CN114668010A - Pollen polysaccharide extract and application thereof in promoting plant growth - Google Patents
Pollen polysaccharide extract and application thereof in promoting plant growth Download PDFInfo
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- CN114668010A CN114668010A CN202210366186.7A CN202210366186A CN114668010A CN 114668010 A CN114668010 A CN 114668010A CN 202210366186 A CN202210366186 A CN 202210366186A CN 114668010 A CN114668010 A CN 114668010A
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Images
Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N43/00—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds
- A01N43/02—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one or more oxygen or sulfur atoms as the only ring hetero atoms
- A01N43/04—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one or more oxygen or sulfur atoms as the only ring hetero atoms with one hetero atom
- A01N43/14—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one or more oxygen or sulfur atoms as the only ring hetero atoms with one hetero atom six-membered rings
- A01N43/16—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one or more oxygen or sulfur atoms as the only ring hetero atoms with one hetero atom six-membered rings with oxygen as the ring hetero atom
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07J—STEROIDS
- C07J73/00—Steroids in which the cyclopenta[a]hydrophenanthrene skeleton has been modified by substitution of one or two carbon atoms by hetero atoms
- C07J73/001—Steroids in which the cyclopenta[a]hydrophenanthrene skeleton has been modified by substitution of one or two carbon atoms by hetero atoms by one hetero atom
- C07J73/003—Steroids in which the cyclopenta[a]hydrophenanthrene skeleton has been modified by substitution of one or two carbon atoms by hetero atoms by one hetero atom by oxygen as hetero atom
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- Life Sciences & Earth Sciences (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Pest Control & Pesticides (AREA)
- Agronomy & Crop Science (AREA)
- Plant Pathology (AREA)
- Engineering & Computer Science (AREA)
- Dentistry (AREA)
- Wood Science & Technology (AREA)
- Zoology (AREA)
- Environmental Sciences (AREA)
- Agricultural Chemicals And Associated Chemicals (AREA)
Abstract
The invention relates to a pollen polysaccharide extracting solution and application thereof in promoting plant growth, belonging to the technical field of agriculture. The technical problem to be solved by the invention is to provide a pollen polysaccharide extracting solution, which is prepared by the following method: mixing rape pollen and water, heating, stirring, extracting, filtering, mixing filtrates, adding chitosan into the filtrate to obtain a liquid to be clarified, maintaining the liquid to be clarified at 60-80 ℃ for at least 1 hour, cooling, standing, and performing solid-liquid separation to obtain a liquid, namely a pollen polysaccharide extracting solution. The pollen polysaccharide extracting solution has good effect of promoting the growth of plant roots or stems and leaves, and the preparation method is simple, safe and environment-friendly; the invention can fully utilize the by-products in the brassinolide production process, changes waste into valuable, has extremely low cost and can generate larger environmental and economic benefits. The invention firstly uses the pollen polysaccharide in the agricultural field, expands the application field of the pollen polysaccharide and simultaneously provides a new choice for the plant source biological stimulant.
Description
The application is a divisional application of an invention patent application with the application number of 202010065033X, the application date of 2020, 1 month and 20 days, and the name of the invention patent application is pollen polysaccharide extract and application thereof in promoting plant growth.
Technical Field
The invention relates to a pollen polysaccharide extracting solution and application thereof in promoting plant growth, belonging to the technical field of agriculture.
Background
In agricultural production, it is sometimes necessary to use growth promoters to promote plant growth, including promoting plant root growth and promoting the growth of stems, leaves, etc. of aerial parts of plants. At present, the more safe growth-promoting agent applied in the market is Brassinolide (BR), natural brassinolide is generally obtained by extracting rape pollen with alcohol, the extraction rate is not high, and the cost of the brassinolide is high. However, nearly 40 brassinolide substances are found, of which the biological activity is high, and only four or five substances with practical value are found, and although artificial synthesis and manufacturing are realized, the synthesis cost is high.
The company has a research on the natural brassin extraction process for nearly 30 years, successfully develops a new green and environment-friendly process for extracting the natural brassin from rape pollen and obtains domestic invention patents and United states and Australian international PCT invention patents. The invention finds that the byproduct pollen polysaccharide generated in the natural brassin extraction process has good promotion effect on the growth of crops, and has good promotion effect on roots, stems, leaves and the like of the crops in a certain concentration range by spraying or irrigating the roots on the leaves. The components in the product are detected, and the by-product contains various components such as carbohydrate, protein, amino acid and lipid. At present, most of research reports about rape pollen polysaccharide are in the fields of food and medicine, and no research is found in the field of agriculture.
