CN113149791B

CN113149791B - Preparation method of bio-organic fertilizer

Info

Publication number: CN113149791B
Application number: CN202110539706.5A
Authority: CN
Inventors: 施泽升; 梁永检; 彭崇; 覃潇敏; 马文清; 唐利球; 郭强; 闭德金; 秦昌鲜; 罗晟昇; 何洪良; 韦海球; 廖韦卫; 江清梅
Original assignee: Guangxi South Subtropical Agricultural Science Research Institute
Current assignee: Inner Mongolia Mengcao Plant Nutrition Technology Co ltd
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2022-04-26
Anticipated expiration: 2041-05-18
Also published as: CN113149791A

Abstract

The invention belongs to the field of fertilizers, and particularly relates to a biological organic fertilizer, and a preparation method and application thereof. A preparation method of a bio-organic fertilizer comprises the steps of crushing bagasse, uniformly mixing the crushed bagasse with cow dung and pond sludge, adding a proper amount of EM microbial inoculum for fermentation treatment, feeding earthworms and collecting wormcast after full fermentation, sieving the wormcast with a 25-30-mesh sieve, placing the wormcast in a well-ventilated and open place for natural airing for 6-9 days, and controlling the moisture content in the wormcast to be 10-20% to obtain the bio-organic fertilizer. The biological organic fertilizer can be used for improving the plant height, stem thickness and yield of the tomatoes.

Description

Preparation method of bio-organic fertilizer

Technical Field

The invention belongs to the field of fertilizers, and particularly relates to a biological organic fertilizer, and a preparation method and application thereof.

Background

The biological organic fertilizer mainly refers to an organic fertilizer prepared by fermenting and processing wastes or organic garbage of agriculture and animal husbandry by beneficial microorganisms, contains a large amount of organic matters, beneficial microorganisms and microorganism metabolites, has the effects of a microorganism inoculant and an organic fertilizer, and is one of the most potential novel fertilizers. The traditional livestock and poultry manure organic fertilizer has low production cost, not only increases the yield after application, but also can improve or improve the crop quality, but also has the disadvantages of laggard production mode, troublesome composting process, high labor intensity, low content of available nutrients, large volume and inconvenient application, and cannot adapt to the development of modern agriculture and commodity economy.

The wormcast is the excrement of earthworms after the earthworms digest and metabolize in vivo by taking livestock and poultry manure or other organic wastes as bait, and is rich in various microorganisms and metabolites thereof. The surface of the wormcast is black, uniform and fine-grained substances with natural earthy flavor, the wormcast has good porosity, air permeability, water drainage and high water holding capacity, and the wormcast has a large surface area and good capacity of absorbing and maintaining nutrient substances, so that a plurality of microorganisms can survive. Compared with the feed livestock and poultry manure, the soluble salt content, the cation exchange performance and the humic acid content of the wormcast are obviously increased, most organic matters are converted into stable humus composite substances, and particularly, organic acid is secreted in the microbial metabolism process, so that the alkaline livestock and poultry manure tends to be neutral after being treated by the earthworms, and becomes a more suitable growth environment for most plants.

The earthworm cast is a multifunctional fertilizer integrating nutrition, disease prevention and growth stimulation, has strong biological activity, has good performance after being applied in production, and can be used for improving soil, preparing nutrient soil, reducing the occurrence of plant diseases and insect pests, improving the quality of agricultural products, serving as a soilless culture substrate and the like. The biological activity of the wormcast obtained by adopting different feeding materials at present has larger difference, and the invention aims to provide a preparation method of a biological organic fertilizer with better biological activity.

Disclosure of Invention

The technical scheme provided by the invention is as follows:

a preparation method of a bio-organic fertilizer comprises the steps of crushing bagasse, uniformly mixing the crushed bagasse with cow dung and pond sludge, adding a proper amount of bacillus, actinomycetes, trichoderma and EM microbial inoculum for fermentation treatment, feeding earthworms after full fermentation, collecting wormcast, sieving the wormcast with a 25-30-mesh sieve, placing the wormcast in a well-ventilated and open place for natural airing for 6-9 days, and controlling the moisture content of the wormcast to be 10-20% to obtain the bio-organic fertilizer.

Preferably, the weight ratio of the cow dung, the pond sludge and the bagasse in the preparation method is 1-50:1-50: 1-30.

Preferably, the weight ratio of the cow dung to the pond sludge to the bagasse is 20:20: 10.

The invention provides a biological organic fertilizer which is prepared according to the preparation method.

The invention provides application of a biological organic fertilizer in improving plant biological properties. Preferably, the method is used for improving the plant height, stem thickness and yield of the tomato.

Compared with the prior art, the invention has the following beneficial effects:

1. the biological organic fertilizer provided by the invention can be used for improving the biological characters of plants, and particularly can be used for improving the plant height, stem thickness and yield of tomatoes.

2. According to the invention, the biological activity of the wormcast produced by feeding earthworms after the cow dung, the pond sludge and the bagasse are mixed and fermented is higher than that of other treatments, and the wormcast has obvious difference.

3. Compared with bacillus, actinomycetes and trichoderma, the EM fungicide treatment fermentation can effectively improve the tomato plant height and stem thickness.

Drawings

FIG. 1 is a graph of the effect of different treatments on tomato plant height;

FIG. 2 is a graph of the effect of different treatments on tomato stem thickness;

FIG. 3 shows the effect of different fermentation broth treatments on the height of tomato plants;

FIG. 4 shows the effect of different fermentation broth treatments on the stem thickness of tomato.

Detailed Description

The invention will be better understood from the following examples. However, those skilled in the art will readily appreciate that the description of the embodiments is only for illustrating the present invention and should not be taken as limiting the invention as detailed in the claims.

