Your search keyword '"Fink, Siegfried"' showing total 5 results

1. 2012 Report on the Annual Meeting of the Working Groups 'Host-Parasite Interactions' and 'Mycology'

Author

Conrath, Uwe, Steiner, Ulrike, Borlinghaus, Jan, Schlaich, Nikolaus L., Dalio, Ronaldo, Fleischmann, Frank, Oßwald, Wolfgang, Grasse, Wolfgang, Spring, Otmar, Utermark, Jan, Zuther, Katja, Schirawski, Jan, Kamble, Avinash, Koopmann, Birger, v. Tiedemann, Andreas, Kohlndorfer, Matthias, Link, Tobias, Voegele, Ralf T, Müller, Manuel, Oliveira-Garcia, Ely, Deising, Holger B, Becher, Rayko, Wirsel, Stefan, Ebinghaus, Malte, Bogisch, Sonja, Maier, Wolfgang, Begerow, Dominik, Enderle, Rasmus, Grüner, Jörg, Fink, Siegfried, Metzler, Berthold, Peters, Franziska, Bußkamp, Johanna, Hahn, Matthias, Leroch, Michaela, Plesken, Cecilia, Naoshin, Zinnnia, Weber, Roland, Koch, Andreas, Stammler, Gerd, Paulsen, Hanna, Jäckel, Barbara, Schmid, Claudia-Stefanie, Goßmann, Monika, Zander, Matthias, Büttner, Carmen, and Lava, Sukanya Soongahalli

Published

2013

2. Integrated control of wood destroying basidiomycetes combining Cu-based wood preservatives and Trichoderma spp

Author

Ribera, Javier, Fink, Siegfried, Bas Cerdá, María del Carmen, and Schwarze, Francis W. M. R.

Subjects

Basidiomycetes, Embryology, Antifungal Agents, Placenta, Resistance, ESTADISTICA E INVESTIGACION OPERATIVA, lcsh:Medicine, Strains, Mycology, Decay fungi, Research and Analysis Methods, complex mixtures, Integrated Control, Fungal Reproduction, Medicine and Health Sciences, Mechanisms, Fungal Spores, lcsh:Science, Pest Control, Biological, Trichoderma, Antagonistic fungi, Basidiomycota, lcsh:R, Organisms, Fungi, Chemical Compounds, Reproductive System, technology, industry, and agriculture, Biology and Life Sciences, Biocontrol, Agriculture, ROT, Wood, Chemistry, Specimen Preparation and Treatment, Physical Sciences, Immunizing commensal fungi, Treated distribution poles, Biological-control, lcsh:Q, Pest Control, Anatomy, Preservatives, Copper, Research Article, Developmental Biology

Abstract

[EN] The production of new generation of wood preservatives (without addition of a co-biocide) in combination with an exchange of wood poles on identical sites with high fungal inoculum, has resulted in an increase of premature failures of wood utility poles in the last decades. Wood destroying basidiomycetes inhabiting sites where poles have been installed, have developed resistance against wood preservatives. The objective of the in vitro studies was to identify a Trichoderma spp. with a highly antagonistic potential against wood destroying basidiomycetes that is capable of colonizing Cu-rich environments. For this purpose, the activity of five Trichoderma spp. on Cu-rich medium was evaluated according to its growth and sporulation rates. The influence of the selected Trichoderma spp. on wood colonization and degradation by five wood destroying basidiomycetes was quantitatively analyzed by means of dry weight loss of wood specimens. Furthermore, the preventative effect of the selected Trichoderma spp. in combination with four Cu-based preservatives was also examined by mass loss and histological changes in the wood specimens. Trichoderma harzianum (T-720) was considered the biocontrol agent with higher antagonistic potential to colonize Cu-rich environments (up to 0.1% CuSO4 amended medium). T. harzianum demonstrated significant preventative effect on wood specimens against four wood destroying basidiomycetes. The combined effect of T. harzianum and Cu-based wood preservatives demonstrated that after 9 months incubation with two wood destroying basidiomycetes, wood specimens treated with 3.8 kg m-3 copper-chromium had weight losses between 55±65%, whereas containers previously treated with T. harzianum had significantly lower weight losses (0±25%). Histological studies on one of the wood destroying basidiomycetes revealed typical decomposition of wood cells by brown-rot fungi in Cu-impregnated samples, that were notably absent in wood specimens previously exposed to T. harzianum. It is concluded that carefully selected Trichoderma isolates can be used for integrated wood protection against a range of wood destroying basidiomycetes and may have potential for integrated wood protection in the field., The authors are pleased to acknowledge the financial support by the Swiss CTI (Project No. 17001.1 PFLS-LS).

