JP3868852B2 - Analysis method of soil composition distribution - Google Patents

Description

【図面の簡単な説明】
【図１】実施例に係るγ線線量率分布図である。
【図２】実施例に係るγ線線量率分布図である。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for analyzing a soil composition distribution, and more specifically, in analyzing an actual soil composition distribution, first, the distribution of the basic composition of the soil composition is grasped by a simple means, and based on the results, necessary and wasteful. The present invention relates to a method for analyzing a soil composition distribution that significantly reduces the cost and labor of soil analysis as a whole by determining the sampling point and the number of samples of soil samples for analysis.
[0002]
[Prior art]
In recent years, there is a relationship with environmental changes due to acid rain problems and the like, and for example, there is an increasing demand for appropriate soil analysis for forest soil, uncultivated agricultural land soil, and the like. In soil analysis, usually, soil samples in the target area are collected and taken back to the laboratory, and various analyzes are performed according to the purpose. Such analysis of soil samples requires preparation of various analyzers and reagents, for example, and in some cases, complicated operations such as classification, measurement, extraction, filtration, and titration of soil particles are also required.
[0003]
For example, when performing a pinpoint soil analysis at a very narrow and limited target point, or even in a target region with a certain extent of spread, the soil composition within the region is uniform. In such cases, a small number of soil samples are sufficient. However, for example, in a vast forest soil exceeding 50 hectares, uncultivated agricultural soil, etc., the target area is wide, and soils with different soil composition are distributed in a complex pattern within the area. There are many cases.
[0004]
[Problems to be solved by the invention]
As described above, when soil analysis is performed on a target area in which different soils with different soil configurations are distributed in a complex pattern, it is usually 1 per unit area (for example, 1 are) in the target area. It was necessary to collect and analyze soil samples at the sample rate. As a result, a large number of soil samples were brought back, and human, time, and cost burdens for their analysis were a major problem.
[0005]
Even if you try to reduce the number of soil samples to reduce this burden, if you set a large unit area per sample, the soil composition distribution map will become roughly proportional and the reliability will decrease. Even if we try to thin out the sampling points, it is impossible because there is no criterion.
[0006]
In connection with these points, it is not unthinkable to apply aerial photography technology from above and robot technology for soil diagnosis, but none of these technologies essentially address the above-mentioned problems. In the former, the information obtained is very limited, and in the latter, there is a restriction that a flat and obstacle-free terrain is required.
[0007]
Therefore, the present invention has a problem to be solved by significantly reducing the cost and labor of soil analysis as a whole by reducing the number of samples of soil samples for analysis in the target area without impairing the reliability of soil analysis. To do. The inventor of the present application has come up with means for solving the above problems based on the following findings (1) and (2).
[0008]
{Circle around (1)} There is a known technique for easily grasping basic types of soil composition such as acidic soil, neutral soil, basic soil and the like derived from basement rocks using γ dose released from the soil as an index. The implementation of this known technique is much easier compared to the analysis of soil samples, so implementation at multiple points is not too much of a burden. By applying this technology, it is possible to easily grasp the distribution of the basic soil composition in the target area.
[0009]
(2) On the other hand, soils having the same basic soil composition type in the same region should have been subjected to the same soil formation history due to weathering, vegetation, etc. The contents or characteristics of the
[0010]
[Means for Solving the Problems]
(Configuration of the first invention)
The configuration of the first invention of the present application (the invention described in claim 1) for solving the above problems is a soil configuration distribution analysis method for analyzing the soil configuration and its distribution in the target area by the following process.
(1) With respect to the target area, gamma dose measurement points are set indiscriminately at a rate of one point per specific unit area within the range of 0.1 are to 1 hectare, and released from the soil at these measurement points. By measuring the γ-dose and creating a γ-dose distribution map of the target area composed of different γ-dose levels in six stages, the distribution of the basic soil composition derived from the basement rock is grasped.
(2) Using the distribution of the basic type of soil as an index, each land with different γ dose levels in the γ dose distribution map as a sampling point of the soil sample, and the soil that is at least one point collected from each of these sampling points Determine the number of samples.
