RU2389015C2

RU2389015C2 - Method of testing of herbs samples

Info

Publication number: RU2389015C2
Application number: RU2008128874/15A
Authority: RU
Inventors: Петр Матвеевич Мазуркин (RU); Петр Матвеевич Мазуркин; Светлана Ивановна Михайлова (RU); Светлана Ивановна Михайлова
Priority date: 2008-07-14
Filing date: 2008-07-14
Publication date: 2010-05-10
Also published as: RU2008128874A

Abstract

FIELD: medicine.

SUBSTANCE: before cutting of above-ground parts of grass the contours of sample area or discount area are marked with size of 1.0×1.0 or 0.5×0.5 m on site of sampling action of herbaceous plants. While cutting the herbs samples are placed in a vessel in the form of a paper bag. After cutting herbs across the whole area a paper bag with samples of herbs is weighed immediately on the scales near the ground. After the first weighing a sample of herbs in a paper bag is placed for natural drying at a dry and windless place. Then as the herbs sample dries out it is repeatedly weighed with a paper bag. According to the results of weighting without regard to the mass of a paper bag time periods of natural drying since the sampling herbaceous plants are set. The quality of herbage is judged by biological time of herbs samples reaching the first and subsequent least values of mass of herbs samples.

EFFECT: improving accuracy of measurement of herbs sample mass in dynamics of natural drying and drying time to a moisture content of air-dry state, increasing the functionality of comparing of herbs sample on discount areas on indicators of loss of moisture in each sample of cut herbs.

10 cl, 16 dwg, 5 tbl, 2 ex

Description

Текст описания приведен в факсимильном виде.

The text of the description is given in facsimile form.

Claims

1. A method for determining the quality of a sample of herbal plants, including placing the sample in a vessel in parts with an increase in its mass, characterized in that prior to cutting off the aerial part of the grass, the contours of the test or reference area of 1.0 × 1.0 or 0.5 × 0 are marked , 5 m at the place of sampling of grass plants, as part of the grass sample is cut off, a paper bag is placed in the vessel, after cutting the grass from the entire area, a paper bag with a sample of grass is immediately weighed on the scales near the site, and after the first weighing, the grass sample in paper bag they are naturally dried in a dry and windless place, then, as the sample dries, the grass with a paper bag is weighed several times, and the results of weighing without taking into account the weight of the paper bag determine the time of natural drying from the moment the sample was taken of the grass plants and the quality of the grass cover is judged by biological time achieving a breakdown of the grass of the first and subsequent minimums of the mass of the grass sample.

2. The method for determining the quality of a sample of grass plants according to claim 1, characterized in that the contours of a site measuring 1.0 × 1.0 or 0.5 × 0.5 m at the place of sampling of grass plants are marked with pegs with a cord stretched between them along sides of the test site, and for multiple grass sampling when studying grass and hay yields on several mowings in the summer season, as well as for environmental monitoring of the impact of various natural, natural and man-made and anthropogenic objects on the grass cover, turn the test site into an inventory site that pegs hammered into the ground are tagged with an area number and other data.

3. The method for determining the quality of a sample of herbal plants according to claim 1, characterized in that, as part of the sample is cut off, the grass is placed in a vessel in the form of a paper bag with the neck of the bag tied to reduce moisture loss in the grass sample before its first weighing, while on the bag they record their own weight, measured before placing the cut grass, and to reduce the time from cutting to the first weighing, portable scales are used for the first weighing directly near the site, the accuracy of which is taken by preliminary searches m experimentation so that weights the error was no more than one percent of the total fresh weight of grass cuttings samples in the first weighing and subsequent weighing performed on stationary electronic precision scales.

4. The method for determining the quality of a sample of herbal plants according to claim 1, characterized in that after the first weighing, a sample of the grass in a paper bag with an open neck is placed for natural drying in a dry and windless place under a canopy or on the veranda of the house, and the storage location should be well ventilated and providing accurate weighing of samples of herbal plants.

