CN110537439A - Prevention and treatment method for paper mulberry diseases and insect pests - Google Patents

Abstract

the application discloses a prevention and control method for paper mulberry diseases and insect pests in the technical field of disease and insect pest prevention and control, which comprises the following steps: (1) seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources; (2) land preparation: smashing bitter gourds, adding water for diluting by 25-30 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land; (3) after the broussonetia papyrifera seedlings are planted, a plurality of insect trapping devices are hung in the broussonetia papyrifera forest at intervals at the bottom of June. The method solves the problem that the artificial control of the longicorn is time-consuming and labor-consuming.

Description

Prevention and treatment method for paper mulberry diseases and insect pests

Technical Field

The invention relates to the technical field of pest control, in particular to a method for controlling paper mulberry pests.

background

The paper mulberry, namely the papermulberry, is a fallen leaf arbor, and is 10-20 m high; the bark is dark gray; the small branches are dense and soft. The crown is opened, and the shape is from egg to broad egg; the bark is smooth, light grey or grey brown, and is not easy to crack, and the whole plant contains milk. The pig feed is a strong positive tree species, has strong adaptability, strong stress resistance, shallow root system and wide lateral root distribution, has good pig feed leaves, is pure white in material, can be used as medicines for roots and seeds, can treat skin diseases, and has high economic value. Although the broussonetia papyrifera has a rough appearance, the broussonetia papyrifera has the advantages of dense branches and leaves, resistance, quick growth, easy propagation and the like, and the fruits are sour and sweet and can be eaten. Still is the important tree species for urban and rural greening, is particularly suitable for greening mining areas and barren hills and slopes, and can also be used as a shade tree and a protective forest.

The paper mulberry insect pest is mainly mulberry longicorn. The adult bombyx mori damages the skin and the leaves of the tender branches, the larvae eat downwards under the skin and in the xylem of the branches, the tunnel is free of excrement chips, the larvae eat outwards at certain intervals to form a ventilating excrement chip removing hole, a large amount of excrement chips are discharged, the tree vigor is weakened, and serious bombyx mori die. The existing longhorn beetle control method is to artificially kill adults and larvae, fumigate the larvae in a trunk with aluminum phosphide, manually kill the larvae, waste time and labor, wear a self-absorption filter type dust mask during aluminum sulfide fumigation, and even wear a self-contained respirator. After the mulberries damage the broussonetia papyrifera, the broussonetia papyrifera can cause tree vigor weakness and possibly induce rot, the service life of the broussonetia papyrifera is shortened, the yield and the quality are influenced, and even a garden is damaged. In addition, the broussonetia papyrifera is hindered in growth and easily causes wind break after being damaged by the pests.

disclosure of Invention

The invention aims to provide a paper mulberry pest control method to solve the problem that time and labor are wasted when mulberry longicorn is manually controlled.

In order to solve the technical problems, the invention provides the following technical scheme: a method for controlling paper mulberry pests comprises the following steps:

(1) seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources;

(2) Land preparation: smashing bitter gourds, adding water for diluting by 25-30 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land;

(3) after the paper mulberry sapling is planted, hang a plurality of trapping devices at the bottom of june at paper mulberry forest interval, the trapping device includes moth-killing lamp and moth-killing case, the top of moth-killing case is uncovered setting, and the top of moth-killing case is equipped with towards the pterygoid lamina of moth-killing case center slope, the vertical branch of interior bottom fixedly connected with of moth-killing case, the top of branch extend to the moth-killing case outside with moth-killing lamp fixed connection, be equipped with the export on the lateral wall of moth-killing case, the bottom fixedly connected with swash plate of export, the lower end of swash plate is connected with the interior bottom of moth-killing case, is equipped with the beauveria bassiana in the moth-killing case.

the invention has the following working principle and beneficial effects: before the broussonetia papyrifera is planted, seedlings are selected firstly, seedlings with diseases and insect pests are removed, sources of the diseases and insect pests are reduced, and probability of possible diseases and insect pests is reduced. And (3) diluting the mashed bitter gourds with water during land preparation, dissolving tetracyclic triterpenes components contained in fruits and seeds of the bitter gourds in the water, adding lime water into bitter gourds, uniformly mixing, spraying the mixture on the land, killing part of insects and germs in the land through the tetracyclic triterpenes components and the lime water, and further reducing the possibility of possible pest and disease infection during paper mulberry planting.

