木霉菌株:在不同温度下的生长和相互作用

V. A. Pisarevskaia, A. S. Zhuravliova, M. V. Minich, N. Behbudzada, A. A. Shagaev, N. S. Markvichev
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摘要

本文研究了木霉菌株在不同温度下的生长及其相互作用。木霉属是微观子囊菌属;这些真菌属于不同的生态系统,存在于土壤(根际)中。本研究旨在分析和比较木霉的生长特征及其相互作用。试验采用的培养基为Czapek培养基和模拟植物根系分泌物(Cucumis sativus)培养基。测定了木霉菌株在不同温度下的生长速率。使用含有植物渗出物模型的培养基与使用富生长培养基相比,提供了不同的生长速率;菌落的宏观形态也发生了一些变化。在9°С的Czapek培养基上检测到长直链木霉F2124和绿木霉F2001菌株的生长,而在模拟渗出液的培养基上只观察到长直链木霉F2124菌株的生长。除长尾木霉外,所有菌株在40°С温度下均有明显的生长抑制。在50°С温度下未观察到菌落生长。所有菌株均在12 ~ 28°С温度范围内生长。据推测,在不同培养基中生长的木霉物种之间的相互作用可能不同。采用表面培养法研究了3株木霉在不同温度条件下的相互作用。研究发现木霉物种之间的相互作用没有显著差异。
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Trichoderma spp. strains: growth and interaction at different temperatures
The paper examines the growth of Trichoderma spp. strains and their interaction at different temperatures. Trichoderma spp. is a genus of microscopic ascomycetes; these fungi belong to different ecosystems and are found in soil (rhizosphere). The study aims to analyze and compare the characteristics pertaining to the growth of Trichoderma species and the interaction between them. The experiments used the following media: a Czapek medium and a medium simulating plant root exudates (Cucumis sativus). The growth rate of Trichoderma spp. strains was determined at different temperatures. The use of a medium containing plant exudate models provided a different growth rate as compared to that obtained when using a rich growth medium; some variations in the macromorphology of colonies were also observed. The growth of Trichoderma longibrachiatum F2124 and Trichoderma viride F2001 strains was detected at 9 °С on the Czapek medium, while only the Trichoderma longibrachiatum F2124 strain was observed to grow on the medium simulating exudates. A significant growth inhibition was noted at 40 °С for all strains, except for Trichoderma longibrachiatum species. No colony growth was observed at 50 °С. All the strains grew within the temperature range of 12 to 28 °С. It was assumed that Trichoderma species growing in various media may interact differently with each other. Interaction between the three strains of Trichoderma spp. was examined via the surface culture method under different temperature conditions. The study found no significant differences in the interaction between the Trichoderma species.
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