CN106434376B - The biocontrol fungi and its biological prevention and control agent of a kind of spaceship-carried mutagenesis and application - Google Patents

Abstract

The invention discloses a kind of biocontrol fungi of spaceship-carried mutagenesis and its biological prevention and control agent and applications.Chlamydospores Pukeniya bacteria is carried No. 8 airships of divine boat and carries out Flight Mutagenesis by the present invention, it is control with the original strain not carried, the chlamydospores Pukeniya bacteria Flight Mutagenesis bacterial strain that preliminary screening obtains has been carried out including Biological Detections such as colony growth rate, dry mycelial weight, sporulation quantity and pathogenicities and has determined salt tolerance and to the resistance of benomyl, finally screens to obtain one plant of production spore amount height, mutant strain Pc-m-123 strong to the pathogenecity of root-knot nematode egg.Invention further provides the biological prevention and control agent prepared with the Flight Mutagenesis bacterial strain and its applications in prevention and treatment root-knot nematode.

Description

The biocontrol fungi and its biological prevention and control agent of a kind of spaceship-carried mutagenesis and application

Technical field

The present invention relates to chlamydospores Pukeniya bacteria (Pochonia chamydosporia) Flight Mutagenesis mutant strains, especially relate to And chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 and biological prevention and control agent prepared therefrom, the invention further relates to this Application of the mutant strain in biological control root-knot nematode belongs to the screening and its application field of chlamydospores Pukeniya bacteria mutant strain.

Background technique

Chlamydospores Pukeniya bacteria (Pochonia chamydosporia=Verticillium chlamydosporium) Belong to Deuteromycotina (Deuterom ycotina) Hyphomycetes (Hyphomycetes), is a kind of important to bite Plant nematode fungi (Lin Maosong, Shen Suwen heavy wall Verticillium dahliae prevent and treat Meloidogyne incognita First Report of Studies [J] biological control notification, 1994,10 (1): 7-10), Meloidogyne incognita (Meloidogyne incognita), peanut root-knot nematode can be effectively prevented (Wang comes the plant nematodes such as (Meloidogyne arenaria), soybean cyst nematode Heterodera glycines (Heterodera glycines) Hair, Yang Baojun close text and just wait Paecilomyces lilacinus and heavy wall Verticillium prevention and treatment Meloidogyne incognita [J], and Sichuan Agricultural University is learned Report, 1998,16 (2): 231-233；Liu Chang Verticillium chlamydosporium V10 bacterial strain is wide to the parasitism and preventive and therapeutic effect of Meloidogyne incognita Western agricultural sciences, 2004,35 (2): 135-137.).Chlamydospores Pukeniya bacteria mainly parasitized by way of endoparasitism ovum and In female adult body, keep nematode dead by mass propagation, it is right under field conditions (factors) to the parasitism of plant nematode ovum and female adult The control of plant nematode plays an important role, and is one of the biocontrol fungi of most potential Development volue (Qiu Weifan, Gao Ren Perseverance, biological control brief introduction [J] Guizhou Agriculture College journal of Liu Xingzhong root-knot nematode, 1996,15 (2): 51-55.), thick wall is general Can Buddhist nun Asia bacterium there is wider adaptability, be easy to cultivate, and can parasitic various plants nematode, thus be conducive to field control Application.Meanwhile popularization and application are had begun in some countries as nematode biocontrol microorganisms substitution chemical pesticide, and achieve one A little achievements.But due to the complexity of soil ecosystem, especially soil fungistasis, the application of biocontrol microorganisms is caused to be limited System.

