KR101602743B1 - Fertilizer composition for direct sowing of rice - Google Patents

Abstract

The present invention relates to a soil conditioner comprising a natural zeolite; And a fertilizer composition for direct crop cultivation of rice mixed with a coated fertilizer in which a rapid-acting complex fertilizer is coated with a polymer resin, a coated fertilizer in which a urea fertilizer is coated with a polymer resin, or a coated fertilizer comprising a mixture thereof .

Description

[0001] The present invention relates to a fertilizer composition for direct seeding of rice,

The present invention relates to a fertilizer composition for rectilinear cultivation of rice, which can control the dissolution of nutrients according to the growth characteristics of rice and can maximize the absorption rate of the fertilizer by enabling rhizospheric fertilization.

According to the data of the National Statistical Office of Korea, as of 2012, the domestic rural population is about 6,9% of the total population, which is about 35.6% of the 65-year-old population. And the proportion of the aged 65-year-old population was 27.8%. As such, domestic rural communities have reached a serious level of labor shortage due to rapid population decline and aging, and low - priced foreign rice has been imported into the country due to the opening of agricultural imports overseas, which threatens the domestic rice industry as a whole.

 Among the environmental factors controlling rice harvesting in rice cultivation, fertilizer is an artificially pre-regulated fertilizer which has a great influence on rice yield. Nitrogen fertilizer among nutrient components is a very important nutrient because it affects about 95% . Most of the soil in Korea is composed of granite and granitic gneiss, lacking nutrient preservation ability and low soil pH, the nitrogen utilization efficiency of rice is very low, about 20 ~ 40%. Fertilizer nutrients that have not been used in rice have the problem of flying into the air or going down to the ground and flowing into streams such as ditches, causing pollution of soil and water quality environment. Increasing fertilization efficiency in the cultivation of rice can be considered as an important agricultural research field because it can reduce the material cost, labor cost, and pollution of water and soil.

On the other hand, there is a method of cultivating rice grown in a rice paddy field to a certain extent by cultivating rice in the rice field, and direct seed cultivation method in which rice seed is grown directly by padding rice seeds without making mangoes. In the rice cultivation method, It is possible to grow the early growth of rice in a stable manner because it is planted in the rice field. However, the cost of purchasing farm materials such as soil, nonwovens, fertilizer and box is accompanied with the cost of renting machinery and labor . Therefore, in order to maintain the food self-sufficiency level in the international competition in the era of opening rice, which is the world's third largest crop with wheat and corn, it is inevitable to increase the price competitiveness by reducing the production cost. In line with this trend, rice paddy cultivation, which does not require rice paddy work and migration work called half of one year's farming, is rapidly expanding and spreading to the present farmhouse.

The freshwater seeding method, which was introduced in Korea in the early part of the country, has been using rice seeds by hand or spraying rice with rice seeds using a power fertilizer spreader. However, the above method has a problem that the sowing is not uniform and some rice seeds float on the water, so that the mockery is slow and the rice paddy and the control of the weeds are difficult.

Therefore, nowadays, there is a growing method of direct sunlight cultivation which improved the direct water shortage method. The non-fertilized seedlings are planted at a depth of 3 ~ 5cm in the soil about 5 ~ 7 eggs at intervals of 10cm as fertilizer seeds are passed through the seedlings and the fertilizer is sprayed at 4 ~ 7cm beside the seedlings. The non-cotton seeds have a high germination rate and good roots, and weed problems can be solved by observing the herbicide system treatment standard. Because the direct-worship law does not require matings, labor costs and the cost of purchasing farm products can be greatly reduced when compared to the conventional cultivation practices.

The fertilizer, which is mainly used in nonunion propagation, is a compound fertilizer which is a type II compound fertilizer registered in the domestic fertilizer processing standard and a composite fertilizer which is a mixed fertilizer with a part of a covering element. However, in some places where water is low, the fertilized fertilizer melted and comes into contact with the rice seed, and the rice seed which is in contact with the fertilizer ingredient is not germinated due to the high salt concentration of the fertilizer. In addition, there is a problem that the germination rate of rice seed is remarkably lowered due to lack of water due to bird damage and pecking of rice seed exposed to birds. .

