55/1999 Sb.
The DECREE
The Ministry of agriculture
of 15 July. March 1999
on how to calculate the amount of the loss or damage caused to forests
The Ministry of agriculture, in agreement with the Ministry of Finance shall determine in accordance with
§ 21. 4 of law no 289/1995 Coll., on forests and on the amendment and supplement
Some laws (forest law):
PART THE FIRST
INTRODUCTORY PROVISIONS
§ 1
The subject of the edit
(1) this Ordinance shall determine the method of calculating the amount of loss or damage (hereinafter referred to as
"shame"), that arise
and on the forest land) as a result of
1. permanent withdrawal or permanent limitation of the performance of wood
forest (hereinafter referred to as the "production function"),
2. the suspension or temporary restrictions on the performance of the production function,
3. sustained damage to the implementation of the production function,
4. the temporary damage to the implementation of the production function,
(b)) to the foliage as a result of
1. the destruction of forest cover,
2. early the forest cover,
3. reduce the increment of forest cover,
4. reduce the production of forest cover,
5. reduction of the quality of forest cover,
6. theft of wood standing timber,
(c)) from the emergency measures for the more demanding and cost management in
the forests.
(2) the Ordinance does not apply to the calculation of the amount of damage to objects and
establishments serving forestry.
(3) the amount of the damages to the products with the exception of wood, on the Christmas trees from
Plantation Christmas trees on plantations of material of forest tree species,
the stands of seed plantation and their production, produced
raw wood assortments, etc. It is found under the Special
^ 1 of the code.)
§ 2
(1) the total damage is calculated as the sum of the individual damage.
(2) the amount of the individual claims for the purposes of this Ordinance be obtained using the
the following formula, and the result is rounded to the whole of the Crown up.
(3) the Tabular values of forest cover in the age and (hereinafter referred to as "Thlpa") for
the purpose of this order is for the zakmenění 1.0 by groups of forest tree species,
bonito and the age of the vegetation found in annex 1. The value of the forest cover
in the age and (hereinafter referred to as "the Hlpa) in each of the samples shall be calculated
by multiplying the value of the current Thlpa zakmenění forest cover,
If necessary, adjust the surcharge and rainfall according to annex No 2
justification and multiplied by the area of tree species in the group to which the m2
damage occurred.
(4) the individual forest species are grouped into defined groups of tree species
in accordance with annex 3.
(5) the information about the files of forest types, representation of tree species in the forest
(growing group), their age, the bonitách and the zakmenění is determined from the
the economic plan of the forest or forest economic outline ^ 2) or from
regional plans of forest development ^ 3) and verify, where appropriate, adjusted in accordance with
the actual state.
(6) Obmýtí, takes over from the economic plan of the forest or woodland
the economic outline. ^ 2) if the actual age of a group of trees in the stand
(growing group) or higher than the maximum obmýtí obmýtí group
species listed in annex 3, the maximum value of this
Annex.
PART THE SECOND
CALCULATION OF THE AMOUNT OF DAMAGES
Title 1
CALCULATION OF THE AMOUNT OF DAMAGE TO FOREST LAND
§ 3
Damage from permanent withdrawal or permanent limitation of the performance of production function
Damage from permanent withdrawal or permanent limitation of the performance of the production
function is a lump-sum calculated according to the formula
r. (1-K)
S1 = -------------- ,
0.02
where
S1 = damage from permanent withdrawal or permanent limitation of performance
production function,
r = total adjusted potential annuity of the forest, which is
as the weighted arithmetic average of the finds, in accordance with the revised
potential rent from the Woods across the Board of prevailing files
forest types in the lowest used drive space
the distribution of forest, listed for each forest
types in annex No 4,
To = coefficient range limit, which is determined as a percentage of
the limited performance of the production forest functions and the usual performance
the production features of the forest.
§ 4
Shame of suspension or temporary restrictions on production function
Shame of suspension or temporary restrictions on the performance of the production
the function is calculated by the formula
S2 = r. (1-K),
where
S2 = annual damage of suspension or temporary restrictions
implementation of the production function,
r = total adjusted potential annuity of the forest, which is
as the weighted arithmetic average of the finds, in accordance with the revised
potential rent from the Woods across the Board of prevailing files
forest types in the lowest used drive space
the distribution of forest, listed for each forest
types in annex No 4,
To = coefficient range limit, which is determined as a percentage of
the limited performance of the production forest functions and the usual performance
the production features of the forest.
§ 5
Damage from sustained damage to the implementation of the production function
Damage from sustained damage to the performance of the production function
a lump-sum calculated according to the formula
r r
SLT1-SLT2
S3 = ---------------- ,
0.02
where
S3 = damage from sustained damage to the implementation of the production function,
r
SLT1 = total adjusted annuity from the forest for potential
the original forest types file, which is found as
weighted arithmetic mean by modified
potential rent from the forest to the original across the Board
the predominant forest types of files used in the lowest
drive the 3-d distribution of forest, referred to
the individual files of the forest types in annex No 4,
r
SLT2 = total adjusted annuity from the forest for potential
the modified file types, forest finds, as
weighted arithmetic mean by modified
potential rent of forest changed across the Board
the predominant forest types of files used in the lowest
drive the 3-d distribution of forest, referred to
individual files of forest types in the annex No. 4.
§ 6
The damage from the temporary damage to the implementation of the production function
The damage from the temporary damage to the implementation of the production function is calculated
According to the formula
S4 = r-r
SLT1 SLT2,
where
S4 = annual damage of the temporary damage to the performance of the production
function,
r
SLT1 = total adjusted annuity from the forest for potential
the original forest types file, which is found as
weighted arithmetic mean by modified
potential rent from the forest to the original across the Board
the predominant forest types of files used in the lowest
drive the 3-d distribution of forest, referred to
the individual files of the forest types in annex No 4,
r
SLT2 = total adjusted annuity from the forest for potential
temporarily modified file types, forest finds
as the weighted arithmetic mean by modified
potential rent temporarily from the Woods across the Board
the predominant forest types of files used in the lowest
drive the 3-d distribution of forest, referred to
individual files of forest types in the annex No. 4.
Title 2
CALCULATION OF THE AMOUNT OF DAMAGE TO THE FOREST STAND
section 7 of the
The damage from the early woodland
The damage from the early woodland with a lump sum
calculated according to the formula
S5 = Hlpa. MN/100,
where
S5 = pity from the early woodland,
Hlpa = the value of the forest cover in the early
forest cover,
MN = percentage mýtní immaturity, whose value is found
in accordance with annex 5.
