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In-situ monitoring and sampling device for percolating water in farmland soil

A sampling device and water leakage technology, applied in the agricultural field, can solve the problems of immobility, high price, large damage area, etc., and achieve the effect of preventing underground soil moisture from entering, easy to reuse, and low construction cost

Inactive Publication Date: 2017-05-10
INST OF MOUNTAIN HAZARDS & ENVIRONMENT CHINESE ACADEMY OF SCI
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Problems solved by technology

[0006] 1) The indoor leaching experiment of the undisturbed or filled soil column is used to explore the migration characteristics of nutrients and pesticides under the simulated rainfall, soil and moisture boundary conditions controlled indoors; the disadvantage of this method is that it cannot simulate the real field changes Hydrothermal conditions and hydrological conditions, the depth and area of ​​the soil column that can be simulated are also small, and it is not suitable for soils with strong mechanization
[0007] 2) In the field, install soil tanks, build runoff plots, or build a soil seepage system (with a basement for monitoring and sampling) in the field, and measure the nutrients in different runoff types on the surface and underground under simulated rainfall or natural rainfall conditions and pesticide migration rules and influencing factors; the disadvantage of this method is that the construction cost is high, the damage area is large during installation, and a long period of stable settlement is required, and once it is completed, it usually cannot be moved to another place for use
[0008] 3) The commercial lysimeter (weighable) needs to be equipped with an underground monitoring and sampling room; the system is very expensive and requires high technical requirements for maintenance

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  • In-situ monitoring and sampling device for percolating water in farmland soil
  • In-situ monitoring and sampling device for percolating water in farmland soil
  • In-situ monitoring and sampling device for percolating water in farmland soil

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Embodiment Construction

[0041] Aiming at the shortage of practical equipment required for the research on the leakage of farmland soil water, fertilizer and medicine, the present invention provides an in-situ monitoring and sampling device for farmland soil leakage water, which is used to directly monitor the dynamics of farmland leakage water in situ. Study the migration law and influencing factors of water, fertilizer, medicine, etc. at the soil-water-crop interface.

[0042] Such as Figure 1 to Figure 15 , the present invention provides an in-situ monitoring and sampling device for farmland soil leakage water, comprising: an original soil column leakage square box and a self-recording flow water tank, wherein the original soil column leakage square box includes a stainless steel square cylinder body 1 ( That is, the undisturbed soil holding cylinder), the seepage water filter gravel bin 2 (ie the seepage filter bin), and the base 12; the self-recording flow water tank includes a water tank 4, a s...

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Abstract

The invention discloses an in-situ monitoring and sampling device for percolating water in farmland soil. The in-situ monitoring and sampling device comprises an undisturbed soil containing barrel, a percolation filter bin, a diversion pipe, a water tank, a sampling pipe, a drain pipe and a water level gauge, wherein the undisturbed soil containing barrel is located above the percolation filter bin; one end of the diversion pipe is connected with an outlet of the percolation filter bin, and the other end of the diversion pipe is located inside the water tank; the lower end of the sampling pipe and the lower end of the drain pipe are inserted into the water tank; the water level gauge is mounted in the water tank. The in-situ monitoring and sampling device disclosed by the invention is reasonable in design and simple in structure, and can be used for comprehensively and quantitatively measuring the percolation process, the leaching loss of nutrients and pesticides and the like in the farmland soil, carrying out the control experiment of water, fertilizer and pesticide coupling management measures, providing data support for the optimal allocation of farmland source elements and reduction of pesticide residues, leaching loss migration and crop absorption, and providing research means for the assessment of water-soil environmental pollution risk.

Description

technical field [0001] The invention relates to the field of agriculture, in particular to an in-situ monitoring and sampling device for farmland soil seepage water. Background technique [0002] The large-scale application of chemical fertilizers, pesticides and livestock manure in farmland may lead to non-point source pollution, which poses a serious threat to the regional ecological environment and human health. It may not only pollute drinking water sources, but may also cause surface water eutrophication and groundwater pollution. . [0003] Agricultural non-point source pollution has the characteristics of large randomness in the formation process, complex influencing factors, wide distribution, far-reaching impact, ambiguous mechanism, long incubation period, delayed occurrence, great harm, and high difficulty in management and control. Every year, huge losses are caused by agricultural non-point source pollution and pesticide pollution accidents, which have a seriou...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N1/14G01N1/20G01N1/34
CPCG01N1/14G01N1/20G01N1/34G01N2001/1418G01N2001/2007
Inventor 鲜青松唐翔宇刘慧云关卓朱凯
Owner INST OF MOUNTAIN HAZARDS & ENVIRONMENT CHINESE ACADEMY OF SCI
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