5. The method for determining the quality of a sample of herbal plants according to claim 1, characterized in that as the sample is dried, the grass with a paper bag is repeatedly weighed in the following time mode:
a) after the first weighing of at least three days, a sample of grass is weighed at least 10-12 times a day;
b) over the next week, a sample of the grass is weighed at least 5-6 times a day;
c) as the mass of the grass sample approaches a constant value, the sample of dried grass in the same paper bag is weighed at least once a day;
d) after identifying the drying period to the minimum mass, for the reliability of obtaining statistical laws of the change in mass and indicators of the grass sample, the grass sample is weighed at least once a week.

6. The method for determining the quality of a sample of herbal plants according to claim 1, characterized in that according to the results of weighing without taking into account the mass of the paper bag, the terms of natural drying are established from the moment of sampling the grass plants as follows:
a) when the accuracy of the scales is within ± 1-5 g and the size of the site is not less than 1.0 × 1.0 m, the grass sample is naturally dried for at least three weeks;
b) when the error of the scales is less than ± 0.1 g and the size of the site is 1.0 × 1.0 or 0.5 × 0.5 m, in order to achieve high accuracy of the statistical laws of the dynamics of mass and indicators of grass, the duration of natural drying is at least four weeks.

7. A method for determining the quality of a sample of grass plants according to claim 5, characterized in that, as measurements are taken, a tabular model for all samples of grass plants in the study area is built according to the mass of the grass sample without taking into account the mass of the paper bag, while the mass of the sample is placed in rows grass without taking into account the mass of the paper bag indicating the measurement time in the first column, moreover, the time of the first weighing of the grass sample is taken as the zero of the time reference, and the numbers of grass samples are placed in the columns, and all samples are weighed ie approximately the same time in weighing mode in the sequence numbers of herbal plant samples.

8. The method for determining the quality of a sample of grass plants according to claim 7, characterized in that according to the measurements of the mass of the grass sample in dynamics, the biological time of the first and subsequent minimums of the mass of the grass sample is determined in tabular form to reduce the values of the measured mass in columns for each grass sample , therefore, the biological time of moisture loss by the cut off aerial parts of plants for each sample is different and shows the ability to retain moisture in a given sample of grass, therefore, by the time a sample of grass reaches the first and subsequent the minimum mass of the grass sample is used to judge the quality of the grass cover near the trial or reference site.

9. The method for determining the quality of a sample of herbal plants according to claim 1 or 5, characterized in that, as necessary, to identify the general laws of the dynamics of moisture loss and retention of moisture by a cut off sample of plants, mathematical patterns of the dynamics of moisture loss and the achievement of an air-dry state of grass breakdown from wet weight are identified to finished hay air-dry state according to the following formula:
m = m ₁ + m ₂ + m ₃ + m ₄ ,
m ₁ = const, m ₂ = m in ₀ exp (-a ₁ t ^a2 ), m ₃ = A ₁ cos (πt / p ₁ ± a ₉ ),
A ₁ = -a ₃ exp (-a ₄ t ^a5 ), p ₁ = a ₆ ± a ₇ t ^a8 ,
m ₄ = A ₂ cos (π / p ₂ ± a ₁₆ ), A ₂ = a ₉ t ^a10 exp (-a ₁₁ t ^a12 ), p ₂ = a ₁₃ ± a ₁₄ t ^a15 ,
where m is the mass of the grass sample without taking into account the mass of the paper bag per square meter in the dynamics of natural drying (with a platform size of 0.5 × 0.5 m, to calculate the yield of grass, the measured value of the mass of the sample must be multiplied by four), g / m ² ;
m ₁ is the mass of dry hay or grass of an air-dry state, g / m ² ;
m ₂ is the mass of water in a sample of grass in the dynamics of its drying, g / m ² ;
m ₃ - vibrational disturbance of still not dead cells of the cut grass, and the energy of resistance to moisture loss in the cut above-ground part of grass plants decreases in amplitude with time; the greater this component, the more biologically better the grass at the test site or the test site, after reducing this vibrational disturbance, the mass in the hay subsequently changes due to the influence of temperature and humidity of the air surrounding the sample, g / m ² ;
m ₄ - as the grass sample dries, the vibrational return of free water by grass cells in the initial period of natural drying, g / m ² ;
t is the time of natural drying from the moment of cutting the grass sample to the completion of measurements of the mass of the grass sample, hours or days;
m _b0 is the mass of the initial moisture in the grass cover, or rather, the mass of the grass sample at the time of the first weighing (several minutes pass between cutting and weighing, which is enough to evaporate a significant amount of the moisture in the grass), therefore, it should pass between cutting and the first weighing as possible less time, g;
A ₁ - the amplitude (half) of the vibrational perturbation of the cells and intercellular spaces of the sample of the cut grass, changing according to the law of death (decay) of the capillary effect of intercellular moisture, g;
A ₂ - the amplitude (half) of the vibrational disturbance of the cut grass cells, changing according to the law of stress excitation (biotechnical law of Prof. P.M. Mazurkin) of the cellular structures of grass plants, and until their death, the cells try to reanimate the moisture cycle and obtain mineral substances from cells and intercellular spaces of moisture, g;
p ₁ - period (half) of the vibrational disturbance of the intercellular spaces to the loss of moisture by cut plants (does not depend on the temperature and humidity of the atmosphere), hours or days;
p ₂ - period (half) of vibrational disturbance in the near-death convulsions of the cellular structures of cut plants due to the absence of nutrient metabolism and the loss of moisture of mineral nutrients (does not depend on temperature and atmospheric humidity), hours or days;
a ₁ ... a ₁₆ - parameters of the model of the dynamics of the mass of the sample of the cut above-ground part of the grass during natural drying, the values of which depend on the biophysical and other properties of the totality of grass plants that fell into one sample from one trial or reference site from different meadows and pastures (according to these the parameters are compared various samples and judged by them about the whole meadow or pasture, and also judged by the influence of external factors on the results of vital activity of the grass cover at the point of sampling the grass).