Breeding by Space Mutagenesis technology is creating specific mutagenesis gene money as a kind of effective mutation breeding new technology Important role is shown in terms of source and cultivation New Crop Varieties.It has been reported that Chinese Shenzhou 8 spacecraft carries Monochamus alternatus Hope The beauveria bassiana separated on larva, has filtered out desinsection fast speed, and the high mutagenic strain of pathogenicity is brown in Stand control pine Longicorn has very big application potential (Wang Xizhuo, Wang Laifa, Ma Jianwei, Guo Minwei, Liu Hongjian, Dong Guangping Monochamus alternatus Hope ball spore Screening [J] insect journal of the high virulence Flight Mutagenesis bacterial strain of muscardine, 2014, (11): 1299-1305.)；Meanwhile divine boat eight After number Spaceship Carrying Plant nematode biocontrol microorganisms Paecilomyces lilacinus Shandong bacterial strain, also make mutagenic strain biological characteristics and original strain There are different degrees of differentiation, the preponderant strains that positive variation by a relatively large margin occurs in terms of growth characteristics and pathogenicity have been filtered out Strain (biological effect [J] nuclear agricultural science report of the spaceship-carried Paecilomyces lilacinus of Wang Yuan, Wang Laifa, Wang Xizhuo, Zhu Tianhui, 2014,(11):1933-1940.).Thus illustrating, the aberration rate of Flight Mutagenesis is high, and variation type is abundant, increase beneficial to variation, There is provided more chances for breeding strain excellent, meet production requirement for breeding and the strong strain excellent of resistance provide it is new Approach.Breeding by Space Mutagenesis technology is as a kind of effective mutation breeding new technology, Flight Mutagenesis the same with other mutation breedings It must pass through the detection of various characters after processing, to judge that effect and the screening of Flight Mutagenesis obtain the target variety of specific variation (biological effect [J] the bacteriology of agriculture Xiang Qun, Zhang Zehua, Hu Pan, Gao Song, Zhang Lisheng Flight Mutagenesis to insect pathogenic fungus Report, 2006,25 (4): 674-681.).

As biological pesticide, although chlamydospores Pukeniya bacteria is the same with other Plant nematode biocontrol microorganisms to have chemical pesticide not Analogous plurality of advantages, but simultaneously there is also slow growth and affected by environment larger, control efficiency it is unstable and itself The disadvantages of resistance is poor, it is therefore necessary to Flight Mutagenesis be carried out to nematode biocontrol fungi chlamydospores Pukeniya bacteria, screening is produced Spore amount is high, nematicidal ability is strong, has the mutagenic strain of fine resistance to pesticide, plays it preferably and prevents and treats Plant nematode Effect.

Summary of the invention

The main object of the present invention is to lure chlamydospores Pukeniya bacteria (Pochonia chamydosporia) progress space flight Become to screen and obtain one plant of high and high to the pathogenecity of root-knot nematode egg mutant strain haveing excellent performance of production spore amount；

It is another object of the present invention to the mutant strain obtained haveing excellent performance is applied to the biological control of root-knot nematode.

Above-mentioned purpose of the invention is achieved through the following technical solutions:

The chlamydospores Pukeniya bacteria bacterium of culture activation is carried out spaceship-carried (Shenzhou 8) by the present invention, and Flight Mutagenesis is completed Afterwards, using the chlamydospores Pukeniya bacteria original strain that does not carry as control, compare Flight Mutagenesis bacterial strain and become in colonial morphology, pigment The variability of change, spore shape, the speed of growth, sporulation quantity, pathogenicity, salt tolerance and benomyl resistance etc..Present invention hair Now by chlamydospores Pukeniya bacteria after Flight Mutagenesis, character variation abundant is produced.In general, Flight Mutagenesis is to growth Many trait expressions such as speed, sporulation quantity, pathogenicity, salt tolerance and benomyl resistance have gone out different variation trend and width Degree.Wherein, the speed of growth, sporulation quantity and pathogenicity etc. are to screen the important indicator of biocontrol strains, and Flight Mutagenesis makes these Characteristic shows Different Variation and tends to and amplitude, it was demonstrated that Flight Mutagenesis be non-fixed point, popularity, positive and negative amphicheirality, And Mutagenesis Site is more, induced mutation rate is high, caused organism variation have physiological variation may also have hereditary variation (agriculture to Group, Zhang Zehua, Hu Pan, Gao Song, Zhang Lisheng Flight Mutagenesis to biological effect [J] fungus journal of insect pathogenic fungus, 2006,25 (4): 674~681).

Production spore amount height is obtained for screening, is significantly increased to the pathogenecity of root-knot nematode egg and has very to benomyl The mutant strain for being suitable for biological prevention and control of good resistance, 29 plants of chlamydospores Pukeniya bacteria Flight Mutagenesis bacterium that the present invention obtains screening Strain has carried out the biology such as form, pigment, mycelia and spore shape, colony growth rate, dry mycelial weight, sporulation quantity and pathogenicity Detect and determine the salt tolerance of each Flight Mutagenesis bacterial strain and the resistance to benomyl:

There is the variation of different trends and amplitude on sporulation quantity in bacterial strain after Flight Mutagenesis, wherein Pc-m-123 The sporulation quantity of mutant strain has the promotion (P < 0.05) of highly significant compared to original strain Pc.