(3) By analyzing the actual contents or characteristics of the soil composition in each soil composition basic type by analyzing the soil sample collected based on the above determination, and applying the analysis result to the γ dose distribution map, the actual soil Understand the composition distribution or create a distribution map.
Here, the expression method is not limited as long as the “γ dose level” substantially means a level of γ-ray intensity, dose, or the like. The γ-ray dose rate level is also an example of a γ dose level.
[0011]
(Configuration of the second invention)
The configuration of the second invention of the present application (the invention according to claim 2) for solving the above problems is that the target area according to the first invention is a forest, uncultivated agricultural land, mountainous land, residential land without land Or it is an analysis method of soil composition distribution which is a land for an industrial park.
[0012]
(Configuration of the third invention)
The configuration of the third invention of the present application (the invention according to claim 3) for solving the above problem is that the γ-dose distribution diagram according to the first invention or the second invention is a space at a height of 1 m from the soil surface. This is a soil composition distribution analysis method expressed as a γ-ray dose rate distribution map as the distribution of γ-ray absorbed dose .
[0018]
[Operation and effect of the invention]
(Operation and effect of the first invention)
The amount of γ radiation emitted from the soil corresponds to the basic soil composition type such as acidic soil, neutral soil, basic soil, etc. derived from the basement rock. For example, “Radioactivity in main rocks in Japan” published in “RADIOISOTOPES, Vol. 48, No. 12 (Dec. 1999)” published by Japan Isotope Association (Hideharu Matsuda, Susumu Matsuda) ) And the like. Therefore, the γ dose distribution map in the target area substantially means a basic distribution map of soil composition such as acidic soil, neutral soil, and basic soil.
[0019]
And the soil which has the same soil composition basic type in the same area (geographic environment) has passed the basically similar soil formation log | history in the influence of weathering, vegetation, etc. Therefore, in soil composition analyzes with various purposes or analysis contents, the actual contents or characteristics of the soil composition that is the purpose of analysis are approximately the same for the sections where the γ dose levels in the γ dose distribution map are the same. Can be considered.
[0020]
In the analysis method of the soil composition distribution of the first invention, (1) a gamma dose distribution map is created in the target area, and the basic composition of soil composition such as acidic soil, neutral soil, basic soil, etc. is grasped (2) Using this distribution as an index, determine the sampling points and the number of samples of necessary and wasteful soil samples, and (3) analyze the soil samples collected in this way to determine the actual soil composition in each soil composition basic type. Analyze content or characteristics. By applying this analysis result to the γ dose distribution map, the actual soil composition distribution can be grasped, or an actual soil composition distribution map can be created.
[0021]
As a result, even if the target area is wide and different soils are distributed in a complex pattern, such as forest soil and uncultivated agricultural soil, it is necessary and wasteful. By collecting and analyzing a small number of soil samples, the soil composition distribution in the target area can be effectively grasped or an effective soil composition distribution map can be created.
[0022]
More specifically, if at least one soil sample is collected and analyzed from each of the lands with different γ dose levels in the γ dose distribution map, the actual contents or characteristics of the soil composition obtained as a result of the analysis can be obtained. It can be spread over the whole area. Since it is only necessary to determine the sampling point and the number of samples of the soil sample that is necessary and wasteful, it is not necessary to collect and analyze an enormous number of soil samples for every fixed unit area in the target area. The score can be dramatically reduced to significantly reduce the cost and effort of soil analysis.
[0023]
(Operation and effect of the second invention)
In the analysis method of the soil composition distribution, the target area is not limited as long as the soil composition basic type derived from the basement rock is maintained. For example, farmland where soil is repeatedly cultivated and areas where soil (importing soil from other areas) is not suitable as target areas, but forests, uncultivated agricultural land, mountains, Non-residential land or industrial park land is a suitable target.
[0024]
(Operation and effect of the third invention)
The form of creating the γ-dose distribution map is arbitrary, but it is preferable to create a distribution map having different γ-dose levels in different stages. In such a distribution map, for example, each section is preferably distinguished by an isoγ dose line corresponding to a contour line in a normal map, or each section is further color-coded.
[0025]
(Operation and effect of the fourth invention)
When creating a γ-dose distribution map composed of sections with different γ-dose levels in a plurality of stages, it is preferable that the γ-dose levels in the sections are divided so that the γ-dose levels differ in six or more stages.