Disclosure of Invention
The technical problem to be solved by the invention is to provide the pollen polysaccharide extracting solution, which has extremely low extraction cost and can promote plant growth.
The pollen polysaccharide extracting solution is prepared by the following method:
mixing rape pollen and water, heating, stirring, extracting for at least one time, filtering, mixing filtrates, adding chitosan into the filtrate to obtain a liquid to be clarified, maintaining the liquid to be clarified at 60-80 ℃ for at least 1 hour, cooling, standing, and performing solid-liquid separation to obtain a liquid, namely a pollen polysaccharide extract.
Preferably, the stirring temperature is 60-70 ℃, the stirring time is 3-5 h, and the stirring speed is 3000-4000 r/min during each extraction.
Preferably, the water is soft water.
Preferably, the rape pollen and the water are mixed according to the weight ratio of 1: 1.5-5 in each extraction; preferably, the rape pollen and the water are mixed according to the weight ratio of 1: 2.
Preferably, the extraction is performed twice by heating and stirring.
Preferably, the concentration of the chitosan in the liquid to be clarified is 0.01-0.15 wt%; preferably, the concentration of the chitosan is 0.05-0.1 wt%; more preferably, the concentration of chitosan is 0.08 wt%.
Preferably, the solution to be clarified is maintained at 70 ℃ for 1 hour.
The second technical problem solved by the invention is to provide a plant source biological stimulant.
The botanical biostimulation agent is prepared by concentrating the pollen polysaccharide extracting solution and adding agriculturally acceptable auxiliary materials.
The invention also provides application of the pollen polysaccharide extracting solution in agriculture.
The invention also provides application of the pollen polysaccharide extracting solution or the plant source biological stimulator in promoting plant root growth.
Preferably, the pollen polysaccharide extract or the plant-derived biostimulant is applied to the roots of plants at the time of use.
Further preferably, the plant is a vegetable, a fruit tree or a flower.
Preferably, the plant is wheat, lettuce, celery, orange, kiwi fruit or tea tree.
The invention also provides application of the pollen polysaccharide extracting solution or the plant source biological stimulator in promoting plant growth.
Preferably, the pollen polysaccharide extract or plant source biological stimulant is sprayed on plant leaf surfaces or applied to plant roots when in use.
Further, the plant is a vegetable or fruit tree.
Preferably, the plant is baby cabbage, asparagus lettuce, Shanghai green, orange, kiwi fruit, cherry or apple.
Compared with the prior art, the invention has the following beneficial effects:
1) the invention adopts a method of clarifying after water extraction to obtain the pollen polysaccharide extracting solution, the pollen polysaccharide extracting solution has good effect of promoting the growth of plant roots or stems and leaves, and the preparation method is simple, safe and environment-friendly.
2) The invention can fully utilize the by-products in the brassinolide production process, changes waste into valuable, has extremely low cost and can generate larger environmental and economic benefits.
3) The invention firstly uses the pollen polysaccharide in the agricultural field, expands the application field of the pollen polysaccharide and simultaneously provides a new choice for the plant source biological stimulant.
Drawings
FIG. 1 shows the extraction process of pollen polysaccharides in example 1 of the present invention.
FIG. 2 is a photograph showing the test procedures in test example 1 of the present invention, wherein the upper left is the germination and seed soaking of wheat, the upper right is the germination and growth process of wheat (day 2), the lower left is the germination and growth process of wheat (day 8), and the lower right is the survey record of the test.
Detailed Description
The pollen polysaccharide extracting solution is prepared by the following method:
mixing rape pollen and water, heating, stirring, extracting for at least one time, filtering, mixing filtrates, adding chitosan into the filtrate to obtain a liquid to be clarified, maintaining the liquid to be clarified at 60-80 ℃ for at least 1 hour, cooling, standing, and performing solid-liquid separation to obtain a liquid, namely a pollen polysaccharide extract.
The extraction method of the pollen polysaccharide extracting solution is simple, toxic organic reagents are not needed in the extraction process, the pollen polysaccharide extracting solution is safe, environment-friendly and low in cost, is derived from byproducts in the extraction process of natural brassin, is extremely low in cost, and has a remarkable growth promoting effect on roots, stems, leaves and the like of crops.
