CN103843725B - The indoor feeding method of a kind of corn leaf aphids and raising device thereof - Google Patents
The indoor feeding method of a kind of corn leaf aphids and raising device thereof Download PDFInfo
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- CN103843725B CN103843725B CN201410056272.3A CN201410056272A CN103843725B CN 103843725 B CN103843725 B CN 103843725B CN 201410056272 A CN201410056272 A CN 201410056272A CN 103843725 B CN103843725 B CN 103843725B
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Abstract
The present invention relates to the raising method of insect, aim to provide indoor feeding method and the raising device thereof of a kind of corn leaf aphids.Paddy rice as host, utilizes nutrient solution to be positioned in pallet and plants by the indoor feeding method of this kind of corn leaf aphids, emerges latter about 15 days, is proceeded to by corn leaf aphids on paddy rice, be then placed in corn leaf aphids raising device and raise; This kind of corn leaf aphids raising device is the device of six box-structures of a lucite material, the back side of six box-structures and two sides are provided with nylon fine-meshed screen, the front of six box-structures is provided with sliding door, and the side, two, inside of corn leaf aphids raising device is provided with draw-in groove.The raising method of corn leaf aphids of the present invention avoids original host and compares the problem taken up room, in addition can water planting, makes it operationally become simple; Corn leaf aphids raising device structure of the present invention is simple, with low cost, operates simple and easy, convenient and practical.
Description
Technical field
The invention relates to the raising method of insect, particularly the indoor feeding method of a kind of corn leaf aphids and raising device thereof.
Background technology
Corn leaf aphids (RhopalosiphummaidisFitch) are the primary pests of China cereal crop, are mainly distributed in northeast, North China, East China, south China, the ground such as Central-South, southwestern.Except corn of causing harm (ZeamaysL.), Chinese sorghum (SorghumbicolorL.), wheat (TriticumaestivumL.), barley (HordeumvulgareL.) and paddy rice (OryzasativaL.) etc. make beyond the region of objective existence, still can at green foxtail [Setariaviridis (L.) Beauv.], roegneria kamoji (RoegneriakamojiOhwi), lady's-grass [Digitariasanguinalis (L.) Scop.], parasitic on 7 kinds of grassy weeds such as eleusine indica [Eleusineindica (L.) Gaerth.], not only to become aphid, if aphid thorn is inhaled water and is directly endangered cereal crop, and luteovirus (barleyyellowdwarfvirus can be propagated, and maize dwarf mosaic virus (maizedwarfmosaicvirus BYDV), MDMV), cause the popular of crop pest.The honeydew of aphid excretion can also cause sooty mould, causes the massive losses of crop yield.
In recent years, along with the change of crop allocation, weather conditions and the replacement of corn variety, the occurrence injury of corn leaf aphids increases the weight of gradually, causes disaster in indivedual area wildness.Therefore, the foundation of the artificial diet technique of corn leaf aphids has important economic implications, for the control experiment carrying out corn leaf aphids further, make a set of science, effective corn leaf aphids control strategy, thus the object reaching the harm of control aphis population has important effect.
Traditional corn leaf aphids raising method is raised with its main host plants corn, and because the volume of corn own is relatively large, adopting plants to raise can increase taking of space unavoidably, is unfavorable for indoor large area captive breeding.If adopt some position of plant to raise, then need moisturizing to prevent it dry, avoid mouldy simultaneously, in view of the characteristic of aphis population rapid development, also need often to change the plant material of raising, so just considerably increase the difficulty that it is raised.Simultaneously for the container of raising, do not formed all the time a science, easily, practical device.