When the longicorn of Juniperus communis begins to emerge, a trap device is hung in a paper mulberry forest, beauveria bassiana is contained in the trap device, the beauveria bassiana is entomogenous fungi of ascomycetes, the main species of the beauveria bassiana comprises beauveria bassiana, beauveria bassiana and the like, conidia are usually generated through asexual propagation, and hypha has cross branches. Beauveria bassiana can invade the bodies of the longicorn to propagate in a large quantity, and simultaneously produce beauvericin (non-ribosomal polypeptide toxin), oosporine (benzoquinone toxoid) and calcium oxalate crystals, and the beauvericin (non-ribosomal polypeptide toxin), the oosporine (benzoquinone toxoid) and the calcium oxalate crystals can cause poisoning of the longicorn and disturb metabolism to die.

The mulberry longicorn has phototaxis, so at night, the trap lamp is turned on, the mulberry longicorn moves towards the trap device under the attraction of the trap lamp, the top of the trap box is arranged in an open manner, a wing plate inclined towards the center of the trap box is arranged at the top of the trap box, beauveria bassiana is contained in the trap box, an outlet is arranged on the side wall of the trap box, an inclined plate is fixedly connected with the bottom of the outlet, the lower end of the inclined plate is connected with the inner bottom of the trap box, the trap lamp is arranged above the trap box through a support rod, when the mulberry longicorn moves to the inclined wing plate under the attraction of the trap lamp, the mulberry longicorn falls into the trap box through the open of the trap box along the wing plate under the action of gravity, the mulberry longicorn is contacted with the beauveria bassiana in the trap box after falling into the trap box, the beauveria bassiana is attached to the body, the mulberry longicorn escapes from the outlet along the inclined plate, and when the mulberry longicorn is contacted with other mulberry longicorn for several days or the rest of the mulberry muscardia plurality of days On the body. After contacting with the monochamus alternatus, the beauveria bassiana germinates under the appropriate temperature condition, and growing hyphae invade the insect body to generate a large amount of hyphae and secretion, so that the monochamus alternatus is ill and dead. Dead insects are white and stiff, and hyphae and white powdery spores grow on the body surface. The spores can be spread continuously by wind, insects and the like to infect other pests.

furthermore, a transparent protective cover is sleeved outside the trap lamp. The purpose is to prevent rainwater from entering the trap lamp in rainy days to cause damage to the trap device.

Furthermore, the outer wall of the insect trapping box is provided with a solar cell panel, the solar cell panel is connected with a storage battery through a cable, and the storage battery is electrically connected with the insect trapping lamp. The solar trap lamp is charged by the solar cell panel and then supplied with power by the storage battery, so that electric energy is saved.

Further, branch is cavity setting, and the bottom ring of branch is equipped with the exhaust hole, and the inside intercommunication of exhaust hole and branch, the top of branch are equipped with the air discharge fan, and the air discharge fan is located the protection casing, the gas outlet of air discharge fan and the inside intercommunication of branch. Its purpose, beauveria bassiana is changeed under 24 ~ 28 ℃ ambient temperature and is sprouted and then invade the internal messenger's of sonneratia mauritiana makino and make the sonneratia mauritiana makino pathogenic, consequently makes the temperature in the trap box when low through this kind of setting, can blow the heat that the moth-killing lamp during operation produced to the trap box in through branch through the air discharge fan, provides the heat and heaies up for the trap box.

Further, a temperature detector is arranged in the insect attracting box, a single chip microcomputer is arranged at the bottom of the insect attracting box, and the single chip microcomputer is electrically connected with the temperature detector and the exhaust fan respectively. The temperature control device is used for monitoring the internal temperature of the insect attracting box through the temperature detector, when the temperature is lower than 24 ℃, the temperature detector transmits signals to the single chip microcomputer, the single chip microcomputer controls the exhaust fan to operate after receiving the signals, hot air in the protective cover is blown into the insect attracting box, and when the temperature in the insect attracting box is monitored by the temperature detector to reach 28 ℃, the single chip microcomputer controls the exhaust fan to stop operating so as to achieve automatic adjustment of the temperature in the insect attracting box.