Chlamydospores Pukeniya bacteria bacterial strain after Flight Mutagenesis produces apparent variation to the pathogenicity of Meloidogyne incognita, Compared to original strain Pc, the bacterial strain improved to the parasitic rate of Meloidogyne incognita ovum has 20 plants, accounts for the 69.0% of mutant strain； The bacterial strain that parasitic rate reduces has 9 plants, accounts for the 31.0% of mutant strain；Wherein, the parasitic rate of bacterial strain Pc-m-123 reaches 94.28%；Variance analysis shows that Pc-m-123 is to there are significant difference (P between the parasitic rate and original strain of root-knot nematode egg < 0.05), higher parasitic rate is of great significance for field biological and ecological methods to prevent plant disease, pests, and erosion practice.

Finally, the present invention screened from numerous space flight mutant strains obtain one plant have excellent performance to be suitable for biology anti- The mutant strain Pc-m-123 of control, rapidly, sporulation quantity is high, nematode-killing vitality with higher for mutant strain growth, and control efficiency is steady Fixed, therefore, mutant strain Pc-m-123 can be used as biocontrol agent has important prospect on the control and application of root-knot nematode.

The present invention by chlamydospores Pukeniya bacteria (Pochonia chamydosporia) navigate body mutagenic mutant Pc-m-123 And the mechanism for submitting it patent approval carries out preservation, microbial preservation number is: CGMCC No.12513；Classification naming: thick Wall Pu Keniya bacterium Pochonia chamydosporia；The preservation time: on June 14th, 2016；Depositary institution is: the micro- life of China Object culture presevation administration committee common micro-organisms center；Preservation address is: Yard 1, BeiChen xi Road, Chaoyang District, Beijing City 3, in Institute of microbiology, the academy of sciences, state.

Invention further provides a kind of biological prevention and control agents for preventing and treating root-knot nematode, comprising: a effective amount of thickness wall in prevention and treatment The conidia powder or fermentation liquid and carrier of Pu Keniya bacterium (Pochonia chamydosporia) mutant strain Pc-m-123.

As reference, those skilled in the art can refer to following methods and chlamydospores Pukeniya bacteria (Pochonia be prepared Chamydosporia) mutant strain Pc-m-123 conidia powder:

(1) chlamydospores Pukeniya bacteria mutant strain Pc-m-123 fermentation liquid is prepared；(2) from chlamydospores Pukeniya bacteria mutant strain Spore product is recycled in Pc-m-123 fermentation liquid；(3) dry recycled chlamydospores Pukeniya bacteria mutant strain Pc-m-123 fermentation Product is to get conidia powder.

Chlamydospores Pukeniya bacteria can be prepared according to the various methods disclosed in document in those skilled in the art Fermentation liquid；For example, using third stage culture method, it may be assumed that seed culture, secondary liquid expand culture and liquid fermentation and culture, preparation Obtain chlamydospores Pukeniya bacteria space flight mutant strain Pc-m-123 fermentation liquid；It wherein, can be using fermentation in liquid fermentation and culture Tank fermentation carries out fermented and cultured by the way of shaking flask culture；Culture medium used in third stage culture and its condition of culture are It discloses in the literature, as a reference, wherein, the constituent of the liquid fermentation medium includes carbon source and nitrogen source；It is described Carbon source include but is not limited to that glucose, sucrose, maltose, soluble starch or corn flour are any one or more of.It is described Nitrogen source include but is not limited to that sodium nitrate, ammonium sulfate, peptone or soybean powder are any one or more of.

The present invention further provides a kind of methods of chlamydospores Pukeniya bacteria biological prevention and control agent for preparing prevention and treatment root-knot nematode, should Method is the following steps are included: by the Pc-m-123 conidia powder of chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain or fermentation liquid and carrier It mixes, stirs evenly, pulverize and sieve, corresponding microorganism formulation is prepared, for example, it may be granular preparation, powder Agent, wettable powder or microcapsule microbial agent etc..