[0026]
(Operation and effect of the fifth invention)
The measurement point of the γ dose is preferably set indiscriminately for every certain unit area in the target area, like the sampling point of the soil sample in the analysis of the soil composition distribution of the conventional method. Since the measurement of gamma dose is very simple and quick compared to the analysis of soil samples, such work does not place much burden on human, time and cost. For example, the time required for measuring the γ dose is about 60 seconds per measurement point.
[0027]
(Operation and effect of the sixth invention)
In the analysis method of the fifth invention, the unit area for setting the measurement point of the γ dose is preferably set within the range of 0.1 are to 1 hectare.
[0028]
(Operation and effect of the seventh invention)
The gamma dose measurement procedure is not particularly limited as long as it suits the purpose, but it is particularly preferable to measure the gamma ray absorbed dose in a space 1 m above the soil surface and express it as a so-called gamma ray dose rate distribution map. preferable. Empirically, it is known that the measurement of gamma ray absorbed dose in a space 1 m above the soil surface better corresponds to the distribution of the soil composition.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the first to seventh inventions will be described. In the following, when simply saying “the present invention”, the first to seventh inventions are collectively indicated.
[0030]
[Target area]
In the soil composition distribution analysis method of the present invention, as the analysis target area, the soil composition basic type derived from the basement rock is maintained (the soil composition basic type is not artificially disturbed). An area is mentioned. More specifically, forests and grasslands in mountains, plains, hills or mountains, small forest areas near cities, commonly called “satoyama”, plowing, and soil imports from other areas (customed land) Agricultural land, etc. that have not yet been carried out, residential land without industrial land, industrial park land, etc. are preferably exemplified.
[0031]
In addition, areas where soil has been repeatedly cultivated (for example, upland fields), areas where soil is being carried in from other areas, etc., are affected by the distribution of basic soil composition derived from basement rocks. It is not preferable. In addition, areas where the soil surface is covered with water (for example, swamps, wetlands, paddy fields) are also preferred as target areas because the transmission of γ rays may be hindered by water and an appropriate γ dose distribution map may not be obtained. Absent.
[0032]
[Measurement of γ dose]
As the γ-dose measuring means, any known γ-ray dose or γ-ray irradiation intensity measuring means such as a γ-ray spectrosurvey meter or a scintillation detector can be used. As a method of using such measurement means, it is preferable from the viewpoint of simplicity and quickness to measure γ dose directly on a local measurement point using a γ-ray spectro-survey meter, etc. The method of measuring the distribution of gamma ray absorbed dose in a space 1 m above the surface better reflects the basic soil composition.
[0033]
However, as described in other arbitrary γ-dose measurement methods, for example, the above-mentioned known literature “radioactivity in main rocks in Japan” (Hideharu Matsuda, Susumu), experiments were conducted by collecting soil samples at measurement points. A method of analyzing the γ-ray dose by taking it back to the room can be arbitrarily adopted. The gamma rays to be measured are attributed to natural radionuclides ( ²³⁸ U series, ²³² Th series and ⁴⁰ K series) contained in the soil.
[0034]
The measurement point of γ dose can be arbitrarily set as required. For example, measurement points may be set at random for all areas to be analyzed, or may be set indiscriminately at a rate of one point per unit area of the target area. When measuring points are set at a rate of one point per unit area, setting the unit area to a specific area within the range of, for example, 0.1 ares to 1 hectare, leaks while reducing wasteful labor. It is more preferable to obtain a γ-dose distribution diagram having no mist.
[0035]
[Γ dose distribution chart]
In creating the γ dose distribution map from the above measurement results, the expression form of the γ dose distribution map is not limited. For example, a measurement value distribution diagram in which measured values of raw data obtained from a measurement device for γ-ray irradiation dose (Coulomb / Kg) or a measurement device for γ-ray absorption dose (Gray) is directly expressed as a distribution map Can be used sufficiently and corresponds to the “γ dose distribution diagram” of the present invention.
