CN216219627U - Indoor device of raising of common gall midge of mango tree - Google Patents

Abstract

The utility model discloses an indoor feeding device for common gall midge of mango trees, which is characterized in that a base layer is in a long strip shape; the first aluminum-plated layer is paved and fixed on the outer surface of the base layer; the four second aluminum-plated layers are correspondingly paved and fixed on each side edge of the inner surface of the base layer one by one; the medicine layer is laid and fixed in the middle of the base layer, and the inner surface of the base layer between the four second aluminum-plated layers and the medicine layer is formed into an isolation area; the protective layer is provided with a medicine feeding port corresponding to the medicine layer, the protective layer is laid and fixed on the isolation area and the second aluminum-plated layer, and the medicine layer is exposed out through the medicine feeding port. The utility model discloses an indoor feeding device for common gall midge of cerbera manghas, which improves the detection strength.

Description

Indoor device of raising of common gall midge of mango tree

Technical Field

The utility model relates to the technical field of animal feeding devices, in particular to an indoor feeding device for common gall midge of mango trees.

Background

The common gall midge of Cerbera Manghas is a new pest which is discovered as a harmful mango in the Baichou city in Guangxi in recent years, is discovered for the first time in the world, and is identified by domestic and Australian gall midge classification experts to be a new species of the gall midge family, belonging to Diptera, gall midge, the Latin science name is Procontarinia fructiciuli Jiao, wang, Bu & Kolesik. The cercidiphyllum cerbera is a pest flower and a small fruit, and directly influences economic benefit. The common cecidomyiia Cerbera Manghas is highly dangerous in China, can be spread, diffused, colonized and endangered in Mangifera Cerbera Linnaeus planting areas in China, and brings serious threat to the development of Mangifera Linnaeus industry in China.

In the process of researching the biological characteristics of gall midge, observation research and artificial feeding of the development stage of each insect state of gall midge are often required. And the small fruit of the cercidiphyllum amabilis has small individuals, whether adults lay eggs or hatch and the like are observed under a microscope and are difficult to see by naked eyes. The service life of the adult cercidiphyllum amabilis is short, the requirement of the adult on the substance part of a host for oviposition is high, and the adult cercidiphyllum amabilis is often only produced on the amphoterica blossoms which bloom on the day; the mango flowers which are picked up and used for laying eggs on the adults are quickly dehydrated and difficult to grow normally. At present, no more convenient feeding device aiming at the gall midge of mango fruits is available, and great difficulty is brought to research work.

Therefore, the problem that needs to be solved by technical personnel in the field is how to provide an indoor raising device for the common gall midge of mango trees, which can avoid the problem that the picked mango flowers are quickly dehydrated.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides an indoor feeding device for the common cecidomyiia Cerbera Linnaeus, which avoids quick dehydration of the picked common cecidomyiidae Linnaeus and is convenient for observing the growth of the common cecidomyiidae Linnaeus.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an indoor raising device for common gall midge of mango trees comprises:

the nutrient solution storage tube is transparent, one end of the nutrient solution storage tube is closed, the other end of the nutrient solution storage tube is opened, and meanwhile nutrient solution is filled in the nutrient solution storage tube;

the mango spike is inserted into the nutrient solution storage pipe from an opening of the nutrient solution storage pipe and is soaked in the nutrient solution;

the sealing film is connected with a gap between the opening of the nutrient solution storage tank and the mango spike in a sealing manner;

the feeding container pipe is transparent and is used for feeding the cecropin mango, one end of the feeding container pipe is closed, the other end of the feeding container pipe is opened, the nutrient solution storage pipe inserted with the cerbera manghas spikes is inserted into the feeding container pipe from the opening of the feeding container pipe, and the closed end of the nutrient solution storage pipe is close to the open end of the feeding container pipe;

and the sealing plug is connected with the opening end of the feeding container pipe in a sealing manner.

