KR101337824B1 - Corn containing Ca highly concentrated - Google Patents

Abstract

The present invention relates to a high-quality, high-calcium corn cultivation method capable of reducing corn use, increasing yield, increasing pesticides, and reducing pesticide use. 180 to 220 g of the prepared ionized calcium powder was dissolved in 500 liters of water and sprayed on 1100 to 1300 pyeong of the corn field. At the beginning of ripening at about 40 to 50 days after the corn meal, 240 to 260 g of ionized calcium powder was dissolved in 500 liters of water. Foliar spraying on 1100 to 1300 pyeong, and 12 to 16 days before harvesting, 430 to 470 g of ionized calcium powder was dissolved in 500 liters of water, followed by foliar spraying on the corn field 1100 to 1300 pyeong.

Description

Corn containing Ca highly concentrated

The present invention relates to a method of cultivating high calcium corn, and more particularly, to a method of cultivating high-quality corn calcium, which is strong in corn and resistant to pests, and thus can reduce yielding, increase yield, and reduce pesticide use.

Corn is grown mainly for food and feed.

Corn varieties and methods of cultivation have been continuously improved, and many studies are being conducted to increase the yield, to resist pests, and to shorten the harvest time, which are suitable for use for food or feed.

One seedling (seed root) comes out at the time of sprouting, and 2 ~ 3 membrane roots (muscle roots) emerge from nearby nodes, absorbing nutrients and moisture at the beginning of growth, and permanent rooting around 7-10 days after sprouting. (Root) occurs. Roots are distributed within 70cm of the ground, but sometimes extend to 2m deep. Roots occur in the stems of 2-3 nodes close to the ground surface and enter the ground, preventing them from falling down and absorbing nutrients and moisture. Sustaining is done by old roots.

Corn stalks are rounded in stalks and enclosed in hard shells. The stems range from the shortest of 0.7 cm to 6 m, but usually between 1.5 and 3 m. The number of leaves running in one stem is 12 ~ 22, and the leaf is divided into leaf sheds and leaves (leafy leaves), which are widely divided.

The ear of corn is a hermaphrodite plant in which the female flower and the male flower are in the same abandonment. The male flower, the male ear, runs in the middle of the stem. 5-20 primary branches occur in the long spiked stem of the male ear, and secondary branches occur again in the primary branch, and male minorities grow in each node of the branch. Well-developed males produce 2 to 5 million pollen grains. The head of the ear has a stalk on the bottom and is enclosed in 7-12 ear shells (bracts). The female head, which is the source of the corn grain in the head, has 8 to 20 rows. The ovary has a beard that grows up to 50cm long and grows out of the ear shell to get pollen.

The minimum temperature required for the sprouting of corn is 6 ~ 11 ° C, the optimum temperature is 34 ~ 38 ° C, the maximum temperature is 41 ~ 50 ° C, and the number of sprouting days is 18 ~ 20 days at 13 ° C when soil moisture is sufficient. It takes 8-10 days at 15-18 ° C and 2-6 days at 21 ° C.

When pollen comes out from the head, it is a little faster than that of the beard of the female head, and most of them receive pollen from other nearby heads. Male ears begin to pollen three to five days after the tail of the dog. The flowering period is 7 to 10 days, with the most flowering at 10 to 11 am.

Corn has the highest yield per unit area among the crops, because corn has four carbon atoms (C) in the early stages of photosynthesis, resulting in high carbon area efficiency. It has a chloroplast of which has high photosynthetic ability.

Pollen carries 2m when there is no wind, and 300 ~ 800m when wind blows. Pollen usually dies within 24 hours after leaving the pollen bag (about) and whiskers have moisture capacity of 10-15 days, but within 7 days It is good to pollinate. Pollen attached to the beard stretches one pollen tube and reaches fertilization within 12 to 24 hours, and then fertilizes with the egg and the nucleus.

Corn eggs reach their peak in size at 28-35 days after fertilization, but their weight reaches their peak at 40-49 days, and their sprouting capacity rapidly increases from 20 days after fertilization, giving them normal capacity at 35 days. Corn kernels are fertilized after fertilization (housing), full ripening (housing), hardening (curing), and pressing ripening (hwang) and ripening (maturity). But it takes 45-60 days to mature

General corn cultivation instructions are as follows.

How to grow a vinyl house

The installation of a plastic house can be done in a place where it can be well-ventilated and prevented by the wind in late autumn before the land freezes, and the use of invincible vinyl with less dew can increase the amount of solar radiation. Corn is a crop that doesn't like to be planted, so don't spoil it when you plant it in a pot. The pot uses a commercially available 25-hole connecting port, a black vinyl port with a diameter of 8 to 10 cm, and a vinyl tube with a diameter of 10 cm. After planting 2 grains per pot, water is soaked so that moisture does not dry out and the temperature is kept above 10 ℃. For the soil to be put in the pot, the ratio between ripe compost and sandy loam is 4: 6. At this time, sift so that there is no coarse soil and if you use a lot of manure or immature compost, you must use ripe compost because it damages corn due to gas.

