中国生物防治学报
中國生物防治學報
중국생물방치학보
CHINESE JOURNAL OF BIOLOGICAL CONTROL
2014年
4期
481-488
,共8页
杨洪凤%薛雅蓉%余向阳%刘常宏
楊洪鳳%薛雅蓉%餘嚮暘%劉常宏
양홍봉%설아용%여향양%류상굉
解淀粉芽孢杆菌%小麦%定殖%代谢产物%白粉病
解澱粉芽孢桿菌%小麥%定殖%代謝產物%白粉病
해정분아포간균%소맥%정식%대사산물%백분병
Bacillus amyloliquefaciens%wheat%colonization%metabolic%powdery mildew
利用抗利福平标记及平板菌落计数法,研究了内生解淀粉芽孢杆菌Bacillus amyloliquefaciensCC09在小麦叶内和叶际的定殖能力,证明菌株CC09能够在小麦叶内和叶际以较高数量稳定定殖,叶际定殖量在喷雾后1 d达到最大(3.98×107cfu/g),之后稳定维持在1.58×104~3.16×105cfu/g;而叶内的定殖量7 d时达到最大(1.58×106 cfu/g)并维持稳定。另外,菌株CC09在小麦叶际和叶内的定殖受温度及其代谢产物的影响,温度越高,其叶际和叶内定殖量越高;菌体重悬液中添加相当于原发酵液中代谢产物含量1倍和4倍的浸膏能显著提高菌株CC09在小麦叶际和叶内的定殖;而接种量对菌株CC09的定殖无显著影响。琼脂培养法测定表明,菌株CC09发酵液及其无菌滤液对小麦白粉菌分生孢子萌发均有显著的抑制作用,导致孢子透明、变形甚至细胞破裂。室内盆栽试验表明,菌株CC09发酵液对小麦白粉病有很高的预防和治疗效果,15 d时防效为95%,是三唑酮的2.3倍,而其20倍稀释液的防效与化学农药三唑酮效果相当。以上研究结果表明菌株CC09是防治小麦白粉病的潜在生防菌株,具有良好的开发和应用价值。
利用抗利福平標記及平闆菌落計數法,研究瞭內生解澱粉芽孢桿菌Bacillus amyloliquefaciensCC09在小麥葉內和葉際的定殖能力,證明菌株CC09能夠在小麥葉內和葉際以較高數量穩定定殖,葉際定殖量在噴霧後1 d達到最大(3.98×107cfu/g),之後穩定維持在1.58×104~3.16×105cfu/g;而葉內的定殖量7 d時達到最大(1.58×106 cfu/g)併維持穩定。另外,菌株CC09在小麥葉際和葉內的定殖受溫度及其代謝產物的影響,溫度越高,其葉際和葉內定殖量越高;菌體重懸液中添加相噹于原髮酵液中代謝產物含量1倍和4倍的浸膏能顯著提高菌株CC09在小麥葉際和葉內的定殖;而接種量對菌株CC09的定殖無顯著影響。瓊脂培養法測定錶明,菌株CC09髮酵液及其無菌濾液對小麥白粉菌分生孢子萌髮均有顯著的抑製作用,導緻孢子透明、變形甚至細胞破裂。室內盆栽試驗錶明,菌株CC09髮酵液對小麥白粉病有很高的預防和治療效果,15 d時防效為95%,是三唑酮的2.3倍,而其20倍稀釋液的防效與化學農藥三唑酮效果相噹。以上研究結果錶明菌株CC09是防治小麥白粉病的潛在生防菌株,具有良好的開髮和應用價值。
이용항리복평표기급평판균락계수법,연구료내생해정분아포간균Bacillus amyloliquefaciensCC09재소맥협내화협제적정식능력,증명균주CC09능구재소맥협내화협제이교고수량은정정식,협제정식량재분무후1 d체도최대(3.98×107cfu/g),지후은정유지재1.58×104~3.16×105cfu/g;이협내적정식량7 d시체도최대(1.58×106 cfu/g)병유지은정。령외,균주CC09재소맥협제화협내적정식수온도급기대사산물적영향,온도월고,기협제화협내정식량월고;균체중현액중첨가상당우원발효액중대사산물함량1배화4배적침고능현저제고균주CC09재소맥협제화협내적정식;이접충량대균주CC09적정식무현저영향。경지배양법측정표명,균주CC09발효액급기무균려액대소맥백분균분생포자맹발균유현저적억제작용,도치포자투명、변형심지세포파렬。실내분재시험표명,균주CC09발효액대소맥백분병유흔고적예방화치료효과,15 d시방효위95%,시삼서동적2.3배,이기20배희석액적방효여화학농약삼서동효과상당。이상연구결과표명균주CC09시방치소맥백분병적잠재생방균주,구유량호적개발화응용개치。
Colonization ofBacillus amyloliquefaciens CC09 in both interior leaves and phyllosphere of wheat and its affecting factors were investigated by using the rifampin-resistant mutants and plate diluting method. Results showed that strain CC09 could stably colonize and maintained at higher population in both interior leaves and phyllosphere of wheat. The maximum density in phyllosphere was 3.98×107cfu/g at 1 d , and decreased to 1.58× 104-3.16×105cfu/g at 3 d after inoculation. However, the population of strain CC09 reached the highest density (1.58×106cfu/g) inside wheat leaves at 7 d after inoculation and maintained the same level thereafter. In addition, the higher the temperature, the greater the amount of colonization in wheat. And the metabolites produced by strain CC09 exhibited significant promotion for the strain’s colonization in both interior of leaves and phyllosphere of wheat. However, the inoculation density did not significantly influence the colonization. Both the fermentation broth and cell free filtrate of CC09 showed significant germination inhibition against the conidia of Blumeria graminisf. sp. tritici based on slide agar assay, and resulted in spores transparent, deformed or even lysis. The broth of CC09 exhibited both protective and therapeutic efficiencies, approximately 95% at 15 d after treatments, incontrol of wheat powdery mildew in pot assay under greenhouse condition, which was 2.3 fold as high as to that of the triadimefon treatment. However, the disease control efficiency of its 20 fold dilution was not significantly different from that of triadimefon. All these results suggested that strain CC09 was an excellent candidate for developing a biocontrol agent to control wheat powdery mildew.