Summary of the invention
Main purpose of the present invention is to overcome deficiency of the prior art, provides a kind of with low cost, indoor feeding method and raising device thereof of operating easy corn leaf aphids.For solving the problems of the technologies described above, solution of the present invention is:
The indoor feeding method of a kind of corn leaf aphids is provided, comprises the host obtaining corn leaf aphids, choose the host of rice seedlings as corn leaf aphids, specifically comprise the steps:
(1) rice of fetching water is put into container water and is cleaned three times, and the floating rice paddy seed come up is weeded out, then in the remaining rice paddy seed of container, water is added, and ensure that the water yield added there was not rice paddy seed, again container is put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%, and all use rice paddy seed in water clean container every day three times;
(2) by through step (1) process after rice paddy seed tile in pallet, then with cotton thread, pallet is bundled into the palace case form of N × M, wherein N, M be all be greater than 1 natural number; Then spray water (injection flow rate is as the criterion not allow seed flowing everywhere in dish) is sprayed into watering can to the rice paddy seed on pallet, finally black plastic bag on tray sleeve is put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%;
(3) pallet in climatic cabinate is taken out, black plastic bag on pallet is taken off, water is added from the edge of pallet, make the rice root that the water yield added there was not rice paddy seed to grow, and then pallet is put into climatic cabinate place, placement condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; And when water level is lower than rice root, add water from tray edge and supplement, guaranteed water level did not have rice root; Until the paddy rice bud mutation that rice paddy seed grows is green, add the nutrient solution of configuration, make nutrient solution not have rice root;
(4) after the rice paddy seed in step (3) is emerged 15 days, pallet is taken out from climatic cabinate, then the corn leaf aphids collected are proceeded on the rice seedlings in pallet, again the pallet that rice seedlings is housed is put into corn leaf aphids raising device, subsequently corn leaf aphids raising device is put into climatic cabinate, placement condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; And when the nutrient solution in pallet is lower than rice root, adds nutrient solution from tray edge and supplement, ensure that nutrient solution can not have rice root;
(5) after having 2/3rds to turn yellow in the rice seedlings in pallet, nutrient solution process in pallet is done, then pallet is turned over turnback to be inverted, put into the draw-in groove above corn leaf aphids raising device, then on the draw-in groove below pallet, put into be equipped with adopt step (1), the method vernalization of (2) and (3) obtains emerge 15 days after the pallet of rice seedlings, the aphid on the rice seedlings that confession has turned yellow shifts and continues to take food;
(6) when corn leaf aphids are all transferred to after the rice seedlings newly put into from the rice seedlings turned yellow, the rice seedlings of flavescence is taken out in raising device;
(7) be cycled to repeat the process of step (5) and step (6), carry out the continuous raising of corn leaf aphids.
As further improvement, the environmental condition of described step (5) and step (6) is temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX.
As further improvement, the compound method of described nutrient solution is: by 91.6gNH
4nO
3and 88.6gCaCl
2be dissolved in 1L distilled water as storing solution A; By 40.3gNaH
2pO
4.2H
2o and 71.4gK
2sO
4be dissolved in 1L distilled water as storing solution B; By 324gMgSO
4.7H
2o is dissolved in 1L distilled water as storing solution C; By 1.5gMnCl
2.4H
2o, 0.934gH
3bO
3, 0.031gCuSO
4.5H
2o, 0.074g (NH
4)
6mo
7o
24.4H
2o, 0.035gZnSO
4.7H
2o, 7.7gFeCl
3.6H
2o and 11.9g citric acid (monohydrate) is dissolved in 800ml distilled water, then adds the 50ml concentrated sulfuric acid, then adding distil water to 1 is liter as micro-storing solution; Storing solution A, storing solution B, each 5ml of storing solution C and micro-storing solution 4ml mix by (to join 4 liters of nutrient solutions), add water to 4 liters, then 1NNaOH adjust pH (measuring pH after adding about 10ml to finely tune again) is used, make pH value between 4.5 ~ 5.0, namely obtain nutrient solution.
