Daniel William Wright

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Publication

Featured researches published by Daniel William Wright.

Conservation Physiology | 2017

The gill parasite Paramoeba perurans compromises aerobic scope, swimming capacity and ion balance in Atlantic salmon

Malthe Hvas; Egil Karlsbakk; Stig Mæhle; Daniel William Wright; Frode Oppedal

A cosmopolitan non-species specific gill parasite associated with finfish aquaculture and high temperatures compromises gill functionality and swimming abilities in Atlantic salmon. Interactions with environmental warming are expected to amplify the pathophysiology of this parasite.

Aquaculture | 2016

‘Snorkel’ sea lice barrier technology reduces sea lice loads on harvest-sized Atlantic salmon with minimal welfare impacts

Lars Helge Stien; Tim Dempster; Samantha Bui; Alexis Glaropoulos; Jan Erik Fosseidengen; Daniel William Wright; Frode Oppedal

Aquaculture Environment Interactions | 2015

Atlantic salmon Salmo salar instantaneously follow vertical light movements in sea cages

Daniel William Wright; Alexis Glaropoulos; David Solstorm; Lars Helge Stien; Frode Oppedal

Aquaculture Environment Interactions | 2015

Depth distribution of the amoebic gill disease agent, Neoparamoeba perurans, in salmon sea-cages

Daniel William Wright; Bf Nowak; Frode Oppedal; Ar Bridle; Tim Dempster

Journal of Fish Diseases | 2016

Early-stage sea lice recruits on Atlantic salmon are freshwater sensitive.

Daniel William Wright; Frode Oppedal; Tim Dempster

Aquacultural Engineering | 2014

Low intensity light of different colours modifies Atlantic salmon depth use

Lars Helge Stien; Jan Erik Fosseidengen; Morten E. Malm; Harald Sveier; Thomas Torgersen; Daniel William Wright; Frode Oppedal

Pest Management Science | 2017

Sea lice infestation levels decrease with deeper ‘snorkel’ barriers in Atlantic salmon sea‐cages

Frode Oppedal; Francisca Samsing; Tim Dempster; Daniel William Wright; Samantha Bui; Lars Helge Stien

Preventive Veterinary Medicine | 2017

‘Snorkel’ lice barrier technology reduced two co- occurring parasites, the salmon louse (Lepeophtheirus salmonis) and the amoebic gill disease causing agent (Neoparamoeba perurans), in commercial salmon sea-cages

Daniel William Wright; Lars Helge Stien; Tim Dempster; Tone Vågseth; V. Nola; Jan Erik Fosseidengen; Frode Oppedal

Aquaculture Environment Interactions | 2017

Free-living Neoparamoeba perurans depth distribution is mostly uniform in salmon cages, but reshaped by stratification and potentially extreme fish crowding

Daniel William Wright; Bf Nowak; Frode Oppedal; Ar Bridle; Tim Dempster

Aquaculture | 2018

Skirts on salmon production cages reduced salmon lice infestations without affecting fish welfare

Lars Helge Stien; Mattias Bendiksen Lind; Frode Oppedal; Daniel William Wright; Tore Seternes

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Collaboration

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Frode Oppedal

SINTEF

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Lars Helge Stien

University of Bergen

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Tim Dempster

University of Melbourne

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Bf Nowak

University of Tasmania

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Egil Karlsbakk

University of Bergen

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Ar Bridle

University of Tasmania

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Samantha Bui

University of Melbourne

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Bjørn-Steinar Sæther

University of Tromsø

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Mattias Bendiksen Lind

Norwegian College of Fishery Science

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Tore Seternes

Norwegian College of Fishery Science

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