Method for nutrient emission reduction and crop stable yield maintenance in vegetable and rice crop rotation field

A farmland and nutrient technology, applied in botany equipment and methods, soil preparation methods, fertilization methods, etc., can solve the problems of high construction costs for ecological pond reconstruction, cumbersome management and maintenance processes, and reduced rice yields to achieve stable and high-yield commodity traits, Improve commodity properties and improve the effect of spherical index

Inactive Publication Date: 2017-08-18
JIANGSU ACAD OF AGRI SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Reduced nitrogen application has a significant effect of reducing nutrient emission in paddy fields, which can reduce 30% to 40% nitrogen runoff loss and 32.3% seepage loss in paddy fields. However, long-term weight loss will significantly reduce rice yield; Planting nutrient-enriching plants in the pond, intercepting the nutrient loss of farmland surface runoff can significantly reduce the non-point source pollution of rice fields, but the construction cost of ecological pond reconstruction is high, and it takes up a lot of farmland, and the follow-up management and maintenance process is relatively cumbersome; The interception system of fertilized area and non-fertilized area and then using the paddy field in the non-fertilized area to intercept the loss of nutrients in the paddy field has a significant nutrient emission reduction effect, but this system is difficult to popularize and apply in the practice of large-scale rice production
So far, from the perspective of the vegetable-rice rotation system, there are few technical approaches to coordinate nutrient emission reduction and crop high and stable yield

Method used

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  • Method for nutrient emission reduction and crop stable yield maintenance in vegetable and rice crop rotation field
  • Method for nutrient emission reduction and crop stable yield maintenance in vegetable and rice crop rotation field
  • Method for nutrient emission reduction and crop stable yield maintenance in vegetable and rice crop rotation field

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0034] Example 1: Reduction of soil runoff nitrogen and phosphorus nutrient emissions and improvement of vegetable commodity traits during vegetable growing season in vegetable-rice rotation farmland

[0035] Take the vegetable production experiment from 2014 to 2015 as an example:

[0036] (1) Effect of nutrient emission reduction

[0037] Under the conditions of conventional production management (high-yield fertilization in large fields, high-yield field management in large fields), the concentration of nitrogen and phosphorus in runoff water from vegetables, and the runoff losses of nitrogen and phosphorus were 23.72 mg·L -1 , 0.25mg·L -1 、41.02kg·hm -2 、0.43kg·hm -2 . Applying appropriate amount of wheat straw biochar technology with organic fertilizer can significantly reduce nitrogen and phosphorus runoff losses in vegetable fields (Table 1). The nitrogen and phosphorus nutrient concentrations in runoff water are the main constituent factors of farmland soil nitrog...

example 2

[0044] Example 2: Effect of soil runoff nitrogen and phosphorus nutrient emission reduction and rice yield stabilization effect in rice-growing season of vegetable-rice rotation cropland

[0045] Take the rice production experiment in 2015 as an example:

[0046] Under the conditions of conventional production management (high-yield fertilization in large fields, high-yield field management in large fields), the nitrogen and phosphorus concentrations in the rice field runoff, and the runoff losses of nitrogen and phosphorus were 2.45 mg·L -1 , 0.38mg·L -1 、4.74kg·hm -2 and 0.73kg·hm -2 . The utilization technology of residual phosphorus in vegetable season and rice season can significantly reduce the runoff loss of nitrogen and phosphorus in paddy fields (Table 3). Nitrogen and phosphorus nutrient concentrations in runoff water are the main constituent factors of farmland soil nitrogen and phosphorus runoff losses, and the utilization technology of residual phosphorus in v...

example 3

[0050] Example 3: Annual emission reduction and loss risk control effect of nitrogen and phosphorus nutrients in soil runoff in vegetable-rice rotation cropland

[0051] Take the 2014-2015 annual production test of vegetables and rice as an example:

[0052] Under the conditions of conventional production management (high-yield fertilization in large fields, high-yield field management in large fields), the annual loss of nitrogen and phosphorus in the vegetable-rice rotation farmland, and the annual loss rates of nitrogen and phosphorus respectively reached 45.76kg·hm -2 、1.16kg·hm -2, 8.59% and 0.46% (Table 4). Runoff water nitrogen and phosphorus loss are key indicators to characterize the output of farmland soil nitrogen and phosphorus runoff. The combination of biochar application technology in vegetable season + residual phosphorus in vegetable season and rice season utilization technology can significantly reduce nitrogen and phosphorus runoff in vegetable and rice rot...

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Abstract

The invention discloses a method for nutrient emission reduction and crop stable yield maintenance in a vegetable and rice crop rotation field and belongs to the technical field of agricultural non-point source pollution control and crop production. Particularly, in the production process of the vegetable and rice crop rotation field, the effects of vegetable and rice crop rotation field soil runoff nitrogen and phosphorus nutrient emission reduction, crop stable and high yields and commodity character improvement are realized by the aid of the vegetable season appropriate biochar combined application technology and the vegetable season residual phosphorus rice season utilization technology. With the adoption of the technology, the rice crop rotation field soil runoff water nitrogen and phosphorus concentrations are reduced by 20.81% and 50.92% respectively, and the rice whole growing season nitrogen and phosphorus loss amounts are remarkably reduced by 20.81% and 50.92% respectively. Further, with the adoption of the technology, the vegetable and rice crop rotation field nitrogen and phosphorus runoff annual loss amounts are remarkably reduced by 12.88% and 42.24% respectively, and the vegetable and rice crop rotation field nitrogen and phosphorus runoff loss rates are remarkably reduced by 12.28% and 20.88% respectively. At the same time, with the adoption of the technology, the crop high and stable yields can be maintained, the cabbage head sphericity index and the compactness are improved by 1.94% and 2.54% respectively, and the cabbage commodity character is remarkably improved.

Description

[0001] Technical field: [0002] The invention relates to a method for reducing nutrient discharge and maintaining stable crop yield in vegetable and rice rotation farmland, and belongs to the technical fields of agricultural non-point source pollution control and crop production. [0003] Background technique: [0004] Vegetable land is one of the important land use methods in the Taihu Lake Basin. According to statistics, in 2013, the planting area of ​​open field vegetables in Jiangsu Province was about 7.69×10 5 hm 2 . Since continuous planting of vegetables will cause continuous cropping obstacles such as salt return and soil-borne diseases, and the over-enrichment of nutrients in the cultivated layer of vegetable fields, the risk of loss will increase sharply. Vegetable-rice (referred to as vegetable rice) rotation is a new planting system developed in recent years, which has positive environmental effects (compared with vegetable continuous cropping system) and higher...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C05G3/00C05G1/00A01G1/00A01G16/00A01C21/00A01B79/02A01G22/22
CPCA01B79/02A01C21/005A01G22/00A01G22/22C05C9/00C05D9/00C05G3/00C05F3/00C05G1/00C05D1/02
Inventor 郭智陈留根郑建初刘红江张岳芳周炜
Owner JIANGSU ACAD OF AGRI SCI
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