In order to solve such a problem, the present inventors have proposed a method in which a cover material containing a mixture of a phosphate gypsum and an alkaline soil soil improving agent and a quick-acting compound fertilizer is coated with a polymer resin and a urea fertilizer, A fertilizer composition for direct-current cultivation, which comprises a mixture of a coated fertilizer coated with a fertilizer. In the Korean registered patent, the high solubility problem of water-soluble compound fertilizer was covered with polymer resin so that the fertilizer component was slowly dissolved in the water to prevent the damage of fertilizer. In order not to expose the rice seed to the ground, It has been disclosed that the problem of the conventional fertilizer can be solved by treating the alkaline soil improving agent.

However, in order to produce phosphate gypsum and alkaline soil improvement agent, it is necessary to produce a series of preparations in which the amino acid fermentation by-product, which is a granulating assistant, is sprayed on a soil agent mixed with a phosphate gypsum and an alkaline soil agent in a pan type granulator or a rotary cylindrical granulator A process is required. In addition, it is necessary to precisely control the amount of leaching of nutrients according to the number of days of growing rice, so that waste of fertilizer can be eliminated and fertilizer application amount can be minimized. In order to prevent seed germination, the amount of fertilizer is controlled only until 30 days after sowing seed, The fertilizer application rate was inevitably high. This process is accompanied by the additional cost and the increase in the cost of fertilizer to increase the production cost of the final fertilizer product, which raises the farmer's cost of purchasing fertilizer and raises the cost of producing the entire rice.

Therefore, there is a continuing need to develop a fertilizer for direct seeding of rice, which is more simple and economical to manufacture.

Therefore, the present inventors have found that, even if fertilizer and fertilizer are not mixed in a single space, fertilizer and soil fertilizer for a soil soil conditioner machine are mixed with each other and the crop is needed during the entire growing period of the crop without damaging the fertilizer concentration for seed germination and crop growth. As a result of efforts to develop a fertilizer that can supply nutrients sufficiently and economically, it has been found that when the natural zeolite soil agent and the coating fertilizer are mixed, the water absorption rate of the rice fertilizer nutrient is greatly increased and the economical efficiency It is possible to provide the obtained fertilizer composition, thereby completing the present invention.

Accordingly, it is an object of the present invention to provide a fertilizer composition for direct cropping of rice, which is excellent in the growth effect of rice.

The present invention relates to a soil conditioner comprising a natural zeolite; And a fertilizer composition for direct-field cultivation of rice mixed with a coated fertilizer comprising a rapid-acting complex fertilizer coated with a polymer resin, a coated fertilizer comprising a urea fertilizer coated with a polymer resin or a mixture thereof.

The fertilizer composition for direct seeding of the present invention can control the nutrient dissolution of the coated fertilizer in accordance with the nutrient absorption characteristics according to the growing stage of rice, and thus it is possible to supply sufficient nutrients even with a single fertilization, It is possible to maximize the water absorption rate of rice by using fertilizer.

In addition, the fertilizer composition for direct-current cultivation of the present invention includes a soil agent and a coating fertilizer together so that fertilization by a single operation is possible.

Fig. 1 is a diagram showing the growth state of rice grown by direct seeding with the fertilizer composition of the embodiment.
FIG. 2 is a diagram showing the growth state of rice grown by direct seeding with a fertilizer composition of a comparative example.
Fig. 3 is a diagram showing the growth state of rice grown by direct seeding with the fertilizer composition of the comparative example.

Hereinafter, the fertilizer composition for direct cropping of rice according to the present invention will be described in detail as follows.

The fertilizer composition for direct cropping of rice according to the present invention can be largely classified into a soil fertilizer for covering the seeds of the crop and a covering fertilizer for supplying the nutrients of the crop. More specifically, the soil fertilizer containing natural zeolite, A coated composite fertilizer in which a fertilizer is coated with a polymer resin, a coated element fertilizer in which an urea fertilizer is coated with a polymer resin, or a coating fertilizer including a mixture thereof.