A kind of corn leaf aphids raising device for carrying out described corn leaf aphids indoor feeding method is provided, comprise pallet, described corn leaf aphids raising device is the device of six box-structures of a lucite material, the back side of six box-structures and two sides are all provided with for ventilative nylon fine-meshed screen, the front of six box-structures is provided with at least two sliding doors, and sliding door realizes installation and removal by blade; The side, two, inside of corn leaf aphids raising device, be respectively arranged with at least two draw-in grooves for support tray in parallel, the position of each draw-in groove is corresponding with the position of sliding door, realizes the pallet on draw-in groove and completes by the sliding door of correspondence and take out and load.
As further improvement, described nylon fine-meshed screen is 100 object nylon fine-meshed screens.
As further improvement, described pallet is the pallet of lucite material.
As further improvement, the side, two, inside of described corn leaf aphids raising device, be respectively arranged with two draw-in grooves in parallel, sliding door is also provided with two.
Compared with prior art, the invention has the beneficial effects as follows:
The raising method of corn leaf aphids of the present invention utilizes paddy rice as host, because its volume is little, so avoid original host to compare the problem taken up room, in addition can water planting, and make it operationally become simple.
Corn leaf aphids raising device structure of the present invention is simple, with low cost, operates simple and easy, convenient and practical, is also applicable to the raising of other rice seedling insect, or meets the raising of other insect or biology according to the size of host plant size adjusting device.
Accompanying drawing explanation
Fig. 1 is the front schematic view of a preferred embodiment of the pallet of rice cultivation in corn leaf aphids indoor feeding method of the present invention.
Fig. 2 is the end face schematic diagram with a preferred embodiment of cotton thread binding pallet in corn leaf aphids indoor feeding method of the present invention.
Fig. 3 is the front plan schematic diagram of a preferred embodiment of corn leaf aphids raising device of the present invention.
Fig. 4 is the inner side schematic perspective view of a preferred embodiment of corn leaf aphids raising device of the present invention.
Reference numeral in figure is: 1 blade; 2 sliding doors; 3 draw-in grooves; 4 nylon fine-meshed screens.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the present invention is described in further detail:
Corn leaf aphids raising device is the device of six box-structures of, is made up of lucite.Lucite has fabulous light transmission, and ensure that paddy rice and the illumination required for aphid growth, and mechanical strength is higher, has certain heat-resisting cold resistance, corrosion resistance, insulating properties are good, and dimensionally stable, is easy to shaping.The back side of six box-structures and two sides are all provided with 100 object nylon fine-meshed screens 4, are conducive to gas permeability good in device.
The front of six box-structures is provided with two sliding doors 2, and sliding door 2 realizes installation and removal by blade 1.It is after aphid on old rice seedlings all shifts that front arranges upper and lower two dismountable sliding doors 2, only need open corresponding sliding door 2 and just can take out pallet, can not have influence on new seedling; Two is in normal feeding process, if water nutrient solution or get seedling, sliding door 2 below just opened by the pallet taking off portion, if the sliding door 2 on top just opened by the pallet getting top, object is the loss avoiding causing aphid unnecessary.
The side, two, inside of corn leaf aphids raising device, respectively be arranged with two in parallel for supporting the draw-in groove 3 of the pallet of organic glass material, the position of each draw-in groove 3 is corresponding with the position of sliding door 2, realizes the pallet on draw-in groove 3 and completes by the sliding door 2 of correspondence and take out and load.Inside arranges upper and lower two-layer draw-in groove 3, object was in same dependent insect cage, to complete the transfer process of the aphid on old seedling to new talent when the rice seedlings in a pallet will have been taken food by aphid time, like this, both space was saved, in turn simplify a head and shift the inconvenience brought, more importantly avoid injury that in conventional transfer method, utensil may cause aphid and because of transfer thoroughly or operation do not note the quantity loss that brings.
