RU2392617C1 - Method for testing herbage bands in minor river flood lands - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention relates methods for study of landscapes of minor rivers within a water protection band and may be used for biotechnical and biochemical evaluation of herbage in flood land meadows and for accounting for anthropogenic factors influence on grass yield. Within the water protection band of a minor river one marks a flood land meadow plot in the form of grass bands. At the end of each grass band test areas are arranged. One measures the distance from the centre of each test area to the water surface margin. After grass samples has been cut it is tested. By the testing results one identifies regularities in change of grass properties biophysical and biochemical indices.

EFFECT: improved precision of results.

8 cl

Description

The invention relates to landscapes of small rivers with natural vegetation within the water protection strip and can be used for biotechnological and biochemical assessment of grass cover in floodplain meadows and forest meadows. The technical solution can also be applied when taking into account the impact on the yield and other properties of grass of anthropogenic factors, for example, hydraulic structures, communication facilities and product pipelines located inside the water protection zone, as well as settlements and agricultural land located outside the water protection zone of the small river.

There is a method of distributing vegetation and testing grass cover on a floodplain according to Academician V. R. Williams [Mosolov V. P. Perennial grasses and agrotechnical basis of crop rotation / V.P. Mosolov. - Works. - Volume III. - M .: Gosselkhozizdat, 1953. - 536 p., P. 68], which includes the correct combination of woody vegetation with perennial herbaceous plants to combat soil erosion in a river valley. Forest plays an exceptional role in the fight against soil erosion. On afforested slopes, soil erosion is observed to a minimum.

According to the academician V.R. Williams himself [Williams V.R. Collected works. Volume Four: Meadow Cultivation (1901-1933) / V.R. Williams. - M .: State. publishing house of agricultural enterprises. Liters, 1949. - 502 p., p. 91] the lower parts of the slopes and river valleys provide the best conditions for the growth and development of meadow grass. Here it reaches such a degree of development that it completely suppresses the natural regeneration of woody plants of forest plant communities. Due to the predominance of mycotrophic type of food on floodplain meadows, even plants of the steppe grass formation do not find conditions for their growth here.

The structure of phytocenoses and the distribution of vegetation across the river and its floodplains were considered in detail by the academician V. R. Williams in the book [V. Williams. Selected Works / V.R. Williams; Ed. V.P. Bushinsky. Volume III The scientific basis of meadow farming (1922-1933). - M .: Publishing House of the Academy of Sciences of the USSR, 1955. - 1008 p., P. 734-747, 898-905].

The disadvantage of this method is the low accuracy of assessing the quality of a floodplain meadow, that is, a plant formation along river banks, especially grass cover within the water protection zone of a small river. As a result, by analogy, it is not possible to quantitatively measure grass cover on the most vulnerable coastal relief of the river valley, which is the water-protection strip of a small river.

There is also a method of measuring grass cover on the catchment area according to the length and fall of tributaries according to patent No. 2293290, MKI G01C 13/00, including measuring the length of tributaries and the catchment area of river tributaries, as well as the fall of tributaries as the height difference between their sources and mouths, distribution of tributaries by distinguishing groups on the presence of vegetation in the territories of the river basin and its tributaries, an assessment of the influence of the orographic features of the relief and landscape located on the territory of the tributary watershed.

The disadvantage is the use of measurements only by visual estimation of the catchment area as a whole for each tributary by the presence of vegetation cover. Therefore, the influx of a small river is considered entirely by the catchment area, without dividing into strips along the small river - a water protection strip and a water protection zone.

EFFECT: increased accuracy of measurements based on the results of testing grass samples within the water protection zone of a small river and increased functionality to identify patterns of influence of topography parameters and anthropogenic long-term effects on meadow grass productivity and soil productivity on a small river floodplain or its individual inflow within the water protection zone .