The natural zeolite is a porous crystalline material having micropores small in the nanometer size, and is widely used as a cheap adsorbent, a desiccant, an ion exchanger, a separator and a catalyst. Since zeolite is excellent in physical adsorption power and chemical cation substitution, it absorbs up to 20 times of other substances than moisture and has a unique ability to slowly discharge it. Therefore, it has a property of selectively adsorbing ammonia nitrogen (NH ₄ ⁺ ) in the soil The fertilizer component can be sustained for a long time.

The natural zeolite is preferably mordenite, clinoptilolite or a mixture thereof. The mordenite (mordenite) formula is (Na, K, Ca) Al 6 Si 10 O 24 7H 2 O , and as cleaners noptil nitro (clinoptilolite) formula is _{Ca (Na, K) 4 Al} 6 Si 30 O 72 24H ₂ O, and the cation exchange capacity (CEC) is very high, approximately 223 meq / 100 g and 213 meq / 100 g, respectively.

In addition to the nitrogen, phosphoric acid, and garlic components, which are the three major components of fertilizer, rice absorbs much of the silicate (SiO ₂ ) and lime (CaO) components. In particular, the silicate component absorbs more nitrogen than the nitrogen component, Is an absolutely necessary ingredient. The zeolite has a high cation exchange capacity as well as a large amount of silicic acid and lime components, so that it can not only preserve the nutrient components of the fertilizer but also can supply crop nutrients such as silicic acid, lime and garlic.

The natural zeolite preferably has a particle size of 1 to 10 mm, more preferably 2 to 5 mm, because it is advantageous in that it can facilitate fertilization by a machine. Since the natural zeolite can be selectively used according to the particle size, instead of pulverizing and granulating the raw material as the other soil improving agent, the manufacturing cost can be greatly reduced.

Meanwhile, the fertilizer composition of the present invention is coated with a polymer resin on the surface of a general quick-acting fertilizer so that the fertilizer component can be slowly eluted, .

Unlike direct cultivation in rice paddy, rice paddy is grown in rice paddy fields since rice paddy is cultivated for about 30 days in rice seedlings. Therefore, the growth period of rice paddy in this rice paddy is considerably long, Necessary nutrient management is not easy. The fertilizer application system of the short-acting fertilizer in the direct seeding of rice is composed of three stages of fertilization - 5th stage - 7th stage - fertilization, usually fertilizer about 3 ~ 4 times. These frequent fertilization increases the fertilized labor force and misses the timing of fertilization, which may hinder the growth of rice and reduce rice yield. In addition, when farmers fertilize direct fertilized rice fertilized with improperly designed fertilizer nutrients according to the stage of rice growth, rice seed germination problem and poor rice growth may cause decrease in rice yield. Until 30 days after sowing, rice seeds do not need to supply nutrients because they grow while consuming nutrients in the nutrients in rice seeds. When excessive fertilizer nutrients are eluted with rice seeds sown on silkworm at this time, rice seeds do not germinate due to high salt concentration of fertilizer. After this period, if the nutrients in the endosperm (endosperm) are exhausted, it is necessary to live with nutrients supplied from the root when it becomes a weaning period. From this time, depending on the growth stage of rice, fertilizer nutrients Should be supplied. Nitrogen content is especially important in the growth of rice. Since the root of rice grows slowly after the planting period, the nitrogen nutrient plays an important role in determining the number of tillers, so a large amount of nitrogen fertilizer is needed at this stage. Rice emerged early in the early development of rice, and the rice was run, which is called productive tiller. In addition, the tears in the latter part of the growing season are not dried and dry, and they are called non-productive tillers. If there is a lot of nitrogen component at the time of invalid till, the number of gallbladder flourishes so that the ability of photosynthesis of rice is lowered and the yield of rice is lowered, so nitrogen fertilizer should not be fertilized at this time. In addition to nitrogen, it is necessary to supplement the nutrients necessary for the formation of ears. At this time, the fertilizer to be fertilized is called "sour fertilizer" and usually NK fertilizer is fertilized. After rice heading, the soluble protein of leaves is rapidly transferred to the ears, and the chlorophyll is also decomposed and transferred to the ears as a nitrogen source. Therefore, increasing the chlorophyll content of the ripening stage to improve the photosynthetic capacity plays an important role in improving the ripening rate of rice, so the fertilizer component should not be short. The fertilizer ingredient should not remain in this period because the rice husk begins to yellowish and the rice flavor drops when there is a lot of fertilizer ingredient.

