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Mycoparasitic interaction between Trichoderma afroharzianum strain Th2RI99 and Rhizoctonia solani
Interacción micoparasítica entre Trichoderma afroharzianum cepa Th2RI99 y Rhizoctonia solani
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Eliana Melignania,
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elianameli@bg.fcen.uba.ar

Corresponding author.
, Mara E. Martinb, Vanesa Y. Memac, Catalina B. Taiboc, Julia V. Sabio y Garcíac, Viviana A. Barrerac
a Departamento de Biodiversidad y Biología Experimental, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Av. Int. Güiraldes 2160, C.A.B.A., C.P. C1428EGA, Argentina
b Instituto de Agrobiotecnología y Biología Molecular (IABIMO), INTA-CONICET, Las Cabañas y De los Reseros s/n, Hurlingham, C.P. 1686, Castelar, Buenos Aires, Argentina
c Instituto de Microbiología y Zoología Agrícola (IMYZA), INTA, Las Cabañas y De los Reseros s/n, Hurlingham, C.C. 25 (1712) Castelar, Buenos Aires, Argentina
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Recibido 11 Mayo 2022. Aceptado 27 Septiembre 2022
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The behavior of Trichoderma afroharzianum strain Th2RI99 confronted to Rhizoctonia solani AG4-HG II in dual culture was observed under light (LM) and scanning electron microscope (SEM). There is evidence of mycoparasitism in the Trichoderma harzianum complex, but no report is available regarding T. afroharzianum, since it has been just recently described as a new species, previously identified with phylogenetic analysis with 3 genes1.

Two mycelial plugs (5mm diam.), from Th2RI99 and the pathogens Bipolaris sorokiniana, Fusarium graminearum, Sclerotium minor and R. solani cultures (grown in potato dextrose agar for 72h at 25°C in darkness), were placed 3cm apart from each other on 1.2% water agar plates in independent assays. Three replicates were incubated and observed at 24, 46, 47, 48 and 72h. Rectangular sections from the confrontation area were mounted on slides in 3% KOH, stained with 10% lactophenol blue or 5mM white calcofluor (Fluka, Sigma-Aldrich) for 5min and washed with distilled water2,4,5. The observation of samples under LM (Olympus BX51) coupled to a digital camera (Cool Snap-Pro) was carried out using bright field, differential contrast interference and epifluorescence (360–370nm). Digital images were taken using Image-Pro Solution software (Media Cybernetics).

Samples for SEM observation were prepared following3. Only samples against R. solani showed signs of mycoparasitism. At 46 and 47h, multiple coilings from Th2RI99 hyphae around R. solani mycelium were evident (Figs. 1A and B). At 48h, the cell wall of R. solani presented the formation of a pore, caused by the penetration tube of Th2RI99 (Fig. 2A). In one of the mycoparasitism events, the apical zone of a R. solani hypha had up to 5 penetration tubes from the antagonist (Fig. 2B).

Figure 1.

Light microscope observation of the interaction between hyphae of Trichoderma afroharzianum Th2RI99 (T) and Rhizoctonia solani AG4-HG II (R) in dual culture (WA 1.2%) after 47h. (A) Arrows: coilings of Th2RI99 on R. solani; p: plasmolized hyphae; np: not plasmolized hyphae. (B) Calcofluor dye. Arrow: detail of coiling of Th2RI99 on R. solani.

(0.07MB).
Figure 2.

Scanning electron microscope observation of the interaction between hyphae of Trichoderma afroharzianum Th2RI99 (T) and Rhizoctonia solani AG4-HG II (R) in dual culture (WA 1.2%) after 48h. (A) Arrow: formation of penetration pore in hypha of R. solani. (B) Arrows: Th2RI99 penetration tubes around the apical hypha of R. solani.

(0.09MB).

This is the first report of mycoparasitic interaction between T. afroharzianum and R. solani.

Conflicts of interest

This work has been carried out as a Technological Association Agreement with Rizobacter S.A.

Acknowledgements

We thank Disciplinary Project2019-PD-E4-I069-001 (INTA) and the Technological Association Agreement INTA-Rizobacter S.A. for funding this work.

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