Fig. 1 is the front schematic view of a preferred embodiment of the pallet of rice cultivation in corn leaf aphids indoor feeding method of the present invention, and pallet is the cuboid container of open top, and specification is that length is respectively: 30cm, 23cm, 7cm.Pallet specification can adjust accordingly according to institute's planting plants.Fig. 2 is the end face schematic diagram with a preferred embodiment of cotton thread binding pallet in corn leaf aphids indoor feeding method of the present invention.As shown in Figure 2, dotted line is that cotton thread ties up the schematic diagram of mode in the uncovered place of pallet, and object is that when being reversed by pallet in the process of transfer corn leaf aphids, rice seedlings can not fall down.
Fig. 3 is the front plan schematic diagram of a preferred embodiment of corn leaf aphids raising device of the present invention, and whole corn leaf aphids raising device is square, and length, width and height are 35cm, and entirety is made up of lucite, and the back side is that 100 object nylon fine-meshed screens 4 are used for breathing freely; Be provided with eight blades 1, four being used for fixing sliding door 2 to be one group to be used for fixing upper and lower two sliding doors 2 respectively in the front of corn leaf aphids raising device.Fig. 4 is the side schematic perspective view of a preferred embodiment of corn leaf aphids raising device of the present invention, upper and lower two-layer draw-in groove 3 is 7.5cm apart from top or bottom, putting into and taking out of utility tray, arranges 100 object nylon fine-meshed screens 4, is used for equally breathing freely between upper lower bayonet slot 3.
Corn leaf aphids raising device of the present invention is also applicable to the raising of other rice seedling insect, or meets the raising of other insect or biology according to the size of host plant size adjusting device.
An indoor feeding method for corn leaf aphids, specifically comprises the steps:
(1) rice of fetching water is put into the container water such as beaker and is cleaned three times, and the floating rice paddy seed come up is weeded out, then in the remaining rice paddy seed of container, water is added, and ensure that the water yield added there was not rice paddy seed, again container is put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%, and all use rice paddy seed in water clean container every day three times.
(2) by through step (1) process after rice paddy seed tile in pallet, then with cotton thread, pallet is bundled into the palace case form of N × M, wherein N, M be all be greater than 1 natural number; Then spray into spray water with small-sized watering can to the rice paddy seed on pallet, injection flow rate is as the criterion not allow seed flowing everywhere in dish, finally black plastic bag on tray sleeve is put into climatic cabinate, places three days under the dark condition of temperature 38 DEG C, humidity 75%.
(3) pallet in climatic cabinate is taken out, black plastic bag on pallet is taken off, slowly water is added from a corner edge of pallet, the rice root making the water yield added not have rice paddy seed to grow is advisable, the water yield is crossed conference and is caused the rice seedlings germinateed to fall down, add water in process, excessive velocities be avoided.And then pallet is put into climatic cabinate place, placement condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; Afterwards when water level supplements lower than adding water from tray edge during rice root, guaranteed water level did not have rice root.Until paddy rice bud mutation is green, add the nutrient solution of configuration, consumption was not still to have rice root to be as the criterion.
(4) after the rice paddy seed in step (3) is emerged 15 days, pallet is taken out from climatic cabinate, then the corn leaf aphids collected are proceeded on the rice seedlings in pallet, again the pallet that rice seedlings is housed is put into corn leaf aphids raising device, subsequently device is put into climatic cabinate, condition is still: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; Afterwards when nutrient solution is lower than rice root, add nutrient solution from tray edge and supplement, guarantee not have rice root all the time.
(5) after having 2/3rds to turn yellow in the rice seedlings in pallet, nutrient solution process in pallet is done, then pallet is turned over turnback to be inverted, put into the draw-in groove 3 above raising device, then the draw-in groove 3 below pallet is put into the method adopting step (1), (2) and (3) equally, rice seedlings after what vernalization obtained emerge 15 days, shifts for the aphid on the rice seedlings turned yellow and continues to take food.Whole corn leaf aphids raising device is in climatic cabinate, and environmental condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX.
(6) in environmental condition be: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is in the climatic cabinate of 22000LX, when corn leaf aphids are all transferred to after the rice seedlings newly put into from the rice seedlings turned yellow, the rice seedlings of flavescence is taken out in raising device and discards.