Since the nutrient absorption characteristics of rice are different according to the step of growing rice, the coated fertilizer should be designed in consideration of the characteristics of the growing stage. In the present invention, as a coated fertilizer, a coated composite fertilizer in which a compound fertilizer is coated with a polymer resin, Is coated with a polymer resin, or a mixture thereof is used. Through the use of the above-mentioned coated fertilizer, the fertilizer component can be slowly eluted according to the step of growing direct seed rice. In particular, the use of a discontinuous coated fertilizer having a constant dissolution rate requires the use of a plurality of kinds of coated fertilizers having different dissolution times, because there is a limit in meeting the nutrient requirement of rice at the entire rice growing season.

Therefore, it is preferable that the coated composite fertilizer includes two or more coated composite fertilizers having different dissolution rates of the fertilizer components, and more preferably, three to six coated complex fertilizers having different dissolution rates of the fertilizer components good.

After about 90 days after direct seeding with rice seeds, rice paddy formation (30 ~ 32 days before heading) starts, which is a very important period in the rice growing stage because it requires a lot of nitrogen components. Therefore, it is required to design the coated fertilizer so that the fertilizer component can be supplied sufficiently during the above period.

For example, when two kinds of coated composite fertilizer are included, the elution rate (amount of the fertilizer component eluted after 90 days) of the first coated composite fertilizer of the present invention is 70 to 100% by weight, and the second coated composite fertilizer May be 50 to 70% by weight.

When the three coated composite fertilizers are included, the elution rate of the first coated composite fertilizer is 80 to 100% by weight, the elution rate of the second coated composite fertilizer is 50 to 70% by weight, and the elution rate of the third coated composite fertilizer The speed may be from 30 to 50% by weight. In this case, it is preferable that 100 to 150 parts by weight of the second coated composite fertilizer and 100 to 200 parts by weight of the third coated composite fertilizer are contained in 100 parts by weight of the first coated composite fertilizer.

It is preferable that the coated element fertilizer includes two or more coated element fertilizers having different dissolution rates of the fertilizer components, and more preferably, three to six coated element fertilizers having different dissolution rates of the fertilizer components are used It is good.

For example, when two kinds of coated element fertilizer are included, the elution rate (amount of the fertilizer component eluted after 90 days) of the first coated element fertilizer is 70 to 100% by weight, and the elution rate May be 50 to 80% by weight.

When three kinds of coated element fertilizer are included, the elution rate of the first coated element fertilizer is 80 to 100 wt%, the elution rate of the second coated element fertilizer is 60 to 80 wt%, and the elution rate of the third coated element fertilizer The speed may be from 40 to 60% by weight. At this time, it is preferable that the second covering factor fertilizer is 150-200 parts by weight and the third covering factor fertilizer is 150-250 parts by weight with respect to 100 parts by weight of the first covering factor fertilizer.

The elution rate of the coated fertilizer can be controlled by controlling the coating amount or coating thickness of the polymer resin to obtain a desired target dissolution rate.

The polymer composite resin constituting the coating layer of the coated composite fertilizer and the coated element fertilizer may be used without limitation, but may be one selected from acrylic resin, polyethylene resin, PVDC (polyvinyl dichloride) resin, polyimide resin, alkyd resin and urethane resin Mixtures of two or more may be selected and used. Particularly, in the case of acrylic resin, acrylic emulsion polymer resin can be used. Since acrylic emulsion is not a solvent type resin such as toluene and water is used as the thermoplastic resin, there is no damage of seed due to volatility of solvent, , Soil pH, and the like, since the dissolution rate is not influenced by the external environment of the soil.