This technical result is achieved by the fact that the method of testing the stripes of grass cover on the floodplain of a small river, including measuring the length of the tributaries and the catchment area of the river tributaries, as well as the fall of the tributaries as the height difference between their sources and mouths, the distribution of the tributaries according to the distinctive groups by the presence of vegetation cover the territories of the catchment areas of the river and its tributaries, the assessment of the influence of the distinctive orographic features of the relief and landscape of the tributaries located on the catchment area is different in that three water-protection strips of a small river or its tributary distinguish a section of a floodplain meadow with a test grass cover in the form of grass strips, then test plots are marked on each grass strip along the water-protection stripe, after marking, measure the distance from the center of each test site to the edge of the water mirror of a small river or the inflow, in addition, measure the height of the center of each test site from the surface of a small river or its inflow, and after cutting the grass sample is subjected to tests and the test results reveal patterns of changes in biophysical and biochemical parameters of properties in grass samples.

Inside the water protection strip of the small river or its tributary, a section of the floodplain meadow with the tested grass strips to hay is visually distinguished, and in the minimum case, three grass strips along the course of the small river or its tributary at least 10 m wide are left-bank, riverine along the coastal edges of the small river or its tributary and the right bank.

Over the course of a small river or its tributary, bends and other forms of channel formation of a small river or its tributary are taken as natural characteristic places.

On each grass strip in characteristic places without the use of temporary hydrometric gauges mark at least one test site in a given cross section of the waterproof strip.

When using temporary hydrometric gauges in the measurements of grass strips, at least three gauges are marked in the transverse direction within the water protection strip with the distances between them along the course of the small river or its tributary no more than 100 times the width of the water mirror in the summer low water, and the test sites are located on gaps of at least 10 m between each other and from the edge of the water mirror of coastal test sites.

At least three test sites on each side of the small river or its tributary are marked along each gauging site, taking into account the location of grass strips, and the numbering of test sites is carried out from the left bank to the right when the observer is facing the stream of the small river or its tributary.

After marking, the distances from the edge of the water mirror at about the summer low water to the centers of the test sites are measured with an accuracy of 0.1 m.

The height of the center of each test site from the surface at about a summer low water near a small river or its tributary is measured using geodetic instruments with an accuracy of one centimeter, and measurements of this relief parameter in other seasons of the year are performed using constant reference marks.

The contours of each test site at the place of sampling of grass plants are marked with pegs with a cord stretched between them on the sides of the test site, oriented relative to the borders of the grass strip, and for multiple sampling of grass when studying the yield of grass and hay by several mowing in the summer season on grass strips, as well as for environmental monitoring of the impact of various natural, natural-anthropogenic and anthropogenic factors of objects on the grass cover in strips, turn the test site into the area by the fact that long-term pegs hammered into the soil provide marks with the number of the registration area and other data common to each grass strip.

According to the test results, the patterns of the influence of the transverse distance from the edge of the water mirror to the centers of the test sites and the height of the test sites above the water edge on the biophysical and biochemical parameters of the grass samples are revealed, and the influence of the distinctive orographic features of the coastal relief along the grass strips and located inside and outside the water protection zone of natural and man-made objects.

The essence of the invention lies in the fact that from the area of the catchment area of a small river along its separate tributary, they pass to the measurement object in the form of a standardized section along the tributary in the form of a water protection strip. In this case, not all the width of the water protection strip established by the standards is taken into account, but at least only three narrow strips of grass cover: left-bank coastal and right-bank widths of at least 10 m. Permanent or temporary test sites and plots of various sizes are laid within these grass strips (for example sites 0.50 × 0.50, 1.00 × 1.00, 2.00 × 2.00 or sections 4.0 × 4.0, 5.0 × 5.0 and even 10.0 × 10, 0 and 20.0 × 20.0 m, where the number of decimal places means the required measurement accuracy of the sides of the test site) for testing meadow grass samples.

The essence of the invention lies in the fact that at least one test site located in each grass strip becomes the basis of multifactorial observations, and many test sites distributed at least three grass bands along a small river in a floodplain meadow area become constant or temporary test site. In the dynamics of the growing season and the hydrological year, it becomes possible to assess the influence of the hydrological regime of the river on grass productivity from a variety of points measured relative to the mirror of water in the river along grass strips.