Wherein, the carrier can be diatomite, kaolin, sawdust, active carbon, turf, agricultural crop straw, drying Farmyard manure etc.；In addition, auxiliary material or/and auxiliary agent can also be added in chlamydospores Pukeniya bacteria microorganism formulation of the invention；Described Auxiliary material can be crab shell powder or chitin etc.；The auxiliary agent can be wetting agent, dispersing agent or stabilizer etc..

Detailed description of the invention

Fig. 1 is bacterium colony front, the back side and the side morphotype of Flight Mutagenesis chlamydospores Pukeniya bacteria；

Fig. 2 is the spore shape of Flight Mutagenesis chlamydospores Pukeniya bacteria；

Fig. 3 is the histogram of the colony growth rate of Flight Mutagenesis chlamydospores Pukeniya bacteria；

Fig. 4 is the histogram of Flight Mutagenesis chlamydospores Pukeniya bacteria bacterial strain dry mycelial weight；

Fig. 5 is the histogram of the sporulation quantity of Flight Mutagenesis chlamydospores Pukeniya bacteria.

Specific embodiment

Embodiments of the present invention will be described in more by the following example, it should be understood that the embodiment is only model Example property, any restrictions are not constituted to the scope of the present invention.It will be understood by those skilled in the art that without departing from the present invention Spirit and scope under can be with the details and forms of the technical scheme of the invention are modified or replaced, but these modifications or substitutions Each fall within protection scope of the present invention.

The preparation of embodiment chlamydospores Pukeniya bacteria wettable powder

One, the preparation of chlamydospores Pukeniya bacteria conidia powder

(1), the preparation of fermentation liquid

1, by after chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain actication of culture, shake-flask seed culture is carried out；

The composition (by mass percentage) of shake-flask seed culture medium:

Glucose 1.5-2%

Sodium nitrate 0.4-0.6%

Ammonium sulfate 0.2-0.3%

Soybean powder 0.2-0.3%

Dipotassium hydrogen phosphate 0.1-0.2%

Magnesium sulfate 0.1-0.2%

Water surplus

Liquid fermentation condition: being packed into seed culture medium 200ml in 500ml triangular flask, be inoculated with after high pressure sterilization it is thick wall is general can Buddhist nun Asia bacterium spore suspension, inoculum concentration 1.5-3% are placed in 24-28 DEG C, shaking table 150-200r/min, cultivate 18-36h.

2, secondary liquid expands culture (by mass percentage):

Secondary liquid expands the culture medium composition of culture:

Glucose 3-5%

Sodium nitrate 0.4-0.6%

Ammonium sulfate 0.2-0.3%

Soybean powder 0.2-0.3%

Dipotassium hydrogen phosphate 0.1-0.2%

Magnesium sulfate 0.1-0.2%

Water surplus

Above-mentioned secondary liquid expansion culture medium is sterilized in place in the fermenter；

Liquid fermentation condition: 25-28 DEG C of fermentation temperature, tank presses 0.6-0.8bar, and oxygen-supply quantity can be 100-300L/h, Revolving speed 150-250rpm, initial ph value 5.5-6.0.

3, liquid fermentation and culture:

The culture medium of liquid fermentation and culture forms:

Glucose 10-18%

Sodium nitrate 0.2-0.3%

Ammonium sulfate 0.1-0.15%

Soybean powder 0.1-0.15%

Dipotassium hydrogen phosphate 0.1-0.2%

Magnesium sulfate 0.1-0.2%

Potato leachate (20%) 10-30%

Water surplus

Aforesaid liquid culture medium is sterilized in place in the fermenter；

Liquid fermentation condition: fermentation temperature is 28-30 DEG C, and oxygen-supply quantity can be 100-300L/h, it is preceding for 24 hours, ventilatory capacity Control controls in 100-150L/h, later period in 250-300L/h；Originate pH:5.0-6.0；Revolving speed: 150-200r/min；Tank pressure: 0.6-0.8Mpa, fermentation period are controlled in 6d, and general microscopy spore concentration reaches 10⁹A/ml or more.

(2), recycling and dry spore product from fermentation liquid

Fermentation liquid is centrifuged, centrifugal condition are as follows: relative centrifugal force 4000g, centrifugation time 40min, every 100 milliliters of hairs Flocculant 2.0g is added in zymotic fluid；Supernatant is abandoned, the water content into product of drying in the shade after precipitating bacterium slurry is adsorbed with diatomite support Lower than 10% to get chlamydospores Pukeniya bacteria conidia powder.