The mango spike is inserted into the nutrient solution storage tube filled with nutrient solution for culturing, and the opening of the nutrient solution storage tube is hermetically connected with the gap between the mango spike through the sealing film, so that the nutrient solution in the nutrient solution storage tube can be prevented from flowing out, the evaporation of the nutrient solution can be reduced, and the survival time of the mango spike can be prolonged; in addition, the nutrient solution storage tube inserted with the mango spike is inserted into the feeding container tube from the opening of the feeding container tube, and the opening of the feeding container tube is sealed by the sealing plug, so that the phenomenon that the purcidium mango escapes from the opening of the feeding container tube is avoided on one hand, and the mango bunch is further moisturized on the other hand, so that the survival time of the mango bunch can be further prolonged; meanwhile, the nutrient solution storage tube and the feeding container tube are transparent, so that the growth states of the mango blossom and the common gall midge of mango are convenient to observe, and meanwhile, the moisture preservation of the mango blossom is facilitated; and the closed end of the nutrient solution storage tube is close to the open end of the feeding container tube, so that the mango bunch can be well protected from being damaged.

Preferably, the method further comprises the following steps:

a feeding tray;

the antiskid newspaper is laid on the feeding disc, and the feeding container pipe is flatly placed on the antiskid newspaper.

According to the utility model, the anti-slip newspaper is laid on the feeding tray, so that the situation that the feeding container pipe slides on the feeding tray to hurt the fed common gall midge of mango trees can be prevented.

Preferably, the plurality of feeding container pipes are uniformly and neatly placed on the anti-skid newspaper.

According to the utility model, a plurality of feeding container pipes are adopted, and each feeding container pipe is correspondingly provided with the nutrient solution storage pipe for inserting the mango spike, so that the utility model can carry out a plurality of groups of experiments and is convenient for comparison and observation.

Preferably, the nutrient solution storage tube is a centrifuge tube with a cover removed.

The nutrient solution storage tube is a centrifugal tube with a cover removed, is low in cost and is easy to obtain.

Preferably, the nutrient solution is a mixture of a fresh flower preservative and sterile water; the fresh flower preservative is immediately fresh, and the immediately fresh flower preservative and the sterile water are prepared according to a standard dosage ratio.

The nutrient solution is a mixture of a fresh flower preservative and sterile water, and the survival rate of fresh flowers is improved.

Preferably, the flower spikes are 2-5.

Preferably, the mango spike is an amphoteric flower which is blooming on the same day; or the mango spike is a female flower of an existing mango purplish gomphosis mosquitos egg; or the spike of the mango tree is the spike of the mango tree in the small fruit stage of the mango tree with the showing insect pest of the mango tree.

The method selects the spike according to the experimental requirements, when the adult mango crocus parviensis and the process of spawning of the adult mango crocus parviensis need to be observed, the adult is placed in a feeding container pipe, the adult generates spawning on a mango bunch, and the mango spike is an amphoteric flower which is opened on the same day; when the egg period of the cercidiphyllum mangiferum needs to be observed, directly selecting a female flower of the cercidiphyllum mangiferum egg; when the larval stage of the common gall midge of the mango trees needs to be observed, the spike of the small earch of the common gall midge of the mango trees is selected.

Preferably, the sealing films are multiple, and the size of each sealing film is matched with the caliber of the opening end of the nutrient solution storage tube.

The size of each sealing film is matched with the caliber of the opening end of the nutrient solution storage tube, and the sealing films are sealed on the opening end of each nutrient solution storage tube and the corresponding mango spike, so that the sealing performance of the mango spike can be improved.

Preferably, the feeding container is a transparent glass test tube, and the diameter of the glass test tube is 3.6cm and the length of the glass test tube is 25 cm.

The volume of the nutrient solution storage tube is small, so that the direction can be flexibly changed under a microscope, and the growth condition of each insect state of the acroplophora pseudocerana crocosbeck can be clearly seen.

Preferably, the volume of the nutrient solution storage tube is 2 ml.

The volume of the nutrient solution storage tube is small, so that the direction can be flexibly changed under a microscope, and the growth condition of each insect state of the acroplophora pseudocerana crocosbeck can be clearly seen.

Preferably, the sealing plug is a tampon, and the tampon is arranged at the opening of the feeding container pipe.

The cotton plug is used as a sealing plug, and the cotton plug is made into the plug at the opening of the feeding tube by a cotton ball, so that the tightness degree of the cotton plug at the opening of the feeding container tube can be adjusted. The cotton wool plug is not too loose, so that gallmidge adults are easy to escape or the outer drill is clamped in the feeding pipe orifice; too tight air humidity in the feeding pipe is too big, has the drop of water in the feeding pipe, and the adult is easily adhered by the drop of water.