Example 1: influence of different formula biological organic fertilizers on biological characters of small-fruit tomatoes

The test varieties are: small fruit tomatoes; a pot experiment was used. The height of the test pot is 40cm, and the inner diameter is 30 cm. The experimental facility treats 3 pots each for 5 times, the treatment is repeated for 3 times, and the soil for each treatment and cultivation and the biological organic fertilizer are mixed according to the volume ratio of 5:1 and placed in the pots for standby. Firstly, raising seedlings in a greenhouse, transplanting and fixing seedlings after one month, wherein the seedlings are consistent in size and are consistent in treatment management. And managing under natural conditions after transplanting.

And (3) experimental design:

the preparation method of the biological organic fertilizer comprises the following steps: pulverizing the raw materials subjected to different treatments, uniformly mixing, adding EM microbial inoculum for fermentation treatment, feeding earthworms and collecting wormcast after full fermentation, sieving the wormcast with a 25-30-mesh sieve, placing in a well-ventilated and spacious place for natural airing to control the moisture content in the wormcast to be 10-20%, and selecting the stacked wormcast for later use.

TABLE 1 formulation of the different treatment materials (parts by weight)

Treatment of	Cow dung	Chicken manure	Pond sludge	Bagasse	Corn stalk
						1		20	20		10
2	20		20		10
						3	20		20	10
4		20	20	10
						5	20			20

Survey indexes are as follows: and (4) measuring and recording the plant height and the stem thickness for 1 time every 10 days after test transplanting and field planting, measuring for 5 times totally, picking and measuring the average single fruit weight and the single plant fruit weight in time, and accumulating and calculating the average yield of the single plant after the test is finished.

The test results are shown in FIGS. 1 and 2.

As can be seen from figure 1, the plant height difference of each treatment is not obvious and is in a stable trend 10 days after the tomato is transplanted, the plant height gradually shows obvious difference among the treatments along with the increase of transplanting days, and the plant height after 50 days of transplanting in treatment 3 is 77.85cm and is obviously higher than that in treatments 1, 2, 4 and 5 (the plant height of treatment 1 is 64.15cm, the plant height of treatment 2 is 62.47cm, the plant height of treatment 4 is 65.14cm and the plant height of treatment 5 is 57.33 cm).

As can be seen from fig. 2, the difference in the influence on the stem thickness was not significant between the treatments 30d after transplantation, and a significant difference occurred at 40d after transplantation: the stem thickness after 40 days of transplantation in treatment 3 was 14.5mm, which was significantly higher than that of treatments 1, 2, 4, and 5 (13.5 mm for treatment 1, 13.6mm for treatment 2, 13.4mm for treatment 4, and 12.9mm for treatment 5). The stem thickness measured 50d after transplantation is similar to the result measured 40d after transplantation, which shows that the vegetative growth of the tomatoes is slowed down 40d after transplantation, the tomatoes gradually enter reproductive growth, and the tomatoes begin to enter a blooming and fruiting full period.

TABLE 2 Effect of different treatments on average individual fruit weight and individual plant fruit weight of tomato

Treatment of	Average single fruit g	Weight kg of single plant fruit
			1	10.25	1.26
2	10.38	1.30
			3	11.95	1.54
4	10.50	1.28
			5	9.58	1.11

As can be seen from Table 2, the average single fruit weight of each treatment was, in order from large to small, treatment 3, treatment 4, treatment 2, treatment 1 and treatment 5. Treatment 3 showed consistent fruit size and vivid fruit color. The highest fruit weight of the individual plants is treatment 3, which shows that treatment 3 has obvious yield increasing effect on tomatoes.

Example 2: influence of bio-organic fertilizer treated by different zymophytes on biological characters of small-fruit tomatoes

The raw material formula is as follows: in the formula 3 in table 1, the fermentation tubes 1-4 are respectively bacillus, actinomycetes, trichoderma and EM microbial inoculum.

The preparation method of the biological organic fertilizer comprises the following steps: pulverizing the raw materials for different treatments, mixing uniformly, adding different fermenting agents for fermentation treatment, feeding earthworms and collecting wormcast after full fermentation, sieving the wormcast with a 25-30-mesh sieve, placing in a well-ventilated and spacious place for natural airing to control the moisture content in the wormcast to be 10-20%, and selecting the stacked wormcast for later use.

The test method comprises the following steps: reference example 1

The test results are shown in FIGS. 3-4.

As can be seen from FIGS. 3-4, the strain height and stem thickness of tomato can be effectively improved by the EM microbial agent treatment fermentation compared with the Bacillus, Actinomycetes and Trichoderma.

The foregoing is only a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that modifications may be made without departing from the invention as claimed in the invention and these modifications are within the scope of the invention.

Claims

1. A preparation method of a biological organic fertilizer is characterized by comprising the following steps: crushing bagasse, uniformly mixing with cow dung and pond sludge, adding a proper amount of EM microbial inoculum for fermentation treatment, feeding earthworms after full fermentation, collecting the earthworm dung, sieving the earthworm dung with a 25-30-mesh sieve, placing the earthworm dung in a well-ventilated and spacious place for natural airing for 6-9 days, and controlling the water content in the earthworm dung to be 10-20% to obtain a bio-organic fertilizer; the weight ratio of the cow dung, the pond sludge and the bagasse is 20:20: 10.

2. A bio-organic fertilizer, characterized in that, it is prepared by the preparation method of claim 1.

3. Use of the bio-organic fertilizer according to claim 2 for improving plant biological traits, which can be used for improving tomato plant height, stem thickness and yield.