中国生物防治学报
中國生物防治學報
중국생물방치학보
CHINESE JOURNAL OF BIOLOGICAL CONTROL
2014年
6期
787-794
,共8页
张家家%李世东%郭荣君%彭毅%孙漫红%缪作清
張傢傢%李世東%郭榮君%彭毅%孫漫紅%繆作清
장가가%리세동%곽영군%팽의%손만홍%무작청
根结线虫%淡紫紫孢菌%粉红螺旋聚孢霉%生物防治%blissing independence模型
根結線蟲%淡紫紫孢菌%粉紅螺鏇聚孢黴%生物防治%blissing independence模型
근결선충%담자자포균%분홍라선취포매%생물방치%blissing independence모형
Meloidogyne incognita%Purpureocillium lilacinum%Clonostachys rosea%biological control%blissing independence
为了提高生防菌的防病效果及其稳定性,本研究以黄瓜根结线虫病为靶标病害,对淡紫紫孢菌(原名为淡紫拟青霉)YES与粉红螺旋聚孢霉67-1混和使用的防病效果进行了评价。平板对峙实验表明两菌株相容性较好,在马铃薯和黄瓜根际分泌物培养基上无拮抗作用;通过测定两菌株对根结线虫的卵寄生性及其无菌发酵滤液对2龄幼虫致死作用,确定YES菌株孢子悬浮液(2×106孢子/mL)对根结线虫的卵寄生作用(51.0%)显著高于菌株67-1(44.0%);而菌株67-1代谢产物48 h后对根结线虫2龄幼虫的致死率(100%)高于菌株YES(77.4%)。土壤中2龄幼虫接种量为1000线虫/100 g土时,将菌剂YES和67-1单独或混和加入育苗基质中(终浓度为106孢子/g基质)并在移栽时穴施50 g菌剂(106孢子/g),结果表明两菌株单独使用和混和使用的防治效果接近,在20%~30%左右;根据blissing independence模型,两菌株之间表现为拮抗作用。土壤中线虫卵密度为398卵/100 g干土时,菌剂YES和67-1混和使用可显著抑制黄瓜根系上根结的形成,防病效果为63.7%,显著高于两菌剂单独使用的防效33.0%和41.3%。两菌株之间表现为累加效应。上述结果表明,两个主要作用机理不同的生防菌混和使用可以延缓根结线虫的侵染,提高防病效果。但土壤中线虫虫态和密度影响依据blissing independence 模型判定生防菌之间的相容性。该结果对杀线虫复合生防菌剂的研制及使用技术改进具借鉴意义。
為瞭提高生防菌的防病效果及其穩定性,本研究以黃瓜根結線蟲病為靶標病害,對淡紫紫孢菌(原名為淡紫擬青黴)YES與粉紅螺鏇聚孢黴67-1混和使用的防病效果進行瞭評價。平闆對峙實驗錶明兩菌株相容性較好,在馬鈴藷和黃瓜根際分泌物培養基上無拮抗作用;通過測定兩菌株對根結線蟲的卵寄生性及其無菌髮酵濾液對2齡幼蟲緻死作用,確定YES菌株孢子懸浮液(2×106孢子/mL)對根結線蟲的卵寄生作用(51.0%)顯著高于菌株67-1(44.0%);而菌株67-1代謝產物48 h後對根結線蟲2齡幼蟲的緻死率(100%)高于菌株YES(77.4%)。土壤中2齡幼蟲接種量為1000線蟲/100 g土時,將菌劑YES和67-1單獨或混和加入育苗基質中(終濃度為106孢子/g基質)併在移栽時穴施50 g菌劑(106孢子/g),結果錶明兩菌株單獨使用和混和使用的防治效果接近,在20%~30%左右;根據blissing independence模型,兩菌株之間錶現為拮抗作用。土壤中線蟲卵密度為398卵/100 g榦土時,菌劑YES和67-1混和使用可顯著抑製黃瓜根繫上根結的形成,防病效果為63.7%,顯著高于兩菌劑單獨使用的防效33.0%和41.3%。兩菌株之間錶現為纍加效應。上述結果錶明,兩箇主要作用機理不同的生防菌混和使用可以延緩根結線蟲的侵染,提高防病效果。但土壤中線蟲蟲態和密度影響依據blissing independence 模型判定生防菌之間的相容性。該結果對殺線蟲複閤生防菌劑的研製及使用技術改進具藉鑒意義。
위료제고생방균적방병효과급기은정성,본연구이황과근결선충병위파표병해,대담자자포균(원명위담자의청매)YES여분홍라선취포매67-1혼화사용적방병효과진행료평개。평판대치실험표명량균주상용성교호,재마령서화황과근제분비물배양기상무길항작용;통과측정량균주대근결선충적란기생성급기무균발효려액대2령유충치사작용,학정YES균주포자현부액(2×106포자/mL)대근결선충적란기생작용(51.0%)현저고우균주67-1(44.0%);이균주67-1대사산물48 h후대근결선충2령유충적치사솔(100%)고우균주YES(77.4%)。토양중2령유충접충량위1000선충/100 g토시,장균제YES화67-1단독혹혼화가입육묘기질중(종농도위106포자/g기질)병재이재시혈시50 g균제(106포자/g),결과표명량균주단독사용화혼화사용적방치효과접근,재20%~30%좌우;근거blissing independence모형,량균주지간표현위길항작용。토양중선충란밀도위398란/100 g간토시,균제YES화67-1혼화사용가현저억제황과근계상근결적형성,방병효과위63.7%,현저고우량균제단독사용적방효33.0%화41.3%。량균주지간표현위루가효응。상술결과표명,량개주요작용궤리불동적생방균혼화사용가이연완근결선충적침염,제고방병효과。단토양중선충충태화밀도영향의거blissing independence 모형판정생방균지간적상용성。해결과대살선충복합생방균제적연제급사용기술개진구차감의의。
In order to improve the biocontrol efficacy of biological control agents (BCA), the authors used Purpureocillium lilacinum YES and Clonostachys rosea 67-1 in combination to control cucumber root-knot nematode caused by Meloidogyne incognita. Dual culture tests on plates of PDA and cucumber root extraction media demonstrated that the two fungi were non-antagonistic to each other. Determination of parasitized eggs in sterile 24-well cell culture plates showed that 51.0%of eggs were parasitized by YES, higher than that parasitized (44.0%) by 67-1, after inoculation with 2×106 spores per milliliter. Tests on mortality showed that 100%of J2 died after treatment with fermentation filtrates of 67-1 for 48 h, higher than that (77.4%) by filtrate of YES. The control efficacies of the two fungi alone or in combination were tested in greenhouse and field by mixing their powders with growth-medium of vegetable seedlings and hole-applying of 50 g powders at final concentration of 106 conidia/g during transplantation. Investigation of galls on the cucumber roots indicated that the control efficacy was related to the initial population of nematode eggs or juveniles inoculated in soil. At high inoculation density of J2 at 1000 J2/100 g soil, all BCA treatments could not perform good control, with efficacy only 20%—30%. According to blissing independence model, antagonistic effect was got between YES and 67-1 under this condition. While at the nematode density of 398 eggs/100 g of soil in field trail, YES and 67-1 powders in combination could significantly suppress gall numbers on cucumber root system and the control efficacy reached 63.7%, higher than single use. According to blissing independence model, additive effect was obtained for the combined use. These results suggested that combined usage of the two biocontrol agents could lead to a delay ofinfection by nematodes, but this was affected by the developmental stage and density of the nematode in soil. The results are of significance in developing complex BCA preparations and their delivery system in field.