10. The method for determining the quality of a sample of herbal plants according to claim 9, characterized in that to determine the dynamics of the natural drying of grass plants in one sample, retention and loss of moisture, perform calculations according to the following dynamics indicators:
the calculated moisture content W _{t of the} cut grass without taking into account wave disturbances in the process of natural drying is determined by the formula
W _t = 100m ₂ / m ₁ ;
the calculated dynamic humidity W _t ^{dyne of the} cut grass, taking into account wave disturbances in the process of natural drying, is calculated as follows:
W _t ^din = 100 (m ₂ + m ₃ + m ₄ ) / m ₁ ;
the maximum calculated humidity W _{t = 0} ^{max of the} cut grass in the sample without taking into account wave disturbances during natural drying has a mathematical expression of the form W _{t = 0} ^max = 100m _v0 / m ₁ ;
the maximum calculated humidity W _{t = 0} ^{dyne max of the} cut grass, taking into account wave disturbances in the process of natural drying, has the form
W _{t = 0} ^{dyn max} = 100 (m _{2 (t = 0)} + m _{3 (t = 0)} + m _{4 (t = 0)} ) / m ₁ ,
where m _{2 (t = 0)} = m _в0 ,
m _{3 (t = 0)} , m _в0 - initial calculated values for the third and fourth components of the model for the dynamics of the sample mass of grass plants, g;
the total coefficient of wave dynamics k of the natural drying of the grass sample is characterized by an equation of the form k = (m ₃ + m ₄ ) / (m ₁ + m ₂ );
the total coefficient k of ^{drying the} dynamics of the process of drying the grass to hay (or retaining a breakdown of moisture in the cells) with the active resistance of dying cells, as well as moistening hay when stored under a canopy from temperature and humidity of the atmosphere after the drying period to the finished hay, is shown by the expression k ^drying = ( m ₃ + m ₄ ) / m ₁ ;
dynamic coefficient k _{c the} resistance of the grass sample to the loss of intercellular moisture and the preservation (retention) of the capillary effect of transporting nutrient mineral substances from the soil (the effect of the sucking force of grass cells on the effect of the sucking force of atmospheric air) is determined by
k _c = m ₃ / m ₁ ;
the dynamic coefficient k _{vl of} extracting intracellular water from the cut above-ground part of the grass during natural drying due to the resistance of plant cells to extinction at the initial stages of natural drying of the grass sample is determined by the formula
k _ow = m ₄ / m ₂ .