Two, the preparation of wettable powder

Each component is weighed by following percent mass proportionings: by the conidia powder 85% of above-mentioned preparation, diatomite 11%, wetting agent PEG 2%, dispersing agent wood sodium 2%；Conidia powder and diatomite be crushed into 325 meshes after mixing；By smashed product With wetting agent and dispersant uniformly afterwards with airflow milling it is levigate, be uniformly mixed to get.

The screening of 1 chlamydospores Pukeniya bacteria of test example boat body mutagenic mutant Pc-m-123 and the measurement examination of mutagenic effect It tests

1 material and method

1.1 biomaterial

Strains tested chlamydospores Pukeniya bacteria (P.chamydosporia) is originated from the U.S., is for preventing and treating root-knot nematode Bacterial strain is produced, culture presevation is in RES INST OF FOREST ECOLOGY ENV.After Flight Mutagenesis ground return, It is spare in the preservation of 4 DEG C of the present inventor laboratory.It is ground for the Meloidogyne incognita (M.incognita) of examination by China Forest science Study carefully institute's forest ecological environment to be provided with Protective strategy.

1.2 spaceship-carried

The mycelia block for cultivating activation 7d with PDA is transferred to sterile EP pipe (1.5mL) 2 to manage, sealing.A wherein Guan Jinhang Spaceship-carried (Shenzhou 8), another pipe are stored in 4 DEG C of refrigerators as control material.

The screening of 1.3 mutant

Spore suspension will be respectively prepared through Flight Mutagenesis treated chlamydospores Pukeniya bacteria and original strain, and dilute spore Sub- concentration is to 1.0 × 10³Cfu/mL, even spread to diameter are (every ware adds 0.1mL spore suspension) on the PDA plate of 9cm, After 25 DEG C of constant temperature incubation 6d-9d, observation single colonie size, form and positive and negative face color are picked out brighter with original strain difference Aobvious single colonie bacterial strain；Original number is " Pc ", remaining strain number is " Pc-m-No. ".

The detection of 1.4 Flight Mutagenesis effects

Using the chlamydospores Pukeniya bacteria original strain that does not carry as control, compare Flight Mutagenesis bacterial strain colonial morphology, The variability of pigment change, spore shape, the speed of growth, sporulation quantity, pathogenicity, salt tolerance and benomyl resistance etc..

1.4.1 the form of bacterium colony and pigment change observation

From the PDA plate grown, 3 pieces of bacterium colony are cut in 5mL containing 0.5 ‰ tweens with the punch that diameter is 5mm In solution, sufficiently vibrates, spore suspension is made.In 2.5 μ L spore suspensions of 9cm culture dish (15mL culture medium) center access (spore concentration is 1 × 10⁶Cfu/mL), it is placed in 25 DEG C of incubators and cultivates, each bacterial strain is repeated 3 times.

1.4.2 the observation of spore shape

By spore suspension, (spore concentration is 1 × 10⁶Cfu/mL) interim slide is made in drop on glass slide, and micro- Microscopic observation spore shape.

1.4.3 colony growth rate measures

The filter paper that diameter with bacterium of having gone out is 5mm dips in full spore suspension, and (spore concentration is 1 × 10⁶Cfu/mL it) is placed on PDA culture medium plate center, is placed in 25 DEG C of incubators and cultivates, and colony diameter is surveyed with the every 3d of crossing method, until bacterial strain covers with Stop measurement when whole ware.Original strain is control, is repeated 3 times.

1.4.4 dry mycelial weight measures

The bottled 50mL PD culture medium of 150mL taper, drawing 200 μ L, (spore concentration is 1 × 10⁶Cfu/mL) spore suspension Liquid is in every bottle of culture medium, and constant temperature shaker temperature is 25 DEG C, revolving speed 120r/min.It, will be all in triangular flask after cultivating 96h Bacterium solution is poured into the centrifuge tube of 50mL, and 5000r/min is centrifuged 3min, pours out supernatant, precipitating is poured on filter paper, 50 DEG C of baking oven bakings It does to constant weight, weighing.

