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A kind of water-saving cultivation method of drip irrigation under film film

A technology of drip irrigation and cultivation methods under mulch, applied in cultivation, fertilization methods, plant cultivation, etc., can solve problems such as restricting resource efficiency, affecting corn growth and yield, and high proportion of agricultural water use, so as to achieve fertilizer saving and fertilizer efficiency, crop growth and higher yield Excellent, long release effect

Inactive Publication Date: 2017-09-29
ZHANGYE ACAD OF AGRI SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the process of common cultivation methods, there is no uniform operation standard for irrigation and fertilization operations. In particular, flood irrigation is mostly used for irrigation. This irrigation mode leads to a high proportion of agricultural water use, which seriously restricts the improvement of resource efficiency. Moreover, excessive irrigation will also affect the growth and yield of corn.

Method used

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  • A kind of water-saving cultivation method of drip irrigation under film film
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  • A kind of water-saving cultivation method of drip irrigation under film film

Examples

Experimental program
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Effect test

Embodiment 1

[0045] The water-saving cultivation method of drip irrigation under the film of corn is as follows:

[0046] 1) First design the drip irrigation system and arrange the drip irrigation pipes. The specific steps are as follows:

[0047]Determination of the control area: the water volume balance calculation should be carried out at the time of design to determine a reasonable control area. When the water source is a motorized well, the largest possible control area should be determined according to the outflow of the motorized well. When the water sources are rivers, ponds, or canals, the optimal control area should be determined by considering both the water volume and economic factors of the water source. According to previous design experience, the more economical control area is 66.7 hectares (1000 mu), and it is best not to exceed 100 hectares (1500 mu), and most of them are irrigated with single crops.

[0048] Pipeline network planning and layout steps: a. Determine the ...

Embodiment 2

[0097] 1) Same as step 1) in Embodiment 1 of the present invention;

[0098] 2) Same as step 2) in Embodiment 1 of the present invention;

[0099] 3) Apply basal fertilizer first, that is, apply 1800kg of organic fertilizer per mu, 30kg of slow-control fertilizer, 23kg of diammonium phosphorus, 37kg of potassium sulfate, and 1-1.5kg of zinc sulfate, and then use drip irrigation under the mulch for 8 times, respectively for the jointing period Watering 1 time, watering 1 time during the period of small trumpet mouth, watering 1 time during the period of large bell mouth, watering 1 time during the tassering period, watering 1 time after the tassering period, watering 1 time during the grouting period, watering 2 times during the ripening period; and topdressing 3 times The second time is the jointing fertilizer at the jointing stage, the panicle fertilizer at the big bell mouth period, and the grain fertilizer at the end of tasseling period. Water is passed through the fertiliz...

experiment example 1

[0128] After the relationship between the amount of irrigation water and the output in the embodiment of the present invention and comparative example 1 is tested, draw the following data, specifically see the following table 1:

[0129] Table 1 The relationship between yield and irrigation water

[0130]

[0131] As can be seen from Table 1, wherein the 4th vertical line corresponds to the best embodiment 2 of the present invention, the last vertical line corresponds to comparative example 1, and the first three vertical lines are designed in order to understand the relationship between output and irrigation water volume Parallel experiment, concrete implementation method is identical with embodiment 2, just irrigation water quantity is different, so also can clearly find out from above table, adopt water-saving cultivation method of the present invention to improve yield, but irrigation water quantity is too much or too little other The output will also be reduced accordi...

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Abstract

The invention provides a water-saving maize cultivation method. The method comprises the steps of arranging a drip irrigation pipe, conducting tillage and soil preparation, laying a mulching film and sowing seeds; applying base fertilizer, and conducting irrigation with the under-film drip irrigation method multiple times and topdressing multiple times during growth of maize; harvesting the maize after the maize matures. Irrigating water quota meets the formula that m=0.1*r*z*P*(Qmax-Qmin) / n, wherein m represents designed irrigating water quota mm, r represents soil bulk density and is 1.4-1.45 g / cm<3>, z represents planned soil wetted depth m and is 0.35-0.45 m, P represents wet ratio and is 60-70%, Qmax represents suitable soil water content upper limit and is 90-92% of the maximum water-holding capacity, Qmin represents suitable soil water content lower limit and is 70-72% of the maximum water-holding capacity, and n represents irrigation water utilization coefficient and is 0.9-0.95. By the adoption of the method, water is saved, and maize yield is high.

Description

technical field [0001] The invention relates to the field of crop planting, in particular to a method for drip irrigation and water-saving cultivation of corn under film. Background technique [0002] Zeatin has the reputation of longevity food, rich in protein, fat, vitamins, trace elements, cellulose and polysaccharides, etc., and has great potential to develop high nutrition and high biological function food. Corn is not only the main source of food for human beings, but also a popular health food, which often appears on the dining table and is popular in the European and American world, which was once known for its fine food. [0003] As a large agricultural country, China's corn planting is also a pillar industry. Zhangye is one of the national high-quality corn seed production bases. The city's seed-producing corn planting area has remained stable at 60,000 hectares for many years, with an annual output of about 450 million kilograms of high-quality corn seeds, account...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01G1/00A01G25/00A01C21/00
CPCA01C21/005A01G22/00A01G25/00
Inventor 郑荣缪纯庆王娟刘建勋张东昱尚建国杨勇聂斐来兴国
Owner ZHANGYE ACAD OF AGRI SCI