JPS6116306B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to a composition for adjusting soil acidity reduction. Acidic soils are widely distributed in Japan's field soils, which are prone to base loss due to high temperature and humidity. deterioration has become a major problem. As a countermeasure to this problem, in most cases, quicklime, slaked lime, and lime materials containing calcium carbonate or magnesium have been conventionally added to acidic soil in large quantities for each crop. Therefore, in recent years, the solubility of cationic components such as iron, manganese, zinc, and copper has decreased due to soil alkalization in recent farmland soils, causing poor absorption into plants and causing cation deficiency in plants. This often occurs, often resulting in reduced yields and damage to agricultural crops. For this reason, it is becoming increasingly necessary to adjust the decrease in soil acidity. Furthermore, a case in which it is necessary to adjust the decrease in soil acidity is soil for growing rice seedlings for mechanical rice transplantation. Mechanical rice planting now accounts for approximately 90% of rice cultivation in Japan. Nearly 1.5 million tons of soil is used every year to raise these seedlings, and the soil used for this purpose is mountain soil, field soil, and paddy soil. These soils are particularly low in acidity due to the physiology of paddy rice and the bacteriostasis of disease-causing bacteria in the soil.
It is necessary to adjust the pH to a range of 45 to 5.5. However, many soils have a pH of 5.5 or higher, making them unsuitable for raising seedlings as they are, and it is necessary to adjust the acidity level. Conventionally, sulfuric acid or sulfur dioxide has been used for the purpose of adjusting acidity reduction. However, sulfuric acid is extremely dangerous for individual farmers to use, and handling large quantities of sulfuric acid poses great risks even in familiar communal seedling facilities. In addition, the effect of sulfuric acid on reducing soil acidity has a short duration, and for seedlings that require a long period of growing, such as medium-sized seedlings used for mechanical rice transplantation, the soil acidity must be kept at an optimal level over the entire range during the seedling-raising period.
The drawback is that it is difficult to maintain the pH and acidity lowering agents must be applied multiple times. Sulfur flower is not as dangerous to handle as sulfuric acid, but after it is applied to the soil, it is oxidized by sulfur bacteria in the soil and becomes sulfuric acid, which lowers the acidity of the soil. It takes a long time. Therefore, the method of adjusting acidity using sulfur flowers is not suitable for emergency use during the busy period of early spring work because it takes time for the effect to appear. The present invention can completely solve the above-mentioned drawbacks, and by appropriately blending sulfuric acid with sulfur, it is possible to immediately adjust the acidity of the soil, the adjustment effect lasts for a long time, and it is easy to handle. The present invention provides a composition for easily adjusting soil acidity reduction. The composition of the invention is characterized by comprising, by weight, 70 to 95 parts of mineral powder, 1 to 20 parts of sulfuric acid, and 1 to 15 parts of sulfur flower. The present invention will be explained in more detail below.
In the following description, all parts represent parts by weight. The mineral powder used in the present invention includes gypsum, talc, clay, etc., and gypsum is particularly preferred. Gypsum can be used as a byproduct of phosphoric acid production. The pH of gypsum varies somewhat depending on manufacturing conditions, but it is around 3, and even when used alone, it has some ability to lower soil acidity. However, this alone cannot be expected to have a sufficient practical effect, and it is necessary to add sulfuric acid, sulfur flower, etc. As the gypsum, any of dihydrate gypsum, hemihydrate gypsum, etc. can be used. Gypsum is easy to handle and can be obtained in large quantities at low cost due to the use of by-products, and as described above, it has the ability to lower acidity, so it can contribute to the soil acidity lowering effect of the composition itself. . In the composition of the present invention, mineral powders such as clay, talc, etc. may be used alone or in combination, and diatomaceous earth, silica powder, etc. may also be used. The amount of mineral powder added is 70-95 parts, preferably 80-95 parts.
