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Fertilizer deep application and cultivation method for increasing no-tillage middle-season rice yield and improving nitrogen use efficiency

A cultivation method and utilization rate technology, applied in rice cultivation, fertilization methods, botanical equipment and methods, etc., can solve problems such as decline, low nitrogen utilization rate, nitrogen pollution yield, etc., to reduce ammonium nitrogen content, improve Effect of Nitrogen Fertilizer Absorption and Improving Rice Quality

Inactive Publication Date: 2018-06-29
HUAZHONG AGRI UNIV
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Problems solved by technology

[0004] Based on the defects of fertilization technology existing in the prior art, in order to solve the problems of nitrogen pollution and yield decline caused by low nitrogen utilization rate in no-tillage paddy fields, the object of the present invention is to provide a kind of fertilizer deep application that improves rice yield and nitrogen utilization rate cultivation method

Method used

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  • Fertilizer deep application and cultivation method for increasing no-tillage middle-season rice yield and improving nitrogen use efficiency

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Embodiment 1

[0032] A kind of fertilizer deep application cultivation method that improves no-tillage mid-season rice yield and nitrogen fertilizer utilization rate, and its steps are:

[0033] (1) Field pretreatment: After the previous crops are harvested, the systemic chemical herbicide glyphosate is selected 10 days before seedling throwing. After 3 days of glyphosate application, the field is irrigated with water, and the field is soaked for 3 days. The surface is flush, and it is simply leveled with a plow, and the field is dried until the soil moisture content reaches 30%.

[0034] (2) Drought seedling raising: 25 kg of Huanghuazhan hybrid rice was selected for each hectare field. Seed in the sun for 3 days. Soak the seeds in running water for 6 hours in a breathable nylon mesh bag during the day, and spread them out to dry at night. The Lubai seeds are coated into granules according to 350g of Hanyu Nanny per 1kg of seeds. Seedbed: Daejeon area according to the ratio of 1:18. Th...

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Abstract

The invention discloses a fertilizer deep application and cultivation method for increasing the no-tillage middle-season rice yield and improving the nitrogen use efficiency. The method comprises thesteps of 1, field pretreatment, wherein an amides systemic herbicide is applied after preceding crops are harvested and before seedling slinging; 2, dry rice-nursery, wherein hybrid rice is selected,seeds are aired on a clear day before sowing, and the seeds are placed in flowing clear water and soaked in the daytime and are fished out, spread and aired in the night; 3, fertilizer deep application, wherein deep application is conducted on a base fertilizer, broadcasting is conducted on an additional fertilizer, the base fertilizer is a nitrogen-phosphorus-potassium mixed fertilizer, deep application can also be conducted after nitrogen, phosphorus and potassium fertilizers are mixed, and the later additional fertilizer is mainly urea; 4, filed seedling slinging, wherein the fertilizer deep application is completed, irrigation field steeping is conducted before seedling slinging; 5, water management, wherein at the seedling stage, a shallow-water layer is kept, at the tillering stage,intermittent irrigation is conducted, and at the yellow ripening stage, air-drying is conducted after the dough stage; 6, filed management. The fertilizer deep application and cultivation method for increasing the no-tillage middle-season rice yield and improving the nitrogen use efficiency is easy to conduct and convenient to operate, effectively reduces ammonia volatilization and nitrogen loss of a no-tillage rice field, improves the nitrogen use efficiency of the no-tillage rice field, and increases the yield of the no-tillage rice field.

Description

technical field [0001] The invention relates to the field of rice cultivation, and more specifically relates to a fertilizer deep-application cultivation method for improving rice yield and nitrogen utilization rate. Background technique [0002] Rice plays an extremely important role in food production. In recent years, due to the transfer of a large number of rural labor forces to cities, there is a shortage of labor; at the same time, traditional rice cultivation is time-consuming, intensive, and costly. No-tillage in rice fields has been widely promoted in southern my country. In 2008, the area of ​​promotion and application in my country reached 1.33 million hectares. However, rice production in my country relies heavily on nitrogen fertilizer application, and the problem of excessive nitrogen application is common in rice field production in China. In 2012, the total consumption of nitrogen fertilizer in my country reached 49.5 million tons, and only 4.1% was absorbed...

Claims

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Application Information

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IPC IPC(8): A01G22/22A01G13/00A01C21/00
CPCA01C21/00A01C21/005A01G13/00
Inventor 李成芳曹凑贵刘天奇蔡明历汪金平李诗豪
Owner HUAZHONG AGRI UNIV
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