[0036]
In addition, a γ dose distribution diagram and a γ ray intensity distribution diagram expressing the result of converting the above measured raw data into a substantial γ ray intensity or γ dose by a predetermined conversion method as a distribution map are also “γ” Corresponds to “Dose distribution chart”. A particularly preferable γ-ray dose distribution diagram is a γ-ray dose rate distribution diagram expressing the distribution of γ-ray intensity (γ-ray dose rate) at a height of 1 m above the ground of the measurement point. This γ-ray dose rate measures the γ dose caused by the natural radionuclide contained in soil having a depth of approximately 30 cm from the soil surface.
[0037]
It is preferable that the γ dose distribution map be expressed so that the γ dose level is composed of different sections in a plurality of stages for determining a sampling point and the number of samples that are necessary and wasteful of soil samples, which will be described later. The “multiple stages” is particularly preferably 6 stages or more in order to grasp the distribution of the basic type of soil composition derived from the basement rock in detail as necessary.
[0038]
[Soil composition basic type]
Soil composition basic type refers to the basic type of soil composition derived from the basement rock of the soil. The most typical types of soil composition are “acidic rock”, “neutral rock”, and “basic rock” in igneous soils. Other examples include alkali-neutral rocks in igneous soils and chemical / biological rocks (carbonated rocks) in sedimentary soils. These basic soil composition types have a corresponding relationship with the γ dose of the soil. In other words, soil that is derived from the basement rock and has not been artificially disturbed can be estimated from the γ-dose measurement result of the soil without analyzing the soil configuration itself.
[0039]
It is very useful data in terms of simple or rough analysis of soil composition distribution, saying that “the basic composition of soil composition (or its distribution) can be estimated from the γ dose measurement results” itself. It can also be used as a soil composition distribution map. However, in the present invention, rather, it is important that “soils having the same γ-dose measurement results can be estimated to have the same basic soil composition type”.
[0040]
An example of correspondence data between soils having several basic types of soil constitution and their γ-ray dose rates is shown below. In this data example as well, the fact that soils with each soil composition basic type show distinct γ-ray dose rates is more important than the absolute value of the gamma radiation dose rate in soil with each soil composition basic type. is there.
[0041]
Igneous acidic soils around 70 (nGY / h) Igneous neutral soils around 40 (nGY / h) around igneous basic soils around 30 (nGY / h) [collecting soil samples]
After creating the above γ dose distribution map, the distribution of the basic soil composition derived from the basement rocks in the target area was ascertained. Determine the number of samples.
[0042]
“Necessary and wasteful” means that at least one soil sample is collected from each section with different γ dose levels in the γ dose distribution map, and the soil samples are collected in duplicate in each section. It means not. This is because soils with the same gamma dose level in the same target area (the same soil composition basic type derived from the basement rock) have the same soil history as long as they are not subject to artificial disturbance. It can be estimated that the actual soil composition and characteristics are approximately the same, so the analysis result of at least one representative soil sample can be applied to other points where the γ dose level is equivalent. Because.
[0043]
Therefore, the smallest number of soil samples can be set, for example, when the γ dose distribution map is composed of six different levels of γ dose levels, only six soil samples, one point from each level. Is to collect.
[0044]
In the case of a specific area belonging to a specific γ-dose level, for example, if any of the following special circumstances are recognized, the soil sample is selected based on the selection of an appropriate sampling point. You may increase the number of sampling points to some extent.
(A) When the division has a relatively large area.
(B) When topographical factors that greatly affect soil history such as the presence of the south and north slopes are recognized in the division.
(C) A case where the division sites are dispersed in a plurality of enclaves in the target area.
[0045]
[Analysis of soil samples]
The analysis contents and analysis methods of the collected soil samples are various in accordance with the actual contents or characteristics of the soil composition, which is the purpose of the soil composition analysis, and cannot be defined uniformly. For example, the purpose of the analysis is simply to distinguish between acidic / neutral / basic soil, composition analysis of organic / inorganic components of soil, or analysis of soil acid-resistant or buffering capacity In, suitable analysis contents and analysis methods of soil samples according to their purpose are arbitrarily adopted.
[0046]
[Analysis of soil composition distribution]
The analysis result of the soil sample described above is applied to the γ dose distribution map as the analysis result of the actual contents or characteristics of the soil composition in each soil composition basic type, thereby grasping the distribution of the actual soil composition in the target area. Or, create a distribution map of actual soil composition in the target area. “Actual soil composition in the target area” means, for example, as described above, distinction between acid / neutral / basic of soil, composition of organic / inorganic components of soil, acid-resistant ability of acid rain, buffer capacity of soil , Etc.