(7) be cycled to repeat the process of step (5) and step (6), carry out the continuous continuously rearing of corn leaf aphids, for experimental study or other objects used.
Wherein, the concrete formula of nutrient solution is with reference to the description of people in LaboratoryManualforPhysiologicalStudiesofRice mono-book such as SHOUICHIYOSHIDA.Concrete collocation method is: by 91.6gNH
4nO
3and 88.6gCaCl
2be dissolved in 1L distilled water as storing solution A; By 40.3gNaH
2pO
4.2H
2o and 71.4gK
2sO
4be dissolved in 1L distilled water as storing solution B; By 324gMgSO
4.7H
2o is dissolved in 1L distilled water as storing solution C; By 1.5gMnCl
2.4H
2o, 0.934gH
3bO
3, 0.031gCuSO
4.5H
2o, 0.074g (NH
4)
6mo
7o
24.4H
2o, 0.035gZnSO
4.7H
2o, 7.7gFeCl
3.6H
2o and 11.9g citric acid (monohydrate) is dissolved in 800ml distilled water, then adds the 50ml concentrated sulfuric acid, then adding distil water to 1 is liter as micro-storing solution; Storing solution A, storing solution B, each 5ml of storing solution C and micro-storing solution 4ml mix by (to join 4 liters of nutrient solutions), add water to 4 liters, then use 1NNaOH adjust pH, measure pH after adding about 10ml and finely tune again, make pH value between 4.5 ~ 5.0, namely obtain nutrient solution.
The following examples can make professional and technical personnel's comprehend the present invention of this specialty, but do not limit the present invention in any way.
As a preferred embodiment of the raising method of corn leaf aphids of the present invention, concrete operations are as follows:
(1) get appropriate rice paddy seed and put into beaker or other cleaning containers three times, floating some seeds come up are weeded out, then not have the water yield of seed that container is put into climatic cabinate, temperature 38 DEG C, dark condition, humidity 75%, three days altogether, every day was by clean water three times.
(2) rice paddy seed is tiled in the pallet shown in Fig. 1, then with thin cotton thread, pallet is tied up into as shown in Figure 2, then a small amount of clear water is sprayed into small-sized watering can with vaporific, institute's injection flow rate is as the criterion not allow seed flowing everywhere in dish, then put black plastic bag to continue to put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%.
(3) taken off by plastic sack, slowly add clear water from pallet one corner edge, the water yield was as the criterion there not to be root system, then put into climatic cabinate, temperature 28 DEG C, illumination 14 hours, 10 hours nights, intensity of illumination 22000LX, humidity 75%.Afterwards when water level supplements lower than adding water from tray edge during rice root, guaranteed water level did not have rice root.Until paddy rice bud mutation is green, add the nutrient solution of configuration, consumption was not still to have rice root to be as the criterion.
(4) after emerging 15 days, with fur writing brush, the corn leaf aphids collected from field are carefully proceeded on rice seedlings, then the draw-in groove 3 of pallet below dependent insect cage is put in, shut sliding door 2, finally whole corn leaf aphids raising device is put into climatic cabinate, condition is still: temperature 28 DEG C, illumination every day 14 hours, 10 hours nights, intensity of illumination 22000LX, humidity 75%.Afterwards when nutrient solution supplements lower than adding nutrient solution from tray edge during rice root, guaranteeing not have rice root all the time, maintaining the growth of paddy rice.
(5) when rice seedlings is taken food flavescence by corn leaf aphids, nutrient solution process in pallet is done, then pallet is inverted, because the existence of draw-in groove 3 and cotton thread, pallet and in rice seedlings can not fall down, then the draw-in groove 3 below pallet puts into the pallet that new rice seedlings is housed, shift for the aphid on the rice seedlings turned yellow and continue to take food, when the aphid on old seedling shifts complete substantially time, the pallet that the rice seedlings turned yellow is housed is taken out, old seedling discards, with the raising of these circulation continuous corn leaf aphids.