§ 8
The damage of the destruction of forest cover
(1) the damage from the destruction of the forest cover is a lump-sum calculated according to the
formula
S6 = Hlpa-Aa,
where
S6 = damage of the destruction of forest cover,
Hlpa = value of forest from destruction,
AA = the value of the mýtní výtěže, which is equal to the difference between the
income from the sale of timber and the full costs
on the extraction and gathering of wood from the destroyed forest
crop, calculated according to the formula
Aa = Hm. (Cs-Tn)
where
HM = volume of wood by species
and assortments in m3,
CS = price of raw wood on the odvozním place in the Usd/m3,
determined in accordance with a special regulation, ^ 4)
TN = economically spent a full custom cost of extraction
and gathering firewood after logging a place in KC/m3.
(2) in calculating the damages referred to in paragraph 1, the damage from the early
forest cover according to § 7 separately, not calculated.
§ 9
The damage from the reduction of increment of forest cover
(1) the damage from the reduction of forest stands to the increment for age 5 years
including is calculated according to the formula
S 7.1.1 = Z. (1-K1)
where
With annual damage of 7.1.1 = reduction of the increment for the forest to
age 5 years,
From = value of the annual increment by groups of species, referred to
in annex 6,
K1 = a coefficient expressing the ratio of increment of the damaged
and a healthy forest cover.
(2) Damage from reduction of increment of forest cover over age 5 years
calculated according to the formula
With 7.1.2 = (Hlpa + 1-Hlpa). (1-K1)
where
With 7.1.2 = annual increment of forest damage after-I grow in
over 5 years of age,
Hlpa + 1 = value of the undamaged forest cover in the following
a year after damage (without application of precipitation by degrees
damage) determined in accordance with Annex 1,
Hlpa = the value of undamaged forest cover in damage
(without application of the deductions according to the degrees of damage)
According to annex No 1,
K1 = a coefficient expressing the ratio of increment of the damaged
and a healthy forest cover.
(3) for the damage caused by the emission of the coefficient K1 given by zones
ohrožení5) and degrees of damage in annex 7. In the case of the calculation of the amount of the
For more of the forest stands is possible to do so, that creates a
the files of the forest stands by groups of forest tree species, zones of risk and
degrees of damage. For files created in this forest will
the arithmetic mean of the weighted average is calculated flat bonita
zakmenění, age, etc.
(4) the damage from the reduction of forest cover due to the increment in the animal okusu
or farm animals shall be calculated according to the formula
With 7.2 = Z. K2. Np/N,
where
With 7.2 = annual increment of forest damage after-I grow
as a result of animal okusu or farm animals,
From = value of the annual increment by groups of species listed
in annex 6,
K2 = a coefficient expressing the degree of damage by degrees
damage, whose value shall be determined in accordance with Annex 8,
NP = number of damaged seedlings, with a maximum of 1, 3 times
the minimum number of ^ 6)
N = the number of individuals, up to a maximum of 1, 1.3 multiple
the minimum number of. ^ 6)
§ 10
The damage from the reduction of the production of forest cover
(1) the damage from the reduction of the production of forest cover as a result of the confusion species
shall be calculated according to the formula
S8 = Hlpu1/u1/u2-Hlpu2,
where
S8 = annual damage of production reduction of forest cover
as a result of confusion,
Hlpu1/u1 = the value of the average increment of forest removal
stand with the target species composition (without the application of the
the rainfall),
Hlpu2/u2 = the value of the average increment of forest removal
the current crop of (select or spare)
the composition of tree species (without application of precipitation).
(2) the deduction can be applied only in the case of low forest.
§ 11
The damage from the reduction of quality of forest cover
(1) the damage from the reduction of quality of forest cover caused by mechanical
damage by wildlife and TNE or as firewood, etc. with
apply for obmýtí only once on each individual tree and calculates the
According to the formula
1
With 9.1 = Hlpu. K3. --------- . Np/N,
^ 1.02 n
where
With 9.1 = from the reduction of damage the quality of forest cover caused by the
mechanical damage by peeling and TNE game or
as firewood, etc.
Hlpu = the value of the forest cover in the age determined in accordance with
Annex No 1 reduced the estimated zakmeněním in
the age of u,
K3 = coefficient referred to in annex No 9,
n = obmýtí u minus the age of the crop, and at the time of the damage,
NP = number of damaged trees,
N = the number of trees in total.
(2) the damage from the reduction of quality of forest cover caused by mechanical
damage by wildlife and TNE or as firewood, etc. with
calculated, provided that a continuous surface of the mechanical damage is
more than 25 cm2 or damage exceeds 10% of the circumference of the stem. In the case of damage
caused by mechanical damage of trees, with the exception of damage to wildlife in the
If proven effective treatment corresponding to the product reduced
the damage of up to 30%.
(3) the harm from the reduction of quality of forest cover caused by damage
trees by fire, the operation of firing ranges, emission, etc. shall be calculated according to the
formula
With 9.2 = Hlpa. (1-Pc)
where
With 9.2 = from the reduction of damage the quality of forest cover caused by the
damage to the trees by fire, the operation of firing ranges, the emission
etc.,
Hlpa = the value of the forest cover in damage,
KS = a coefficient which shall be determined as the quotient of the completed
and the usual monetization in a time and place of the damage.
§ 12
Shame on the stands of forest economic method výběrného
In the stands of forest economic way of výběrného or in the stands
the close economic výběrnému the method of damage shall be based on
classification of forest cover in the age groups under the front in this
the Decree specified ways.
section 13
Damage caused by the theft of wood timber
Damage caused by the theft of wood timber shall be calculated as a lump sum
According to each species according to the formula
S10 = Aa,
where
S10 = damage caused by theft of wood standing timber,
AA = value mýtní výtěže stolen wood mass calculated
in the manner referred to in section 7 (2). 1.
Title 3
CALCULATION OF THE AMOUNT OF THE DAMAGE AND COST OF EMERGENCY MEASURES TO THE MORE DEMANDING
§ 14
The damage from the more demanding or cost measures
(1) the damage from the emergency measures shall be calculated as a lump sum according to the formula
With 6.9 = Km,
where
With damage from 6.9 = emergency measures,
Km = economically justified full costs
the emergency measures.
(2) Damage cost of more ambitious measures shall be calculated as a lump sum
According to the formula
With 7.0 = Kz-Ko,
where
With the damage cost of 11.2 = more stringent measures,
KZ = economically justified full costs
cost-demanding measures,
Ko = economically justified full costs usually
way of farming.
(3) the emergency measures are in particular forced amelioration (drainage,
irrigate, fertilize), revitalizing the measures (sprays), erosion control
measures, the reconstruction of the replacement of damaged crops, making available
stands, the construction of alternative communications, Babysitting and vyklizování
Hopefully, the activities in the long term to ensure a culture of
caused by for example. being bitten and emission. Here also belong the costs necessary
to determine the amount of damages, for example. the costs of monitoring, biomonitoring, or
expert opinions.
(4) the Cost of more difficult measures are in particular mining stands along the
the power lines, electrified railways.