[0047]
The analysis results of these soil composition distributions obtained for a certain target area are based on the analysis of a relatively small number of soil samples that are necessary and wasteful. Even if compared with the analysis result of soil composition distribution obtained based on the analysis of the sample, it is considered to have the same reliability.
[0048]
【Example】
[Example 1]
Measures gamma dose indiscriminately at a rate of about one point for every 50 ares in a target area (forest) of approximately 0.7 square kilometers called “Toyota Forest” in Iwakura, Toyota City, Aichi Prefecture. A total of 150 points were set, and the amount of γ-ray absorption per hour (nGy / h) was measured with a γ-ray spectrosurvey meter in a space 1 m above the soil surface at each measurement point.
[0049]
A γ-ray dose rate distribution diagram summarizing the results is shown in FIG. In FIG. 1, a section where the amount of γ-ray absorption exceeds 75 (nGy / h) is denoted by reference numeral 1, a section which exceeds 70 and is 75 or less is denoted by reference numeral 2, and a section which is greater than 65 and less than 70 3, a section that is more than 60 and less than 65 is denoted by reference numeral 4, a section that is greater than 55 and less than 60 is denoted by reference numeral 5, and a section that is 55 or less is denoted by reference numeral 6.
[0050]
[Example 2]
Γ-ray absorbed dose per hour using a γ-ray spectro-survey meter for the target area (forest) of approximately 1.31 square kilometers in “Aichi Prefecture Satoyama 201-1” in the Umagoshi district, Toyohashi City, Aichi Prefecture ( nGy / h) was measured.
[0051]
The γ-ray dose rate distribution diagram summarizing the results is shown in FIG. In FIG. 2, a section where the absorbed dose of γ-rays exceeds 45 (nGy / h) is denoted by reference numeral 7, a section which exceeds 40 and is equal to or less than 45 is denoted by reference numeral 8, and a section which is greater than 35 and less than or equal to 40 , 9 is a section that is greater than 30 and less than or equal to 35, 10 is a section that is greater than 25 and is 30 or less, and 11 is a section that is 25 or less.
[0052]
Example 3
In the “Toyota Forest” area according to the first embodiment, the two γ-ray dose rate levels are the same rank (divisions indicated by the same reference numerals in FIG. 1) and are not adjacent to each other (A (Area and Area B) were each subjected to soil analysis using fluorescent X-ray analysis. The results are shown below. It is clear that the soil composition of the A district and the B district is very close.
[0053]

[Brief description of the drawings]
FIG. 1 is a γ-ray dose rate distribution diagram according to an embodiment.
FIG. 2 is a γ-ray dose rate distribution diagram according to the example.

Claims (3)

An analysis method of soil composition distribution characterized by analyzing soil composition and distribution in a target area by the following process.
(1) With respect to the target area, gamma dose measurement points are set indiscriminately at a rate of one point per unit area within a range of 0.1 are to 1 hectare, and released from the soil at these measurement points. By measuring the γ-dose and creating a γ-dose distribution map of the target area composed of different γ-dose levels in six stages, the distribution of the basic soil composition derived from the basement rock is grasped.
(2) Using the distribution of the basic type of soil as an index, each land with different γ dose levels in the γ dose distribution map as a sampling point of the soil sample, and the soil that is at least one point collected from each of these sampling points Determine the number of samples.
(3) By analyzing the actual contents or characteristics of the soil composition in each soil composition basic type by analyzing the soil sample collected based on the above determination, and applying the analysis result to the γ dose distribution map, the actual soil Understand the composition distribution or create a distribution map.   2. The soil composition distribution analysis method according to claim 1, wherein the target area is a forest, an uncultivated agricultural land, a mountainous area, a residential land with no customer land, or an industrial park land. 3. The γ-ray dose distribution map is expressed by a γ-ray dose rate distribution map as a distribution of γ-ray absorbed dose in a space 1 m high from the soil surface. Analysis method of soil composition distribution.

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