1.4.5 sporulation quantity measures

3 pieces of fungus block for taking diameter to be 5mm are beaten at the midpoint in bacterium colony center to edge with punch, are put into 5mL and are spat containing 0.5 ‰ It in the solution of temperature, sufficiently vibrates, spore content is measured with blood counting chamber (25 × 16 lattice), if 3 repetitions.

1.4.6 Pathogenic Tests

Greenhouse acquires old complaint, and old complaint is cleaned, the segment of 0.5cm is cut into, is fitted into 500mL triangular flask, pours into 200mL 1% liquor natrii hypochloritis shakes 3min, rapid 200 mesh sieve of mistake, then 500 mesh sieve of rapid mistake, repeatedly with distilled water after sealing The ovum stayed in 500 mesh sieve is rinsed, is finally collected in aseptic water washing in sterile small beaker, microscopically observation, is adjusted Worm's ovum concentration is saved to 1000/mL.100 μ L ovum suspension are added in the culture dish of diameter 6cm, and be added 2mL 1.0 × 10⁶The mutant spore suspension of a/mL, wild type Pc are compareed.Each mutant strain is respectively repeated 3 times, 25 DEG C of culture 5d, system The parasitic number and not parasitic number of ovum are counted, and calculates bacterial strain spore to the parasitic rate of Meloidogyne incognita worm's ovum.

1.4.7 data process&analysis

Data are handled using Microsoft Excel software.One-way analysis of variance is carried out using SPSS 19.0 (One-way ANOPC-M-A), with Duncan method to different strains Multiple range test (P=0.05), test data is using average The form of value plus-minus standard deviation (mean ± SD, n=3) indicates.

2 results and analysis

Influence of 2.1 Flight Mutagenesis to colonial morphology and pigment change

After Flight Mutagenesis chlamydospores Pukeniya bacteria obtains stable character for squamous subculture by 3-4, observation discovery bacterium colony has Apparent Morphological Differentiation (Fig. 1), can will be broken up according to the front of bacterium colony, the back side and side form and color change bacterial strain be divided into I, II, III, IV type, 4 seed type: I type colonial morphology is similar to original strain Pc, and the white down-like in bacterium colony front, bacterium colony back is Faint yellow, bacterium colony side is in smooth dome-shaped, totally 11 plants of I type bacterium colony, accounts for the 37.9% of Flight Mutagenesis bacterial strain；II type bacterial strain bacterium colony Front is white down-like, bacterium colony central concave and has fold, and back side color is faint yellow compared with I moldeed depth, totally 14 plants of II type bacterium colony, Account for the 48.3% of Flight Mutagenesis bacterial strain；III type bacterium colony front is white down-like, bacterium colony central concave corrugationless, and back side color is It is faint yellow, totally 3 plants of III type bacterium colony, it is Pc-m-13, Pc-m-26 and Pc-m-54 respectively, accounts for the 10.3% of Flight Mutagenesis bacterial strain；Ⅳ Type bacterium colony front is white down-like, and bacterium colony center is white raised and has fold, and back color is yellow, and IV type bacterium colony only has One bacterial strain Pc-m-9, accounts for the 3.4% of Flight Mutagenesis bacterial strain.

Influence of 2.2 Flight Mutagenesis to spore shape

It is observed by (100 μm) of microscope, the conidium form of Flight Mutagenesis chlamydospores Pukeniya bacteria is spherical or close Spherical shape, it is transparent smooth, four types (I, II, III, IV) with original strain Pc no significant difference.

Influence of 2.3 Flight Mutagenesis to colony growth rate

It has been observed that the speed of growth of Flight Mutagenesis chlamydospores Pukeniya bacteria is about 1cm/3d, but the speed of growth becomes after 15d Slowly, bacterium colony needs about 20d that can just cover with whole ware.Bacterial strain of the colony diameter more than or equal to original strain Pc of culture 15d has 10 plants, Account for the 34.5% of mutant strain；Bacterial strain less than original strain Pc has 19 plants, accounts for the 65.5% of mutant strain.Variance analysis is aobvious Show, growth rate of the mutant strain Pc-m-38 in preceding 9d is very fast, significant difference (P < 0.05) between original strain Pc, later Growth rate is gradually slack-off (table 1, Fig. 3).

