RU2408184C1 - Method for testing of fir needles - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to area of forestry and ecology. Method includes selection of fir trees, which are under anthropogenic effect. After selection of tree, node is selected, then primary branch inside identified node is selected with measurement of geodesic direction of its stem. Then branches of the same age are marked on selected branch, after cutting each branch is placed into container for transportation. Under laboratory conditions, for each cut branch, prior to separation of needles from stem, distance is measured from stem base to middle of thickness of each needle, besides, measurements are made in four sectors. After separation from stem, in each needle length, width and thickness are measured by vernier calipers, then needles are placed into containers for their drying under room conditions. On completion of drying, length, width and thickness are measured by vernier calipers in each dried needle.

EFFECT: method makes it possible to increase complexity of measurements, which are used to do ecological assessment of environment.

9 cl, 4 dwg, 1 tbl, 1 ex

Description

The invention relates to environmental taxation of forest, non-forest and single trees and it can be used in environmental engineering and environmental ecology, dendroecological monitoring, protection and environmental protection by analyzing the results of measurements and testing of spruce trees in an environmental assessment of urban and forest areas.

A known method of analyzing the change in the size of spruce needles (see Skotnikov, D.V. Dendroecological characteristics of Siberian spruce (Picea obovata ltdeb.) Under conditions of petrochemical pollution (Ufa Industrial Center): abstract of dissertation ... Candidate of Biological Sciences: 03.00.16 / D.V. Skotnikov. - Ufa, 2007. - 7 C.), including sampling of branches of spruce trees several times during their growing season (June, July and August), cutting from each trial plot (from 5-10 spruce trees ) of 15-30 branches containing shoots of the 1st, 2nd and 3rd year, measurement in the laboratory of the length of 50 shoots and 100 - needles of three ages of each trial area with a caliper with an accuracy of 0.01 cm.

The disadvantage of this method is the inaccuracy of the analysis of changes in the size of the needles growing on collected samples in the form of branches cut from spruce trees in various geodesic directions, that is, this method does not allow accurate measurement, and then analysis of the measured data of the needles of a growing spruce tree in room conditions In addition, the impossibility of determining the size of the needles after their natural drying does not allow us to assess the ecological situation of the place of growing of the spruce using the criterion of percentage of dryness needles Ia.

There is also a method of analyzing the change in the size of spruce needles (see Yesyakova, O.A. Indication of air pollution in Krasnoyarsk by morphometric and chemical indicators of Siberian spruce needles / O.A. Yesyakova, R.A. Stepen // Chemistry of plant raw materials. - Krasnoyarsk, 2008. S.143-148), including the selection of accounting trees of spruce under various anthropogenic effects, sampling in the form of spruce branches, separation of branches into groups by year, separation of needles from each stem (trunk), caliper measurements of length, width and the thickness of each needle The group's first year of life and the other needles.

The main disadvantage of this method is the inaccuracy of the analysis of the change in the size of the needles growing on the collected samples of twigs cut from the counting spruce trees in different geodesic directions, since the characteristic places for taking the samples of the twigs have not been determined, as well as the inaccuracy of the analysis of the environmental situation according to the collected statistical data using the criteria proposed in the prototype - the average length, average width and average thickness of spruce needles in the groups of needles, section years of life. In addition, the inability to determine the distance from the base of the stem to each needles on a cut spruce branch does not allow a comprehensive measurement and analysis of the measured growth indicators of the needles. In addition, the size of the needles after their drying has not been determined, which does not allow a comprehensive assessment of the ecological situation of the growing spruce using the criterion of percentage drying of the needles during their natural drying. Thus, the prototype does not allow to correctly assess the size indicators of the needles and according to the obtained data to analyze the growing conditions around the spruce tree.

EFFECT: increased complexity of measurements, tests and analysis of the size of needles on cut branches of spruce accounting trees, and on their basis an environmental assessment of the surrounding forest and other environment, including single growing spruce trees, an environmental assessment of the rural or urban environment.