The essence also lies in the fact that the specific grass yield at each test site depends not only on the relief parameters relative to the water edge in the river during the summer low water and not only on the direct and indirect influence of anthropogenic influences, but also on the location of the longitudinal grass strip across the river on floodplain meadow.

The positive effect is that as the number of test sites on each grass strip increases, it becomes possible to quantitatively describe the territory of the entire water protection strip in the form of a digital model in whole or in parts in the form of grass strips. The practical effect is achieved by the fact that test sites can be located in arbitrary or characteristic places of each grass strip without laying even temporary hydrometric gauges. This is based on the fact that the most significant influence on the biophysical and biochemical properties of meadow grass is exerted by the height of the test site above the edge of the river surface than the distance between the edge of the water mirror to the centers of the test sites. Therefore, on river floodplains with a flat relief, even one centimeter of grass elevation above the water edge in a small river affects the content of solids and chemical compounds in the grass sample than tens of meters of distance along the gentle slope of the river valley.

Thus, the proposed technical solution has significant features, novelty and a positive effect. In the scientific, technical and patent literature, information materials discrediting the novelty of the invention have not been found.

An example of the practical implementation of the proposed method is shown with three temporary hydrometric gauges inside the water protection strip (border along the lines) of the small Irovka River, which flows into the Ilet River and then into the large Volga, near the village of Yandemirovo, Paranginsky municipal district of the Mari El Republic.

Figure 1 shows a schematic map of a temporary hydrometer gauge I inside the boundaries of the water protection strip of the Irka River in the upper part of the dam; in Fig.2 - the same in Fig.1 for measuring alignment II downstream of a small river near a bend; in Fig.3 - the same in Fig.1 for measuring alignment III is even lower downstream of the small river after the dam; figure 4 shows the location of the centers of the test sites 1 ... 6 (vertical dash-dotted lines) relative to the water edge; figure 5 - the same as in figure 4 along the alignment II of the test sites 7 ... 12; in Fig.6 - the same as in Fig.4 along the alignment III of the test sites 13 ... 19; Fig.7 shows a top view of the location of the test sites 1 ... 6 along the first hydrometric gauge with dashed lines of the boundaries between the grass strips; in Fig.8 is the same as in Fig.7, a top view of the location of the test sites 7 ... 12 along the second alignment with dashed lines of the boundaries between the grass strips extending from the previous alignment; in Fig.9 is the same as in Fig.7, a top view of the location of the test sites 13 ... 18 along the third temporary hydrometric alignment of the small river with dashed border lines between the ongoing grass strips.

A method for testing stripes of grass cover on a small river floodplain from test sites measuring 1.00 × 1.00 or 0.50 × 0.50 m located on grass strips across the floodplain meadow of a small flat river includes such actions.

First, grass cover is visually examined in the given floodplain meadow territory and places with grass strips inside the water protection strip on the left and right sides along the course of the small river or its tributary are marked.

Inside the water protection strip of the small river or its tributary, a section of the floodplain meadow with the test grass cover in the form of grass strips is distinguished, then test sites along the water protection strip are marked on each grass strip, after marking, the distances from the center of each test site to the edge of the water mirror of the small river or its inflow, in addition, measure the height of the center of each test site from the surface of a small river or its inflow, and after cutting the grass sample, it is subjected to tests and, according to the test results, ie patterns of change in the biophysical and biochemical properties of indicators in samples of grass.

Inside the water protection strip of the small river or its tributary, a section of the floodplain meadow with the tested grass strips to hay is visually distinguished, and in the minimum case, three grass strips along the course of the small river or its tributary at least 10 m wide are left-bank, riverine along the coastal edges of the small river or its tributary and the right bank.

Over the course of a small river or its tributary, bends and other forms of channel formation of a small river or its tributary are taken as natural characteristic places.

On each grass strip in characteristic places without the use of temporary hydrometric gauges mark at least one test site in a given cross section of the waterproof strip.