PART THE THIRD
FINAL PROVISIONS
§ 15
Cancellation provisions
Repealed the Decree No 81/1996 Coll. on the method of calculating the amount of the injury or
damage caused to the production functions of the forest.
section 16 of the
The effectiveness of the
This Decree shall take effect on the date of publication.
Minister:
Ing. Fencl in r.
Annex 1
Table values of forest cover in the zakmenění 1.0 Thlpa by groups
forest tree species, bonito and the age of the vegetation in CZK/m2
and Tabular value) forest cover Thlpa by groups of forest
wood for 1 to 5 years of age, regardless of creditworthiness is listed in the
Table No. 1
Table No. 1
------------------------------------------------------------------
The age of the stand
Skupina dřevin -------------------------------------------------
1. year 2. year 3. year 4. year 5. year
------------------------------------------------------------------
Spruce 8.56 10.26 11.02 11.76 12.46
------------------------------------------------------------------
FIR 15.93 17.58 18.40 20.24 21.23
------------------------------------------------------------------
Pine 11.44 14.17 15.68 16.77 16.94
------------------------------------------------------------------
Larch 11.64 13.12 14.74 15.27 15.49
------------------------------------------------------------------
Douglas 24.01 25.57 27.02 28.65 27.90
------------------------------------------------------------------
Oak 18.03 21.24 22.64 24.70 26.76
------------------------------------------------------------------
Beech 16.23 19.54 20.65 22.32 23.39
------------------------------------------------------------------
Ash 11.10 14.66 16.26 17.86 17.96
------------------------------------------------------------------
Birch 3.00 3.26 3.44 3.61 3.77
------------------------------------------------------------------
Acacia 2.40 2.76 2.98 3.03 3.06
------------------------------------------------------------------
Alder 2.90 3.37 3.49 3.57 3.60
------------------------------------------------------------------
Aspen 2.70 2.94 3.06 3.16 3.20
------------------------------------------------------------------
Poplar 1.70 1.76 2.00 2.10 2.18
------------------------------------------------------------------
(b) the Tabular value) forest cover Thlpa by groups of forest
tree species for the age of 5 years up to a maximum obmýtí with
found using the formula:
Thlpa = P0 + P1 * and + P2 and P3 * ^ 2 + a ^ 3
Where
Thlpa-tabular value of forest cover in the age and the calculated
to 4 decimal places
and-the age of the stand
P0-P3-the coefficients of a polynomial according to the groups of forest tree species and bonito
listed in tables no. 2-14
A group of tree species: Spruce Table No 2
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 15.1859900 0.2292713 0.0086036-0.0000434
------------------------------------------------------------------
2 14.5896700 0.2228879 0.0068016-0.0000330
------------------------------------------------------------------
3 14.0127100 0.2298994 0.0051201-0.0000244
------------------------------------------------------------------
4 13.1566400 0.2197686 0.0038239-0.0000184
------------------------------------------------------------------
5 12.5804200 0.2091382 0.0024434-0.0000115
------------------------------------------------------------------
6 12.8607000 0.1104994 0.0034889-0.0000179
------------------------------------------------------------------
7 12.7313200 0.0723704 0.0029070-0.0000147
------------------------------------------------------------------
8 12.7861800 0.0793959 0.0017100-0.0000086
------------------------------------------------------------------
9 12.6888900 0.0747990 0.0009798-0.0000054
------------------------------------------------------------------
Group tree: Fir Table No 3
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 22.0383500 0.4384430 0.0051026-0.0000220
------------------------------------------------------------------
2 21.5924400 0.4189554 0.0034608-0.0000147
------------------------------------------------------------------
3 20.5535000 0.4120759 0.0017848-0.0000073
------------------------------------------------------------------
4 20.5907200 0.3274399 0.0018287-0.0000085
------------------------------------------------------------------
5 21.0723500 0.1882184 0.0028948-0.0000145
------------------------------------------------------------------
6 21.4721500 0.0900663 0.0032672-0.0000162
------------------------------------------------------------------
7 21.8932600-0.0170802 0.0036172-0.0000175
------------------------------------------------------------------
8 21.5594700-0.0270129 0.0024031-0.0000117
------------------------------------------------------------------
9 21.5267400-0.0320411 0.0003989 0.0000018
------------------------------------------------------------------
A group of tree species: Pine Table No. 4
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 16.7371700 0.6801384-0.0070395 0.0000255
------------------------------------------------------------------
2 16.8421700 0.5839199-0.0060588 0.0000219
------------------------------------------------------------------
3 17.2668000 0.4617687-0.0049372 0.0000187
------------------------------------------------------------------
4 17.0177300 0.4044286-0.0043069 0.0000156
------------------------------------------------------------------
5 17.1405500 0.2094294-0.0000058 0.0017853
------------------------------------------------------------------
6 16.9152800 0.2093296-0.0027025 0.0000114
------------------------------------------------------------------
7 17.3942600 0.0189007-0.0002571 0.0000021
------------------------------------------------------------------
8 16.9400000 00 00 00
------------------------------------------------------------------
9 16.9400000 00 00 00
------------------------------------------------------------------
Group tree: Douglas-fir Table No 5
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 29.9343100 1.0072230-0.0049391 0.0000131
------------------------------------------------------------------
2 29.0155600 1.0027940-0.0068973 0.0000244
------------------------------------------------------------------
3 28.0316900 0.9853482-0.0084367 0.0000328
------------------------------------------------------------------
4 27.0594500 0.9566441-0.0093231 0.0000371
------------------------------------------------------------------
5 26.6101500 0.9026985-0.0095815 0.0000378
------------------------------------------------------------------
A group of tree species: Larch Table No. 6
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 15.4691600 0.6942742-0.0043125 0.0000148
------------------------------------------------------------------
2 14.8477000 0.6530476-0.0045332 0.0000161
------------------------------------------------------------------
3 14.6770200 0.5855355-0.0044998 0.0000168
------------------------------------------------------------------
4 14.6911600 0.4739253-0.0034170 0.0000120
------------------------------------------------------------------
5 15.6184300 0.1952050-0.0000986-0.0000005
------------------------------------------------------------------
6 15.5070700 0.1445820-0.0000192-0.0000010
------------------------------------------------------------------
7 15.5382100 0.0928557 0.0001332-0.0000017
------------------------------------------------------------------
8 15.7223600 0.0457883 0.0001326-0.0000018
------------------------------------------------------------------
9 15.4896900 00 00 00
------------------------------------------------------------------
The Group of trees: oak table 7
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 30.9290700 0.0680077 0.0066586-0.0000259
------------------------------------------------------------------
2 29.7664300 0.1214869 0.0042193-0.0000142
------------------------------------------------------------------