There are 90 copies. The particle size of the mineral powder is preferably 500μ or less. By replacing a portion of the mineral powder with nitrofumic acid, it is possible to impart fertilizing properties as nitrogen, increase the number of useful microorganisms, and make phosphoric acid in the soil available. It has the effect of rapidly reducing the acidity of sulfuric acid, and the amount added is 1 to 20 parts, preferably 3 to 10 parts, calculated as 100% sulfuric acid. If it is more than 20 parts, it becomes difficult to mix with the target soil, which is undesirable, and if it is less than 1 part, a practically sufficient acidity lowering ability cannot be obtained. Instead of sulfuric acid, it is also possible to use bisulfates or sulfates, such as sodium bisulfate, which produce sulfuric acid in the soil and exhibit an acidity-lowering effect. By adding sulfur flower, which is a feature of the present invention, to each of the above-mentioned components having the ability to lower soil acidity, the composition of the present invention has the quick-acting acidity-lowering ability of mineral powder and sulfuric acid, and the slow-acting acidity-lowering ability of sulfur flower. It is possible to have both performances, and it is possible to maintain the optimum acidity of the soil for a long period of time. The amount of sulfur flower added is 1
~15 parts, preferably about 3 to 10 parts. If the amount added is more than 15 parts, the soil acidity during the seedling-raising period will be lowered more than necessary, which is undesirable, and if it is less than 1 part, it will not have a sufficient practical effect, which is not preferred. It is convenient and preferable to use sulfur flower in powder form, but the powder particle size is approximately
It is less than 100μ. The composition of the present invention is produced, for example, as follows. It is produced by mixing one or more mineral powders, sulfur flower, and sulfuric acid, and drying the mixture as necessary. Next, the effects of the sustained soil acidity adjusting ability of the composition of the present invention on seedling growth will be explained below. Paddy rice seedlings used for mechanical rice transplantation are roughly divided into two types: normal seedlings. Of these, 2.5% of true leaves are planted for rice seedlings.
This method involves planting the rice once the rice has matured, and the seedling-raising period is approximately 20 days. Mid-seedling planting is a method in which rice is transplanted when there are four true leaves, and the seedling-raising period is approximately 40 days. During the above seedling-raising period, by keeping the soil acidity within the optimum pH range of 4.5 to 5.5, the health of rice seedlings can be maintained, and disease-causing bacteria (e.g. Fusarium, Pythium, Rhizoctonia, Trichoderma, Rhizobus) can be prevented. Can be bacteriostatic. However, the duration of conventional soil acidity reducing regulators consisting of units or mixtures of sulfuric acid, sulfate, nitrofumic acid, etc.
Until about 15 days after application, this means that during the second half of the young seedling growing period and the middle to the second half of the medium seedling growing period, the soil is
PH restores to 5.5 or higher. As a result, the proliferation of soil pathogenic bacteria rapidly increases, and the frequency of outbreaks of the physiological disease Molecular fungus becomes extremely high. Disease outbreaks occur at this time, when most of the seedlings are ready for rice transplanting, and the damage caused is severe. As mentioned above, the composition of the present invention enables optimum soil acidity adjustment from immediately after application to around 15 days due to the quick-acting acidity-lowering effect of mineral powder and sulfuric acid, and the slow-acting acidity-lowering effect of sulfur flowers. ,