In order to better destroy cell walls and fully dissolve out polysaccharide, preferably, the stirring temperature is 60-70 ℃, the stirring time is 3-5 hours, and the stirring speed is 3000-4000 r/min during each extraction.
Preferably, the stirring time is 4 h.
Preferably, the water is soft water. Soft water refers to water containing no or less soluble calcium and magnesium compounds. Generally, the contents of calcium and magnesium ions in water are expressed by the index "hardness". Hardness 1 degree corresponds to 10 mg of calcium oxide per liter of water. Water below 8 degrees is called soft water. Soft water can be prepared by methods conventional in the art.
The pollen polysaccharide in rape pollen is soluble in water, so that the invention adopts a water extraction method, if the water consumption is too low, the defect of low extraction rate of the pollen polysaccharide exists, and if the water consumption is too much, the cost of later-stage concentration is higher. Therefore, preferably, the rape pollen and the water are mixed according to the weight ratio of 1: 1.5-5 in each extraction. Preferably, the rape pollen and the water are mixed according to the weight ratio of 1: 2.
In order to extract the pollen polysaccharide in the rape pollen as much as possible, simultaneously consider the extraction efficiency, reduce the impurity removal difficulty in the natural brassin extraction process and reduce the energy consumption and the cost, the preferable method is to heat, stir and extract twice.
Mixing filtrates, adding chitosan, clarifying, and removing impurities in pollen polysaccharide. Preferably, the concentration of the chitosan in the liquid to be clarified is 0.01-0.15 wt%; preferably, the concentration of the chitosan is 0.05-0.1 wt%; more preferably, the concentration of chitosan is 0.08 wt%.
Preferably, the solution to be clarified is maintained at 70 ℃ for 1 hour.
The botanical biostimulation agent is prepared by concentrating the pollen polysaccharide extracting solution and adding agriculturally acceptable auxiliary materials.
The extractive solution can be prepared into various common dosage forms according to conventional production method in preparation processing field, for example, concentrating the extractive solution, mixing with one or more adjuvants, and making into aqua, soluble agent, powder, granule, etc. according to requirement.
The degree of concentration can be determined by the skilled person, inter alia, on the basis of the amount of water added at the time of extraction and the final requirements of the product.
In order to stabilize the product and facilitate transportation and storage, auxiliary materials are required to be added to prepare corresponding formulations, and the auxiliary materials which are acceptable in the agriculture can be conveniently applied to plants after being concentrated and prepared with the pollen polysaccharide extracting solution, or are favorable for storage, transportation or use after being added. The adjuvants may be conventional in the art, such as dispersing agents, wetting agents, binders, emulsifiers, stabilizers, solvents, and the like.
The invention provides application of the pollen polysaccharide extracting solution in agriculture. Different from the application of the existing pollen polysaccharide in the fields of food and medicine, the invention discovers for the first time that the pollen polysaccharide extracting solution can be used in agriculture to promote the growth of plants.
The invention also provides application of the pollen polysaccharide extracting solution or the plant source biological stimulator in promoting plant root growth.
The pollen polysaccharide extract or the plant source biological stimulator can promote the growth of plant roots.
Preferably, the pollen polysaccharide extract or the plant-derived biostimulant is applied to the roots of the plant at the time of use. The application concentration is controlled to be 0.3-1 ppm by the concentration of crude polysaccharide in the pollen polysaccharide extract or the plant source biological stimulant. The amount of the soil conditioner is preferably such that the soil in the plough layer can be completely wetted.
Preferably, the plant is a vegetable, a fruit tree or a flower. More preferably, the plant is wheat, lettuce, celery, citrus, kiwi or tea.
The pollen polysaccharide extract or the plant source biological stimulator can promote plant growth, namely the growth of overground parts of plants including stems and leaves.
Preferably, the pollen polysaccharide extract or plant source biological stimulant is sprayed on plant leaf surfaces or applied to plant roots when in use. The application concentration of the composition is controlled to be 0.75-12 ppm by the concentration of crude polysaccharide in a pollen polysaccharide extracting solution or a plant source biological stimulant; preferably, the concentration of crude polysaccharide in the pollen polysaccharide extracting solution or the plant source biological stimulant is controlled to be 1.5-8 ppm; more preferably, the concentration of crude polysaccharide in the pollen polysaccharide extract or the plant-derived biostimulant is controlled to 3 ppm. The application amount is a conventional amount, and for example, when spraying, it is preferable that the foliage is fully moistened without dripping water downward.
