Diversity and ecology of aphyllophoroid fungi on driftwood logs on the shores of the Baltic Sea

Kunttu, Panu; Pasanen, Hannes; Rämä, Teppo; Kulju, Matti; Kunttu, Sanna-Mari; Kotiranta, Heikki

doi:10.1111/njb.02735

Cited by 4 publications

(1 citation statement)

References 92 publications

(51 reference statements)

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“…A reduced compressive strength along the grain, lower calorific value and increased equilibrium moisture content were observed for driftwood. Reported lower compressive strength along the fibers of Arctic driftwood may be caused by the presence of fungi on the drifting logs, which develop during the wood's journey in the sea [17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Characterization of Arctic Driftwood as Naturally Modified Material. Part 1: Machinability

et al. 2021

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Arctic driftwood has reached the coast of Iceland for centuries. This material was used by the inhabitants of the island as a building material for houses, boats, churches and pasture fences. Nowadays, the driftwood is used in the furniture industry, for the finishing of internal and external walls of buildings and also by artists. The properties of driftwood differ to that of original resource due the long-term effects of exposure to Arctic Sea water and ice. This process can be considered as a natural modification, even if its effect on various wood properties and the potential use of driftwood are not yet fully understand. This research is focused on the comparison of cutting forces measured for Siberian larch (Larix sibirica L.) from Siberia provenance and driftwood found on the coast of Iceland. The cutting forces were determined directly from the cutting power signal that was recorded during the frame sawing process. A new procedure for compensation of the late/early wood ratio variation within annual rings is proposed to homogenize mechanical properties of wood. It allows a direct comparison of machinability for both types of larch wood investigated (driftwood and natural). Noticeable differences of normalized cutting force values were noticed for both wood types, which were statistically significant for two set values of feed per tooth. These results provide a new understanding of the effect of the drifting process in the Arctic Sea (natural modification) on mechanical and physical properties of wood. Such a natural modification may influence transformation processes of driftwood as well as performance of the coating systems applied on its surface.

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Section: Introductionmentioning

confidence: 99%

Characterization of Arctic Driftwood as Naturally Modified Material. Part 1: Machinability

et al. 2021

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Factors influencing the diversity of deadwood, a crucial microhabitat for many rare and endangered saproxylic organisms

Bujoczek

Bujoczek²

2022

Ecological Indicators

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Diversity of fungi from marine inundated wood from the Bay of Fundy, Nova Scotia, Canada

Adams

Walker

2023

Botanica Marina

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Marine fungi play an integral role in the decomposition of intertidal organic substrata but remain understudied in cold-water habitats including Atlantic Canada. Marine inundated wood from the intertidal zone was sampled from 30 sites along the Bay of Fundy coastline in Nova Scotia, Canada. Wood types studied included attached and loose intertidal wood, and driftwood. Emergent fungi were cultured and identified using ITS (internal transcribed spacers) rDNA barcoding. Two hundred and twenty cultures representing 86 fungi are reported. Sixty-one fungi were new records for the Bay of Fundy, 41 are first records from the marine environment, and 19 fungi are potentially new to science. Fungi identified included eight obligate marine fungi, with the remaining fungi being facultatively marine. Eight ascomycetes were soft rot fungi; this ecological strategy for decaying woody material in cold-water marine environments is discussed. Historical records and roles of wood type and site on fungal colonization are discussed.

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Diversity and ecology of aphyllophoroid fungi on driftwood logs on the shores of the Baltic Sea

Cited by 4 publications

References 92 publications

Characterization of Arctic Driftwood as Naturally Modified Material. Part 1: Machinability

Characterization of Arctic Driftwood as Naturally Modified Material. Part 1: Machinability

Factors influencing the diversity of deadwood, a crucial microhabitat for many rare and endangered saproxylic organisms

Diversity of fungi from marine inundated wood from the Bay of Fundy, Nova Scotia, Canada

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