Hopp til hovedinnholdet

Søk i

altansatteprosjekterpublikasjonertematjenesterkalendernyheter

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.

NIBIO POP → NIBIO Rapport → NIBIO Bok →

2022

Forfattere

Nicola La Porta Ari Hietala Paolo Baldi

Sammendrag

Bacterial diseases in woody plants are best characterized for ornamental and fruit trees and much less is known for forest trees. There are many diseases of forest trees whose etiology remains to be clarified and likely more bacterial diseases of forest trees will be discovered in the next years. An overview of the main bacterial pathogens that cause diseases in forest and ornamental trees is described in this chapter and the general differences between fungal and bacterial diseases are outlined. For bacteria pathogenic to trees, six types of diseases are described: Bacterial blight diseases, represented by Erwinia amylovora, the fireblight disease; Bacterial wilt disease, represented by Ralstonia solanacearum species complex; Root and stem galls of trees, represented by Agrobacterium tumefaciens; Wetwood disease, caused by several bacterial genera like Clostridium, Bacillus, Enterobacter, Klebsiella, and Pseudomonas, Xanthomonas and Pantoea; Bacterial scorch disease represented by Xylella fastidiosa with all its subspecies; Bacterial canker represented by Pseudomonas syringae with all its pathovars. Finally, the current diagnostic methods and specific issues related to bacteria detection, together with the main results of the scientific efforts and challenges in the genetic breeding to increase bacterial resistance of trees, are outlined.

Til dokument

Forfattere

Miren del Río Hans Pretzsch Ricardo Ruiz-Peinado Hervé Jactel Lluis Coll Magnus Löf Jorge Aldea Christian Ammer Admir Avdagić Ignacio Barbeito Kamil Bielak Felipe Bravo Gediminas Brazaitis Jakub Cerny Catherine Collet Sonia Condés Lars Drössler Marek Fabrika Michael Heym Stig-Olof Holm Gro Hylen Aris Jansons Viktor Kurylyak Fabio Lombardi Bratislav Matović Marek Metslaid Renzo Motta Thomas Nord-Larsen Arne Nothdurft Jan den Ouden Maciej Pach Marta Pardos Charlotte Poeydebat Quentin Ponette Thomas Perot Ditlev Otto Juel Reventlow Roman Sitko Vit Sramek Mathias Steckel Miroslav Svoboda Kris Verheyen Sonja Vospernik Barbara Wolff Tzvetan Zlatanov Andrés Bravo-Oviedo

Sammendrag

Det er ikke registrert sammendrag

Til dokument

Forfattere

Hans Pretzsch Andrés Bravo-Oviedo Torben Hilmers Ricardo Ruiz-Peinado Lluis Coll Magnus Löf Shamim Ahmed Jorge Aldea Christian Ammer Admir Avdagić Ignacio Barbeito Kamil Bielak Felipe Bravo Gediminas Brazaitis Jakub Cerný Catherine Collet Lars Drössler Marek Fabrika Michael Heym Stig-Olof Holm Gro Hylen Aris Jansons Viktor Kurylyak Fabio Lombardi Bratislav Matović Marek Metslaid Renzo Motta Thomas Nord-Larsen Arne Nothdurft Cristóbal Ordóñez Jan den Ouden Maciej Pach Marta Pardos Quentin Ponette Tomas Pérot Ditlev Otto Juel Reventlow Roman Sitko Vit Sramek Mathias Steckel Miroslav Svoboda Enno Uhl Kris Verheyen Sonja Vospernik Barbara Wolff Tzvetan Zlatanov Miren del Río

Sammendrag

Det er ikke registrert sammendrag

Forfattere

Gard Sveinung Grimsby Kjersti Aaby Mathias Rudolf Amundsen Inger Martinussen

Sammendrag

Det er ikke registrert sammendrag

Forfattere

Henrik Forsberg Mathiesen

Sammendrag

Det er ikke registrert sammendrag

Til dokument

Forfattere

Björn Andersson Annika Djurle Jens Erik Ørum Marja Jalli Antanas Ronis Andrea Ficke Lise Nistrup Jørgensen

Sammendrag

Det er ikke registrert sammendrag

Til dokument

Forfattere

Yeqing Li Xingru Yang Zhuo Liang Hao Jiang Quan Xu Hongjun Zhou Lu Feng

Sammendrag

Proper treatment of polyvinyl chloride (PVC) waste is challenge as it is not easily degraded and incineration can lead to environmental issue as it will produce toxic chemicals. In this study, a hydrothermal carbonization approach was applied to treat PVC waste. The influence of exogenous additives on dechlorination efficiency of PVC were evaluated. The results showed that, with exogenous additive, substitution, elimination, dehydration and aromatization reaction were enhanced during hydrothermal carbonization. The maximum dechlorination efficiency of 97.50% was achieved with the mass ratio of 1.4% between rice straw and PVC resin at hydrothermal carbonization temperature 240℃ for 120min. The calorific value of hydrothermal charcoal was relatively higher (39.57MJ/kg ± 0.40MJ/kg), indicating a good combustion process. This study presented a novel and sustainable approach, which could convert PVC-waste as a form of solid fuel.

Til dokument

Forfattere

Arne Bardalen Ivar Pettersen Siri Voll Dombu Orvika Rosnes Klaus Mittenzwei Andreas Skulstad

Sammendrag

Det er ikke registrert sammendrag

Forfattere

Anna Birgitte Milford

Sammendrag

Det er ikke registrert sammendrag

Forfattere

Anna Birgitte Milford

Sammendrag

Det er ikke registrert sammendrag