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High-yielding Cultivation Method Based on Differences of Carbon and Nitrogen Metabolism in Maize

A technology of carbon and nitrogen metabolism and cultivation methods, applied in the field of high-yield cultivation based on differences in corn carbon and nitrogen metabolism, can solve problems such as ecosystem and environmental damage, reduced fertilization benefits, and crop quality decline, so as to optimize fertilization and improve nutrient use efficiency , Improve the effect of yield and quality

Inactive Publication Date: 2019-04-12
HENAN AGRICULTURAL UNIVERSITY
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Problems solved by technology

This high-input, high-yield cultivation method has made a great contribution to the increase of my country's grain production. However, this cultivation method has caused a certain degree of damage to the ecosystem and the environment while obtaining high yield; In addition, excessive fertilization causes excessive accumulation of nitrate in crops, which will also cause a decline in crop quality and fertilization benefits, and even cause a decline in yield.

Method used

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  • High-yielding Cultivation Method Based on Differences of Carbon and Nitrogen Metabolism in Maize
  • High-yielding Cultivation Method Based on Differences of Carbon and Nitrogen Metabolism in Maize
  • High-yielding Cultivation Method Based on Differences of Carbon and Nitrogen Metabolism in Maize

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Embodiment 1

[0043] Example 1: Fertilization test for high-yield cultivation of maize with different carbon and nitrogen metabolism types

[0044] 1. Selection of test species

[0045] The inventor has observed and studied various growth characteristics of a large number of corn varieties for a long time. By comparing the production growth and development characteristics, it is found that the four varieties of Zhengdan 958, Nongda 108, Xundan 20, and Yudan 2002 have large differences in performance. The specific manifestations are: the leaf color of Zhengdan 958 is light green at the seedling stage, and the leaf color gradually increases in the later stage, and the greenness is better; the leaf color of Nongda 108 is dark green throughout the growth period, and the greenness is better. The leaf color of Jundan 20 is dark green at the seedling stage, and the color gradually becomes lighter in the later stage, and its greenness is not as good as Zhengdan 958 and Nongda 108; Fast premature a...

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Abstract

The invention relates to a high-yield cultivation method based on a corn carbon and nitrogen metabolism difference. The method comprises the following steps: 1, determining a carbon and nitrogen metabolism type from a nitrogen sensitive type, a carbon and nitrogen coordination type, a vigorous nitrogen metabolism type and a weak carbon metabolism type based on a genotype difference presented by coordination of corn variety carbon and nitrogen metabolism; 2, specific to different carbon and nitrogen metabolism types, adopting different fertilizer applying measures: (1) for the nitrogen sensitive type, dressing urea at a nutrient growth and reproduction growth stage of corn, wherein the total amount of applied pure nitrogen is less than or equal to 360kg / ha; (2) for the carbon and nitrogen coordination type, controlling the total amount of applied pure nitrogen at 200-240kg / ha; (3) for the vigorous nitrogen metabolism type, applying a pure fertilizer in an amount of 240-320kg / ha; (4) for the weak carbon metabolism type, dressing urea at the nutrient growth and reproduction growth stage, wherein the using amount of pure nitrogen needs to be controlled at 240-320kg / ha. By adopting the high-yield cultivation method, seeds are selected scientifically, fertilization is optimized, and corn physiological metabolism is coordinated in order to increase the nutrient utilization rate, lower environmental pollution and improve the yield and quality of the corn.

Description

technical field [0001] The invention belongs to the technical field of crop cultivation, and in particular relates to a high-yield cultivation method based on differences in carbon and nitrogen metabolism of corn. Background technique [0002] Corn is China's largest food crop and a key crop related to national food security. China's corn production increased from 62.6 million tons in 1980 to 208.12 million tons in 2012, with an average annual growth rate of 3.6%. For more than 30 years, the contribution rate of planting area and per unit yield to the growth of China's corn production accounted for about 50% each. Among them, the average annual growth rate of corn yield was 1.7%, and the average annual growth rate of area was 1.9%. However, judging from the situation in the past 10 years, the growth of China's corn production depends more on the increase in area, and only 30% comes from the increase in per unit yield. From 2003 to 2012, the average annual growth rate of C...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01G22/20A01C21/00
CPCA01C21/007A01G22/00
Inventor 苌建峰李潮海董朋飞贾芳
Owner HENAN AGRICULTURAL UNIVERSITY
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