According to the technical scheme, compared with the prior art, the utility model discloses and provides the indoor feeding device for the common gall midge of mango trees, which can achieve the following technical effects:

the mango spike is inserted into the nutrient solution storage tube filled with nutrient solution for culturing, and the opening end of the nutrient solution storage tube and the mango spike are hermetically connected through the sealing film, so that the nutrient solution in the nutrient solution storage tube can be prevented from flowing out, the evaporation of the nutrient solution can be reduced, and the survival time of the mango spike can be prolonged; in addition, the nutrient solution storage tube inserted with the mango spike is inserted into the feeding container tube from the opening of the feeding container tube, and the opening of the feeding container tube is sealed by the sealing plug, so that the phenomenon that the purcidium mango escapes from the opening of the feeding container tube is avoided on one hand, and the mango bunch is further moisturized on the other hand, so that the survival time of the mango bunch can be further prolonged; meanwhile, the nutrient solution storage tube and the feeding container tube are transparent, so that the growth states of the mango blossom and the common gall midge of mango are convenient to observe, and meanwhile, the moisture preservation of the mango blossom is facilitated; and the closed end of the nutrient solution storage tube is close to the open end of the feeding container tube, so that the mango bunch can be well protected from being damaged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a structural diagram of an indoor raising device for crocodiles indica showing no place on a raising tray and antiskid newspaper;

FIG. 2 is a structural diagram of a mango spike inserted in a nutrient solution storage tube of the indoor raising device for the crocodile mango purcidium;

FIG. 3 is a structural diagram of the indoor raising device for the crocodiles indica showing the utility model, which is placed on a raising tray and an antiskid newspaper.

Wherein, 1-nutrient solution storage tube; 10-nutrient solution; 2-spike of mango flower; 3-sealing film; 4-feeding container tube; 5-sealing plug; 6-feeding tray; 7-antiskid newspaper.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the utility model discloses an indoor feeding device for common gall midge of mango trees, which comprises:

the nutrient solution storage tube 1 is transparent, one end of the nutrient solution storage tube 1 is closed, the other end of the nutrient solution storage tube 1 is opened, and meanwhile, nutrient solution 10 is filled in the nutrient solution storage tube 1;

the mango spike 2 is inserted into the nutrient solution storage pipe 1 from an opening of the nutrient solution storage pipe 1, and is soaked in the nutrient solution 10;

the sealing film 3 is hermetically connected with a gap between the opening of the nutrient solution storage tube 1 and the mango spike 2;

the feeding container pipe 4 is transparent and is used for feeding the cecrophycidae indica, one end of the feeding container pipe 4 is closed, the other end of the feeding container pipe is opened, the nutrient solution storage pipe 1 inserted with the cerbera manghas spica 2 is inserted into the feeding container pipe 4 from the opening of the feeding container pipe 4, and the closed end of the nutrient solution storage pipe 1 is close to the open end of the feeding container pipe 4;

the sealing plug 5 is sealed, and the sealing plug 5 is hermetically connected with the opening end of the feeding container pipe 4.

In order to further optimize the above technical solution, the method further comprises:

a feeding tray 6;

the antiskid newspaper 7, antiskid newspaper 7 lay on raising tray 6, raise the container tube 4 and keep flat on antiskid newspaper 7.

In order to further optimize the technical scheme, a plurality of feeding container pipes 4 are uniformly and neatly placed on the anti-skid newspaper 7.

In order to further optimize the technical scheme, the nutrient solution storage tube 1 is a centrifugal tube with a cover removed.

In order to further optimize the technical scheme, the nutrient solution 10 is a mixture of a fresh flower preservative and sterile water; the fresh flower preservative is immediately fresh, and is prepared by mixing the immediately fresh flower preservative with sterile water according to a standard dosage ratio.

In order to further optimize the technical scheme, the flower spikes are 2-5.

In order to further optimize the technical scheme, the mango spike 2 is an amphoteric flower which is blooming on the same day; or the mango spike 2 is a female flower of the common gall mosquito egg of the mango tree; or the spike 2 of the mango tree is the spike of the mango tree in the period of the small fruit of the mango tree which has the baton crocus terrestris larva.

