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Publikasjoner

NIBIOs ansatte publiserer flere hundre vitenskapelige artikler og forskningsrapporter hvert år. Her finner du referanser og lenker til publikasjoner og andre forsknings- og formidlingsaktiviteter. Samlingen oppdateres løpende med både nytt og historisk materiale. For mer informasjon om NIBIOs publikasjoner, besøk NIBIOs bibliotek.

2023

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Sammendrag

In forest ecosystems, fungi are the key actors in wood decay. They have the capability to degrade lignified substrates and the woody biomass of coniferous forests, with brown rot fungi being common colonizers. Brown rots are typically involved in the earliest phase of lignocellulose breakdown, which therefore influences colonization by other microorganisms. However, few studies have focused on the impact of introducing decayed wood into forest environments to gauge successional colonization by natural bacterial and fungal communities following partial decay. This study aimed to address this issue by investigating the bacterial and fungal colonization of Norway spruce (Picea abies) wood, after intermediate and advanced laboratory-based, pre-decay, by the brown rot fungus Gloeophyllum trabeum. Using Illumina metabarcoding, the in situ colonization of the wood blocks was monitored 70 days after the blocks were placed on the forest floor and covered with litter. We observed significant changes in the bacterial and fungal communities associated with the pre-decayed stage. Further, the wood substrate condition acted as a gatekeeper by reducing richness for both microbial communities and diversity of fungal communities. Our data also suggest that the growth of some fungal and bacterial species was driven by similar environmental conditions.

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Sammendrag

Brown rot fungi are a marvel and an enigma of Nature. They are capable of depolymerizing holocellulose within wood cell walls without significantly ineralizing lignin. The exact details behind this feat remain unknown, but a staggered mechanism has been identified: 1) an initial step characterized by oxidative degradation of the wood cell wall biopolymers and hypothesized to involve transport of Fe3+ chelated by oxalate into the cell wall, and 2) a second degradation step dominated by hydrolytic enzymes, primarily endoglucanase activity. We subjected spruce wood (Picea abies) to Rhodonia placenta and isolated xylem tissue in the initial stage of degradation. Confocal Raman microscopy revealed oxalate accumulation in the secondary cell wall of a tracheid having fungal hyphae within the lumen. This observation is the first in situ verification of oxalate accumulation within the cell wall during the first step of brown rot degradation.

Sammendrag

After fungal decay experiments chemical characterisation of the wood is often a routine and several methodological approaches are available. In this study, we tested if simultaneous thermal analysis (STA) is a valid alternative to traditional wet chemical methods since STA allows significantly smaller sample size and faster analysis. Three model fungi including the brown rot fungi Rhodonia placenta and Gloeophyllum trabeum and the white rot fungus Trametes versicolor were employed in the study using Norway spruce as substrate. The experiment was harvested after 10, 20 and 52 weeks. At each harvest interval, aliquots of the material were characterized by STA and wet chemical methods. The results validated that STA can be effectively used to estimate cell wall composition of brown rot depolymerised wood. However, STA slightly overestimated cellulose at brown rot decay above 50%. The method was not verified for simultaneous white rot because STA only estimated hemicellulose correctly compared to the wet chemical method. Hence, STA is considered suitable for brown rot fungi below 50% mass loss but not for simultaneous white rot because STA did not estimate cellulose and lignin correctly.

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Sammendrag

Skog- og trenæringen vil ha en nøkkelrolle for å utvikle og realisere det grønne skiftet i Norge. Det er forventet økt bruk av trevirke innen bygg, emballasje, kompositter og energiprodukter i årene som kommer. Hovedhensikten med denne markedsundersøkelsen var å finne ut hvilke forventninger markedsaktørene hadde til utviklingen i energivirkemarkedet m.h.t. pris og volum fem og ti år fram i tid. Den samlede produksjonen av bioenergiprodukter er per i dag på ca 17 TWh, hvorav 13 TWh er faste biobrensler. Et flertall av respondentene forventet en vekst på 25-50 % både i volum og pris i biomassemarkedet totalt sett i løpet av de neste ti årene, selv om de for sin egen virksomhet forventer en volumøkning i størrelsesordenen 30 – 70% de kommende fem årene. Mange av respondentene peker på ressurstilgang som en av de viktigste barrierene for en vesentlig økning av omsetningen av energivirke. Bekymringen for dette er størst blant de som kjøper brenselflis / flisvirke til bruk i varmeproduksjon eller andre prosesser, og mindre blant virkesleverandørene. Undersøkelsen ble gjennomført før Russlands invasjon av Ukraina i februar 2022. Konflikten har gitt store endringer i energimarkedet i Nord-Europa, og det kan godt hende resultatet av undersøkelsen ville vært annerledes om den ble gjort nå ett år ut i denne konflikten.

Sammendrag

This report provides an overview of resources for feed production from Norwegian bioresources. We look at present use of agricultural land, outfield pasture, forestry production and processing and present harvesting of bioresources from the ocean, as well as cultivation of marine organisms. We also look alternative uses of resources to produce feed.

Sammendrag

Wood modification using polyesterification of sorbitol and citric acid is a novel environmentally friendly strategy for wood protection improving its dimensional stability and acts against fungal deterioration. Inelastic Raman scattering is sensitive to the molecules of high polarizability and both lignocellulose and aliphatic esters formed during the treatment are polar. Therefore, in the present study, the quality control of the treatment using a handheld Raman spectrometer equipped with 830 nm laser is suggested as a rapid and reliable approach. Raman spectra from six wood modification levels (resulting in different weight percent gain, WPG) of three different wood species (Silver birch, Scots pine and Norway spruce) as well as three sample preparation strategies (intact, sanded and milled wood samples) were collected, and further analyzed using a chemometric method. Best performing models based on Powered Partial Least Squares Regression predicted the WPG level at R2 = 0.85, 0.95 and 0.98 for birch, pine and spruce, respectively. In addition, a clear separation between hard and soft wood species was also captured. Especially for softwood species, the sample preparation method affected the model accuracy, revealing the best performance in milled material. It is concluded that by using handheld Raman spectrometer it is possible to perform accurate quality control of wood modified by polyesterification of citric acid and sorbitol.

Sammendrag

In the Nordic countries, ice encasement of golf greens and agricultural grass fields under sunlight heat often leads to grass death due to oxygen depletion and accumulation of carbon dioxide and metabolites from anaerobic respiration under the ice layer. The phenomenon is termed ‘isbrann’ in Norwegian and it is a severe type of winter damage that may also affect germination and growth after reseeding. We have employed soil water metabolome analyses to differentiate and identify small, water-soluble metabolites produced in ice-encased grass for a better understanding of how ice and anoxic soils might affect grass plants.