Method for increasing yield of gleying paddy soil at lake paddy area

A technology of gleization and paddy soil, applied in the field of paddy field management, can solve the problems of affecting the nutrient utilization rate of paddy fields, increasing the supply of soil nutrients, reducing the accumulation of reducing substances, etc., so as to strengthen the ability to resist the invasion of diseases and insect pests and improve the growth status , Reduce the effect of reducing substance accumulation

Inactive Publication Date: 2013-08-21
JIANGXI INST OF REO SOIL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

One of the methods to improve the yield of gleization paddy soil in the existing lakeside rice fields is to take engineering measures, including excavating drainage ditches, burying underground ditches, hidden pipes, etc., to reduce the water level in the paddy field by removing the accumulated water in the field and lowering the groundwater level. The degree of gleization; the second method is to improve farming measures, including paddy and dry crop rotation, winter plowing and sun-drying, etc., to change the water supply status and soil structure of gleization paddy fields, to increase soil aeration, and to reduce the accumu

Method used

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Effect test

specific Embodiment approach 1

[0038] The invention discloses a method for improving the yield of gleization paddy soil along the Poyang Lake rice field, which is to spread the mixture of calcium peroxide, silicon-calcium fertilizer and inorganic compound fertilizer to the gleization paddy field whose soil type is gleization paddy soil.

[0039]The gleization paddy field area of ​​implementing the method of the present invention is about 11 mu, located in the test base of Jiangxi Red Soil Research Institute in Nanxin Township, Nanchang County, geographical coordinates are 28 ° 16 '~28 ° 58 ' north latitude, 115 ° 49 ' east longitude ~116°19′, the depth of the gleization layer is 12cm~25cm, and the total amount of reducing substances in the plow layer soil is 3.53cmol / kg. The paddy field planting mode is early rice-late rice-winter slack, the early rice variety is Jinyou 458, and the late rice variety is Ganxin 688.

[0040] Early rice planting time: April 27, 2012 to July 14, 2012;

[0041] Late rice plant...

specific Embodiment approach 2

[0050] A method for increasing the yield of paddy soil by glening paddy soil along the Poyang Lake rice field. The paddy field planting mode is early rice-late rice-winter slack, which is basically the same as the specific implementation mode 1, the difference is:

[0051] On the day before the late rice was transplanted on July 25, 2012, the soil type of the shallow water layer with a depth of 2cm to 4cm was a gleization paddy field, and calcium peroxide, silicon-calcium fertilizer and inorganic fertilizer were applied. A mixture of compound fertilizers.

[0052] Application effect: The output of late rice increased by 30.7% significantly. The average yield per mu was 684 catties if calcium peroxide, silicon-calcium fertilizer and inorganic compound fertilizer were not applied, while calcium peroxide, silicon-calcium fertilizer and inorganic compound fertilizer were applied For the mixture of mixed fertilizers, the average yield per mu was 894 catties; when the rice was harves...

specific Embodiment approach 3

[0053] A method for increasing the yield of gleization paddy soil along the Poyang Lake rice field. The paddy field planting mode is early rice-late rice-winter slack, which is basically the same as the specific implementation mode 1. On April 26, 2012, the day before the early rice was transplanted, there was The soil type in the shallow water layer with a depth of 2cm to 4cm is the gleization paddy field of gleization paddy soil, and the mixture of calcium peroxide, silicon-calcium fertilizer and inorganic compound fertilizer is applied. The difference is:

[0054] The mixing ratio of calcium peroxide, silicon-calcium fertilizer and inorganic compound fertilizer is 1.6:15:40.

[0055] Calcium peroxide is calcium peroxide with a purity of 75% and an active oxygen content of 9%, and the application rate per mu is 1.6kg.

[0056] Application effect: The yield of early rice increased by 31.4%. The average yield per mu was 618 catties without applying calcium peroxide, silicon-ca...

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Abstract

A method for increasing the yield of gleying paddy soil at a lake paddy area comprises the steps: fertilizing oxygen fertilizer and silicon fertilizer to gleying paddy fields with the soil type being the gleying paddy soil, wherein the fertilization amount of the oxygen fertilizer per acreage is 1.6kg-2.4kg, the fertilization amount of the silicon fertilizer per acreage is 12kg-18kg, growth of paddy rice can be effectively promoted, the paddy yield can be greatly improved by 20.8%-37.4%, the total grain number of each hole is increased by 17.6%-24.9%, the thousand seed weight is increased by 3.7%-4.4%, the total amount of reducing substances of the soil after the paddy rice is harvested is remarkably reduced by 21.3%-46.8%, organic matter in the soil is improved by 4.2%-10.4%, rapid available phosphorus is improved by 2.9%-5.3%, rapidly available potassium is improved by 2.1%-6.2%, and total nitrogen is improved by 2.2%-5.2%. The method has the advantages of being good in effect of improving the yield of the paddy rice, simple in operation, wide in application range, and particularly suitable for being widely popularized and applied in the gleying paddy soil in the mild surface layer at the lake paddy area.

Description

technical field [0001] The invention relates to paddy field management by using a mixture of one or more fertilizers and a soil conditioner without special fertilizer effect, in particular to a method for increasing yield of gleization paddy soil in a lakeside paddy area. Background technique [0002] Secondary gleization of rice fields is one of the important reasons for the decline in yield of some existing rice fields. The soil type in the paddy area along the lake is a gleization paddy field with moderate to light surface layer gleization (Gleying Process of Soil) paddy soil, and there are problems such as low soil temperature, high total amount of reducing toxic substances, and slow rooting of rice during the sowing stage of early rice. , the oxidation-reduction potential (Eh) of certain layers in the soil within lm is below 200mv, which seriously affects the substantial increase in rice yield and the promotion of double-cropping rice cultivation in large areas. Some yie...

Claims

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Application Information

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IPC IPC(8): A01G16/00A01C21/00C05G3/04A01G22/22C05G3/80
Inventor 李大明余喜初黄庆海柳开楼胡惠文徐小林叶会财
Owner JIANGXI INST OF REO SOIL
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