3 28.1508600 0.2046729 0.0016644-0.0000031
------------------------------------------------------------------
4 26.9981200 0.2337300 0.0003942 0.0000017
------------------------------------------------------------------
5 26.5435600 0.1459682 0.0009960-0.0000008
------------------------------------------------------------------
6 26.5733900 0.1067445 0.0010840-0.0000020
------------------------------------------------------------------
7 26.6748600 0.0682643 0.0010624-0.0000026
------------------------------------------------------------------
8 26.9719600 0.0182212-0.0001444 0.0000006
------------------------------------------------------------------
9 26.7600000 00 00 00
------------------------------------------------------------------
A group of tree species: Beech table 8
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 26.2959600 0.2828878 0.0050665-0.0000217
------------------------------------------------------------------
2 26.0033600 0.3012348 0.0036681-0.0000163
------------------------------------------------------------------
3 24.5421800 0.4620130 0.0001512-0.0000023
------------------------------------------------------------------
4 24.6678900 0.3661685 0.0008701-0.0000064
------------------------------------------------------------------
5 25.2537900 0.0672520 0.0041484-0.0000177
------------------------------------------------------------------
6 24.7309100 0.0807996 0.0028519-0.0000118
------------------------------------------------------------------
7 24.4546700 0.0688032 0.0021790-0.0000089
------------------------------------------------------------------
8 23.9123400 0.0972029 0.0009096-0.0000037
------------------------------------------------------------------
9 23.6100900 0.0959610 0.0000438-0.0000002
------------------------------------------------------------------
A group of tree species: Ash Table No 9
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 16.9168200 0.5358003-0.0035255 0.0000133
------------------------------------------------------------------
2 17.2922900 0.3707626-0.0020589 0.0000073
------------------------------------------------------------------
3 17.3958500 0.2019036-0.0006982 0.0000014
------------------------------------------------------------------
A group of tree species: Birch Table No. 10
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 4.3704270-0.0084524 0.0025261-0.0000197
------------------------------------------------------------------
2 4.3237360-0.0049761 0.0015482-0.0000124
------------------------------------------------------------------
3 4.2115630 0.0216314-0.0002225 0.0000009
------------------------------------------------------------------
A group of tree species: Acacia Table No. 11
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 2.0225470 0.2338120 0.0039973-0.0000409
------------------------------------------------------------------
2 2.2092180 0.2102499 0.0029377-0.0000305
------------------------------------------------------------------
3 2.1786660 0.2181490 0.0011692-0.0000162
------------------------------------------------------------------
4 2.0838960 0.2251275-0.0003442-0.0000041
------------------------------------------------------------------
5 2.5408700 0.1150021 0.0005698-0.0000052
------------------------------------------------------------------
6 2.4254190 0.1247796-0.0010196 0.0000048
------------------------------------------------------------------
7 2.3936970 0.1234333-0.0019883 0.0000109
------------------------------------------------------------------
8 3.0600000 00 00 00
------------------------------------------------------------------
9 3.0600000 00 00 00
------------------------------------------------------------------
A group of tree species: Alder table 12
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 4.3078710-0.0158298 0.0052439-0.0000353
------------------------------------------------------------------
2 3.9598650 0.0265218 0.0039262-0.0000302
------------------------------------------------------------------
3 3.8159190 0.0247544 0.0029079-0.0000228
------------------------------------------------------------------
4 3.7053160 0.0192342 0.0021359-0.0000172
------------------------------------------------------------------
5 3.5174010 0.0211932 0.0007958-0.0000058
------------------------------------------------------------------
A group of tree species: Aspen Table No. 13
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 3.4114260-0.0163210 0.0023778-0.0000176
------------------------------------------------------------------
2 3.3518300 0.0020101 0.0011785-0.0000091
------------------------------------------------------------------
3 3.2734720 0.0170076 0.0000277-0.0000008
------------------------------------------------------------------
A group of tree species: Poplar Table No. 14
------------------------------------------------------------------
The coefficients
Bonita -------------------------------------------------------
P0 P1 P2 P3
------------------------------------------------------------------
1 0.3520151 0.6697728 0.0107006-0.00002211
------------------------------------------------------------------
2 0.7889852 0.5898628 0.0078137-0.00001604
------------------------------------------------------------------
3 1.1181240 0.5021656 0.0061772-0.00001299
------------------------------------------------------------------
4 1.6015580 0.3605727 0.0077470-0.00001358
------------------------------------------------------------------
5 1.8465540 0.2583058 0.0075474-0.00001210
------------------------------------------------------------------
6 2.0524330 0.1709751 0.0073587-0.00001082
------------------------------------------------------------------
7 2.2822530 0.0738324 0.0071556-0.00000878
------------------------------------------------------------------
8 2.4833940 0.0051320 0.0063650-0.00000700
------------------------------------------------------------------
9 2.4038580 0.0096498 0.0030473-0.00000323
-----------------------------------------------------------------
Annex 2
Value adjustment of forest cover Hlpa
----------------------------------------------------------------------------------------------
Max. precipitation (-) and premium (+) in%
-----------------------------------------------------
Number of Qualitative characters of High degree (RVB)
položky -----------------------------------------------------
1 2 3 4 5 67 8 9
----------------------------------------------------------------------------------------------
1 Strains affected in the top-15-15-16-17-18-20-22-24-25
part a or
Tribal watershed
----------------------------------------------------------------------------------------------
2 Strains affected in the upper
part of the rotting core
the average length of
2.1 2 m-11-12-13-14-15-17-19-22-26
2.2 3 m-14-14-15-17-19-21-23-26-30
2.3.4 m-19-20-21-23-24-27-30-34-38
2.4.5 m-28-29-31-33-39-39-43-47-52
----------------------------------------------------------------------------------------------
3 Strains affected in top-22-24-27-30-32-33-34-35-36
part a or
Tribal watershed
and in the bottom of the
rotting core
on the average. length 2 m
----------------------------------------------------------------------------------------------
4 Exceptional quality + 40
with the Viewports
1. how to. tř.
----------------------------------------------------------------------------------------------
5 Les low-40
----------------------------------------------------------------------------------------------
6 the occurrence on the stump in the shade-15
----------------------------------------------------------------------------------------------
7 Stands of pine, black-50
and cerium with extremely
about cutouts
----------------------------------------------------------------------------------------------
8 other influences, e.g.. -50
the damage caused by
shooting poddolováním
the forest, etc.