This technical result is achieved in that the test method for spruce needles, including the selection of spruce trees under various anthropogenic effects, sampling in the form of spruce branches, separating the needles from each stem (stem), measuring with the caliper the length, width and thickness of each needles, differs the fact that after choosing a spruce tree, a whorl is chosen, then a first-order branch inside the selected whorl with a measurement of the geodesic direction of its stem, after which branches of one year of age are marked on the selected branch that, after cutting, each twig is placed in a container for transportation, then in laboratory conditions for each cut twig before separating the needles from the stem, the distance from the base of the stem to the middle of the thickness of each needles is measured, and measurements are carried out in four sectors, after separation from the stem for each needles the length, width and thickness are measured with a caliper, then the needles are laid out in containers for drying them at room temperature, and after drying is stopped, the length, width and thickness are measured with a caliper each shrunken needles.

On accounting trees, a whorl was chosen with an estimate of its age.

On the spruce tree, first-order branches are selected in four directions of the world.

From branches of the first order from the end of the stem, samples are cut at a height of 1.3 m from the ground level in the form of branches for determining the size of the needles on the cut branches of the spruce tree.

Before cutting the sample in the form of a branch, a mark is made on it, which side of the branch grows upward.

When sampling twigs to determine the size of the needles on the cut branches of the spruce tree, only one branch is cut from each side of the world, and the branches are cut outside the growing season of the spruce trees and branches are taken for analysis only with annual needles.

After the measurements of the length, width, thickness of the needles, as well as the distance from the base of the stem of the cut branch from the counting spruce tree to each needle in four conditional sectors (upper, lower, right and left in relation to the branch), then each needle is placed on the container in in the form of perforated paper, and next to each needle, the direction of the side of the world in which the cut branch grows, as well as the conditional sector of measurement and the distance from the base of the stem to this needle, are fixed.

The measurement data of the length, width and thickness of the needles on the cut branch of the accounting tree of spruce, as well as the distance from the base of the stem of the cut branch to each needles are subjected to statistical processing. Statistical modeling reveals a model for changing the size of spruce needles on a cut branch:

L = ax ^b exp (-cx ^d ); A = ax ^b exp (-cx ^d ); B = ax ^b exp (-cx ^d ),

where L is the length of the ith needle on a cut branch of the spruce tree, cm;

A is the width of the i-th needle on the cut branch of the spruce tree, cm;

B is the thickness of the i-th needle on the cut branch of the spruce tree, cm;

x is the distance from the base of the stem of the cut branches of the spruce tree to each needle, see

According to measurements of the length, width and thickness of the needles on the cut branch, obtained as a result of measurements immediately after cutting the branches from the reference spruce tree and after drying, the percentage of shrinkage of the needles of the spruce tree along the length, width and thickness is calculated.

The essence of the technical solution lies in the fact that in various geodesic directions the moisture content in the cut branches is not the same, which affects the growth of spruce needles. Sampling in four directions of the light reveals this effect.

The essence also lies in the fact that in various conditional sectors of the growth of needles the moisture content in the needles is also not the same. Measurement of needles in four conditional sectors of its growth will reveal this effect.

The essence also lies in the fact that each branch of the spruce tree is a separate plant on the mother tree. When measuring the length, width and thickness of each spruce needles, determining the distance from the base of the stem to each needles on a cut branch will allow us to comprehensively study the nature of the growth of needles on the branch of the accounting spruce and to determine the differences by cardinal points.

The positive effect is that the revealed statistical laws of the parameters of spruce needles (length, width, thickness, as well as the distance from the base of the stem to each needle on a cut branch of a spruce tree) will allow you to manage spruce forest plantations, determine their viability, as well as the ecological regime for surveyed forest areas. Since the spruce adapts well in urban environments, including those with high pollution levels, it is possible to use these statistical laws for environmental monitoring of the urbanized environment. In addition, the positive effect lies in the fact that measurements are carried out on accounting trees, which does not lead to physical destructive effects of the studied spruce trees.

The novelty of the proposed method is:

firstly, cutting samples in the form of branches on a selected spruce tree to estimate the size of spruce needles on a cut branch in different geodesic directions using only one branch with annual needles, which will allow to reveal differences in the cardinal directions in the nature of growth of spruce needles, as well as to determine the differences in the growth of needles within one year of life;

secondly, measurements of needles in four conditional sectors of its growth will reveal differences in the growth of needles in different directions of a spruce tree branch;

thirdly, measurements of the distance from the base of the branch of the branch to each measured needles will reveal the size distribution of spruce needles on the branch and determine the characteristic pattern of growth of needles on the cut branch, as well as differences in the distribution of needles on the cut branch in different geodesic directions.