Water the planting place and move it around 2 or 3 corn leaves. The planting distance is 50cm in width and 40cm in daytime distance. Two plantings per plant are planted to make 8,000 ~ 10,000 plants per 10a. Fertilization amount is 15, 12, 12 kg per 10a of nitrogen, phosphoric acid, and girly, respectively. Before planting, half of the nitrogen, phosphoric acid, and girly shall be under the manure. The remaining half of the nitrogen shall be smiled at the time of 6 ~ 7 sheets of corn leaves. When cultivating rice paddies before rice transplanting, give 30kg of phosphoric acid and use 2,000kg of compost. When you grow Danok No. 1 and Golden Crossvantam 70, the temperature in the plastic house is controlled up to 25 ° C from sowing to harvesting. Increasing the temperature to 40 ℃ compared to that was reduced by 14 days whiskers yield increased by 24%. During the flowering period, when the temperature is high, pollen dries up and there is no fertilization ability. Therefore, when the maximum temperature in the plastic house passes 35 ° C, ventilation is provided.

Vinyl Tunnel Cultivation

It is seeded in a pot in the central region in mid-March. In early April, when geothermal temperature is 10 ℃ or higher, it is planted in 60cm of guinea butterfly and 25cm of weekly distance. In order to prevent the damage of frost, if you keep warm in a vinyl tunnel until the last frost, maturity is reduced. If the maximum temperature in the vinyl tunnel is over 40 ℃ during the cultivation period, ventilate by tearing the sides with a knife to cut the middle part of the tunnel. Other care tips follow the cultivation of plastic houses.

Straight wave mulching

In the South Central region, counting is reversed from the day of the last frost, sowing 10-15 days before, and vinyl mulching. Rather than direct coating, the direct mulching cultivation shortens the growth period by about 10 days, keeps the warming effect and soil moisture properly, and increases the yield. It is a cultivation method with a relatively high income because it is easy to grow and low in material costs. When sowing, dig deeper and grow until 3-4 leaves of leaves in the pits develop, and then out of vinyl mulching and leave the vinyl until harvest. Other tips for cultivation follow the green house cultivation.

When soil moisture is insufficient, water should be used, especially when the beard comes out. In the southern region, black streaks (black-dyed atrophy), which are transmitted by the larvae, occur, so it is safe to spray the insecticide 2 or 3 times before the beard leaves to prevent the invasion of the larvae through the window. The side branches of sweet corn are produced depending on the varieties. In the straight wave mulching or tunnel cultivation, the side branches do not need to be picked because it takes considerable effort and hurts the picked areas. However, in extreme planting, it is effective to remove side branches generated at the early stage of growth, because of good ventilation and large amount of insolation.

Harvest of corn

Depending on the temperature and cultivation type during the ripening period, the harvest season is different, but it is harvested 25 days after the emergence of the beard. If you harvest too early, the corn grains are small, and if you delay the harvest, sugar and freshness will fall. Corn per second must be harvested in a timely manner since the corn grains of Isaac's corn grains rush faster after the harvest time. Sugar is converted to starch after harvest, unless it is harvested early in the morning, shipped to the market, and frozen immediately after harvest. In general, sweet corn has no taste because the sugar is changed to starch after 30 hours of harvest, but the sweet per second corn has a characteristic that the sweet taste gradually changes even after 48 hours after harvesting.

The cultivated and harvested corn is used as a raw material to make boiled snacks or to make grains of flour to make bread or corn flakes.

In addition, corn starch is made and used in processed foods such as confectionery and dough products. Such starch is also used as a brewing raw material for beer, and is often used as a grass in paper and textile industries. Sweet corn is usually steamed or baked in immature fruit. Corn's sweetness decreases rapidly after harvesting, and can be processed immediately by canning or freezing to expand demand for home cooking ingredients.

Ingredients in 100g of mature grains of edible corn contain, on average, 14.5g of water, 8.6g of protein, 5.0g of lipids, and 68.6g of carbohydrates, 2.0g of fiber, and 1.3g of inorganic salts. In addition, the trace amount of calcium, as shown in Figure 1, it was analyzed that 8.01mg per 100g contained.

The present invention is to provide a corn cultivation method for increasing the content of calcium among the various components contained in the kernel of corn.

The present invention is to provide a high-quality high-calcium corn cultivation method that the corn is robust, resistant to dodging, increased yield, pests, can reduce the use of pesticides.

In the high calcium corn cultivation method of the present invention, about 16-25 days after planting corn, 180-220 g of ionized calcium powder made by baking shells is dissolved in 500 liters of water, followed by foliar spraying on corn fields 1100 to 1300 pyeong, and corn. At the beginning of ripening at 40-50 days after meals, 240 to 260 g of calcium ion powder was dissolved in 500 liters of water and sprayed onto 1100 to 1300 pyeong of the corn field, and 430 to 470 g of ionized calcium powder was sprayed on water 500 to 12-16 days before harvesting. Loosening in liters and foliar spraying on corn fields 1100 to 1300 pyeong.