The fertilizer composition for direct-wave cultivation of rice according to the present invention preferably comprises 1 to 100 parts by weight, more preferably 10 to 80 parts by weight, of the coated fertilizer with respect to 100 parts by weight of the soil material.

On the other hand, a thin layer called an oxide layer is formed on the uppermost layer of the paddy soil by about 10 mm. The ammonia nitrogen (NH ₄ ⁺ ) used in the oxidation layer is converted into nitrate nitrogen (NO ₃ ^- ) by microbial action, It does not adhere to the soil particles that are stuck and flows down to the basement, which is downward to the soil layer. The soil layer below the oxide layer has a bluish gray color and has a reducing property, which is called a reducing layer of the soil. Even if the fertilizer is fertilized to the reduction layer of the soil, if fertilized to the whole paddy soil without fertilization to the rhizosphere near the root of the paddy, the place where the paddy does not reach to the paddy will be the loss of the fertilizer nutrient. Therefore, the fertilizer composition for direct seeding of the rice according to the present invention is preferably fertilized at a depth of about 3 to 5 cm of the soil reduction layer near the root of the rice in terms of minimizing the nutrient loss of the fertilizer.

The present invention relates to a method for producing a natural zeolite, comprising the steps of: preparing a natural zeolite of a predetermined size to prepare a soil conditioner; fluidizing the fertilizer particles to prepare a coated fertilizer by coating a polymer resin on the fertilizer particles; Wherein the fertilizer composition for direct-seeding cultivation is prepared.

The coated fertilizer injects the quick-acting compound fertilizer or urea fertilizer into the fluidized bed coater, fluidizes the fertilizer particles through a preheating process for preventing moisture in the fertilizer, and then sprayes the polymer resin onto the surface of the fertilizer. As a method of coating the above-mentioned fertilizer particles with a polymer resin, there is a method in which fertilizer is put into a fluidized bed coating machine and the polymer resin is finely sprayed through a spray nozzle in the state that the fertilizer particles are floated in the air to finely coat the fertilizer particles use. In this case, the coating conditions can be appropriately adjusted according to the polymer to be coated. However, when the acrylic emulsion resin is used, the coating temperature is 30 to 80 ° C, the spraying pressure is 0.1 to 3.0 kg / cm 2, the spraying amount is 1 to 100 g / It is preferable that the coating is carried out under the condition of 10 to 120 minutes, and the coating temperature is more preferably controlled within the range of 40 to 70 ° C. After the coating is completed, the coating is dried and then cooled naturally, and the coated fertilizer can be discharged through the outlet of the fluidized bed coating unit to obtain the coated fertilizer.

Hereinafter, the present invention will be described in detail with reference to the following examples, but the present invention is not limited by the following examples.

Production Example 1: Preparation of Zeolite Additive

The zeolite collected from the zeolite mine mixed with mordenite and clinoptilolite in Pohang area, Gyeongbuk province was selected to be the only particles having particle size of about 2 ~ 5 mm.

Preparation Example 2: Preparation of first coated composite fertilizer

One kilogram of a rapid-acting compound fertilizer (Namhae Chemical Co., Ltd., Hanam Fertilizer) having a particle diameter of 2 to 4 mm was placed in a fluidized bed coater, and the fertilizer was fluidized into the air at a temperature of 60 ° C for 10 minutes by compressed air, and then an acrylic emulsion polymer resin Respectively. At this time, the coating temperature was 60 ° C., the spray nozzle air pressure was about 1 kg / cm ² , and the coating material spray amount was 7 g / min. The coating was sprayed for 40 minutes. After coating, the coating was heat treated at 80 ° C. for 20 minutes Dried, then cooled naturally, and then the coated fertilizer was discharged through the outlet of the fluidized bed coater to produce the first coated composite fertilizer.

Preparation Example 3: Preparation of second coated composite fertilizer

The spraying time was set to 50 minutes so that the coating thickness was formed thicker than the coating thickness of the first coated composite fertilizer to slow the elution rate of the fertilizer so that nutrients could be fed in the middle of the rice. The same procedure was followed to prepare a second coated composite fertilizer.