In this regard, the proposed technical solution has significant signs of novelty, ease of implementation in a production environment, a positive effect both in forestry in managing the cultivation of elite trees and in engineering ecology, as well as the prospect of expanding the areas of practical application of landscape ecology methodology with growing in the territory these forest, agroecological, rural and urban areas of trees without their destruction in a growing state. At the same time, repeated measurements of accounting trees will allow for long-term monitoring of the environment surrounding these trees.

From the scientific, technical and patent literature, materials discrediting the novelty of the proposed method were not found.

Figure 1 shows the frontal projection of the spruce tree, from which prototypes were collected: 1 - spruce tree.

Figure 2 shows a whorl of a spruce tree (top view), from which samples of twigs were taken to determine the size of spruce needles on a cut branch of a spruce tree: 2 - a branch of the first order of the spruce tree, 3 - the end of the stem of the first order branch of the spruce tree, from which they cut sample for analysis. As can be seen in figure 2, not only branches are gathered in the whorls, but also branches, which are found in the whorl from two to five. To analyze the size distribution of the needles on the branch, only the central branch was cut.

Figure 3 presents a graph of the distribution on the cut branch of a spruce tree of the lengths of spruce needles, measured immediately after cutting the prototypes in the form of branches from the north side of the world on top of the branch. As can be seen in figure 3, the model of the distribution of the lengths of the needles along the length of the twigs has the appearance of spruce in the lateral projection.

Figure 4 presents a graph of the dependence of the length of the needles in all four sectors from the distance to each spruce needles on a branch from the north side of the world. As can be seen in figure 4, there is an effect of cardinal points on the change in the length of the needles along the growth sectors of the needles.

A test method for spruce needles includes such actions.

Before the start of the study, the necessary equipment is prepared: a compass, a knife for cutting spruce twigs, containers in the form of paper bags for transporting cut samples of twigs to the laboratory, containers for storing spruce needles until they dry in the form of perforated paper, on which the direction of the light side is fixed, in which a cut branch grows, as well as a conditional growth sector in which each needle will be measured.

Choose a spruce tree 1. Using a compass, you can determine the direction of the cardinal points. On the selected spruce tree 1, a whorl is chosen, from which the branch samples will be cut, with an estimate of its age by counting the number of whorls on this spruce tree. Then, on the selected whorl, from the four cardinal points, branches of the first order 2 are chosen, from which samples of branches will be cut. Then, from the end of the stem 3 branches of the first order are cut off one branch at a time with annual needles at about 1.3 m above ground level. Cut samples of twigs are stacked in containers in the form of paper bags for transportation to the laboratory.

Further, in laboratory conditions, for each cut branch, before separation of the needles from the stem, the distance from the base of the stem to the middle of the thickness of each needles is measured, and measurements are carried out in four sectors, after separation from the stem at each needles, a length, width and thickness are measured with a caliper, then the needles are laid out in a container for drying them at room conditions, and after the cessation of drying, the length, width and thickness of each shrunken needle are again measured with a caliper.

On accounting trees, a whorl was chosen with an estimate of its age.

On the spruce tree, first-order branches are selected in four directions of the world.

From branches of the first order from the end of the stem, samples are cut at a height of 1.3 m from the ground level in the form of branches for determining the size of the needles on the cut branches of the spruce tree.

Before cutting the sample in the form of a branch, a mark is made on it, which side of the branch grows upward.

When sampling twigs to determine the size of the needles on the cut branches of the spruce tree, only one branch is cut from each side of the world, and the branches are cut outside the growing season of the spruce trees and branches are taken for analysis only with annual needles.

After the measurements of the length, width, thickness of the needles, as well as the distance from the base of the stem of the cut branch from the counting spruce tree to each needle in four conditional sectors (upper, lower, right and left with respect to the branch), then each needle is placed on the container in the form perforated paper, and next to each needle, the direction of the side of the world in which the cut branch grows, as well as the conditional sector of measurement and the distance from the base of the stem to this needle, are fixed.