Published

2017

3. Effect of Trichoderma-enriched organic charcoal in the integrated wood protection strategy

Author

Ribera, Javier, Gandía Gómez, Mónica, Marcos López, José Francisco, Bas, María del Carmen, Fink, Siegfried, Schwarze, Francis W. M. R., and Commission for Technology and Innovation (Switzerland)

Subjects

Basidiomycetes, Conservation of Natural Resources, Embryology, Placenta, lcsh:Medicine, Mycology, Plant Science, Research and Analysis Methods, complex mixtures, Fungal Reproduction, Oxalic acid, Fungal spores, Medicine and Health Sciences, Dicarboxylic Acids, Fungal Spores, lcsh:Science, Trichoderma, Decomposition, Basidiomycota, Oxalic Acid, Plant Anatomy, lcsh:R, Organisms, Chemical Compounds, Reproductive System, Fungi, technology, industry, and agriculture, Biology and Life Sciences, Specimen preparation and treatment, Wood, Chemistry, Specimen Preparation and Treatment, Charcoal, Physical Sciences, Microbial Interactions, lcsh:Q, Anatomy, Acids, Preservatives, Copper, Research Article, Developmental Biology

Abstract

The gradual elimination of chromium from wood preservative formulations results in higher Cu leaching and increased susceptibility to wood decay fungi. Finding a sustainable strategy in wood protection has become of great interest among researchers. The objective of these in vitro studies was to demonstrate the effect of T-720-enriched organic charcoal (biochar) against five wood decay basidiomycetes isolated from strongly damaged poles. For this purpose, the antagonistic potential of Trichoderma harzianum (strain T-720) was confirmed among other four Trichoderma spp. against five brown-rot basidiomycetes in dual culture tests. T-720 was genetically transformed and tagged with the green fluorescent protein (GFP) in order to study its antagonistic mechanism against wood decay basidiomycetes. It was also demonstrated that T-720 inhibits the oxalic acid production by basidiomycetes, a well-known mechanism used by brown-rot fungi to detoxify Cu from impregnated wood. Additionally, this study evaluated the effect of biochar, alone or in combination with T-720, on Cu leaching by different preservatives, pH stabilization and prevention of wood decay caused by five basidiomycetes. Addition of biochar resulted in a significant Cu binding released from impregnated wood specimens. T-720-enriched biochar showed a significant reduction of wood decay caused by four basidiomycetes. The addition of T-720-enriched biochar to the soil into which utility poles are placed may improve the efficiency of Cr-free wood preservatives., We would like to thank the Commission for Technical Innovation (CTI) for funding the studies (Project No. 19082.3 PFLS-LS). There was no additional external funding received for this study.

Published

2017

4. Fracture in Norway spruce wood treated with Physisporinus vitreus.

Author

Sedighi Gilani, Marjan, Heeb, Markus, Huch, Anja, Fink, Siegfried, and Schwarze, Francis

Subjects

NORWAY spruce, FUNGI, FLUORESCENCE microscopy, DELAMINATION of composite materials, WOOD products

Abstract

Changes in the fracture behaviour of Norway spruce tonewood after fungal treatment were studied. Specimens were incubated for 6, 9 and 12 months with Physisporinus (P.) vitreus. Fracture tests were performed in a compact-tension fracture experiment set-up, and the results were compared with the morphological analysis of the degraded wood structure and transverse sections of the crack tip viewed under light and fluorescence microscopy. It was evident that both the failure load and critical stress intensity factors were reduced in wood after prolonged incubation periods. Weight losses were significantly higher in sapwood than in heartwood. With prolonged incubation periods, the frequency of unstable fracture and brittle behaviour of the wood increased. In untreated wood, cracks were initiated in the earlywood. The process involved both delamination of the cells within the middle lamellae and rupture of the cell walls, inducing a zigzag crack tip pattern. In fungally treated wood, cracks often commenced from the intersection between late- and earlywood, resulting in a straight tangential crack line. Micrographic images showed that P. vitreus was more active in the secondary walls of latewood tracheids. In this region of the wood, the cell walls were strongly degraded after 9-12 months of incubation, resulting in a reduction in tensile strength, even though the wood did not show strong features of decay at the macroscopic level. [ABSTRACT FROM AUTHOR]

Published

2017

5. Cambial-Region-Specific Expression of the Agrobacterium iaa Genes in Transgenic Aspen Visualized by a Linked uidA Reporter Gene1

Author

Tuominen, Hannele, Puech, Laurence, Regan, Sharon, Fink, Siegfried, Olsson, Olof, and Sundberg, Björn

Subjects

Indoleacetic Acids, fungi, food and beverages, Gene Expression, Blotting, Northern, Plants, Genetically Modified, Trees, Blotting, Southern, Phenotype, Genes, Reporter, heterocyclic compounds, Research Article, Glucuronidase, Rhizobium

Abstract

The level of indole-3-acetic acid (IAA) was locally modified in cambial tissues of transgenic aspen (Populus tremula L. x Populus tremuloides Michx.). We also demonstrate the use of a linked reporter gene to visualize the expression of the iaa genes. The rate-limiting bacterial IAA-biosynthetic gene iaaM and the reporter gene for beta-glucuronidase (GUS), uidA, were each fused to the cambial-region-specific Agrobacterium rhizogenes rolC promoter and linked on the same T-DNA. In situ hybridization of the iaaM gene confirmed that histochemical analysis of GUS activity could be used to predict iaaM gene expression. Moreover, quantitative fluorometric analysis of GUS activity allowed estimation of the level of de novo production of IAA in transgenic lines carrying a single-copy insert of the iaaM, uidA T-DNA. Microscale analysis of the IAA concentration across the cambial region tissues showed an increase in IAA concentration of about 35% to 40% in the two transgenic lines, but no changes in the radial distribution pattern of IAA compared with wild-type plants. This increase did not result in any changes in the developmental pattern of cambial derivatives or the cambial growth rate, which emphasizes the importance of the radial distribution pattern of IAA in controlling the development of secondary xylem, and suggests that a moderate increase in IAA concentration does not necessarily stimulate growth.

Published

2000