Production Example 4: Preparation of a Third Coated Compound Fertilizer

The spraying time was changed to 60 minutes and the coating thickness was formed thicker than the coating thickness of the second coated composite fertilizer to slow the elution rate of the fertilizer so that nutrients could be supplied to the second half of the rice. The same procedure was followed to prepare a third coated composite fertilizer.

Production Example 5: Preparation of first coated element fertilizer

The procedure of Preparative Example 2 was repeated except that 1 kg of urea fertilizer (Namhae Chemical, Superalloy) was used to prepare a first coated element fertilizer.

Preparation Example 6: Preparation of second coated element fertilizer

The procedure of Preparative Example 3 was repeated except that 1 kg of urea fertilizer (Namhae Chemical Co., Ltd., Superalloy) was used to prepare a second coated element fertilizer.

Preparation Example 7: Preparation of Third Coating Element Fertilizer

A third coated element fertilizer was prepared by proceeding in the same manner as in Preparation Example 4 except that 1 kg of urea fertilizer (Namhae Chemical, Super Alayer) was used.

EXAMPLES: Preparation of fertilizer compositions for direct seeding in rice

Preparation Example 1 of the zeolite-applied coated urea of the 123 kg / 1000m ^2, Production Example 2-4 coated fertilizer each 8 kg / 1000m ^2, Preparation Example 5 coated urea fertilizer 4 kg / 1000m ^2, Preparative Example 6 of the to ² kg / 1000m 2, Production example 7 ² kg / 1000m 2 was prepared by mixing in the direct seeding cultivation of fertilizer compositions.

COMPARATIVE EXAMPLES: Preparation of fertilizer compositions for direct seeding in rice

A fertilizer composition for direct seeding cultivation was prepared by mixing 123 kg / 1000 m ² of the zeolite soil material of Production Example 1, 24 kg / 1000 m ² of the coated composite fertilizer of Production Example ² , and 8 kg / 1000 m ² of the coated factor fertilizer of Production Example 5.

Comparative Example: Preparation of fast-acting fertilizer composition for direct seeding of rice

(KG Chemical) 9.5 kg / 1000 m ² , Gungan (KG Chemical) 22.5 kg / 1000 m ² , Sulfuric acid gallium (KG Chemical) 8.8 kg / 1000 m was prepared by mixing ^2, was used as the rice plant of the manure with urea (southern Chemicals, super alalyi) for the 7.1 kg / 1000m ^2, for rice ear fertilizer urea (southern Chemicals, super alalyi) 7.1 kg / 1000m ^2, And 3.8 kg / 1000 m ² of sulfuric acid gall (KG Chemical). This is a general practice of rice, and no additional zeolite additive was used.

Test Example 1: In-water elution test of fertilizer for direct seeding of rice

In order to investigate the degree of elution of the coated fertilizer according to each production test, 5 g of the coated fertilizer except for the soil agent and the comparative example of the rice base fertilizer were sampled in the above-mentioned Examples and Comparative Examples and put into a 250 ml flask filled with distilled water , And the total nitrogen component eluted into water every 10 days while being kept in a 30 ° C thermostat was measured through a nitrogen analyzer equipped with a Kjeldahl apparatus. The measurement results are shown in Table 1 below.

division Dissolution rate (%) Number of days elapsed (days) One 10 30 50 70 90 110 130 150 Example 2 4 12 43 67 78 89 98 100 Comparative Example 3 5 21 67 89 100 Comparative Example 100

Test Example 2: Test for effect of growth of rice on fertilizer application for direct seeding of rice

1. Fertilizer treatment method

In order to test the rice growth effect of the prototype product developed by the present invention, a certain amount of paddy soil was filled in a flask having a size of 44 cm (wide) × 58 cm (length) × 20 cm (height) And seeds of Nambyeongbyeo were planted in four rows with five seeds. The fertilizer compositions of the above Examples and Comparative Examples were applied directly onto rice seeds, and no fertilizer was added during the entire growth period of rice.