Preferably, the plant is a vegetable or fruit tree. More preferably, the plant is baby cabbage, asparagus lettuce, Shanghai green, orange, kiwi fruit, cherry or apple.
The following examples are provided to further illustrate the embodiments of the present invention and are not intended to limit the scope of the present invention.
Example 1
Mixing rape pollen and soft water at a weight ratio of 1:2, heating and stirring for extraction twice, wherein the stirring temperature is 65 ℃ and the stirring time is 4h, the stirring speed is 3500r/min, stirring and filtering are carried out, namely desugared pollen 2 is obtained, the desugared pollen 2 is used for extracting brassinolide, and after the filtrates (namely pollen polysaccharide filtrate 1 and pollen polysaccharide filtrate 2) are combined, chitosan is added for clarification. Controlling the chitosan concentration in the solution to be clarified, reacting the solution to be clarified in 70 deg.C water bath for 1 hr, standing at room temperature for 24 hr, collecting supernatant as clarified solution, filtering, and concentrating under reduced pressure to 1/4 based on the weight of the solution before concentration to obtain pollen polysaccharide extract.
The components of the pollen polysaccharide extract were measured, and the results are shown in Table 1.
TABLE 1
Note: total fat is saturated fat + mono-unsaturated fat + polyunsaturated fat + trans-fat.
ND is not detected.
Test example 1
The experiment mainly adopts a wheat water culture method to explore the influence of the pollen polysaccharide extracting solution obtained in the example 1 on the growth condition of crops, wherein the concentration of the pollen polysaccharide extracting solution is calculated by crude polysaccharide. The test process is as follows:
1. accelerating germination of wheat:
soaking wheat seeds in a 5% sodium hypochlorite solution, disinfecting for 10min, washing for 5-6 times with water, and washing away sodium hypochlorite;
soaking the washed seeds in clear water for 6-8 hours;
and thirdly, the soaked seeds are laid flat and placed in a constant-temperature incubator at 25 ℃ overnight, so that the influence of overlapping of the seeds on germination is prevented.
2. Water culture experiment:
firstly, taking a pollen polysaccharide extracting solution, and then diluting the pollen polysaccharide into different multiples for later use;
secondly, selecting wheat seeds with consistent size, no diseases, pests, plump and consistent exposure degree, transplanting a planting basket, and putting 10 wheat seeds into the planting basket;
transplanting the planting basket filled with the germination accelerating wheat seeds onto pollen polysaccharide solutions with different dilution times to ensure that the seeds just contact the liquid level, and setting three times of treatment for each pollen polysaccharide with different concentrations;
and fourthly, simultaneously setting clear water contrast.
3. Investigation and test:
firstly, photographing the whole appearance of the wheat treated by different concentrations;
adjusting the root length (the distance from a root and stem combination point to a root tip) of the plant, and the full length (the distance from the base of the plant to the tip of the uppermost unfolded leaf) of the plant;
repeatedly washing the plant sample with distilled water, sucking water, taking out the sheared wheat from the root and stem combination point, and respectively testing the weight of the overground part and the underground part;
fourthly, respectively putting the mixture into an oven for deactivation of enzymes for half an hour at 105 ℃, and then drying the mixture at 70 ℃ to balance weight and measuring dry weight;
4. data processing:
inhibition/growth (%) | length of root system or plant height after treatment-length of control root system or plant height |/length of control root system or plant height 100
The results 7 days after treatment with pollen polysaccharides are shown in tables 2 and 3.
TABLE 2 test results
TABLE 3 analysis of data after completion of the test
(Note: -for inhibition, + for promotion)
As shown in Table 3, the low concentration (0.125-0.2 ppm) of the pollen polysaccharide extract liquid of the present invention promotes root growth, while the high concentration (2-10 ppm) inhibits root growth. According to the experience in the field, the concentration used in root irrigation is generally 3-5 times of that used in water culture. Therefore, the concentration of the pollen polysaccharides is preferably 0.3 to 1ppm in the root irrigation treatment.
Example 2
1. Material preparation
The test name is: biological activity test for promoting growth of baby cabbage seedling stems and leaves by pollen polysaccharide
Test subjects: baby dish
And (3) purchasing commercially available baby cabbage seedlings (2-3 leaves) for transplanting, planting 1 seedling in each pot, and selecting the seedlings with similar growth vigor for testing after the seedlings recover to grow.
