Device for measuring leaching loss amount of fertilizer and water retaining effect of soil water-retaining agent

A technology of soil water retaining agent and loss amount, which is applied in the direction of measuring device, soil material testing, suspension and porous material analysis, etc., can solve the problems of restricting the research on efficient utilization of chemical fertilizers and the promotion and application of water retaining agent, the accuracy of test results and the The stability is not ideal, it is difficult to obtain accurate results of chemical nutrient absorption, etc., to achieve the effect of simple structure, easy to grasp, and real and reliable data

Inactive Publication Date: 2013-09-25
JILIN ACAD OF AGRI SCI
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  • Claims
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AI Technical Summary

Problems solved by technology

Among them, the "pot planting method" mainly calculates the absorption of chemical fertilizer nutrients by crops and the residual amount in the soil by testing various indicators of crops and soil, and then calculates the difference between the total amount of chemical fertilizer applied and the nutrient content absorbed by crops and residual soil. Calculating the leaching loss of chemical fertilizer nutrients, the test results of this method are real and intuitive, and have reference value, but the pot test is more complicated and takes a long time. Nutrients are difficult to distinguish clearly, resulting in large experimental errors; "Static dissolution method in water" and "soil column leaching method" calculate the leaching loss of chemical fertilizers by simulating the application process of chemical fertilizers, different dissolution routes and detection methods Quantitative, simple, fast and efficient, it is the most commonly used experimental technique in the research of fertilizer efficiency and leaching, but these two methods are greatly affected by operators, and the simulated experimental conditions are far from the process of chemical fertilizer leaching in the field. The accuracy and stability of the results are not ideal
[0004] The inevitable flaws in the traditional methods of studying the leaching of chemical fertilizers and the water retention effect of water-retaining agents make it difficult to obtain accurate results on the absorption of chemical nutrients, leaching losses of nutrients, and the effects of water-retaining agents, which limits the research on the efficient use of chemical fertilizers and water-retaining agents. Promote the development of applied work

Method used

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  • Device for measuring leaching loss amount of fertilizer and water retaining effect of soil water-retaining agent

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] Embodiment 1 Manufacturing method of the measuring device of the present invention

[0028] The manufacturing method of the measurement device of the present invention is as follows.

[0029] 1. Fabrication of double-slot soil boxes

[0030] The soil box is made of organic plastic board (preferably transparent, so that it is easy to see the development of the crop root system and the water absorption of the water-retaining agent. Depending on the specific situation, organic glass can also be used, but it is easy to break when moving), and the production specification is Length: width: height = 120cm: 120cm: 30cm (the length, width and height can be adjusted according to the test plant species. The ratio in the text is based on our test plant is corn, the planting density is 60,000 plants, and the row spacing is 60cm. Set, so the soil box can Plant 3-4 corn plants). The middle of the soil box is separated by a partition and sealed to prevent water seepage between the t...

Embodiment 2

[0037]Example 2 Using the measuring device of the present invention to measure the water retention effect of the water retaining agent

[0038] The soil in the study area was used in the experiments. Divide the soil into two parts with the same weight, put them into 2 soil grooves, and sow corn seeds at 4 cm below the soil topsoil. Before sowing, apply a water-retaining agent 5cm below the seed in one of the soil tanks, and design the amount of water-retaining agent W according to the test plan sap , mix well with the soil, and let it stand for use. After standing for 48 hours, inject an equal amount of tap water into each soil tank through the water inlet hole to simulate field irrigation or rainstorm, so that the soil can absorb water to reach supersaturation. Observe the soil water infiltration situation. When there is no water infiltration, calculate the weight of the infiltration water through the depth of the water receiving tray and the bottom area. The amount of infi...

Embodiment 3

[0044] Example 3 Determination of chemical fertilizer leaching loss using the measuring device of the present invention

[0045] The soil in the study area was used in the experiments. Divide the soil into two parts with the same weight, put them into 2 soil grooves, and sow corn seeds at 4 cm below the soil topsoil. Before sowing, apply chemical fertilizer W in a soil groove 5cm below the seed t (Design the amount of fertilizer g according to the test plan). After standing still for 48 hours, inject an equal amount of tap water into each soil tank through the water injection hole to simulate field irrigation or rainstorm, and observe the infiltration of soil aqueous solution. When there is no penetration of the aqueous solution, the depth of the liquid can be obtained through the scale of the water receiving tray, and the volume of the mixed solution can be calculated, and then the nutrient content of N, P, and K in the solution is tested in the laboratory, and the fertiliz...

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Abstract

The invention discloses a device for measuring the leaching loss amount of fertilizer and the water retaining effect of a soil water-retaining agent. The device comprises a soil box, a bracket, a sliding water-collecting disc and a filtering net which are connected together, wherein the soil box is separated into two tanks through a clapboard in the middle; a water inlet hole with the diameter of 3cm is formed in the upper part of one side of each soil tank; multiple drainage holes with the diameter of 2mm are formed in a bottom plate of the box; the filtering net is laid on the bottom plate of the soil box; the mesh diameter is small enough to prevent soil particles from leaking along with water; the bracket comprises four upright posts which are fixed through transverse moment, the distance between each two adjacent upright posts is 122cm, and each upright post is 40cm long; two chutes parallel to the opposite sides of the transverse moment of the bracket are welded at the part, which is 20cm away from the upper end, of the bracket; the bottom area of the water collecting disc is the same as that of the soil box, baffles with the height of 5cm are arranged at the periphery of the water collecting disc, the water collecting disc is separated into two parts through a clapboard in the middle, a group of scales is marked on the baffle at the periphery of each part, and the minimum measurement unit of the scales is 1mm.

Description

technical field [0001] The invention relates to a device and a use method for measuring the leaching loss of chemical fertilizers and the water retention effect of soil water-retaining agents, which belong to the device for agricultural research and the experimental method thereof. Background technique [0002] At present, soil water retaining agent is widely used in agricultural production, afforestation, flower cultivation, orchard, lawn and road slope protection, etc. It is an effective chemical water-saving material. When water-retaining agents are used in various fields, users are concerned about the water-retaining ability and continuous use time of the water-retaining agent, that is, the water-retaining effect. So far, users or researchers of soil water-retaining agents only know that they are effective when they are used, or the theoretical water-retaining capacity of water-retaining agents is measured in the laboratory. However, in the natural state or close to the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N15/08G01N33/24
Inventor 陈宝玉王洪君王立春李素琴侯云龙王楠侯云鹏曹铁华梁烜赫金涛方向前张凌曹玉军张丽华宋志峰栾天浩张磊栾丽于雷刘春光杨健
Owner JILIN ACAD OF AGRI SCI
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