Furthermore, a transparent observation port is arranged on the wall of the insect trapping box. The purpose is to check the residual amount of the beauveria bassiana in the insect attracting box through the observation port, and to add and supplement the beauveria bassiana conveniently.

drawings

FIG. 1 is a schematic view of the insect attracting device of the present invention;

FIG. 2 is a schematic connection diagram of the single chip microcomputer of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

Reference numerals in the drawings of the specification include: the insect trap comprises a protective cover 1, an insect trap lamp 2, an exhaust fan 3, wing plates 4, an insect trap box 5, a temperature detector 6, beauveria bassiana 7, a single chip microcomputer 8, an inclined plate 9, an outlet 10 and an exhaust hole 11.

example 1:

A method for controlling paper mulberry pests comprises the following steps:

(1) Seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources;

(2) Land preparation: smashing bitter gourds, adding water for diluting by 25 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land;

(3) After the broussonetia papyrifera seedlings are planted, a plurality of insect trapping devices are hung in the broussonetia papyrifera forest at intervals at the bottom of June.

Example 2:

a method for controlling paper mulberry pests comprises the following steps:

(1) Seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources;

(2) Land preparation: smashing bitter gourds, adding water for diluting by 27 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land;

(3) After the broussonetia papyrifera seedlings are planted, a plurality of insect trapping devices are hung in the broussonetia papyrifera forest at intervals at the bottom of June.

Example 3:

A method for controlling paper mulberry pests comprises the following steps:

(1) seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources;

(2) Land preparation: smashing bitter gourds, adding water for diluting by 30 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land;

(3) after the broussonetia papyrifera seedlings are planted, a plurality of insect trapping devices are hung in the broussonetia papyrifera forest at intervals at the bottom of June.

The insect attracting devices of examples 1 to 3 are shown in FIGS. 1 and 2:

the insect trapping device comprises an insect trapping lamp 2 and an insect trapping box 5, a transparent observation port is arranged on the box wall of the insect trapping box 5, the top of the insect trapping box 5 is open, a wing plate 4 inclined towards the center of the insect trapping box 5 is arranged on the top of the insect trapping box 5, a vertical supporting rod is fixedly connected to the inner bottom of the insect trapping box 5, the inside of the supporting rod is hollow, an exhaust fan 3 is connected to the top end of the supporting rod through screws, the air outlet of the exhaust fan 3 is communicated with the inside of the supporting rod, the top of the exhaust fan 3 is fixedly connected with the insect trapping lamp 2, a transparent protective cover 1 is sleeved on the insect trapping lamp 2, the exhaust fan 3 is also positioned in the protective cover 1, an air inlet hole is formed in the top of the protective cover 1, a plurality of exhaust holes 11 are annularly formed in the bottom of the supporting rod, the exhaust holes 11 are communicated with the inside of the supporting rod, an outlet 10 is arranged on the side wall of the insect trapping box 5, beauveria bassiana (7) is filled in the insect trapping box (5). Be equipped with solar cell panel on the outer wall of moth-killing box 5, solar cell panel has the battery through cable junction, and the battery is connected with moth-killing lamp 2 electricity. A temperature detector 6 (product model: WZP-PT100) is arranged in the insect trapping box 5, a singlechip 8 (model: AT89C52) is arranged AT the bottom of the insect trapping box 5, and the singlechip 8 is electrically connected with the temperature detector 6 and the exhaust fan 3 respectively.

