微生物学杂志
微生物學雜誌
미생물학잡지
Journal of Microbiology
2015年
5期
61-66
,共6页
邓振山%陈苗%张伟民%贺晓龙
鄧振山%陳苗%張偉民%賀曉龍
산진산%진묘%장위민%하효룡
苹果树%内生真菌%苹果树腐烂病%苹果树炭疽病%拮抗活性
蘋果樹%內生真菌%蘋果樹腐爛病%蘋果樹炭疽病%拮抗活性
평과수%내생진균%평과수부란병%평과수탄저병%길항활성
appletree%endophyticfungus%Valsaceratosperma%Glomerallacingulata%antagonisticactivity
为了明确苹果树中内生真菌的种类及其对苹果树腐烂病菌和苹果树炭疽病菌的抑制作用,对健康富士苹果树茎部和根部中的内生真菌进行了分离和初步鉴定,并采用组织块分离法和平板对峙法筛选出对苹果树腐烂病菌和炭疽病菌有明显抑制效果的拮抗菌,进一步研究了其发酵液对病原菌的抑制效果。结果表明,从筛选出的49株内生真菌中,8株对苹果树腐烂病和炭疽病病原菌有明显抑制效果,最高抑菌率达到83.93%;拮抗菌发酵液的平均抑菌率均在89%以上,最高达98.81%。且在同等条件下,拮抗菌对病原菌抑菌率比化学药剂高50%左右。该研究为新型生物农药的开发和利用提供参考。
為瞭明確蘋果樹中內生真菌的種類及其對蘋果樹腐爛病菌和蘋果樹炭疽病菌的抑製作用,對健康富士蘋果樹莖部和根部中的內生真菌進行瞭分離和初步鑒定,併採用組織塊分離法和平闆對峙法篩選齣對蘋果樹腐爛病菌和炭疽病菌有明顯抑製效果的拮抗菌,進一步研究瞭其髮酵液對病原菌的抑製效果。結果錶明,從篩選齣的49株內生真菌中,8株對蘋果樹腐爛病和炭疽病病原菌有明顯抑製效果,最高抑菌率達到83.93%;拮抗菌髮酵液的平均抑菌率均在89%以上,最高達98.81%。且在同等條件下,拮抗菌對病原菌抑菌率比化學藥劑高50%左右。該研究為新型生物農藥的開髮和利用提供參攷。
위료명학평과수중내생진균적충류급기대평과수부란병균화평과수탄저병균적억제작용,대건강부사평과수경부화근부중적내생진균진행료분리화초보감정,병채용조직괴분리법화평판대치법사선출대평과수부란병균화탄저병균유명현억제효과적길항균,진일보연구료기발효액대병원균적억제효과。결과표명,종사선출적49주내생진균중,8주대평과수부란병화탄저병병원균유명현억제효과,최고억균솔체도83.93%;길항균발효액적평균억균솔균재89%이상,최고체98.81%。차재동등조건하,길항균대병원균억균솔비화학약제고50%좌우。해연구위신형생물농약적개발화이용제공삼고。
Inordertoconfirmthespeciesofendophyticfungifromappletreebarkandtheirinhibitoryeffectsagainst Valsa ceratosperma and Glomerella cingulata,endophytic fungi in Fuji healthy apple stem and root were isolated and preliminary identified,and their inhibitory effects against V. ceratosperma and G. cingulata were tested both through tissue separation and plate confrontation method. Furthermore the inhibitory effects of their fermented broth against the pathogens. The results showed that 8 endophytic fungi from 49 isolates had a significant inhibitory effect against V. ceratosperma and G. cingulata,and the highest inhibitory rate reached 83. 93%;the average inhibition rate of fermen-ted broth was more than 89%,the highest up to 98. 81%. And in the same conditions,the inhibition rates of antifun-gal activity against V. ceratosperma and G. cingulata reached by 50% higher than chemical pesticide. The study pro-vided a theoretical basis for the research and development of new plant source bio-pesticide.
