RU2005103688A - METHOD FOR MEASURING THE RADIUS OF ANNUAL RINGS ON THE WOOD BAR - Google Patents

Claims (5)

1. A method of measuring the radii of growth rings on a tree trunk cut, including applying marks on the north side on sawn circles, the lower part of the circle is turned upward, the center of the template made of organic glass with the applied concentric circles and radius lines is aligned with the center of the growth rings, and the line radius with a zero angle of inclination is combined with a mark on the north side of the saw, and then count the number and width of the annual rings, characterized in that in a separate radial direction In these experiments, the width of a group of several tree rings is measured, the measurement results are summed up to obtain the values of the radii showing the growth of the tree trunk section in given radial directions by the groups of tree rings, and then statistical patterns are revealed by the influence of the declination angle on the values of the variable radii of the groups of tree rings and by the effect age i.e. the number of tree rings, of each group of tree rings per radial growth at different declination angles. 2. The method of measuring the radii of growth rings on a saw cut of a tree trunk according to claim 1, characterized in that in the absence of marks on the north side on the cut circles, a radius line with a zero declination angle is combined with the minimum circle radius. 3. The method of measuring the radii of growth rings on a saw cut of a tree trunk according to claim 1, characterized in that the width of a group of several growth rings is measured on five growth rings, starting from the center of the saw-circle. 4. The method of measuring the radii of tree rings on a saw cut of a tree trunk according to claim 1, characterized in that the statistical laws of the influence of the declination angle on the values of the variable radii of the groups of tree rings are revealed by the general formula

where R _α is the radius of the annual ring at different angles of declination, mm; R ₀ is the radius of the cylinder, that is, the ideal tree trunk, mm; R _α1 is the radius that varies according to the law of normal distribution (Gauss-Laplace law) and shows the effect of sunlight on the growth of the trunk in thickness, mm; R _α2 - radius, changing according to biotechnical law prof. P.M. Mazurkina and predominantly showing the influence of the direction of the prevailing wind on the change in the growth of the tree trunk by thickness, mm; α is the declination angle of the radii, deg;

- the average angle of declination, showing the maximum effect of sunlight on the growth of the trunk in thickness, degrees; a ₁ ... a ₆ - parameters of the statistical model in the form of the law of normal distribution, the values of which vary for the variable radius of the cross section of the tree trunk. 5. The method of measuring the radii of growth rings on a tree trunk saw according to claim 1, characterized in that the statistical laws of the influence of age (the number of growth rings) on the values of the variable radii of groups of growth rings are identified by the general formula of the biotechnical law prof. P.M. Mazurkina

where R _A is a variable radius in a given radial direction, mm; R _max - the maximum radius that can theoretically be achieved at the predicted age of the A ^* tree (from the moment the plant begins to grow and develop) according to the revealed pattern of the biotechnical law, mm; A is the measured age of the annual ring, that is, the number of annual rings from the center of the saw-circle, years; a ₁ ... and ₄ are the parameters of the biotechnical law, the values of which vary for each angle of declination.