2. Method of administering a drug
The test totaled 7 treatment groups, each of which had 6 pots of baby cabbage seedling plants. The height of the aerial parts of each seedling, the latest SPAD value of chlorophyll content, was measured before the test, and then the chemicals were sprayed according to the test design, with the amount of the chemicals being such that the plants were wet (about 3 mL/plant). The positive control treatment was carried out by spraying a 5000-fold recommended concentration of seaweed extract (10% powder, Haiheling, provided by the manufacturer in 2018, 4 months), the blank control was sprayed with an equal amount of clear water, and the treatment groups were cultured under the same natural conditions after the application of the clear water.
3. Drug design
The test concentration settings are shown in table 4.
Table 4 test concentration settings
Numbering | Sample (I) | Concentration of pollen polysaccharides after dilution |
1 | Pollen polysaccharide extract | 12ppm |
2 | Pollen polysaccharide extract | 6ppm |
3 | Pollen polysaccharide extract | 3ppm |
4 | Pollen polysaccharide extract | 1.5ppm |
5 | Pollen polysaccharide extract | 0.7ppm |
6 | Seaweed extract | 20ppm |
7 | Clear water | -- |
Wherein, the concentration of the pollen polysaccharide after dilution is calculated by crude polysaccharide.
4. Investigation method
Measuring the height of the overground part of each seedling and the latest leaf SPAD value before the test, continuously applying the medicines twice at an interval of 7 days, investigating one week after the second medicine application, and measuring the height of the overground part of the baby cabbage seedling and the SPAD value of the same leaf. When measuring SPAD, the measurement was carried out 3 times in a row, and the average value was recorded. Calculating the plant height growth rate, the relative plant height growth rate and the SPAD increase value before and after the drug.
The plant height increase rate is (the height of the treated plant-the height of the plant before treatment) 100%/the height of the plant before treatment;
relative growth rate (growth rate of treated plant height-growth rate of blank plant height) × 100%/growth rate of blank plant height.
The results of measurement of the indexes of the treatment groups 14 days after the application are shown in tables 5 and 6 below, and the data in the tables are average values.
TABLE 5 measurement results of indexes of treatment groups
Numbering | Height of the herb before medicine (cm) | Height (cm) of post-medicine plant | Pre-drug SPAD | Post-drug SPAD |
1 | 7.68 | 15.83 | 27.76 | 29.97 |
2 | 8.21 | 17.88 | 24.09 | 26.91 |
3 | 7.78 | 17.73 | 23.01 | 27.08 |
4 | 7.69 | 16.63 | 28.89 | 32.23 |
5 | 7.87 | 14.92 | 25.37 | 27.62 |
6 | 8.01 | 17.57 | 27.66 | 31.15 |
7 | 7.89 | 14.22 | 28.5 | 29.83 |
TABLE 6 measurement results of indexes of treatment groups
Number of | Plant height growth rate (%) | Relative growth rate (%) | Chlorophyll changes |
1 | 106.12 | 32.27 | 2.21 |
2 | 117.78 | 46.80 | 2.82 |
3 | 127.89 | 59.40 | 4.07 |
4 | 116.25 | 44.90 | 3.34 |
5 | 89.58 | 11.65 | 2.25 |
6 | 119.35 | 48.76 | 3.49 |
7 | 80.23 | 0 | 1.33 |
The SPAD can reflect the content of chlorophyll in the leaves, and the larger the SPAD value is, the higher the chlorophyll content is. According to the data, the pollen polysaccharides of each treatment group can increase the SPAD value of the plant leaves and promote the overground part growth of the plants. Wherein the relative growth rate of the plant height of the overground part of the baby cabbage seedling with the foliage spray concentration of 3ppm of pollen polysaccharide is 59.40 percent, the increase value of SPAD is 4.07, and the relative growth rate is obviously superior to that of a blank control clear water and a positive control seaweed extract.
In conclusion, the foliage spraying of the pollen polysaccharide with the dilute concentration of 0.75-12 ppm can promote the growth of baby cabbage seedlings, wherein the foliage spraying growth promotion effect of the pollen polysaccharide with the concentration of 3ppm is the best.
Example 3
1. Material preparation
The test name: bioactivity test of pollen polysaccharide for promoting growth of stem and leaf of asparagus lettuce seedling
Test subjects: seedling of asparagus lettuce
Commercial asparagus lettuce seedlings (4-5 leaves) are purchased and transplanted, 1 seedling is planted in each pot, and seedlings with similar growth vigor are selected for testing after the growth is recovered.