On the other hand, the fertilizer application of the quick-acting fertilizer according to the general practice cultivation method did not germinate when the fertilizer was applied directly above the rice seed. Therefore, the fertilizer for the rice base fertilizer prepared in the comparative example was fertilized in the vicinity of 2 cm near the rice seedlings, The fertilizer for rice germination prepared in Comparative Example was fertilized and about 90 days after planting of rice seed fertilizer, the fertilizer for rice germination prepared in Comparative Example was fertilized.

2. Rice Growth Investigation

The rice seedlings were sown at 113 days after sowing rice seeds, and the rice was harvested at 173 days after sowing seedlings. The results are shown in the following Table 2, and the photographs are shown in Figs. 1 to 3.

Treatment Leaf color (SPAD) Number of valid tries (pieces / week) Length (cm) Yield (kg / 10a) Example 32.7 17 85 603 Comparative Example 29.8 9 80 485 Comparative Example 30.1 10 81 510

As shown in Table 2 and FIG. 1 to FIG. 3, it can be confirmed that the rice grown with the fertilizer composition of the Example had better growth than the rice treated with Comparative Examples and Comparative Examples. In addition, the number of effective tillages in which the treatment of the example directly affected the rice yield was higher than that of the other treatments, and the rice yield was the highest. This is because the fertilizer nutrients are eluted according to the nutrient absorption characteristics according to the growth period of the rice through the fertilizer composition of the embodiment, and the zeolite can minimize the loss of fertilizer due to the denitrification of the nitrogen fertilizer. In the case of the comparative example, even when feeding the nutrients necessary for the growth of the rice in the second half of the year by fertilizing the eared rice which is the quick-acting fertilizer at the time of the flowering of the rice, the yield of the rice is better than that of the rice, It is possible to obtain a corresponding amount of yield.

Therefore, the fertilizer composition of the present invention can control the nutrient elution of the coated fertilizer in accordance with the nutrient absorption characteristic according to the growth stage of rice, and it is possible to fertilize the rhizosphere to be fertilized right above the rice seed, Therefore, excellent growth characteristics can be ensured even when the fertilizer is used at a rate of about 40% or less less than the recommended fertilizer application rate of government recommended practices.

Claims (9)

A humectant comprising a natural zeolite having a particle size of 1 to 10 mm; And
A coated composite fertilizer in which a composite fertilizer is coated with a polymer resin,
A covering material fertilizer in which urea fertilizer is coated with a polymer resin or a coating fertilizer including a mixture thereof is mixed,
Wherein the coated composite fertilizer includes a first coated composite fertilizer having an elution rate of 80 to 100% by weight, which indicates an amount of the fertilizer component eluted after 90 days, a second coated composite fertilizer having a dissolution rate of 50 to 70% Wherein the second coated composite fertilizer is 100 to 150 parts by weight and the third coated composite fertilizer is 100 to 200 parts by weight based on 100 parts by weight of the first coated composite fertilizer, ≪ / RTI >
Wherein the coated element fertilizer comprises a first coated element fertilizer having a dissolution rate of 80 to 100% by weight showing a quantity of the fertilizer component eluted after 90 days, a second coated element fertilizer having a dissolution rate of 60 to 80% Wherein the second coating element fertilizer is 150-200 parts by weight and the third coating element fertilizer is 150-250 parts by weight based on 100 parts by weight of the first coating element fertilizer Wherein the fertilizer composition is a fertilizer composition for direct seeding of rice.

delete delete delete delete The method according to claim 1,
Wherein the natural zeolite is mordenite, clinoptilolite, or a mixture thereof.
delete The method according to claim 1,
Wherein the coated fertilizer comprises 1 to 100 parts by weight based on 100 parts by weight of the soil material.
The method according to claim 1,
Wherein the polymer resin is one or a mixture of two or more selected from acrylic resin, polyethylene resin, polyvinyl dichloride (PVDC) resin, polyimide resin, alkyd resin and urethane resin.

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