The measurement data of the length, width and thickness of the needles on the cut branch of the accounting tree of spruce, as well as the distance from the base of the stem of the cut branch to each needles are subjected to statistical processing. Statistical modeling reveals a model for changing the size of spruce needles on a cut branch:

L = ax ^b exp (-cx ^d ); A = ax ^b exp (-cx ^d ); B = ax ^b exp (-cx ^d ),

where L is the length of the ith needle on a cut branch of the spruce tree, cm;

A is the width of the i-th needle on the cut branch of the spruce tree, cm;

B is the thickness of the i-th needle on the cut branch of the spruce tree, cm;

x is the distance from the base of the stem of the cut branches of the spruce tree to each needle, see

According to measurements of the length, width and thickness of the needles on the cut branch, obtained as a result of measurements immediately after cutting the branches from the reference spruce tree and after drying, the percentage of shrinkage of the needles of the spruce tree along the length, width and thickness is calculated.

A test method for spruce needles is implemented, for example, on a spruce tree growing in urban conditions, as follows.

First, a test site is selected, and then a spruce tree 1 is selected on it according to external signs. The compass determines the direction of the cardinal points. By counting the number of whorls, the age of the spruce tree is calculated 1. The whorls are determined from which the samples of twigs will be cut to analyze the size of their needles, as well as the distance from the base of the stem to each needles on the cut branch.

On the chosen whorl, from the four cardinal points, branches of the first order 2 are chosen, from which samples of branches will be cut. Then, from the end of the stem 3 branches of the first order are cut off one branch at a time with annual needles at about 1.3 m above ground level. Cut samples of twigs are stacked in containers in the form of paper bags for transportation to the laboratory.

Further, in laboratory conditions, for each cut branch, before separation of the needles from the stem, the distance from the base of the stem to the middle of the thickness of each needles is measured, and measurements are carried out in four sectors, after separation from the stem at each needles, a length, width and thickness are measured with a caliper, then the needles are laid out in a container for drying them at room conditions, and after the cessation of drying, the length, width and thickness of each shrunken needle are again measured with a caliper.

On accounting trees, a whorl was chosen with an estimate of its age.

On the spruce tree, first-order branches are selected in four directions of the world.

From branches of the first order from the end of the stem, samples are cut at a height of 1.3 m from the ground level in the form of branches for determining the size of the needles on the cut branches of the spruce tree.

Before cutting the sample in the form of a branch, a mark is made on it, which side of the branch grows upward.

When sampling twigs to determine the size of the needles on the cut branches of the spruce tree, only one branch is cut from each side of the world, and the branches are cut outside the growing season of the spruce trees and branches are taken for analysis only with annual needles.

After the measurements of the length, width, thickness of the needles, as well as the distance from the base of the stem of the cut branch from the counting spruce tree to each needle in four conditional sectors (upper, lower, right and left with respect to the branch), then each needle is placed on the container in the form perforated paper, and next to each needle, the direction of the side of the world in which the cut branch grows, as well as the conditional sector of measurement and the distance from the base of the stem to this needle, are fixed.

The measurement data of the length, width and thickness of the needles on the cut branch of the accounting tree of spruce, as well as the distance from the base of the stem of the cut branch to each needles are subjected to statistical processing. Statistical modeling reveals a model for changing the size of spruce needles on a cut branch:

L = ax ^b exp (-cx ^d ); A = ax ^b exp (-cx ^d ); B = ax ^b exp (-cx ^d ),

where L is the length of the ith needle on a cut branch of the spruce tree, cm;

A is the width of the i-th needle on the cut branch of the spruce tree, cm;

B is the thickness of the i-th needle on the cut branch of the spruce tree, cm;

x is the distance from the base of the stem of the cut branches of the spruce tree to each needle, see

According to measurements of the length, width and thickness of the needles on the cut branch, obtained as a result of measurements immediately after cutting the branches from the reference spruce tree and after drying, the percentage of shrinkage of the needles of the spruce tree along the length, width and thickness is calculated.

Examples. On the territory of the center of Yoshkar-Ola, one accounting tree of spruce Picea abies (age 25-30 years) was selected next to the building of the theater named after Shketan on the square to them. Lenin.

In the north, in the upper growth sector of the needles on a branch, the distribution of the length of the needles (Fig. 3) has the form:

where L is the length of the i-th needles on a cut branch of a spruce tree, cm;

x is the distance from the base of the stem of the cut branches of the spruce tree to each needle, see

The patterns of distribution of spruce needles from other parts of the world and other growth sectors of needles have a similar construction of the formula.