The method also includes a soil improvement step of spraying 20 kg per 50-70 pyeong of soil-modifying agent, which is ground and baked to 700 to 900 degrees Celsius, depending on the condition of the soil, 6 to 8 months before the corn is planted. Additionally.

The present invention is grown by the above cultivation method to obtain corn containing a lot of calcium.

When the corn is cultivated by the cultivation method of the present invention, the calcium formulation is fertilized in addition to the general fertilization, so that the corn becomes strong and resistant to pests, thereby reducing the use of pesticides.

In addition, corn grains cultivated and harvested by the cultivation method of the present invention have an effect of containing 183% more calcium than conventional corn.

1 is a test report analyzing the amount of calcium contained in the conventional corn.
Figure 2 is a test report analyzing the amount of calcium contained in the corn grown by the cultivation method of the present invention.

Referring to a specific embodiment of the high calcium corn cultivation method of the present invention are as follows. Corn cultivation is cultivated as a conventional planting, fertilization and cultivation of corn kernels according to conventional methods, but the present invention further includes the following steps.

Corn seedlings are settled. Usually, they are planted by two or three leaves. The planting distance is 50cm in width and 40cm in daytime distance. Two plantings per plant are planted to make 8,000 ~ 10,000 plants per 10a.

After planting corn, about 16-25 days, 180-220 g of ionized calcium powder, made by baking shells, is dissolved in 500 liters of water to dissolve well, followed by foliar spraying on corn fields 1100-1300 pyeong. Then, the corn absorbs calcium, strengthens disease resistance, and withstands pests and grows well.

The ionized calcium powder uses, for example, Nuionion's ionizing calcium hydrate, which is prepared by the method of preparing the shell ionized calcium, which is published on April 16, 2007, registered Patent No. 10-0707737. This manufacturing method comprises a shredding process of crushing the shell to the size of 1.5 to 10 cm; Firing the shell by loading the crushed shell into a firing furnace and gradually raising the inside of the firing furnace to a temperature of 1200 ° C. over a plurality of firing steps having different heating rates; The fired shell is manufactured by a process including a cooling process of cooling the air outside the firing furnace in a stepwise manner to make contact with the fired shell.

Next, at the beginning of ripening season 40-50 days after corn seedlings are settled, 240-260 g of calcium ionized powder is dissolved in 500 liters of water, and foliar spraying is carried out on the corn field 1100-1300 pyeong.

Lastly, 12-16 days before harvesting, 430-470 g of ionized calcium powder was dissolved in 500 liters of water and foliar sprayed on 1100-1300 pyeong of the corn field.

By foliar fertilization of the ionized calcium, the absorbed calcium is transferred to corn grains so that it can be stored well.

Depending on the condition of the field in which corn is to be cultivated, it may be necessary to improve the soil. In such a case, corn is scheduled in advance, and 6-8 months before the scheduled date, the shells are baked at 700 to 900 degrees Celsius, and then crushed into granular soil improving agents (for example, Alkali of New Carrion Co., Ltd.). Soil improvement is applied to spray 20 kg per 50-70 pyeong of warm granular soil improver). This soil improvement may be applied at the same time as the rotary operation, but the soil improver may be applied before the rotary operation. The application of soil modifiers containing natural minerals will help the crops grow robustly due to the effects of acidification, soil dissolution and degradation of the insoluble ingredients and rooting of crops.

As a result of the component analysis of the corn grown in this way, as shown in Figure 2, it was analyzed that the calcium contained 14.66mg per 100g. This is about 183% more than the conventional corn containing 8.01mg per 100g as shown in Figure 1 has a calcium increase effect. The sample corn of the results shown in Figure 2 is the result of three times in total, once once formulated calcium ionized leaf foliar spray, once in ripening, 12-16 days before harvesting. Therefore, it will be certain that more calcium will be transported to the grains and stored after several times of ripening.

Not applicable

Claims (3)

At 16-25 days after planting the corn, 180-220 g of ionized calcium powder made by baking shells was dissolved in 500 liters of water, and then foliar sprayed on corn fields 1100-1300 pyeong,
At the beginning of ripening for 40 to 50 days after corn meal, 240 to 260 g of the ionized calcium powder was dissolved in 500 liters of water, and foliar spray was applied to 1100 to 1300 pyeong of the corn field.
12-16 days before harvesting, the high calcium corn cultivation method characterized in that the cultivation of corn, including the step of foliar spraying on the corn field 1100 to 1300 pyeong by dissolving 430 to 470 g of the ionized calcium powder in 500 liters of water. The method according to claim 1,
6 to 8 months before the corn is planted, the high calcium corn cultivation further comprises a soil improvement step of spraying the shells at 700 to 900 degrees Celsius and then pulverizing the granulated soil improver to 20 kg per 50-70 pyeong. Way. High calcium corn obtained by the cultivation method of claim 1 or 2

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