In order to further optimize the technical scheme, a plurality of sealing films 3 are arranged, and the size of each sealing film 3 is matched with the caliber of the opening end of the nutrient solution storage tube 1.

In order to further optimize the technical scheme, the feeding container is a transparent glass test tube, and the diameter of the glass test tube is 3.6cm, and the length of the glass test tube is 25 cm.

In order to further optimize the technical scheme, the volume of the nutrient solution storage tube 1 is 2 ml.

In order to further optimize the above technical solution, the sealing plug 5 is a tampon which is arranged at the opening of the feeding container tube 4.

Example (b):

the embodiment of the utility model discloses an indoor feeding device for cerbera manghas, which is used for culturing cerbera manghas imagoes and spawning the cerbera manghas imagoes and comprises the following operation steps:

firstly, preparing mango spike 2: firstly, collecting mango spikes 2, selecting the mango spikes 2 which bloom on the same day, gently washing the whole mango spikes after the whole mango spikes are collected, and putting the mango spikes into a basin filled with a little water for later use; and (3) removing the male flowers and the bloomed flowers of the collected mango spikes 2 by using forceps, and keeping the amphoteric flowers blooming on the day, wherein 2-5 flowers are a bunch.

Secondly, preparing a nutrient solution storage tube 1: the tube body of the test tube in the nutrient solution storage tube 1 is a 2ml centrifuge tube, and the cover part of the centrifuge tube is cut off from the tube opening.

Thirdly, preparing the nutrient solution 10: the nutrient solution 10 of the fresh-keeping mango spike 2 is a fresh flower preservative which can be prepared and used according to a standard dosage ratio with sterile water.

Fourthly, the nutrient solution storage tube 1 is filled with the instant fresh nutrient solution 10, and the nutrient solution storage tube 1 filled with the nutrient solution 10 is put into the centrifuge tube sampling box.

Fifthly, the treated bisexual flower spikes of the mango are put into a nutrient solution storage tube 1 filled with nutrient solution 10, and meanwhile, a plurality of sealing films 3 seal the gap between the tube opening of the nutrient solution storage tube 1 and the mango flower spikes 2; after the manufacturing step of the nutrient solution storage tube 1 is completed, water overflowing in the manufacturing process of the nutrient solution storage tube 1 is sucked dry by a paper towel; finally, the prepared nutrient solution storage tube 1 inserted with the mango spike 2 is orderly placed into a transparent rectangular lunch box, a cover is covered for moisture preservation, and the transparent rectangular lunch box is placed on a table top or a refrigerator at 5 ℃ for later use.

Sixthly, the nutrient solution storage tube 1 is placed into the feeding container tube 4, the mango ear 2 faces inwards in the placing process, the closed end of the nutrient solution storage tube 1 is close to the open end of the feeding container tube 4, and the breakage of the mango ear 2 is avoided when the nutrient solution storage tube 1 is taken out conveniently.

Seventhly, after the nutrient solution storage tube 1 is placed into the feeding container tube 4, adult insects are collected through a finger-shaped glass test tube, the adult insects are connected into the feeding container tube 4 in a matching mode according to experimental requirements, a recording label is attached to the outside of the feeding container tube 4, and dead adult insects are picked out through a small writing brush in the process that the adult insects are connected into the feeding container tube 4.

Eighthly, the feeding container pipes 4 are placed in order in a feeding tray 6 paved with the antiskid newspaper 7, the feeding tray 6 is a tray of 50 multiplied by 70 multiplied by 10cm, and a layer of antiskid newspaper 7 is paved in the tray for antiskid.

Ninth, observe: after the adult worms lay eggs in the feeding container pipes 4, the nutrient solution storage pipe 1 with the eggs is taken out by tweezers and moved into another feeding container pipe 4 for feeding, and corresponding records are made.

In the above steps, when an adult insect does not lay eggs, the nutrient solution 10 in the nutrient solution storage tube 1 needs to be changed daily, the adult insect on the mango spike 2 is driven away during the change, the nutrient solution storage tube 1 inserted with the mango spike 2 is taken out by a forceps, the cotton plug is quickly plugged to the open end of the feeding container tube 4, and after the driven adult insect flies into the mango spike 2 again, the nutrient solution storage tube 1 is quickly inserted into the feeding container tube 4, and the cotton plug is quickly plugged to the open end of the feeding container tube 4.

