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Amount-decreased chemical fertilizer deep application method based on reducing rice field nitrogen and phosphor non-point source pollution

A non-point source pollution and deep fertilization technology, applied in fertilization methods, fertilization devices, applications, etc., to achieve the effects of convenient field management, less labor force, and reduced pollution risks

Inactive Publication Date: 2016-03-23
INST OF SUBTROPICAL AGRI CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are currently few fertilization techniques combined with deep application of chemical fertilizers to further improve fertilizer use efficiency and reduce the risk of farmland non-point source pollution.

Method used

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  • Amount-decreased chemical fertilizer deep application method based on reducing rice field nitrogen and phosphor non-point source pollution
  • Amount-decreased chemical fertilizer deep application method based on reducing rice field nitrogen and phosphor non-point source pollution
  • Amount-decreased chemical fertilizer deep application method based on reducing rice field nitrogen and phosphor non-point source pollution

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Embodiment 1

[0029] A method for deep application of chemical fertilizers based on reducing nitrogen and phosphorus non-point source pollution in paddy fields, the steps are:

[0030] 1) Determine the target yield of the chemical fertilizer reduction and deep application method of rice:

[0031] Taking the Taoyuan Agricultural Ecological Experimental Station of the Chinese Academy of Sciences as the experimental area, the average yields of early and late rice in the experimental area in the past three years are about 4500-4800kg / ha and 4700-5000kg / ha respectively. 5250kg / ha.

[0032] 2) The N, P, and K nutrient requirements under the target yield can be obtained according to the following formula:

[0033] NR N,P,K =Y×GNC N,P,K +SY×SNC N,P,K ;

[0034] Where: NR N,P,K is the N, P or K nutrient requirement (kg / ha) of rice under the target yield, Y is the target yield (kg / ha), GNC N,P,K is the N, P or K nutrient content (kg / kg) of rice grain under the target yield, SY is the dry matte...

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Abstract

The invention discloses an amount-decreased chemical fertilizer deep application method based on reducing rice field nitrogen and phosphor non-point source pollution. The method comprises the following steps: 1) determining the target yield of an amount-decreased chemical fertilizer deep application method of rice; 2) determining N, P and K nutrient quantity demands under the target yield; and 3) determining the fertilization application amount under the target yield; 4) applying chemical fertilizers: applying hole applied fertilizers and base fertilizers as fertilizers for early and late rice, wherein as for the hole applied fertilizers for early rice, the N fertilizer dosage is 25-30kg N / ha and the P fertilizer dosage is 25-30kg P2O5 / ha; as for the hole applied fertilizers for late rice, the N fertilizer dosage is 30kg N / ha; the base fertilizer dosages of early and later rice are equal to the fertilization application amounts under target yields of early and late rice minus the hole applied fertilizer dosages of early and late rice; the hole applied fertilizers of early and later rice are applied before rice transplanting in a spread manner, and the base fertilizers are prepared into fertilizer balls which are applied deep after rice transplanting. The method is capable of reducing the rice field nitrogen and phosphor non-point source pollution to a great extent and improving the fertilizer utilization efficiency, is high in operability in production, low in investment cost and relatively high in popularization and application value.

Description

technical field [0001] The invention relates to the technical field of crop fertilization, in particular to a method for reducing the amount of chemical fertilizers and deep application based on reducing nitrogen and phosphorus non-point source pollution in paddy fields, which is suitable for reducing nitrogen and phosphorus in paddy fields under the premise of reducing the application of chemical fertilizers in successive years and maintaining stable yields for double-cropping rice in southern my country. Phosphorus non-point source pollution. Background technique [0002] Rice is an important food crop in my country. At present, my country's rice planting area accounts for about 20% of the world's rice planting area, and rice nitrogen fertilizer consumption accounts for 37% of the world's total rice nitrogen fertilizer use. The average amount of nitrogen fertilizer used in a single season in rice fields in my country is as high as 180kghm -2 , this amount is about 75% hig...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01C21/00
CPCA01C21/005
Inventor 张文钊侯海军魏文学陈安磊陈焱国李志国
Owner INST OF SUBTROPICAL AGRI CHINESE ACAD OF SCI
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