Finally, it should be noted that above what enumerate is only specific embodiments of the invention.Obviously, the invention is not restricted to above embodiment, a lot of distortion can also be had.All distortion that those of ordinary skill in the art can directly derive or associate from content disclosed by the invention, all should think protection scope of the present invention.
Claims (7)
1. an indoor feeding method for corn leaf aphids, comprises the host obtaining corn leaf aphids, it is characterized in that, choose the host of rice seedlings as corn leaf aphids, specifically comprise the steps:
(1) rice of fetching water is put into container water and is cleaned three times, and the floating rice paddy seed come up is weeded out, then in the remaining rice paddy seed of container, water is added, and ensure that the water yield added there was not rice paddy seed, again container is put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%, and all use rice paddy seed in water clean container every day three times;
(2) by through step (1) process after rice paddy seed tile in pallet, then with cotton thread, pallet is bundled into the palace case form of N × M, wherein N, M be all be greater than 1 natural number; Then spray into spray water with watering can to the rice paddy seed on pallet, finally black plastic bag on tray sleeve is put into climatic cabinate, place three days under the dark condition of temperature 38 DEG C, humidity 75%;
(3) pallet in climatic cabinate is taken out, black plastic bag on pallet is taken off, water is added from the edge of pallet, make the rice root that the water yield added there was not rice paddy seed to grow, and then pallet is put into climatic cabinate place, placement condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; And when water level is lower than rice root, add water from tray edge and supplement, guaranteed water level did not have rice root; Until the paddy rice bud mutation that rice paddy seed grows is green, add the nutrient solution of configuration, make nutrient solution not have rice root;
(4) after the rice paddy seed in step (3) is emerged 15 days, pallet is taken out from climatic cabinate, then the corn leaf aphids collected are proceeded on the rice seedlings in pallet, again the pallet that rice seedlings is housed is put into corn leaf aphids raising device, subsequently corn leaf aphids raising device is put into climatic cabinate, placement condition is: temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX; And when the nutrient solution in pallet is lower than rice root, adds nutrient solution from tray edge and supplement, ensure that nutrient solution can not have rice root;
(5) after having 2/3rds to turn yellow in the rice seedlings in pallet, nutrient solution process in pallet is done, then pallet is turned over turnback to be inverted, put into the draw-in groove above corn leaf aphids raising device, then on the draw-in groove below pallet, put into be equipped with adopt step (1), the method vernalization of (2) and (3) obtains emerge 15 days after the pallet of rice seedlings, the aphid on the rice seedlings that confession has turned yellow shifts and continues to take food;
(6) when corn leaf aphids are all transferred to after the rice seedlings newly put into from the rice seedlings turned yellow, the rice seedlings of flavescence is taken out in raising device;
(7) be cycled to repeat the process of step (5) and step (6), carry out the continuous raising of corn leaf aphids.
2. the indoor feeding method of a kind of corn leaf aphids according to claim 1, it is characterized in that, the environmental condition of described step (5) and step (6) is temperature 28 DEG C, humidity 75%, illumination every day 14 hours, dark 10 hours, and illumination during illumination is 22000LX.
3. the indoor feeding method of a kind of corn leaf aphids according to claim 1, is characterized in that, the compound method of described nutrient solution is: by 91.6gNH
4nO
3and 88.6gCaCl
2be dissolved in 1L distilled water as storing solution A; By 40.3gNaH
2pO
4.2H
2o and 71.4gK
2sO
4be dissolved in 1L distilled water as storing solution B; By 324gMgSO
4.7H
2o is dissolved in 1L distilled water as storing solution C; By 1.5gMnCl
2.4H
2o, 0.934gH
3bO
3, 0.031gCuSO
4.5H
2o, 0.074g (NH
4)
6mo
7o
24.4H
2o, 0.035gZnSO
4.7H
2o, 7.7gFeCl
3.6H
2o and 11.9g citric acid is dissolved in 800ml distilled water, then adds the 50ml concentrated sulfuric acid, then adding distil water to 1 is liter as micro-storing solution; Storing solution A, storing solution B, each 5ml of storing solution C and micro-storing solution 4ml are mixed, adds water to 4 liters, then use 1NNaOH adjust pH, make pH value between 4.5 ~ 5.0, namely obtain nutrient solution.