When the adult worms lay eggs or under the low-temperature condition, the water test tube of the fresh mango flower nutrient solution 10 can be replaced according to the situation.

In the process of replacing the nutrient solution storage tube 1, the feeding container tube 4 is lightly taken to avoid the feeding container tube 4 in the feeding tray 6 from rolling, and the nutrient solution storage tube 1 damages adults.

The method comprises the following steps of (1) when the egg period of the cerbera manghas is required to be observed, directly selecting a female flower of the cerbera manghas egg, and culturing the adult cerbera manghas and spawning the adult cerbera manghas by the method; when the larval stage of the common gall midge mango is required to be observed, the ear of the mango spike is selected from the ear of the mango spike at the small earch stage of the common gall midge larva, and other steps are the same as the operation steps of culturing the adult and spawning the adult of the common gall midge mango.

Claims (10)

1. An indoor raising device for common gall midge of mango trees is characterized by comprising:

the nutrient solution storage tube (1) is transparent, one end of the nutrient solution storage tube (1) is closed, the other end of the nutrient solution storage tube is opened, and meanwhile nutrient solution (10) is filled in the nutrient solution storage tube (1);

the mango spike (2) is inserted into the nutrient solution storage pipe (1) from an opening of the nutrient solution storage pipe (1) and is soaked in the nutrient solution (10);

the sealing film (3) is connected with a gap between the opening of the nutrient solution storage pipe (1) and the mango spike (2) in a sealing manner;

the feeding container pipe (4) is transparent and is used for feeding the cecropin mango, one end of the feeding container pipe (4) is closed, the other end of the feeding container pipe is opened, the nutrient solution storage pipe (1) inserted with the cecropin mango spike (2) is inserted into the feeding container pipe (4) from the opening of the feeding container pipe (4), and the closed end of the nutrient solution storage pipe (1) is close to the open end of the feeding container pipe (4);

the sealing plug (5) is connected with the opening end of the feeding container pipe (4) in a sealing mode.

2. The apparatus for feeding the purphypus amabilis indoors according to claim 1, further comprising:

a feeding tray (6);

the antiskid newspaper (7), antiskid newspaper (7) are laid on raise tray (6), raise the container pipe (4) and keep flat on antiskid newspaper (7).

3. An indoor feeding device for common gall midge of cerbera manghas as claimed in claim 2, characterized in that the plurality of feeding container tubes (4) are uniformly and neatly placed on the anti-slip newspaper (7).

4. An indoor feeding device for p.Cerbera Manghas according to any one of claims 1-3, wherein the nutrient solution storage tube (1) is a centrifuge tube with a cover removed.

5. An indoor feeding device for common gall midge of mango trees according to any one of claims 1-3, characterized in that the nutrient solution (10) is a mixture of fresh flower preservative and sterile water.

6. An indoor feeding device for common gall midge across any one of claims 1 to 3, characterized in that the spike of mango (2) is an amphoteric flower which is open on the day; or the mango spike (2) is a female flower of a common gall mosquito egg of a mango tree; or the spike of mango tree (2) is the spike of mango tree in the period of the small fruit of the Cerbera Manghas having the batrachia indica and the common gall midge larva.

7. An indoor feeding device for common gall midge Cerbera Manghas according to any one of claims 1-3, wherein the sealing film (3) is plural, and each sealing film (3) is sized to match the aperture of the open end of the nutrient solution storage tube (1).

8. An indoor feeding device for the small fruit plantula androsaceus according to any one of claims 1-3, characterized in that the feeding container is a transparent glass test tube, and the diameter of the glass test tube is 3.6cm and the length is 25 cm.

9. An indoor feeding device for p.Cerbera Manghas according to any one of claims 1-3, wherein the volume of the nutrient solution storage tube (1) is 2 ml.

10. An indoor feeding device for p.Cerbera Manghas according to any one of claims 1-3, characterized in that the sealing plug (5) is a tampon arranged at the opening of the feeding container tube (4).

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