The colony growth rate of 1 Flight Mutagenesis chlamydospores Pukeniya bacteria of table

Table 1 Varieties of colony growth rate of aerospace mutant strains of Pochonia chamydosporia/cm

Note: data are mean+SD in table, and * expression has significant difference (P compared with original strain Pc after data <0.05)。Note:Data in the table is mean±SD,data marked*represents significant difference(P<0.05).

Influence of 2.4 Flight Mutagenesis to dry mycelial weight

There is positive and negative two direction variation (Fig. 4) in dry mycelial weight during Flight Mutagenesis strain culturing.With original strain Pc phase Than what dry mycelial weight improved has 13 plants, accounts for the 44.8% of mutant strain；What dry mycelial weight reduced has 16 plants, accounts for mutant strain 55.2%.Wherein, the dry mycelial weight of Pc-m-26 is most heavy, is 0.2776g；The smallest mutagenic strain of dry weight is Pc-m-27, is done Weight is 0.1559g.

Influence of 2.5 Flight Mutagenesis to sporulation quantity

Test result is shown in Table 2 and Fig. 5.There is the variation (table 2) of different trends and amplitude in bacterial strain after Flight Mutagenesis. It is compared with original strain Pc, what sporulation quantity improved has 24 plants, accounts for the 82.8% of mutant strain；What sporulation quantity reduced has 5 plants, accounts for prominent Become the 17.2% of bacterial strain.The sporulation quantity of Pc-m-123 is apparently higher than the sporulation quantity of original strain, and variance analysis is shown, Pc-m-123 Sporulation quantity and original strain between significant difference (P < 0.05).

The sporulation quantity of 2 Flight Mutagenesis chlamydospores Pukeniya bacteria of table

Table 2 Sporulation of aerospace mutant strains of Pochonia chamydosporia/(×10⁶cfu·mL^-1)

Note: data are mean+SD in table, and * expression has significant difference (P compared with original strain Pc after data <0.05)。Note:Data in the table is mean±SD,data marked*represents significant difference(P<0.05).

Influence of 2.6 Flight Mutagenesis to pathogenicity

Test result is shown in Table 3, and chlamydospores Pukeniya bacteria Flight Mutagenesis bacterial strain produces the pathogenicity of Meloidogyne incognita Apparent variation.Compared to original strain Pc, the bacterial strain improved to the parasitic rate of Meloidogyne incognita ovum has 20 plants, accounts for mutant bacteria The 69.0% of strain；The bacterial strain that parasitic rate reduces has 9 plants, accounts for the 31.0% of mutant strain.Parasitic rate plus variant rate is up to 12.67%, minus variant rate is up to -15.67%, and variation amplitude is between -15.67% to 12.67%.Wherein, mutant strain Pc-m-123 reaches 94.28% to the parasitic rate of Meloidogyne incognita ovum, to the parasitic rate and original strain of root-knot nematode egg Between significant difference (P < 0.05).

Parasitic rate of the 3 Flight Mutagenesis chlamydospores Pukeniya bacteria of table to Meloidogyne incognita ovum

Table 3 Parasitic rate of aerospace mutant strains of Pochonia Chamydosporia against Meloidogyne incognitaeggs/%

Note: data are mean+SD in table, and * expression has significant difference (P compared with original strain Pc after data <0.05)。Note:Data in the table is mean±SD,data marked*represents significant difference(P<0.05).

Experimental example 1 prevents and treats Chinese prickly ash by wettable powder prepared by chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 The field trial of root-knot nematode

1 test material and method

1.1 for trying microbial inoculum

It tests microbial inoculum: (being implemented with the wettable powder of chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 preparation Prepared by example 1)；

Control microbial inoculum: it (is pressed with wettable powder prepared by chlamydospores Pukeniya bacteria original strain (not carrying out Flight Mutagenesis) It is prepared according to the method for embodiment 1).

1.2 experiment crops

The Chinese pricklyash of Chinese prickly ash growing area plantation.

1.3 experimental design

Experiment place is located at that nematode worm amount is big and uniform Chinese prickly ash growing area, investigates root-knot nematode second instar larvae insect population before medicine In every 100g soil 20-30 head.

Experiment is divided into 3 groups, tests 1 group, tests 2 groups and clear water control group, and specific experiment design is as follows:

1 group is tested to be handled using wettable powder prepared by embodiment 1；

2 groups are compareed to be handled using control microbial inoculum.

