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Microbial silicon magnesium calcium fertilizer and its production method

A silicon-magnesium-calcium fertilizer and microbial technology, applied in the field of silicon-magnesium-calcium fertilizer, can solve problems such as limited solubility, achieve the effects of enhancing stem tissue, neutralizing soil acidity, and improving soil structure

Inactive Publication Date: 2002-09-04
金葵子环保生物科技(国际)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As an acid-soluble fertilizer, it is true that the weakly acidic substances secreted by plant roots can be used to absorb silicon from the fertilizer, but the solubility is limited, and the absorption is often insufficient, especially for silicon-loving plants with more silicon content, such as grass rice and sugarcane. , wheat, corn, sorghum, bamboo, and roots and tubers, watermelon, peanuts, etc., under the conditions of insufficient available silicon, increasing the supply intensity of silicon is of great significance for further increasing yield and improving quality

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] The main component of a kind of microbial silicon magnesium calcium fertilizer of the present invention is:

[0017] WH1 strains, WH2 strains, WH3 strains, WH4 strains, WH5 strains, WH6 strains, as well as silica powder, wurstite powder, and rice bran.

[0018] The above-mentioned microorganisms, WH1 strain is Bacillus Polymyxa (Bacillus Polymyxa), preserved in CGMCC, preservation number 0359.1; WH2 strain is Bacillus subtilis (Bacillus Subtilis), preserved in CGMCC, preservation number 0359.2; WH3 strain is Bacillus brevis (Bacillus Brevis), preserved in CGMCC, preservation number 0359.3; WH4 strain is Bacillus licheniformis (Bacillus Licheniformis), preserved in CGMCC, preservation number 0359.4; WH5 strain is Bacillus Sulfurenm (Bacillus Sulfurenm), preserved in CGMCC, Preservation No. 0359.5; WH6 strain is Bacillus Polymyxa, deposited in CGMCC, Preservation No. 0359.6;

[0019] The ratio of bacterial species contained in this microbial silicon magnesium calcium fer...

Embodiment 2

[0029] The proportioning of each composition of the microorganism silicon magnesium calcium fertilizer of the present embodiment and each parameter and example one difference are:

[0030] 1. The ratio of bacteria contained in this microbial silicon-magnesium-calcium fertilizer is (percentage by weight):

[0031] WH1 strain 8 WH2 strain 14

[0032] WH3 strain 25 WH4 strain 23

[0033] WH1 strain 7 WH6 strain 13.

[0034] 2. Secondary strain culture medium: the temperature is 47°C, the culture time is 9 days, and the number of viable bacteria can reach 1.5 billion / g.

[0035] 3. Mix silica powder, wurstite powder, and active furfur fungus according to the following formula (weight percentage) and stack and ferment for 9 days, and pack it into microbial silicon-magnesium-calcium fertilizer:

[0036] Silica powder 20, wurstite powder 70, active furfur fungus 10.

[0037] The proportioning parameters and process steps of all the other components are the same as Example 1.

Embodiment 3

[0039] The proportioning of each composition of the microorganism silicon magnesium calcium fertilizer of the present embodiment and each parameter and example one difference are:

[0040] 1. The ratio of bacteria contained in this microbial silicon-magnesium-calcium fertilizer is (percentage by weight):

[0041] (1) WH1 strain 14 (2) WH2 strain 6

[0042] (3) WH3 strain 14 (5) WH4 strain 13

[0043] (4) WH1 strains 23 (6) WH6 strains 30.

[0044] 2. Secondary strain culture medium: the temperature is 47°C, the culture time is 9 days, and the number of viable bacteria can reach 1.5 billion / g.

[0045]3. Mix silica powder, calcium magnesium stone powder, and active furfur fungus according to the following formula (weight percentage) and stack and ferment for 12 days, and then pack it into microbial silicon-magnesium-calcium fertilizer:

[0046] Silica powder 35, wurstite powder 50, active furfur fungus 15.

[0047] The proportioning parameters and process steps of all the o...

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Abstract

The present invention relates to a microbial silicon-magnesium-calcium fertilizer and its production method. It uses organic material as life carrier of microbe WH microbial poal, and mixes it with silica powder and magnesiocalcium stone powder and makes them undergo the process of fermentation so as to obtain the invented active silicon-magnesium-calcium fertilizer. It can be easily absorbed by plants after it is applied to the soil, and has the following advantages: (1) neutralizing acidity of soil and improving soil structure; (2) strengthening stem tissue of crops and promoting plant celldivision; (3) raising chlorophyll and promoting plant growth; (4) strengthening plant resistance to diseases and insects; and (5) raising yield and quality of crops.

Description

technical field [0001] The invention relates to the technical field of silicon-magnesium-calcium fertilizer, in particular to microbial silicon-magnesium-calcium fertilizer and a manufacturing method thereof. Background technique [0002] For a long time, the majority of rural areas have only used inorganic fertilizers for crops, ignoring the use of organic fertilizers, coupled with the leaching and scouring of rainwater and irrigation water, elements such as calcium and silicon in the soil are easily washed away, and iron, aluminum, etc. When the accumulation increases, the pH value of the soil is slightly acidic, and the soil colloid is destroyed in the long run, causing soil compaction, losing the function of water and fertilizer retention, and affecting the normal growth of crops. [0003] Due to the rapid increase in population and the sharp decrease in per capita arable land, modern technology strengthens the demand for more and more agricultural products from the land...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C05D3/00
CPCC05D3/00
Inventor 何飚黄恩雄
Owner 金葵子环保生物科技(国际)有限公司
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