2. Method of administering a drug
The test totaled 7 treatment groups, detailed in table 4, each treatment group had 6 pots of lettuce seedling plants. The height of the aerial parts of each seedling, the latest leaf SPAD value, was measured before the test, and then the chemicals were sprayed according to the test design, with the amount of liquid being appropriate to wet the plants (about 3 mL/plant). The positive control treatment was carried out by spraying a 5000-fold recommended concentration of seaweed extract (10% powder, Haiheling, provided by the manufacturer in 2018, 4 months), the blank control was sprayed with an equal amount of clear water, and the treatment groups were cultured under the same natural conditions after the application of the clear water.
3. Drug design
The test concentration settings are shown in table 7.
Table 7 test concentration settings
Numbering | Sample (I) | Pollen polysaccharide concentration after dilution |
1 | Pollen polysaccharide extract | 12ppm |
2 | Pollen polysaccharide extract | 6ppm |
3 | Pollen polysaccharide extract | 3ppm |
4 | Pollen polysaccharide extract | 1.5ppm |
5 | Pollen polysaccharide extract | 0.75ppm |
6 | Seaweed extract | 20ppm |
7 | Clean water | -- |
Wherein, the concentration of the pollen polysaccharide after dilution is calculated by crude polysaccharide.
4. Investigation method
Measuring the height of the overground part of each seedling and the latest leaf SPAD value before the test, continuously applying the pesticide twice at an interval of 7 days, surveying one week after the second pesticide application, and measuring the height of the overground part of the seedling of the asparagus lettuce and the SPAD value of the same leaf. When measuring SPAD, the measurement was carried out 3 times in a row, and the average value was recorded. Calculating the plant height growth rate, the relative plant height growth rate and the SPAD increase value before and after the drug.
The plant height increase rate is (the height of the treated plant-the height of the plant before treatment) 100%/the height of the plant before treatment;
relative growth rate (growth rate of treated plant height-growth rate of blank plant height) × 100%/growth rate of blank plant height.
The results of measurement of the indexes of the treatment groups 14 days after the application are shown in the following tables 8 and 9, in which the data are average values.
TABLE 8 measurement results of indexes of treatment groups
Numbering | Height of the herb before medicine (cm) | Height (cm) of post-medicine plant | Pre-drug SPAD | Post-drug SPAD |
1 | 11.14 | 21.50 | 17.69 | 19.81 |
2 | 10.88 | 21.94 | 16.82 | 19.12 |
3 | 11.07 | 23.85 | 20.09 | 23.93 |
4 | 10.94 | 22.34 | 19.31 | 21.82 |
5 | 11.37 | 22.45 | 18.66 | 20.91 |
6 | 10.56 | 22.41 | 19.20 | 22.81 |
7 | 11.23 | 19.87 | 18.82 | 19.98 |
TABLE 9 measurement results of indexes of treatment groups
Numbering | Plant height growth rate (%) | Relative growth Rate (%) | Chlorophyll changes |
1 | 93.00 | 20.87 | 2.12 |
2 | 101.65 | 32.12 | 2.30 |
3 | 115.45 | 50.05 | 3.84 |
4 | 104.20 | 35.43 | 2.51 |
5 | 97.45 | 26.66 | 2.25 |
6 | 112.22 | 45.85 | 3.61 |
7 | 76.94 | 0.00 | 1.16 |
According to the data, the pollen polysaccharides of each treatment group can increase the SPAD value of the plant leaves and promote the overground part growth of the plants. Wherein, the pollen polysaccharide with the concentration of 3ppm has the best effect, the relative growth rate of the plant height is 50.05 percent after the pollen polysaccharide is sprayed for 14 days, the increase value of SPAD is 3.84, and the growth promoting effect is obviously better than that of the blank control clear water and the positive control seaweed extract.
In conclusion, the pollen polysaccharide with the foliar spraying concentration of 0.75-12 ppm can promote the growth of lettuce seedlings, wherein the effect of 3ppm is the best.
Example 4
1. Material preparation
The test name is: bioactivity test of pollen polysaccharide for promoting growth of stem and leaf of lettuce seedling
Test subjects: lettuce seedling
And (3) buying commercially available lettuce seedlings (2-3 leaves) for transplanting, planting 1 seedling in each pot, and selecting the seedlings with similar growth vigor for testing after the seedlings recover to grow.