----------------------------------------------------------------------------------------------
9 the degree of damage to the emission
9.1 I. -20
9.2 II. -30
9.3 III.a -40
9.4 III.b -60
9.5 IV. -80
----------------------------------------------------------------------------------------------
Annex 3
Associations of individual species in each group of tree species
------------------------------------------------------------------
The Group of trees Species in a group of Maximum obmýtí
------------------------------------------------------------------
All types of spruce firs 120
------------------------------------------------------------------
All kinds of FIR FIR 120
------------------------------------------------------------------
All kinds of pine pine 120
------------------------------------------------------------------
Larch larch, all kinds of 120
------------------------------------------------------------------
Douglas Douglas tisolistá 120
------------------------------------------------------------------
Beech beech forest, hornbeam,
all species of maple,
all kinds of better
aesculus hippocastanum 140
------------------------------------------------------------------
All kinds of Oaks, Oak
all kinds of ELMS,
Juglans regia and black,
Platanus × Hispanica,
Gean, střemcha
of late, pear, Pyrus
Apple tree forest, other
deciduous hard 160
------------------------------------------------------------------
All species of ash, ash
pajasan žlaznatý 120
------------------------------------------------------------------
Alder all kinds of Alders,
Chesnut 80
------------------------------------------------------------------
Aspen Aspen 80
------------------------------------------------------------------
Acacia Robinia pseudoacacia 80
------------------------------------------------------------------
Poplar all kinds of poplar in addition
Aspen, all kinds of willows,
other soft-leaved 50
------------------------------------------------------------------
Birch all kinds of birches,
all types of cranes 80
-----------------------------------------------------------------
Annex 4
A modified potential annuity of the forest r in CZK/m2
------------------------------------------------------------------
Code Code Code Annuity Annuity Annuity Annuity Annuity Code Code
SLT SLT Czk Kč/m2/m2 SLT SLT Czk Kč/m2/m2 SLT CZK/m2
------------------------------------------------------------------
9z 0.02 6V 5 h 0.09 0.12 0.11 0.04 3S, 2A
------------------------------------------------------------------
9r 0.02 6T 0.04 0.09 2 p 5 3R 0.05 0.04
------------------------------------------------------------------
9 k 0.02 6S 0.09 0.12 3Q 2 g 5F 0.03 0.08
------------------------------------------------------------------
8Z 0.02 6R 0.09 5 d 3 p 0.02 0.13 0.04 1
------------------------------------------------------------------
8Y 0.02 6Q 0.04 5 c 1 x 0.08 0.01 0.07 3O
------------------------------------------------------------------
8V 0.02 6 p 0.07 5B 0.12 0.08 3N 0.05 1
------------------------------------------------------------------
8 tons 0.02 6O 0.11 5A 0.09 m 0.02 1U 0.08
------------------------------------------------------------------
8s 0.04 0.06 6N 4Z 0.02 l 0.04 1T 0.01
------------------------------------------------------------------
8R 0.02 m 3 k 0.03 4Y 0.04 0.04 1S 0.03
------------------------------------------------------------------
8Q 0.01 6 l 0.02 4 x 0.03 3J 0.07 1Q 0.02
------------------------------------------------------------------
4W 6 k 8 p 0.02 0.06 0.06 0.10 0.05 3I 1 p
------------------------------------------------------------------
headings b.8N 0.04 6I 0.07 0.10 0.13 3 .4V 1O 0.06
------------------------------------------------------------------
8 m 6 h 4S 0.02 0.11 0.09 3 g 0.08 1N 0.03
------------------------------------------------------------------
8 k 6 g 0.04 0.09 4R 0.09 3F 0.10 m 0.03
------------------------------------------------------------------
8 g 0.07 6F 0.12 0.10 4Q 3D 0.08 0.03 1
------------------------------------------------------------------
8F 0.04 6 d 4 p 3 c 0.04 0.06 0.12 1 0.01
------------------------------------------------------------------
8A 0.11 0.04 6B 4O 0.09 3B 0.10 0.05 1J
------------------------------------------------------------------
7z 0.03 6A 0.09 4N 0.07 0.06 3A 1I 0.03
------------------------------------------------------------------
7Y 0.03 0.03 5Z 0.02 m 2Z 0.01 1 h 0.05
------------------------------------------------------------------
7V 0.10 5Y 4 k 2 x 0.04 0.07 0.02 0.02 g
------------------------------------------------------------------
7T 0.04 5W 0.10 4I 0.07 2W 1 d 0.07 0.07
------------------------------------------------------------------
7s 0.06 5V 4 h 0.13 0.12 0.08 2V 1 c 0.02
------------------------------------------------------------------
7R 0.04 5U 0.09 0.12 4 g 2T 0.03 1B 0.06
------------------------------------------------------------------
7q 0.03 0.03 5T 4F 0.09 2S 0.04 1A 0.04
------------------------------------------------------------------
7 p 0.07 5S 4 d 2Q 0.10 0.10 0.02 0Z 0.01
------------------------------------------------------------------
7O 0.09 5R 0.03 4 c 0.06 0.07 ° 0 x 0.01
------------------------------------------------------------------
7N 0.04 5Q 0.04 4B 0.12 2N 0.03 0T 0.06
------------------------------------------------------------------
7 m 5 p 0.07 0.03 4A 0.09 2 m 0.01 0R 0.03
------------------------------------------------------------------
7 k 5 ° 0.11 0.04 3Z 0.02 l 0.09 ° 0.05
------------------------------------------------------------------
7 g 5N 0.06 0.07 3Y 2 k 0.03 0.03 0N 0.02
------------------------------------------------------------------
7F 0.07 0.03 0.03 m 3 x 2I 0.04 0 m 0.01
------------------------------------------------------------------
7B 0.08 l 0.11 0.07 3W 2 h 0 k 0.08 0.02
------------------------------------------------------------------
6Z 0.03 5 k 0.08 0.06 3V 0.13 2D 0Y 0.02
------------------------------------------------------------------
6Y 0.05 5J 0.12 0.08 3U 2 c 0.03 0 p 0.02
------------------------------------------------------------------
5I 0.07 3T 0.04 0.08 2B 0Q 0.02
------------------------------------------------------------------
0 c 0.02
------------------------------------------------------------------
0 g 0.08
------------------------------------------------------------------
SLT = file of forest types
A modified potential annuity is an annuity calculated on the basis of the maximum
the potential value of total production (the culmination of the average
increment) while respecting the security and continuity of production
characterized by an optimal target Woody composition in a particular
obmýtí, depending on soil and climate characteristics
Habitat (forest file types) and modified so that the
certain, the official decision of the session between the highest
and the lowest prices of agricultural and forest land.
Annex 5
Percent mýtní immaturity Mn
and the percentage of immaturity for mýtní) the age of the stand 1 to 20 years is equal to
100.
(b)) the percentage of mýtní to stand above the age of maturity for 20 years until the
the maximum obmýtí for the Group of forest tree species is found
using the formula:
MNA = M0 + M1 + M2 * and * a ^ 2 + M3 * and ^ 3
Where
MNA-percent forest cover prematurity in mýtní age and
and-the age of the stand
M0-M3-coefficients of a polynomial according to the species and groups
relative credible degrees listed in tables 1-
13
For the calculation of the percentage of mýtní of immaturity this polynomial
rules:
and the definition of the scope) 21 years to the maximum obmýtí for the
a group of forest tree species,
(b)) from calculated values apply only the integer part,
(c)) if value is greater than 100, the value is equal to 100, by contrast,
If a value less than zero (negative number), the value is
equal to 0.
