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Application of single wavelength having 405 nm to pest trapping for agriculture

A single-wavelength, agricultural technology, used in applications, devices for capturing or killing insects, animal husbandry, etc., can solve the problem that single-wavelength cannot kill insects, and achieve the effect of reducing lure

Inactive Publication Date: 2016-01-13
四川瑞进特科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Aiming at the above-mentioned deficiencies in the prior art, the present invention overcomes the technical defect that a single wavelength cannot be used to kill insects, and provides an application of a single wavelength 405nm in agricultural insect trapping.

Method used

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  • Application of single wavelength having 405 nm to pest trapping for agriculture
  • Application of single wavelength having 405 nm to pest trapping for agriculture
  • Application of single wavelength having 405 nm to pest trapping for agriculture

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] From August 5th to September 5th, the insect luring test was carried out at the stage of adult moths in the tea garden. The conditions of the experimental group and the control group for attracting insects in the tea garden are shown in Table 1:

[0032] Table 1

[0033]

[0034] Among them, the experimental group can realize the detection of tea geometrid, tea poisonous moth, tea leaf tortrix, small cutworm, mole cricket, cricket, red stinkbug, moth cicada, negative stinkbug, beetle beetle, gill beetle, flower beetle, burial beetle, carapace, Attraction by the tortoise beetle, earwigs, mosquitoes and katydids;

[0035] Control group 1 can realize tea geometrid, tea poisonous moth, tea leaf tortrix, small cutworm, mole cricket, cricket, red stinkbug, stinkbug, cicada, beetle, gill beetle, flower beetle, knocking beetle, carapace, pseudocarp, Attraction to burial beetles, water turtle beetles, dragon gnats, ladybugs, earwigs, crickets, gnats and liner flies;

[0036...

Embodiment 2

[0041] From July 6th to August 6th, the insect luring test was carried out in the kiwifruit orchard at the adult stage. The situation of the experimental group and the control group to attract insects in the kiwifruit orchard is shown in Table 2:

[0042] Table 2

[0043]

[0044]

[0045] Among them, the experimental group was able to realize the treatment of beetles, beetles, beetles, beetles, noctuids, moths, planthoppers, stinkbugs, leafhoppers, mole crickets, green lygus, nymphs, lacewings and cloth beetles. A's temptation;

[0046] Control group 1 can realize the protection against beetles, beetles, beetles, beetles, noctuids, lamp moths, planthoppers, stinkbugs, leafhoppers, mole crickets, green lygus, nymphs, lacewings, and aphids The lure of bees, ladybugs, and cloth beetles;

[0047] Control group 2 can realize the lure of beetles, beetles, beetles, noctuids, lamp moths, planthoppers, green ligurs, stinkbugs, lacewings and cloth beetles;

[0048] The control...

Embodiment 3

[0052] From May 2nd to June 2nd, the insect luring test was carried out at the adult stage of the rice field. The situation of the experimental group and the control group on the insects in the rice field is shown in Table 3:

[0053] table 3

[0054]

[0055] Among them, the experimental group was able to attract pests such as rice stem borer, rice borer, rice stem borer, brown planthopper, rice leaf roller, corn borer, mole cricket, needleworm, and cutworm. At the same time, it also has a certain luring effect on natural enemies such as lacewings, Trichogrammas, carapaces and neutral insects such as water turtles and dragon lice.

[0056] Control group 1 was able to lure pests such as rice stem borer, rice borer, rice stem borer, brown planthopper, rice leaf roller, corn borer, mole cricket, needleworm, and cutworm. At the same time, it also has a certain attracting effect on natural enemies such as lacewings, dragonflies, Trichogrammas, ladybugs, carapaces, paederus, pa...

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Abstract

The invention discloses application of single wavelength having 405 nm to pest trapping for agriculture. The technical scheme adopts single wavelength having 405 nm to trap pests for agriculture in order to overcome the technical defect on the market that pests cannot be trapped by single wavelength. It's proved that different kinds of pests can be collectively trapped by wavelength having 406 nm through numerous tests. The trapping efficiency is significantly higher than that in other single wave bands and mixing wave bands.

Description

technical field [0001] The invention relates to the technical field of agricultural insect luring, in particular to the application of a single wavelength of 405nm in agricultural insect luring. Background technique [0002] In order to reduce the use of pesticides, insecticidal lamps are widely used in farmland, rural areas and orchards to trap and kill pests. LED insecticidal lamps are widely used because of their low cost and good insecticidal effect. [0003] When trapping and killing pests, it is generally believed that a single wavelength cannot be used to lure pests. In order to effectively lure many pests, at present, in the development process of insecticidal lamps, LED insecticidal lamps mainly use a wide range of wavelengths. For the luring of pests, due to the relatively large dispersion of wavelengths in a wide range, the intensity of light corresponding to each wavelength is relatively weak, resulting in poor trapping and killing effects on pests in each season...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01M1/04
Inventor 何海洋
Owner 四川瑞进特科技有限公司
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