The dependence of the length of the needles for all four sectors of the growth of needles together, depending on the distance from the base of the stem to each needles on the branch, from the north side of the world (Fig. 4), has the form of the formula:

The results of measuring the length of the needles located in the upper sector of the twig are shown in the table.

According to the model of size distribution of needles on a cut branch, it is possible to identify differences on the cardinal points, as well as determine the general biotechnical patterns of distribution of needles.

By comparing the average biotechnical patterns of the distribution of needles on cut branches from spruce trees, we can identify the difference in the environmental conditions of the places where these trees grow.

The effectiveness of the new method is manifested in the fact that it allows you to determine the biotechnological patterns of the distribution of needles on cut branches of spruce trees.

In the future, the proposed method will allow the formation of digital models of spruce trees and thereby carry out various environmental engineering studies using the geometric dimensions of the needles.

The proposed method is simple in practical execution by modern laboratory devices and at the same time accurate in measurement errors.

Claims (9)

1. A method of testing spruce needles, including the selection of spruce trees under various anthropogenic effects, sampling in the form of spruce branches, separating the needles from each stalk, measuring with the help of a caliper the length, width and thickness of each needles, characterized in that after choosing the tree the spruce is selected a whorl, then a first-order branch inside the selected whorl with measuring the geodesic direction of its stem, after which branches of one year of age are marked on the selected branch, after cutting, each twig is placed in a container For transportation, then in laboratory conditions for each cut branch to separate the needles from the stem, the distance from the base of the stem to the middle of the thickness of each needles is measured, and measurements are carried out in four sectors, after separation from the stem at each needles with a caliper, measure length, width and thickness, in Further, the needles are laid out in containers for drying them at room conditions, and after the cessation of drying, the length, width and thickness of each shrunken needles are again measured with a caliper. 2. The method of testing spruce needles according to claim 1, characterized in that the whorl is chosen on accounting trees at the whorl with an estimate of its age. 3. The test method of spruce needles according to claim 1, characterized in that on the accounting tree of spruce branches of the first order are selected in four directions of the world. 4. The test method for spruce needles according to claim 1, characterized in that samples from the first order branches from the end of the stem are cut at a height of 1.3 m from the ground level in the form of branches for determining the size of the needles on cut branches of a spruce tree. 5. The test method for spruce needles according to claim 1, characterized in that before cutting the sample in the form of a branch, a mark is made on it which side of the branch grows upward. 6. The test method of spruce needles according to claim 1, characterized in that when sampling the branches to determine the size of the needles on the cut branches of the spruce tree, only one branch is cut from each side of the world, and the branches are cut outside the growing season of spruce trees and for analysis twigs are taken only with annual needles. 7. The test method for spruce needles according to claim 1, characterized in that after the measurements of the length, width, thickness of the needles, as well as the distance from the base of the stem of the cut branches from the counting spruce tree to each needles in four conditional sectors (upper, lower, right and left with respect to the twig), then each needle is placed on a container in the form of perforated paper, and next to each needle the direction of the side of the world in which the cut branch grows, as well as the conditional measurement sector and the distance from the base of the stem to this needle. 8. The test method of spruce needles according to claim 1, characterized in that the measurement data of the length, width and thickness of the needles on the cut branch of the spruce tree of registration, as well as the distance from the base of the stem of the cut branch to each needles are subjected to statistical processing, statistical model reveals the change model sizes of spruce needles on a cut branch:
L = ax ^b exp (-cx ^d ); A = ax ^b exp (-cx ^d ); B = ax ^b exp (-cx ^d ),
where L is the length of the ith needle on a cut branch of the spruce tree, cm;
A is the width of the ith needle on a cut branch of the spruce tree, cm;
B is the thickness of the ith needle on a cut branch of the spruce tree, cm;
x is the distance from the base of the stem of the cut branches of the spruce tree to each needle, see 9. The test method of spruce needles according to claim 1, characterized in that according to measurements of the length, width and thickness of the needles on the cut branch, obtained as a result of measurements immediately after cutting the branches from the spruce tree and after drying, the percentage of drying of the needles of the spruce tree is calculated in length, width and thickness.

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