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International Journal of Medicinal Mushrooms

Publicou 12 edições por ano

ISSN Imprimir: 1521-9437

ISSN On-line: 1940-4344

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In Vitro Studies on Interactions Between Strains of Trichoderma spp. and Lentinus edodes (Berk.) Singer Mycelium

Volume 7, Edição 3, 2005, pp. 463-464
DOI: 10.1615/IntJMedMushrooms.v7.i3.960
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RESUMO

The popularity of shiitake, Lentinus edodes, is steadily increasing as more and more people learn about the nutritional value, unique taste, and the medicinal merits of this most valuable edible mushroom.
Although in the Ukraine the establishment of commercial L. edodes growing is in beginning stages, its production is often restricted or hindered by infections through anamorphic fungi of the genus Trichoderma, which caused the so-called "green mold epidemics." This green mold disease has resulted in severe crop losses (30−100% in cultures of Agaricus bisporus (J.Lge) Imbach) on mushroom farms worldwide in recent years. This is increasingly forcing scientists to elucidate the particular mechanism through which the phenomenon of mycoparasitism and specific host responses might be explained. But data on Lentinus/Trichoderma interactions are still rare. Among other reasons concerning culture conditions, it became obvious that the degree of crop damage mainly depends on the species of the pathogenic molds and the varying agressivity of their strains (biotypes) as well as on the individual resistance of the breaded shiitake strain.
Therefore, the purpose of this work was to study the antagonistic actions between different L. edodes breeding strains and strains of Trichoderma spp., which originated from six shiitake farms in the Ukraine, in dual cultures on solid media. The aim was to observe whether there were characteristic patterns of interactions caused by the individual Trichoderma isolates and to identify the latter by morphological and molecular methods.
For the characterization of interaction types, each of six Lentinus edodes breeding strains from the Ukrainian culture collections have been confronted with 23 Trichoderma strains isolated from sawdust blocks showing green mold symptoms. Dual cultures were prepared by transferring a 5 mm of L. edodes mycelium from an 8-day-old culture to one side of a 90-mm Petri dish containing 15 mL 2% MEA. Plates were incubated at 25 ± 1 °C. After 5 days, a 5 mm disc of Trichoderma mycelium from the margin of a 4-day-old culture was placed in an adverse position, 4 cm apart from the L. edodes disc. Then, incubation at 25 °C was continued for 28 days.
The same experimental design was used to study the impact of temperature on interaction patterns. Three replicates were made for each combination of the six L. edodes and 23 Trichoderma strains. As controls, the growth behavior of each of the L. edodes and Trichoderma strains was examined in single cultures under the conditions mentioned above (three replicates each).
Based on morphological observations and the results of BLAST searches for the ITS1-5.8S-ITS2 rDNA region, 14 out of the 23 Trichoderma strains could be identified as Trichoderma harzianum Rifai, which represents the anamorphic state of Hypocrea lixii Pat. The similarity to strains recorded in GenBank was between 96 and 100%. Four of the isolates could be assigned to Trichoderma koningii Oudem. (GenBank similarity 97−99%). One of the isolates belongs to T. citrinoviride Bissett (GenBank similarity 100%) or with a similarity of 99% to T. reesei E.G. Simmons. The sequence data for the remaining isolate did not allow a closer determination. All identified Trichoderma species are known to be associated with the green mold epidemic of commercially grown Agaricus bisporus and/or Lentinus edodes.
Reproducible antagonistic interaction types exhibiting a relatively constant appearance of colonies were categorized into three main types (IT 1-3) according to the level of their interaction or the aggressivity of the individual Trichoderma species:

  • IT 1: a high antagonistic action (mycoparasitism) was characterized by strong growth suppression of the shiitake colony immediately after contact with the opponent, leading to complete overgrowth within 4−5 days in the most unfavourable cases. This antagonistic action finally lead to the lysis of host mycelia. Ninety percent of the tested Trichoderma strains caused this type of interaction.
  • IT 2: medium antagonistic action (passive antagonism) was characterized by restricted growth of shiitake with a distinct, reddish-brown, on average 6 mm broad inhibition zone between the two colonies.
  • IT 3: a low antagonistic action was defined by suspended growth of the shiitake colony within the first days. But after 3−4 days the mycelium of L. edodes overgrew the mycelia of the Trichoderma strains.
These interaction types strongly varied with the applied incubation temperature: growth rates of the opponents or the aggressivity of individual Trichoderma strains distinctly changed at lower and higher temperatures (15 °C and 30 °C). This shows that much more knowledge about antagonistic properties of the involved biotypes (different strains with distinguishing interaction behavior belonging to the same species) of both L. edodes and Trichoderma spp. is needed.
The results clearly suggest that harvested losses in commercially grown shiitake depend on both the production strain used and the individual properties of Trichoderma biotypes. Considering the exploding market for shiitake and other cultivable mushrooms, it is a promising aim to elucidate the biodiversity of potential pathogens and to uncover their mode of action. But reliable and easily applicable tools for an accurate identification of Trichoderma species or their biotypes are still missing. Moreover, the establishment of an international databank on green mold epidemics would be highly appreciated by commercial mushroom growers and scientists as well.

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