the specific implementation process is as follows:

the light phototaxis of the longicorn, the trap lamp 2 is turned on at night, the longicorn moves towards the trap device under the attraction of the trap lamp 2, the top of the trap box 5 is arranged in an open manner, the top of the trap box 5 is provided with a wing plate 4 inclined towards the center of the trap box 5, the muscardine fungi 7 are arranged in the trap box 5, the side wall of the trap box 5 is provided with an outlet 10, the bottom of the outlet 10 is fixedly connected with a sloping plate 9, the lower end of the sloping plate 9 is connected with the inner bottom of the trap box 5, the trap lamp 2 is arranged above the trap box 5 through a support rod, when the longicorn moves to the inclined wing plate 4 under the attraction of the trap lamp 2, the muscardine falls into the trap box 5 along the wing plate 4 through the open of the trap box 5 under the action of gravity, the muscardine fungi 7 in the trap box 5 contact with the muscardine fungi 7 after falling into the trap box 5, and the muscardine fungi 7 are attached to the body, the longicorn is escaped from the outlet 10 along the inclined plate 9, and the beauveria bassiana 7 on the body is transferred to the rest longicorn when the longicorn is mated or contacted with other longicorn in the escaping days of the longicorn. After contacting with the mulberry longicorn, the beauveria bassiana 7 germinates under the appropriate temperature condition, and growing hyphae invade the body of the pests to produce a large amount of hyphae and secretion, so that the pests are ill and die. Dead insects are white and stiff, and hyphae and white powdery spores grow on the body surface. The spores can be spread continuously by wind, insects and the like to infect other pests. When the temperature in the insect attracting box 5 is lower than 24 ℃, the temperature detector 6 transmits a signal to the single chip microcomputer 8, the single chip microcomputer 8 receives the signal and then controls the exhaust fan 3 to operate, hot air in the protective cover 1 is blown into the insect attracting box 5, and when the temperature in the insect attracting box 5 is monitored by the temperature monitor to reach 28 ℃, the single chip microcomputer 8 controls the exhaust fan 3 to stop operating, so that the automatic adjustment of the temperature in the insect attracting box 5 is realized, and the beauveria bassiana 7 is in a high-activity state.

Claims (6)

1. a method for preventing and treating diseases and pests of paper mulberry is characterized by comprising the following steps:

(1) Seedling treatment: selecting healthy and disease-free paper mulberry seedlings as seedlings, and removing and destroying the seedlings with insect sources;

(2) Land preparation: smashing bitter gourds, adding water for diluting by 25-30 times, filtering to obtain bitter gourds liquid, adding lime water into the bitter gourds liquid according to the proportion of 1:1, stirring to obtain mixed liquid, and uniformly spraying the mixed liquid into the land;

(3) after the paper mulberry sapling is planted, hang a plurality of trapping devices at the bottom of june at paper mulberry forest interval, the trapping device includes moth-killing lamp and moth-killing case, the top of moth-killing case is uncovered setting, and the top of moth-killing case is equipped with towards the pterygoid lamina of moth-killing case center slope, the vertical branch of interior bottom fixedly connected with of moth-killing case, the top of branch extend to the moth-killing case outside with moth-killing lamp fixed connection, be equipped with the export on the lateral wall of moth-killing case, the bottom fixedly connected with swash plate of export, the lower end of swash plate is connected with the interior bottom of moth-killing case, is equipped with the beauveria bassiana in the moth-killing case.

2. A method for controlling paper mulberry diseases and pests according to claim 1, which is characterized in that: the trap lamp is sleeved with a transparent protective cover.

3. a method for controlling broussonetia papyrifera pests according to claim 2, characterized in that: the solar insect trapping box is characterized in that a solar cell panel is arranged on the outer wall of the insect trapping box and is connected with a storage battery through a cable, and the storage battery is electrically connected with the insect trapping lamp.

4. A method for controlling broussonetia papyrifera pests according to claim 3, characterized in that: the branch is the cavity setting, and the bottom ring of branch is equipped with the exhaust hole, and the exhaust hole communicates with the inside of branch, and the top of branch is equipped with the air discharge fan, and the air discharge fan is located the protection casing, the gas outlet of air discharge fan and the inside intercommunication of branch.

5. a method for controlling paper mulberry diseases and pests according to claim 4, which is characterized in that: the insect attracting box is internally provided with a temperature detector, the bottom of the insect attracting box is provided with a single chip microcomputer, and the single chip microcomputer is respectively and electrically connected with the temperature detector and the exhaust fan.

6. A method for controlling broussonetia papyrifera pests and diseases according to claim 5, wherein the method comprises the following steps: and a transparent observation port is arranged on the wall of the insect trapping box.