2. Method of administering a drug
The test totaled 7 treatment groups, detailed in table 7, each treatment group having 10 pots of lettuce seedling plants. The height of the aerial parts of each seedling, the latest leaf SPAD value, was measured before the test, and then the chemicals were sprayed according to the test design, with the amount of liquid being appropriate to wet the plants (about 3 mL/plant). 10000 times of amino acid (40% powder, supplied by manufacturer in 2018 and 4 months) is sprayed on the positive control treatment, the same amount of clear water is sprayed on the blank control, and after the application, each treatment group is cultured in an incubator (the temperature is 25 ℃, and the humidity is 50%).
3. Drug design
The experimental concentration settings are shown in table 10.
TABLE 10 test concentration settings
Number of | Sample (I) | Pollen polysaccharide concentration after dilution |
1 | Pollen polysaccharide extract | 12ppm |
2 | Pollen polysaccharide extract | 6ppm |
3 | Pollen polysaccharide extract | 3ppm |
4 | Pollen polysaccharide extract | 1.5ppm |
5 | Pollen polysaccharide extract | 0.75ppm |
6 | 40% composite amino acid powder | 40ppm |
7 | Clean water | -- |
Wherein, the concentration of the pollen polysaccharide after dilution is calculated by crude polysaccharide.
4. Investigation method
Measuring the height of the overground part of each seedling and the latest leaf SPAD value before the test, continuously applying the pesticide twice at an interval of 7 days, investigating one week after the pesticide is applied for the second time, and measuring the height of the overground part of the lettuce seedling and the SPAD value of the same leaf. When measuring SPAD, the measurement was carried out 3 times in a row, and the average value was recorded. Calculating the plant height growth rate, the relative plant height growth rate and the SPAD increase value before and after the drug.
The plant height increase rate (height of the treated plant-height of the pre-treatment plant) is 100%/height of the pre-treatment plant;
relative growth rate (growth rate of treated plant height-growth rate of blank plant height) × 100%/growth rate of blank plant height.
The results of measurement of the indexes of the treatment groups 14 days after the application are shown in tables 11 and 12 below, and the data in the tables are average values.
TABLE 11 measurement results of indices of treatment groups
TABLE 12 measurement results of indexes of treatment groups
Number of | Plant height growth rate (%) | Relative growth rate (%) | Chlorophyll changes |
1 | 79.51 | 42.88 | 1.62 |
2 | 85.89 | 54.34 | 1.79 |
3 | 96.05 | 72.59 | 3.64 |
4 | 78.40 | 40.88 | 2.79 |
5 | 73.06 | 31.29 | 1.84 |
6 | 91.59 | 64.59 | 2.10 |
7 | 55.65 | 0.00 | 0.90 |
According to the data, the SPAD value of the plant leaves can be increased by the pollen polysaccharides of each treatment group, and the overground part growth of the plants is promoted. The pollen polysaccharide with the concentration of 3ppm has the best effect, the relative growth rate of the plant height after spraying for 14 days is 72.59%, the SPAD increase value is 3.64, the relative growth rate of the plant height of the amino acid treatment group is 64.59%, the SPAD increase value is 2.10, and the growth promoting effect of the pollen polysaccharide is better than that of the amino acid positive control group.
In conclusion, the pollen polysaccharide with the foliar spraying concentration of 0.7-12 ppm can promote the growth of lettuce seedlings, wherein the effect of 3ppm is the best.
Example 5
1. Material preparation
The test name is: biological activity test for promoting growth of shanghai green seedling stem leaves by pollen polysaccharides
Test subjects: young Shanghai green seedling
And (3) purchasing commercially available Shanghai green seedlings (3-4 leaves) for transplanting, planting 1 seedling in each pot, and selecting the seedlings with similar growth vigor for testing after the seedlings recover to grow.
2. Method of administering a drug
The test totaled 7 treatment groups, detailed in table 10, with 8 pots of shanghai green seedling plants per treatment group. The height of the aerial parts of each seedling, the latest leaf SPAD value, was measured before the test, and then the chemicals were sprayed according to the test design, with the amount of liquid medicine being appropriate to moisten the plants (about 3 mL/plant). 10000 times of amino acid (40% powder, supplied by manufacturer in 2018 and 4 months) is sprayed on the positive control treatment, the same amount of clear water is sprayed on the blank control, and after the application, each treatment group is cultured in an incubator (the temperature is 25 ℃, and the humidity is 50%).
3. Drug design
The test concentration settings are shown in table 13.