Optimum soil acidity can be adjusted within 15 to 40 days after application. Therefore, if the composition of the present invention is used, soil acidity can be adjusted throughout the entire seedling-raising period with a single application, and the effect is great, so the practical effect on raising healthy seedlings is extremely large. Furthermore, the composition of the present invention has the advantage that the raw materials are inexpensive and easily available, making it easy to manufacture, and the resulting composition is safe to handle. Next, the effects of the composition of the present invention will be explained using the following Examples and Test Examples. Example 1 By-product gypsum 86.0 parts Sulfuric acid 7.0 parts Sulfur flower 7.0 parts Total 1000 parts Example 2 Clay 86.0 parts Sulfuric acid 7.0 parts Sulfur flower 7.0 parts Total 1000 parts Example 3 By-product gypsum 73.0 parts Nitrohumic acid 10.0 parts Sodium bisulfate 12.0 parts Sulfur Flower 5.0 parts Total 1000 parts Example 4 By-product gypsum 25.0 parts Clay 55.0 parts Nitrohumic acid 10.0 parts Sulfuric acid 5.0 parts Sulfur Flower 5.0 parts Total 1000 parts Test example 1 In a commercially available rice seedling box (width 60 cm, length 30 cm, height 3 cm), Fill 3 kg of test soil prepared as below as bed soil, sow 100 g of paddy rice germination powder, cover with soil prepared in the same way as bed soil, and place in a seedling grower (30℃) for 2 days. After planting, raise seedlings. After a predetermined number of days had elapsed, the PH value of the test soil and the growth of seedlings were measured. Soil: Diluvial soil (PH6.3) Paddy rice variety: Nipponbare Continuous system: 1 district, 2 continuous system Fertilizer type and application amount Chip 1.0g - Phosphoric acid 1.0g - Potassium 1.0g/1
Box (mixed soil when preparing the test soil) Chemically treated Tachigaren 4% powder 6.0 g/box (mixed soil when preparing the test soil) Test chemicals and application amounts Those listed in Table 1 (mixed soil when preparing the test soil )

[Table] As is clear from the above table, the application of 00g per box of the composition of the present invention (Example 1 and Example 2) reliably showed the desired ability to lower soil acidity, and even after 40 days of application, it was found to be excellent in raising paddy rice seedlings. Maintained appropriate acidity. The growth of seedlings using the composition of the present invention was excellent in both leaf age and root mass, and the effect of adjusting the soil acidity reduction was clearly observed, and healthy seedlings were obtained. Test Example 2 Alluvial soil was used as the test soil, and the rest were Test Example 1.
Tests were conducted in the same manner as above, and the results are shown in Table 2.

[Table] As is clear from the above table, the composition of the present invention (Examples 3 and 4) applied at 100g per box showed the desired ability to reduce soil acidity, and even after 40 days of application, it was still optimal for raising paddy rice seedlings. Maintained acidity. Regarding the growth of seedlings, both leaf age and root mass were good in the composition plots of the present invention, and the effect of adjusting soil acidity was clearly recognized. The soil acidity lowering ability of the composition of the present invention is not simply due to the additive effect of sulfur flowers and sulfuric acid, but rather in Test Examples 1 and 2.
As shown in the results (Tables 1 and 2), this is based on the mutual effect of the combination of sulfur flower and sulfuric acid. After sulfur flower is applied to soil, it is oxidized by sulfur bacteria in the soil and becomes sulfuric acid, which lowers the acidity of the soil, but the optimum acidity for the growth of this sulfur bacteria is PH.
It is 2 or 3. It takes about one month to lower soil acidity by one unit (for example, from PH6 to PH5) by simply applying sulfur flower, but by combining it with sulfuric acid, which has a fast-acting ability to reduce acidity, soil acidity can be reduced immediately after application. It can reduce the amount of sulfur, increase the growth of sulfur bacteria, and promote the oxidation of sulfur. Therefore, the acidity lowering ability of sulfur flowers is expressed early, making it possible to reduce the addition ratio of sulfuric acid, which has the risk of roughing hands, to within a safe range. The combination of sulfur flower and sulfuric acid, as well as gypsum and nitrofumic acid of the present invention is a composition that is fast-acting, long-lasting, extremely safe, and has excellent practicality.

Claims (1)

[Scope of Claims] 1. A composition for adjusting soil acidity reduction, comprising, by weight, 70 to 95 parts of mineral powder, 1 to 20 parts of sulfuric acid, and 1 to 15 parts of sulfur flower.