A group of tree species: Spruce Table No 1
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 125.1861000-2.3895450 0.0090513 0.0000161
------------------------------------------------------------------
2 120.7601000-1.7510000-0.0020847 0.0000669
------------------------------------------------------------------
3 116.4334000-1.1038390-0.0131334 0.0001164
------------------------------------------------------------------
4 111.6033000-0.5339397-0.0220931 0.0001539
------------------------------------------------------------------
5 105.3890000 0.1976642-0.0331748 0.0001987
------------------------------------------------------------------
6 96.7955600 1.1558030-0.0479294 0.0002596
------------------------------------------------------------------
7 93.6519500 1.4316590-0.0507517 0.0002655
------------------------------------------------------------------
8 91.1327100 1.6161690-0.0513266 0.0002586
------------------------------------------------------------------
9 89.8448300 1.6986880-0.0506220 0.0002478
------------------------------------------------------------------
Group tree: Fir Table No 2
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 100.4444000 0.8158867-0.0438152 0.0002469
------------------------------------------------------------------
2 96.8253100 1.1467050-0.0474327 0.0002558
------------------------------------------------------------------
3 93.1533800 1.4469830-0.0495247 0.0002541
------------------------------------------------------------------
4 90.5533400 1.6306230-0.0493689 0.0002416
------------------------------------------------------------------
5 87.9673900 1.7539410-0.0466639 0.0002121
------------------------------------------------------------------
6 88.4601700 1.5978980-0.0404363 0.0001715
------------------------------------------------------------------
7 88.3096500 1.4603050-0.0330939 0.0001208
------------------------------------------------------------------
8 89.7018200 1.1813680-0.0239126 0.0000637
------------------------------------------------------------------
9 94.8206500 0.4429741-0.0039338-0.0000523
------------------------------------------------------------------
A group of tree species: Pine Table No 3
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 113.8322000-1.3485390-0.0039792 0.0000578
------------------------------------------------------------------
2 111.0335000-0.9298674-0.0105120 0.0000846
------------------------------------------------------------------
3 107.9207000-0.5337554-0.0161978 0.0001061
------------------------------------------------------------------
4 104.9416000-0.1290963-0.0220373 0.0001284
------------------------------------------------------------------
5 102.0691000 0.2129643-0.0271728 0.0001490
------------------------------------------------------------------
6 99.1313400 0.5591463-0.0323518 0.0001696
------------------------------------------------------------------
7 96.3576700 0.8158147-0.0334601 0.0001628
------------------------------------------------------------------
8 93.7739100 1.0884890-0.0377348 0.0001872
------------------------------------------------------------------
9 94.5455400 0.8995959-0.0293336 0.0001423
------------------------------------------------------------------
Group tree: Douglas-fir Table No. 4
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 122.1992000-2.0528220 0.0036188 0.0000393
------------------------------------------------------------------
2 118.4151000-1.5195880-0.0052554 0.0000782
------------------------------------------------------------------
3 113.5555000-0.9047291-0.0151060 0.0001201
------------------------------------------------------------------
4 109.7941000-0.4307584-0.0222968 0.0001490
------------------------------------------------------------------
5 104.6753000 0.1339774-0.0298768 0.0001756
------------------------------------------------------------------
A group of tree species: Larch Table No 5
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 120.1662000-2.0682770 0.0057848 0.0000232
------------------------------------------------------------------
2 116.2028000-1.4433640-0.0046657 0.0000690
------------------------------------------------------------------
3 112.0288000-0.9006144-0.0129904 0.0001028
------------------------------------------------------------------
4 107.9016000-0.2853574-0.0226822 0.0001430
------------------------------------------------------------------
5 103.9112000 0.2069410-0.0303864 0.0001752
------------------------------------------------------------------
6 99.8710200 0.7034300-0.0381310 0.0002074
------------------------------------------------------------------
7 95.4521300 1.1277540-0.0420892 0.0002133
------------------------------------------------------------------
8 91.2693700 1.5150010-0.0461404 0.0002224
------------------------------------------------------------------
9 88.8182700 1.6975640-0.0464574 0.0002140
------------------------------------------------------------------
The Group of trees: oak table 6
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 120.3651000-1.2397150-0.0032049 0.0000389
------------------------------------------------------------------
2 112.0953000-0.4907558-0.0125160 0.0000698
------------------------------------------------------------------
3 104.2496000 0.1636571-0.0198272 0.0000915
------------------------------------------------------------------
4 97.3539100 0.7308843-0.0256152 0.0001069
------------------------------------------------------------------
5 94.0254600 0.9376376-0.0260070 0.0001017
------------------------------------------------------------------
6 92.8550500 0.9287178-0.0226917 0.0000815
------------------------------------------------------------------
7 91.7736800 0.9133787-0.0192920 0.0000610
------------------------------------------------------------------
8 91.4739800 0.9452465-0.0197306 0.0000626
------------------------------------------------------------------
9 91.0865500 0.9860854-0.0203156 0.0000648
------------------------------------------------------------------
A group of tree species: Beech table 7
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 117.6760000-1.2601510-0.0052153 0.0000584
------------------------------------------------------------------
2 114.9035000-0.8817335-0.0110444 0.0000810
------------------------------------------------------------------
3 109.1355000-0.2902414-0.0190103 0.0001096
------------------------------------------------------------------
4 104.1009000 0.2862293-0.0273650 0.0001416
------------------------------------------------------------------
5 102.6103000 0.4417398-0.0294451 0.0001490
------------------------------------------------------------------
6 98.2754500 0.7976738-0.0331681 0.0001587
------------------------------------------------------------------
7 93.4625100 1.2339610-0.0382123 0.0001739
------------------------------------------------------------------
8 91.0726500 1.3854550-0.0385829 0.0001694
------------------------------------------------------------------
9 90.1171200 1.4099620-0.0371821 0.0001582
------------------------------------------------------------------
A group of tree species: Ash table 8
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 104.6350000 0.1541126-0.0309336 0.0001831
------------------------------------------------------------------
2 97.6203300 0.8427324-0.0381607 0.0001990
------------------------------------------------------------------
3 91.6943200 1.3220800-0.0392095 0.0001776
------------------------------------------------------------------
A group of tree species: Birch Table No 9
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 97.1162600 1.1938370-0.0671685 0.0004558