4. the corn leaf aphids raising device for corn leaf aphids indoor feeding method described in carry out claim 1, comprise pallet, it is characterized in that, described corn leaf aphids raising device is the device of six box-structures of a lucite material, the back side of six box-structures and two sides are all provided with for ventilative nylon fine-meshed screen, the front of six box-structures is provided with at least two sliding doors, and sliding door realizes installation and removal by blade; The side, two, inside of corn leaf aphids raising device, be respectively arranged with at least two draw-in grooves for support tray in parallel, the position of each draw-in groove is corresponding with the position of sliding door, realizes the pallet on draw-in groove and completes by the sliding door of correspondence and take out and load.
5. a kind of corn leaf aphids raising device according to claim 4, is characterized in that, described nylon fine-meshed screen is 100 object nylon fine-meshed screens.
6. a kind of corn leaf aphids raising device according to claim 4, is characterized in that, described pallet is the pallet of lucite material.
7. a kind of corn leaf aphids raising device according to claim 4, is characterized in that, the side, two, inside of described corn leaf aphids raising device, be respectively arranged with two draw-in grooves in parallel, sliding door is also provided with two.
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CN104782581B (en) * | 2015-04-28 | 2018-05-29 | 中国烟草总公司郑州烟草研究院 | A kind of superposing type aphid raising and transfer device and transfer, the method for collection aphid |
CN106359306A (en) * | 2016-08-25 | 2017-02-01 | 贵州大学 | Method for improving locust egg laying amount and for collecting locust eggs |
CN106689070A (en) * | 2017-02-23 | 2017-05-24 | 安徽科技学院 | Breeding method of corn aphids |
CN109601483A (en) * | 2018-12-11 | 2019-04-12 | 安阳工学院 | A kind of method for breeding making corn leaf aphids life table |
CN114391514A (en) * | 2022-01-14 | 2022-04-26 | 西藏自治区农牧科学院农业研究所 | Method for rapidly propagating wheat aphids by highland barley seedlings |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1830245A (en) * | 2006-03-28 | 2006-09-13 | 衡水田益生防有限责任公司 | Technology of industrial production of syrphid eating cecidomyiia |
CN102204521A (en) * | 2011-05-23 | 2011-10-05 | 王华弟 | Small-size pest raising device |
CN102523974A (en) * | 2012-03-06 | 2012-07-04 | 南京农业大学 | Crop and insect co-cultivation box |
-
2014
- 2014-02-19 CN CN201410056272.3A patent/CN103843725B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1830245A (en) * | 2006-03-28 | 2006-09-13 | 衡水田益生防有限责任公司 | Technology of industrial production of syrphid eating cecidomyiia |
CN102204521A (en) * | 2011-05-23 | 2011-10-05 | 王华弟 | Small-size pest raising device |
CN102523974A (en) * | 2012-03-06 | 2012-07-04 | 南京农业大学 | Crop and insect co-cultivation box |
Non-Patent Citations (3)
Title |
---|
柠檬酸在食品工业中的应用;陈效兰 等;《食品研究与开发》;20000615;第21卷(第3期);第6-7页 * |
温度对玉米蚜发育和繁殖的影响;王永宏 等;《西北农业学报》;20020922;第11卷(第3期);第59-62页 * |
玉米不同品种对玉米蚜的抗性鉴定;徐雪 等;《云南农业大学学报》;20130703;第28卷(第4期);第598-601页 * |
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