When using temporary hydrometric gauges in measurements of grass strips, at least three gauges are marked in the transverse direction within the water protection strip with the distances between them along the course of the small river or its tributary no more than 100 times the width of the water mirror in the summer low water, and the test sites are located on gaps of at least 10 m between each other and from the edge of the water mirror of coastal test sites.

At least three test sites on each side of the small river or its tributary are marked along each gauging site, taking into account the location of grass strips, and the numbering of test sites is carried out from the left bank to the right when the observer is facing the stream of the small river or its tributary.

After marking, the distances from the edge of the water mirror at about the summer low water to the centers of the test sites are measured with an accuracy of 0.1 m.

The height of the center of each test site from the surface at about a summer low water near a small river or its tributary is measured using geodetic instruments with an accuracy of one centimeter, and measurements of this relief parameter in other seasons of the year are performed using constant reference marks.

The contours of each test site at the place of sampling of grass plants are marked with pegs with a cord stretched between them on the sides of the test site, oriented relative to the borders of the grass strip, and for multiple sampling of grass when studying the yield of grass and hay by several mowing in the summer season on grass strips, as well as for environmental monitoring of the impact of various natural, natural-anthropogenic and anthropogenic factors of objects on the grass cover in strips, turn the test site into the area by the fact that long-term pegs hammered into the soil provide marks with the number of the registration area and other data common to each grass strip.

According to the test results, the patterns of the influence of the transverse distance from the edge of the water mirror to the centers of the test sites and the height of the test sites above the water edge on the biophysical and biochemical parameters of the grass samples are revealed, and the influence of the distinctive orographic features of the coastal relief along the grass strips and located inside and outside the water protection zone of natural and man-made objects.

A method for testing stripes of grass cover on at least three grassbands on a small river floodplain from test sites 1.00 × 1.00 m in size located across the small river within the water protection strip across the floodplain meadow of a small plain river along at least three temporary hydrometric sections, taking into account the influence of hydraulic structures and the settlement, includes such actions.

First, grass cover in a floodplain meadow is studied visually or on a map and its location relative to a river and other natural, natural, man-made and anthropogenic objects is noted. Then, in the meadow, places for sampling grass are marked inside each curved grass strip within the water protection strip. And for grass cover on the territory of the meadow, places for sampling are also planned for temporary hydrometric gauges of a small river, located in characteristic places along the course of the river.

After marking, measure the distance from the center of each test site to the edge of the water mirror of a small river or its tributary, in addition, measure the height of the center of each test site from the surface of a small river or its tributary, and after cutting the grass sample, test it and determine the biophysical regularities according to the test results and biochemical properties indicators for grass samples.

Over the course of a small river or its tributary, bends and other forms of channel formation of a small river or its tributary are taken as natural characteristic places.

When using temporary hydrometric gauges in the measurements of grass strips, at least three gauges are marked in the transverse direction within the water protection strip with the distances between them along the course of the small river or its tributary no more than 100 times the width of the water mirror in the summer low water, and the test sites are located on gaps of at least 10 m between each other and from the edge of the water mirror of coastal test sites.

At least three test sites on each side of the small river or its tributary are marked along each gauging site, taking into account the location of grass strips, and the numbering of test sites is carried out from the left bank to the right when the observer is facing the stream of the small river or its tributary.

According to the test results, the patterns of the influence of the transverse distance from the edge of the water mirror to the centers of the test sites and the height of the test sites above the water edge on the biophysical and biochemical parameters of the grass samples are revealed, and the statistical patterns are also used to assess the influence of the distinctive orographic features of the coastal relief along the grass strips and located inside and outside the water protection zone of natural and man-made objects.

The proposed method is simple in practical implementation due to the fact that the territories of the water protection strip at all rivers and their tributaries in our country are laid out in kind. Therefore, the allocation of grass strips repeating the geometry of the channel of a small river or its tributary does not cause difficulties. Such a division of the water-protection strip along both birches into grass strips allows one to learn about the behavior of the grass cover of the floodplain meadow by the totality of grass samples located on the grass strips, and through this about the behavior of the grass cover of the floodplain meadow as a whole.

