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dc.contributor.advisorPedersen, Torstein
dc.contributor.authorOfstad, Lise Helen
dc.date.accessioned2013-04-09T11:05:04Z
dc.date.available2013-04-09T11:05:04Z
dc.date.issued2013-04-16
dc.description.abstractAnglerfish Lophius piscatorius has during the last two decades become a highly exploited resource and is now one of the five most economically important demersal fish species in the Faroese fishery. Despite this, there is at present little information available on the population status of anglerfish in Faroese waters. The main aim of this study is to increase the biological knowledge of anglerfish and to perform an assessment of the stock in order to evaluate the sustainability of the anglerfish fishery and to investigate trophic interactions between anglerfish and other commercially important demersal fish species. Anglerfish illicia, the first fin ray, were used for age reading. The age determinations were validated and concluded to be useful in an age-based assessment because the growth rates were consistent with length frequency and mark-recapture analyses. Anglerfish have a very high growth rate during their first year of life, compared with the older ages. Males mature at a lower length and younger age than females. The L50 for males and females was 58 cm and 84 cm, respectively, corresponding to an age of around four years for males and seven years for females. Observations of spawning males and females, egg-ribbons and pelagic anglerfish larvae revealed that anglerfish have a prolonged spawning season, which peaks from February to April. In addition, observations showed that there are at least two local spawning areas, one southwest of the Faroe Plateau and one in the Faroe Bank area. Large anglerfish tagged with data storage tags and conventional tags showed a seasonal offshore-onshore migration. They migrated to shallow depths in summer to feed and to deeper waters in winter, presumably to spawn. Anglerfish performed vertical movements up into the water column, and were most active in these vertical movements during the winter time and during the nights, and light intensity seemed to trigger the migrations. Anglerfish distribution was temperature dependent, since anglerfish generally preferred temperatures warmer than 4ºC, usually between 6.5–11ºC. This may explain why anglerfish were distributed deeper west of the Faroe Bank area compared to the Faroe Plateau, which is surrounded by cold water deeper than approximately 500 m. Anglerfish in Faroese waters preyed on a variety of food items. They were generally eating fish and the most important prey species in terms of numbers were Norway pout and blue whiting, whereas cod and haddock contributed most in weight. Annual consumption by anglerfish on commercially important demersal species, such as cod, haddock and saithe, was estimated to correspond to 33, 19 and 2% of the landings and to 75, 20 and 2% of biomass losses due to natural mortality, respectively. Even with this high cod consumption by anglerfish, cod cannibalism and fishing mortality still have greater impact on the cod stock dynamics than predation by anglerfish. The annual biomass loss of anglerfish due to cannibalism was estimated to nearly 15% of the annual loss due to natural mortality. Anglerfish in Faroese waters may be regarded as a separate stock because all life stages are found in the area, local spawning area, seasonal offshore-onshore migration on the Faroe Plateau, together with insignificant emigration/immigration (< 5%). An age-based stock assessment of anglerfish in Faroese waters for the period 1999–2011 showed that the stock biomass ranged between 9000 and 19000 t with a peak in 2004–2005 and the fishing mortality for age 3–8 varied between 0.2 and 0.5 year-1. The yield per recruit curve indicated that the stock was slightly growth overfished. Decreasing the fishing mortality could potentially increase