Table 13 test concentration settings
Numbering | Sample (I) | Pollen polysaccharide concentration after dilution |
1 | Pollen polysaccharide extract | 12ppm |
2 | Pollen polysaccharide extract | 6ppm |
3 | Pollen polysaccharide extract | 3ppm |
4 | Pollen polysaccharide extract | 1.5ppm |
5 | Pollen polysaccharide extract | 0.75ppm |
6 | 40% composite amino acid powder | 40ppm |
7 | Clear water | -- |
Wherein, the concentration of the pollen polysaccharide after dilution is calculated by crude polysaccharide.
4. Investigation method
Measuring the height of the overground part of each seedling and the latest leaf SPAD value before the test, continuously applying the medicines twice at intervals of 7 days, carrying out investigation one week after the second medicine application, and measuring the height of the overground part of the Shanghai Qing seedling and the SPAD value of the same leaf. When measuring SPAD, the measurement was carried out 3 times in a row, and the average value was recorded. Calculating the plant height growth rate, the relative plant height growth rate and the SPAD increase value before and after the drug.
The plant height increase rate is (the height of the treated plant-the height of the plant before treatment) 100%/the height of the plant before treatment;
relative growth rate (growth rate of treated plant height-growth rate of blank plant height) × 100%/growth rate of blank plant height.
The results of measurement of the indexes of the treatment groups 14 days after the application are shown in the following tables 14 and 15, and the data in the tables are average values.
TABLE 14 measurement results of indexes of treatment groups
TABLE 15 measurement results of indexes of respective treatment groups
Number of | Plant height growth rate (%) | Relative growth rate (%) | Chlorophyll changes |
1 | 85.50 | 24.25 | 1.80 |
2 | 99.62 | 44.77 | 2.66 |
3 | 113.80 | 65.38 | 3.21 |
4 | 101.63 | 47.69 | 2.20 |
5 | 90.02 | 30.82 | 1.21 |
6 | 108.25 | 57.31 | 1.32 |
7 | 68.81 | 0.00 | 0.80 |
According to the data, the pollen polysaccharides of each treatment group can increase the SPAD value of the plant leaves and promote the overground part growth of the plants. The pollen polysaccharide with the concentration of 3ppm has the best effect, the relative growth rate of the plant height after spraying for 14 days is 65.38%, the SPAD increase value is 3.21, the relative growth rate of the plant height of the amino acid treatment group is 57.31%, the SPAD increase value is 1.32, and the growth promoting effect of the pollen polysaccharide is better than that of the amino acid control group.
In conclusion, the pollen polysaccharide with the foliar spraying concentration of 0.75-12 ppm can promote the growth of the Shanghai green seedlings, wherein the pollen polysaccharide with the concentration of 3ppm has the best effect.
Claims (10)
1. The pollen polysaccharide extracting solution is characterized by being prepared by adopting the following method:
mixing rape pollen and water, heating, stirring, extracting for at least one time, filtering, mixing filtrates, adding chitosan into the filtrate to obtain a liquid to be clarified, maintaining the liquid to be clarified at 60-80 ℃ for at least 1 hour, cooling, standing, and performing solid-liquid separation to obtain a liquid, namely a pollen polysaccharide extract.
2. The pollen polysaccharide extract as claimed in claim 1, wherein: and in each extraction, the stirring temperature is 60-70 ℃, the stirring time is 3-5 h, and the stirring speed is 3000-4000 r/min.
3. The pollen polysaccharide extract as claimed in claim 1, wherein: the water is soft water.
4. The pollen polysaccharide extract as claimed in claim 1, wherein: and mixing the rape pollen and water in a weight ratio of 1: 1.5-5 every time of extraction.
5. The pollen polysaccharide extract as claimed in claim 4, wherein: mixing rape pollen and water at a weight ratio of 1: 2.
6. The pollen polysaccharide extract liquid as claimed in claim 1 to 5, wherein: heating and stirring for extraction twice.
7. The pollen polysaccharide extract of claim 1, wherein: the concentration of the chitosan in the liquid to be clarified is 0.01-0.15 wt%.
8. The pollen polysaccharide extract of claim 7, wherein: the concentration of the chitosan in the clarified liquid is 0.05-0.1 wt%; preferably, the concentration of chitosan is 0.08 wt%.
9. The pollen polysaccharide extract as claimed in claim 1, wherein: the solution to be clarified was maintained at 70 ℃ for 1 hour.
10. A plant source bio-stimulant, which is characterized in that: the pollen polysaccharide extract liquid as claimed in any one of claims 1 to 9, which is concentrated and then added with agriculturally acceptable adjuvants.
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