 \ \ \ \ \ \ \ \ \ \ -13 10 2 20 2 30 12
\ \ \ \ \ \ \ \ \ -14 10 2 20 2 30 180 1000m3/ha 30 100m3/ha -15-16 -15 105-16 185 BAall=0 13
-15 35 10 BAall 20 14
-16 35 10 2 20 2 30 BAall 20 9. 15
10. 1890 1) 6 10 2) 5 3) 203035-50 55cm 20 20 5 17.5 22.5cm 20 4) Silve(SV) 5) () 6) 20:30:50 30:30:40 16
(Plentarwald)2004 10 () Ch.Yue et J.Klaedtke 11 ( 4)) 30 22 41 78.65 67.72ha 8.99ha 26 721 8 1 15 16 12. -17 17
-17-1 -1 ( 6 ) 18
13. 17 50-18()-19() -18-19 19
14. 1) 63-20 -20 ha 5.79m3/ha 6727 /m3 9893 /m3 2) -1 15cm 12.5cm -21 20
-21 3) -22-22 811 811 15. 21
350sv ha 100sv 350sv 1 8 1/8 12sv/ha//sv 0.653 7.8m3/ha/ 16 1 /m3 150-250 /ha 500m3/ha 700m3/ha 35 10 2095 200m3/ha 1 /m3 200 100 200 22
1) 13 2) 17 3 3),:()- - 8,1999 p121-124 4): 1953 1) Ch.Yue et J.Klaedtke: pdf 2) Ch.Yue et J.Klaedtke:- pdf 3) 23