the yield per recruit by around 10% leading to a 50% higher equilibrium biomass of anglerfish. No clear stock-recruitment relationship was found. On the other hand, anglerfish year-class strength was correlated with environmental variables, such as sandeel abundance. Hence, the rather short time series of anglerfish year-class strength provides little or no evidence of recruitment overfishing. It is recommended that stock assessments should be performed on an annual basis, allowing managers to react timely when there are signs of overfishing or recruitment failure due to natural or fishery causes.en
dc.description.doctoraltypeph.d.en
dc.description.popularabstractAlle livsstadiene hos breiflabb er funnet i Færøysk farvann fra egg og larver til voksen og gyteklar fisk, det er funnet lokale gyteområder og breiflabben ved Færøyene kan betraktes som en egen bestand. Breiflabb merket med datamerker som lagrer informasjon om dybde og temperatur har vist, som den første i nordøst Atlanteren, at breiflabb pendler mellom et dypere gyteområde om vinteren og grunnere beiteområder om sommeren på det Færøyske platået. De foretrekker sjøtemperaturer mellom 6-11ºC, og unngår temperaturer under 4ºC. Alderslesing av breiflabbens ”fiskestang” viste seg å være i samsvar med både merke-gjenfangst data og lengde-frekvensdata. Breiflabb vokser omtrent 18 cm i deres første leveår og hannene er omtrent 4 år og 58 cm lang når de gyter første gang og hunnene er omtrent 8 år og 84 cm lang. For første gang ble det gjort en aldersbestemt bestandsberegning av breiflabb ved Færøyene for perioden 1999-2011 og bestandsstørrelsen var på det høyeste i 2004-2005 på omtrent 19 tusen tonn, men er siden da minket og var i 2011 på omtrent 11 tusen tonn. De gode fangstene i 2004-2007 skyldtes god rekruttering noen år før. På nåværende tidspunkt så kan bestandsbiomassen økes ved mindre beskatning, noe som vil gi et høyere utbytte per fiskerekrutt. Ettersom landingene har blitt nesten halvert fra 2011 til 2012, bør en bestandsestimering av breiflabb ved Færøyene gjøres hvert år for å følge med utviklingen.en
dc.description.sponsorshipFaroe Marine Research Institute, Fisheries Research Fund of the Faroe Islands, Faroese Research Councilen
dc.descriptionThe papers of this thesis are not available in Munin: <br/>1. Ofstad, L.H., Pedersen, T., Angus, C.H., and Steingrund, P.: 'Age and growth of anglerfish (Lophius piscatorius) in Faroese waters', Fisheries Research (2013), vol.139:51–60. Available at <a href=http://dx.doi.org/10.1016/j.fishres.2012.05.011>http://dx.doi.org/10.1016/j.fishres.2012.05.011</a> <br/>2. Ofstad, L.H., Pedersen, T., and Steingrund, P.: 'Maturation, reproduction and early life history of anglerfish Lophius piscatorius in Faroese waters' (manuscript) <br/>3. Ofstad, L.H., Steingrund, P., and Pedersen, T.: 'Seasonal offshore-onshore migration and distribution of anglerfish Lophius piscatorius in Faroese waters' (manuscript) <br/>4. Ofstad, L.H., Steingrund, P., and Pedersen, T.: 'Feeding ecology of anglerfish Lophius piscatorius in Faroese waters' (manuscript)en
dc.identifier.isbn978-82-8266-051-8
dc.identifier.urihttps://hdl.handle.net/10037/5070
dc.identifier.urnURN:NBN:no-uit_munin_4783
dc.language.isoengen
dc.publisherUniversity of Tromsøen
dc.publisherUniversitetet i Tromsøen
dc.rights.accessRightsopenAccess
dc.rights.holderCopyright 2013 The Author(s)
dc.rights.urihttps://creativecommons.org/licenses/by-nc-sa/3.0en_US
dc.rightsAttribution-NonCommercial-ShareAlike 3.0 Unported (CC BY-NC-SA 3.0)en_US
dc.subjectMarine biologyen
dc.subjectanglerfishen
dc.subjectMarine biologyen
dc.subjectlife historyen
dc.subjectMarine Biologyen
dc.subjectmigrationen
dc.subjectMarine biologyen
dc.subjectecologyen
dc.titleAnglerfish Lophius piscatorius L. in Faroese waters. Life history, ecological importance and stock statusen
dc.typeDoctoral thesisen
dc.typeDoktorgradsavhandlingen


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