4d) A close examination showed narrow hyphae with an average dia

4d). A close examination showed narrow hyphae with an average diameter of 2.8 μm. The number of layers that composes the interface fungal structure affects the oxygenation of the microorganism, especially for the hyphae close to the substrate (Rahardjo, 2005). In this sense, the oxygenation of the hyphae from C. unicolor was expected to be higher than those shown by the other fungal strains because almost the entire fungal structure was on a single layer, making favorable oxygen diffusion click here possible. Trametes pubescens and T. versicolor exhibited a similar number of layers in

the interface structure, suggesting a similar behavior between members of the same genus. Compared with the other fungal strains tested, the oxygenation of both Trametes can be described as just medium, higher than the one exhibited by P. ostreatus, but lower than that exhibited by C. unicolor. Finally, P. ostreatus exhibited about four layers in its interface structure, making this structure extremely dense and limiting the oxygen transport; thus, the oxygenation

of the inner layers of this fungus was low. Our results are in agreement with those found by Dynesen & Nielsen (2003) when culturing eight strains of filamentous fungi with hypha diameters ranging from 1.82 to 6.70 μm. Also, Aime et al. (2003) studied some species from Guyana and found hypha diameters from 3 to 7 μm, while Lecault et al. (2007) determined the hypha diameter of the filamentous fungus Trichorderma reesei to be about 2–2.5 μm. The four fungi studied also presented considerable differences in the distribution of their hyphae find more and the size of the clumps. The narrow hyphae of T. pubescens created clumps in a very random distribution (Fig. 3a). Thus, clumps produced by two hyphae varied in size from 3.8 to 4.5 μm, while clumps produced by three hyphae ranged from 6 to 8 μm (numbers 1 and 2 in Fig. 5a). Trametes versicolor had a defined network structure where thick hyphae intercrossed, creating large clumps in a radial distribution,

whereas the small hyphae covered the rest of the surface area in a transversal orientation with respect to the thick hyphae (Fig. 3b). Large clumps created by T. versicolor varied Edoxaban between 9 and 12 μm (number 1 in Fig. 5b), which represents the intercross of four or five hyphae. This fungus showed a more organized growing structure than that found for T. pubescens. Cerrena unicolor clearly had two types of clumps: the ones formed by two hyphae with an average size of 8 μm and the ones formed by three hyphae with an average size of 12 μm (number 1 in Fig. 5c). Cerrena unicolor had a network structure that covered most of the substrate, but it did not present a clear geometry like the one seen with T. versicolor (Fig. 3c). Pleurotus ostreatus presented many clumps of about 11.5 μm (number 1 in Fig. 5d), comprised of about four hyphae (Fig. 4d). The network structure of P.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>