温度、pH值和水分活度对棘孢木霉生长速率联合效应的响应面法研究
Response surface methodology study of the combined effects of temperature, pH, and aw on the growth rate of Trichoderma asperellum.
作者信息
Begoude B A D, Lahlali R, Friel D, Tondje P R, Jijakli M H
机构信息
Laboratoire Régional de Lutte Biologique et de Microbiologie Appliquée, Institut de le Recherche Agricole pour le Développement (IRAD), Nkolbisson, BP 2067, Yaoundé, Cameroon.
出版信息
J Appl Microbiol. 2007 Oct;103(4):845-54. doi: 10.1111/j.1365-2672.2007.03305.x.
AIMS
To evaluate the influence of environmental parameters (water activity aw, temperature, and pH) on the radial growth rate of Trichoderma asperellum (strains PR10, PR11, PR12, and 659-7), an antagonist of Phytophthora megakarya, the causal agent of cocoa black pod disease.
METHODS AND RESULTS
The radial growth of four strains of T. asperellum was monitored for 30 days on modified PDA medium. Six levels of aw (0.995, 0.980, 0.960, 0.930, 0.910, and 0.880) were combined with three values of pH (4.5, 6.5, and 8.5) and three incubation temperatures (20, 25, and 30 degrees C). Whatever the strain, mycelial growth rate was optimal at aw between 0.995 and 0.980, independently of the temperature and pH. Each strain appeared to be very sensitive to aw reduction. In addition, all four strains were able to grow at all temperatures and pH values (4.5-8.5) tested, highest growth rate being observed at 30 degrees C and at pH 4.5-6.5. The use of response surface methodology to model the combined effects of aw, temperature, and pH on the radial growth rate of the T. asperellum strains confirmed the observed results. In our model, growth of the T. asperellum strains showed a greater dependence on aw than on temperature or pH under in vitro conditions.
CONCLUSION
aw is a crucial environmental factor. Low aw can prevent growth of T. asperellum strains under some conditions. The observed and predicted radial growth rate of strain PR11 showed its greater capacity to support low aw (0.93) as compared with other tested strains at 20 degrees C. This is in agreement with its better protective level when applied in medium-scale trials on cocoa plantations.
SIGNIFICANCE AND IMPACT OF THE STUDY
This study should contribute towards improving the biocontrol efficacy of T. asperellum strains used against P. megakarya. Integrated into a broader study of the impact of environmental factors on the biocontrol agent-pathogen system, this work should help to build a more rational control strategy, possibly involving the use of a compatible adjuvant protecting T. asperellum against desiccation.
目的
评估环境参数(水分活度aw、温度和pH值)对棘孢木霉(PR10、PR11、PR12和659 - 7菌株)径向生长速率的影响,棘孢木霉是可可黑荚病病原体大果疫霉的拮抗菌。
方法与结果
在改良的PDA培养基上对四株棘孢木霉的径向生长进行了30天的监测。六个aw水平(0.995、0.980、0.960、0.930、0.910和0.880)与三个pH值(4.5、6.5和8.5)以及三个培养温度(20、25和30摄氏度)进行组合。无论菌株如何,菌丝体生长速率在aw为0.995至0.980之间时最佳,与温度和pH值无关。每个菌株似乎对aw降低都非常敏感。此外,所有四株菌株都能够在测试的所有温度和pH值(4.5 - 8.5)下生长,在30摄氏度以及pH值为4.5 - 6.5时观察到最高生长速率。使用响应面法对aw、温度和pH值对棘孢木霉菌株径向生长速率的综合影响进行建模,证实了观察结果。在我们的模型中,在体外条件下,棘孢木霉菌株的生长对aw的依赖性大于对温度或pH值的依赖性。
结论
aw是一个关键的环境因素。低aw在某些条件下会阻止棘孢木霉菌株的生长。与其他测试菌株相比,在20摄氏度下,PR11菌株观察到的和预测的径向生长速率表明其在支持低aw(0.93)方面具有更大的能力。这与其在可可种植园的中试试验中应用时具有更好的保护水平一致。
研究的意义和影响
本研究应有助于提高用于对抗大果疫霉的棘孢木霉菌株的生物防治效果。纳入对环境因素对生物防治剂 - 病原体系统影响的更广泛研究中,这项工作应有助于构建更合理的控制策略,可能涉及使用一种保护棘孢木霉免受干燥影响的相容佐剂。
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