------------------------------------------------------------------
2 97.4960300 1.0849290-0.0613355 0.0004026
------------------------------------------------------------------
3 96.4112500 1.2112160-0.0628233 0.0004039
------------------------------------------------------------------
A group of tree species: Acacia Table No. 10
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 125.2191000-2.5747660-0.0086083 0.0002496
------------------------------------------------------------------
2 122.2910000-2.1295590-0.0186393 0.0003104
------------------------------------------------------------------
3 117.3285000-1.4377360-0.0326284 0.0003860
------------------------------------------------------------------
4 113.8006000-1.0337220-0.0368342 0.0003832
------------------------------------------------------------------
5 116.7255000-1.4728980-0.0267857 0.0003213
------------------------------------------------------------------
6 117.5628000-1.6681170-0.0156766 0.0002181
------------------------------------------------------------------
7 111.5808000-0.7969660-0.0342677 0.0003241
------------------------------------------------------------------
8 108.6463000-0.3541572-0.0462324 0.0004311
------------------------------------------------------------------
9 105.3502000-0.4904869-0.0064170 0.0000976
------------------------------------------------------------------
A group of tree species: Alder Table No. 11
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 109.4380000-0.3806610-0.0503372 0.0004577
------------------------------------------------------------------
2 106.7972000-0.0997184-0.0498463 0.0004167
------------------------------------------------------------------
3 105.5632000 0.0209253-0.0478180 0.0003782
------------------------------------------------------------------
4 104.8939000 0.0450113-0.0426432 0.0003157
------------------------------------------------------------------
5 103.5380000 0.3073192-0.0509852 0.0003803
------------------------------------------------------------------
A group of tree species: Aspen table 12
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 97.7349300 1.1624590-0.0704633 0.0004976
------------------------------------------------------------------
2 98.4070200 0.9991664-0.0626360 0.0004274
------------------------------------------------------------------
3 98.6269500 0.9155787-0.0574172 0.0003779
------------------------------------------------------------------
A group of tree species: Poplar Table No. 13
------------------------------------------------------------------
The coefficients
Bonitní -------------------------------------------------------
the degree of M0 M1 M2 M3
------------------------------------------------------------------
1 89.35252 0.3068491 4.474718-0
------------------------------------------------------------------
2 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
3 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
4 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
5 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
6 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
7 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
8 89.35252 4.474718-0.3068491 0
------------------------------------------------------------------
9 89.35252 4.474718-0.3068491 0
-----------------------------------------------------------------
Annex 6
The value of the annual increment by groups of tree species in CZK/m2 for the average
the creditworthiness of the
-------------------------------------
A group of wood CZK/m2
for the average credit score
-------------------------------------
Spruce 0.6146
-------------------------------------
FIR 0.7077
-------------------------------------
Pine 0.2544
-------------------------------------
Larch 0.4682
-------------------------------------
Douglas 0.5990
-------------------------------------
Buk 0.6144
-------------------------------------
Dub 0.5156
-------------------------------------
Ash 0.3766
-------------------------------------
Alder 0.1610
-------------------------------------
Aspen 0.0797
-------------------------------------
Acacia 0.0444
-------------------------------------
Poplar 0.3119
-------------------------------------
Birch 0.0933
-------------------------------------
The average creditworthiness of groups of forest tree species is the weighted arithmetic mean
the diameter of the tree species that bonito is the Group of forest tree species
is called, with the fact that the weight of the bonito is the area of the occurrence
the territory of the CZECH REPUBLIC.
Annex 7
Coefficient K1 for the calculation of damages from the reduction of forest cover in the increment
as a result of air pollution
-------------------------------------------
The degree of damage zone
ohrožení --------------------------------
I, II, IIIa, IIIb, IVa
-------------------------------------------
And, (B) 0.45 0.25 0.15 0.85 0.65
-------------------------------------------
C 0.45 0.25 0.65 0.95 0.85
-------------------------------------------
(D) 1.00 0.95 0.75 0.55 0.35
-------------------------------------------
Annex 8
K2 coefficient expressing the degree of damage according to the degrees of damage being bitten
game
---------------------------------------------------------------------------
The degree of damage to the Terminal Side Side shoots, wishing, wishing to K2
total% of two upper
whorls
---------------------------------------------------------------------------
1-the weak is not damaged more than 60-0.60
---------------------------------------------------------------------------
2-medium is damaged max. 30 max. 60 1.00
---------------------------------------------------------------------------
3-strong is damaged more than 30 more than 60 1.10
---------------------------------------------------------------------------
4-very strong it damaged more than 90-1.20
---------------------------------------------------------------------------
Note:
1) inclusion in the degree of damage to the fulfilment of all the currently assumed
the listed criteria.
2) the criterion of "side, wishing the two upper Whorls" is used as the
Another criterion only for seedlings older than 3 years (not covered by the
the thrown out tendrils).
Annex 9
The coefficient for calculating the damage from the K3 reduction of quality of forest cover
caused by mechanical damage trees by peeling and TNE game or
as firewood, etc.
----------------------------------------------------------------
The Advent Of Bonita
damage
at the age of 1 2 3 4 5 6 7 8 9
----------------------------------------------------------------
29 0.65 0.70 0.75 0.58 0.70 0.80 0.80 0.80 0.80
----------------------------------------------------------------
30-39 0.55 0.65 0.60 0.65 0.70 0.75 0.75 0.75 0.75
----------------------------------------------------------------
40-49 0.58 0.53 0.63 0.63 0.67 0.73 0.73 0.73 0.73
----------------------------------------------------------------
50-59 0.50 0.60 0.60 0.55 0.65 0.70 0.70 0.70 0.70
----------------------------------------------------------------
60-69 0.47 0.52 0.57 0.57 0.62 0.65 0.65 0.65 0.65
----------------------------------------------------------------
70-79 0.58 0.54 0.49 0.44 0.54 0.60 0.60 0.60 0.60
----------------------------------------------------------------
80-89 0.40 0.45 0.50 0.50 0.55 0.55 0.55 0.55 0.55
----------------------------------------------------------------
90-99 0.13 0.15 0.15 0.14 0.11 0.20 0.23 0.25 0.27
----------------------------------------------------------------
100 a více - - - - - - - - -
----------------------------------------------------------------
The table applies to a group of tree species of spruce. For other groups of species
the coefficient K3 provides appropriately.