Claims (8)

1. A method of testing stripes of grass cover on the floodplain of a small river, including measuring the length of the tributaries and the catchment area of the river tributaries, as well as the fall of the tributaries as the height difference between their sources and estuaries, the distribution of tributaries by distinctive groups according to the presence of vegetation in the territories of the river catchment basins and its tributaries, an assessment of the influence of the distinctive orographic features of the relief and landscape located on the territory of the tributary catchment, characterized in that within the water protection strip of a small river or its in characteristic places, a section of a floodplain meadow with a test grass cover in the form of grass strips is distinguished, moreover, along the course of a small river or its tributary, bends, other forms of channel formation are taken for natural characteristic places, and bridges, hydraulic structures and other structures, borders are taken for artificial characteristic places the territory of the settlement, then on each grass strip mark test sites along the water protection strip, and on each grass strip in characteristic places without the use of temporary at least one test site is marked with hydrometric sections, and at least three sections at each side of the small river or its tributary are marked with the use of temporary hydrometric sections in the measurements of grass strips, taking into account the location of the grass strips; after marking, the distances from the center of each test site to the edge of the mirror are measured water of a small river or its tributary, in addition, measure the height of the center of each test site from the surface of a small river or its tributary, and after cutting a sample of grass, they are tested iyam and the test results reveal patterns of change in the biophysical and biochemical properties of indicators in samples of grass. 2. The method of testing grass cover on the floodplain of a small river according to claim 1, characterized in that within the water-protection strip of a small river or its tributary, a section of a floodplain meadow with test grass stripes to haymaking is visually distinguished, and in the minimum case, three grass stripes are distinguished along the flow of a small a river or its tributary with a width of at least 10 m - left-bank, riverine along the coastal edges of a small river or its tributary, and right-bank. 3. The method of testing stripes of grass cover on the floodplain of a small river according to claim 1, characterized in that when using temporary hydrometric gauges in measuring grass strips, at least three gauges are marked in the transverse direction within the water protection strip with distances between them along the course of the small river or its inflow is not more than 100 times the width of the water mirror in the summer low water, and the test sites are located at intervals of not less than 10 m from each other and from the edge of the water mirror of the coastal test sites. 4. The method of testing stripes of grass cover on the floodplain of a small river according to claim 3, characterized in that at least three test plots on each side of the small river or its tributary are marked along each hydrometric gauge, taking into account the location of the grass strips, and the numbering of trial plots is carried out from the left bank to the right when the observer is facing upstream of a small river or its tributary. 5. The method of testing stripes of grass cover on the floodplain of a small river according to claim 1, characterized in that after marking, measure the distance from the edge of the water mirror at about a summer low water to the centers of the test sites with an accuracy of 0.1 m. 6. The method of testing strips of grass cover on the floodplain of a small river according to claim 1, characterized in that the height of the center of each test site from the surface at about a summer low water near a small river or its tributary is measured using geodetic instruments with an accuracy of one centimeter, moreover measurements of this relief parameter in other seasons of the year are performed using constant reference marks. 7. The method of testing strips of grass cover on the floodplain of a small river according to claim 1, characterized in that the contours of each test site at the place of sampling of grass plants are marked with pegs with a cord stretched between them on the sides of the test site, oriented relative to the borders of the grass strip, and for multiple sampling of grass when studying the yield of grass and hay on several mowings in the summer season on grass strips, as well as for environmental monitoring of the impact of various natural, natural and man-made and anthropogenic the gene factors of the objects on the grass cover in strips, turn the test site into a reference site in that long-term pegs hammered into the soil are provided with marks with the number of the registration area and other data common to each grass strip. 8. The method of testing stripes of grass cover on the floodplain of a small river according to claim 1, characterized in that according to the test results reveal patterns of influence of the transverse distance from the edge of the water mirror to the centers of the test sites and the height of the test sites above the water edge on the biophysical and biochemical parameters of the samples grass, and according to the identified statistical patterns, they also assess the impact of the distinctive orographic features of the coastal relief along the grass strips and the waters located inside and outside the territory protective strip of natural and man-made objects.