Clear water control group: (medicament for not applying any prevention and treatment nematode) is handled using clear water, does not make anti-nematode processing；

Each 30 repetitions of processing (point three column, 10 plants of Chinese pricklyashes of each column), respectively handle random alignment.

Progress on April 15 to May 10 microbial inoculum plot experiment, pushs that root surface 10cm is thick, radius is aside in Chinese pricklyash surrounding The soil layer of 50cm, by 1 milliliter of opportunistic pathogen agent (test microbial inoculum and compare microbial inoculum dosage it is all the same, be 1 milliliter of opportunistic pathogen agent/ Strain) be diluted with water after the microbial inoculum after dilution is uniformly sprayed in the hole dug using spray pattern, so that microbial inoculum is distributed in rhizosphere, Make to push soil reset aside again.Second instar larvae number in Chinese pricklyash root knot index (disease index) and soil, evaluation are investigated after being administered 90d Control efficiency.

Root knot index (disease index) calculation method: digging out every processing bunge pricklyash root, is classified investigation index according to root-knot nematode It is investigated, root knot severity divides 0-10 grades, and grade scale is referring to (Benjamin D, Grover C B such as Benjamin J.Comparison of compatible and incompatible response of potato to Meloidogyne Incognita.Journal of Nematology, 1987,19:218-221).Root knot formula of index is as follows:

Larva reduces percentage (opposite decline rate) calculation method: every cell is with geotome (2cm × H20cm) from root of the crop The soil sample for enclosing (0-20cm is deep) 5 points of acquisition after mixing well, takes 100g centrifugation floating partition method (Karssen G.The Plant Parasitic Nematode Genus Meloidogyne Goldi,(Tylenchida)in Europe[M] .Gent:Drukkeru Modern, 1982:5-24.) separation soil sample in second instar larvae, it is heat-killed after with 4% formalin consolidate It is fixed, it is counted under inverted microscope, it is (opposite to subtract to calculate root-knot nematode second instar larvae number and larva reduction percentage in 100g soil sample Move back rate).Calculation formula is as follows:

Opposite control efficiency calculation formula is as follows:

2 experimental results

Experimental result is shown in Table 4.

Prevention and treatment of the 4 chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 wettable powder of table to Chinese prickly ash root-knot nematode Effect experiment

From the test data of table 4 as it can be seen that test microbial inoculum (uses chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 system Standby wettable powder) (chlamydospores Pukeniya bacteria original strain system is used than control microbial inoculum to the opposite control efficiency of root-knot nematode Standby wettable powder) 27.08 percentage points have been higher by, the larva for testing microbial inoculum reduces percentage and is higher by than control microbial inoculum 25.1 percentage points.The test result of field control root-knot nematode shows chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m- 123 will be much better than original strain for the biological control effect of root-knot nematode for the biological control effect of root-knot nematode.

Claims (7)

1. one plant of chlamydospores Pukeniya bacteria (Pochonia chamydosporia) Flight Mutagenesis mutant strain Pc-m-123, feature It is, microbial preservation number is: CGMCC No.12513.

2. chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 described in claim 1 answering in prevention and treatment root-knot nematode With.

3. a kind of biological prevention and control agent for preventing and treating root-knot nematode characterized by comprising thickness wall Pu Keniya described in claim 1 The conidia powder or fermentation liquid and carrier of bacterium Flight Mutagenesis mutant strain Pc-m-123.

4. biological prevention and control agent described in accordance with the claim 3, it is characterised in that: the carrier be diatomite, kaolin, sawdust, Activated carbon, turf, agricultural crop straw or the farmyard manure of drying.

5. biological prevention and control agent described in accordance with the claim 3, it is characterised in that: also contain auxiliary material or auxiliary agent.

6. biological prevention and control agent according to claim 5, it is characterised in that: the auxiliary material is crab shell powder or chitin；It is described Auxiliary agent be wetting agent, dispersing agent or stabilizer.

7. a kind of method for preparing biological prevention and control agent described in claim 3, comprising the following steps: (1) cultivate described in claim 1 Chlamydospores Pukeniya bacteria Flight Mutagenesis mutant strain Pc-m-123 obtains conidia powder or fermentation liquid；(2) by conidia powder obtained or Fermentation liquid and carrier mix, and stir evenly, and pulverize and sieve, and obtain biological prevention and control agent.