Annex 10
Conversion table bonito forest tree species
(from the relative standing of the height-RVB, applied in forest
the economic plans in 1990, including the absolute altitude
credit score-AVB, used in the LHP since 1991)
Forest wood species: Spruce Table No 1
---------------------------------------------------------------------------
RVB aged trees in the years
AVB ----------------------------------------------------------------------
to 20 21-40 41-60 61-80 81-100 101-120 of 120
---------------------------------------------------------------------------
14 8 8 9 9 9 9 9
---------------------------------------------------------------------------
16 7 7 7 8 9 9 9
---------------------------------------------------------------------------
18 6 6 7 7 8 9 9
---------------------------------------------------------------------------
20 6 6 6 6 7 8 9
---------------------------------------------------------------------------
22 5 5 5 5 6 7 8
---------------------------------------------------------------------------
24 4 4 4 5 5 6 7
---------------------------------------------------------------------------
26 3 3 3 4 4 5 5
---------------------------------------------------------------------------
28 2 2 2 3 3 4 4
---------------------------------------------------------------------------
30 1 1 2 2 2 3 3
---------------------------------------------------------------------------
32 1 1 1 1 1 2 2
---------------------------------------------------------------------------
34 1 1 1 1 1 1 1
---------------------------------------------------------------------------
36 1 1 1 1 1 1 1
---------------------------------------------------------------------------
38 1 1 1 1 1 1 1
---------------------------------------------------------------------------
Forest wood species: Pine Table No 2
---------------------------------------------------------------------------
RVB aged trees in the years
AVB ----------------------------------------------------------------------
to 20 21-40 41-60 61-80 81-100 101-120 of 120
---------------------------------------------------------------------------
12 9 9 9 9 9 9 9
---------------------------------------------------------------------------
14 8 8 8 8 9 9 9
---------------------------------------------------------------------------
16 7 7 7 7 8 9 9
---------------------------------------------------------------------------
18 6 6 6 7 7 8 8
---------------------------------------------------------------------------
20 5 5 5 6 6 7 7
---------------------------------------------------------------------------
22 4 4 4 5 5 5 6
---------------------------------------------------------------------------
24 3 3 3 3 4 4 5
---------------------------------------------------------------------------
26 2 2 2 2 3 3 4
---------------------------------------------------------------------------
28 1 1 1 1 1 2 2
---------------------------------------------------------------------------
30 1 1 1 1 1 1 1
---------------------------------------------------------------------------
32 1 1 1 1 1 1 1
---------------------------------------------------------------------------
34 1 1 1 1 1 1 1
---------------------------------------------------------------------------
Forest tree species: other coniferous Table No 3
-----------------------------------------------------------
Douglas Fir-Larch
AVB ------------------------------------------------------
* up to 50 over 50 to 50 51-90 over 90 full age *
-----------------------------------------------------------
12 - - 9 9 9 -
-----------------------------------------------------------
14 - - 8 8 9 -
-----------------------------------------------------------
16 - - 7 7 8 -
-----------------------------------------------------------
18 6 8 6 6 7-
-----------------------------------------------------------
20 5 6 6 5 6-
-----------------------------------------------------------
22 4 5 5 4 5-
-----------------------------------------------------------
24 3 4 4 3 4-
-----------------------------------------------------------
26 2 3 2 2 3 5
-----------------------------------------------------------
28 1 2 1 1 2 5
-----------------------------------------------------------
30 1 1 1 1 1 5
-----------------------------------------------------------
32 1 1 1 1 1 5
-----------------------------------------------------------
34 1 1 1 1 1 5
-----------------------------------------------------------
36 1 1 - - - 5
-----------------------------------------------------------
38 1 1 - - - 4
-----------------------------------------------------------
40 1 1 - - - 3
-----------------------------------------------------------
Forest wood species: Beech Table No. 4
---------------------------------------------------------------------------
RVB aged trees in the years
AVB ----------------------------------------------------------------------
to 20 21-40 41-60 61-80 81-100 101-120 of 120
---------------------------------------------------------------------------
16 8 8 8 8 8 9 9
---------------------------------------------------------------------------
18 7 7 7 7 7 8 9
---------------------------------------------------------------------------
20 6 6 6 6 6 7 7
---------------------------------------------------------------------------
22 5 5 5 5 6 6 6
---------------------------------------------------------------------------
24 4 4 4 4 5 5 6
---------------------------------------------------------------------------
26 3 3 3 3 4 4 5
---------------------------------------------------------------------------
28 1 1 2 2 3 3 3
---------------------------------------------------------------------------
30 1 1 1 1 2 2 2
---------------------------------------------------------------------------
32 1 1 1 1 1 1 1
---------------------------------------------------------------------------
34 1 1 1 1 1 1 1
---------------------------------------------------------------------------
36 1 1 1 1 1 1 1
---------------------------------------------------------------------------
38 1 1 1 1 1 1 1
---------------------------------------------------------------------------
Forest wood species: Oak Table No 5
---------------------------------------------------------------------------
RVB aged trees in the years
AVB ----------------------------------------------------------------------
to 20 21-40 41-60 61-80 81-100 101-120 of 120
---------------------------------------------------------------------------
12 8 8 8 9 9 9 9
---------------------------------------------------------------------------
14 7 7 7 8 8 8 9
---------------------------------------------------------------------------
16 7 7 7 7 7 8 9
---------------------------------------------------------------------------
18 6 6 6 6 7 7 8
---------------------------------------------------------------------------
20 5 5 5 5 6 6 7
---------------------------------------------------------------------------
22 4 4 4 5 5 5 6
---------------------------------------------------------------------------
24 3 3 3 4 4 4 5
---------------------------------------------------------------------------
26 2 2 2 2 2 3 3
---------------------------------------------------------------------------
28 1 1 1 1 1 1 2
---------------------------------------------------------------------------
30 1 1 1 1 1 1 1
---------------------------------------------------------------------------
32 1 1 1 1 1 1 1
---------------------------------------------------------------------------
34 1 1 1 1 1 1 1
---------------------------------------------------------------------------
Forest tree species: other leafy Table No. 6
----------------------------------------------------------------------------------
Aspen Poplar Alder Ash Hornbeam Acacia
Birch
AVB -----------------------------------------------------------------------------
* the entire age of the entire age of the entire age of 50 over 50 the whole age to 50 over 50
----------------------------------------------------------------------------------
10 - - - 9 9 - 9 9
----------------------------------------------------------------------------------
12 - - 3 9 8 - 9 9
----------------------------------------------------------------------------------
14 - - 3 9 8 - 8 8
----------------------------------------------------------------------------------
16 - - 3 8 7 9 7 6
----------------------------------------------------------------------------------
18 3 5 3 7 6 9 6 5
----------------------------------------------------------------------------------
20 3 5 3 7 6 9 4 3
----------------------------------------------------------------------------------
22 3 4 2 6 5 9 2 2
----------------------------------------------------------------------------------
24 3 3 1 5 4 9 - -
----------------------------------------------------------------------------------
26 2 2 1 - - 8 - -
----------------------------------------------------------------------------------
28 2 2 1 - - 7 - -
----------------------------------------------------------------------------------
30 1 1 - - - 6 - -
----------------------------------------------------------------------------------
32 1 - - - - - - -
----------------------------------------------------------------------------------
34 1 - - - - - - -
----------------------------------------------------------------------------------
*) RVB throughout the range in age, or age.
1) § 2 (2). 1 Act No. 151/1997 Coll., on the valuation of assets and the change in the
Some laws (law on valuation).
2) sections 24 to 27 of law no 289/1996 Coll., on forests and on the amendment and supplement
Some laws (forest law).
3) Decree No. 83/1996 Coll., on the regional forest development plans
and on the definition of the economic files.
4) Act No. 151/1997 Coll.
6) Decree No. 82/1996 Coll., on the genetic classification, restoration of forest,
afforestation and registration of seeds and seedlings of forest
tree species.