Your search keyword '"Kleiven, Alf"' showing total 7 results

1. Fishing pressure impacts the abundance gradient of European lobsters across the borders of a newly established marine protected area.

Author

Kleiven, Alf Ring, Kleiven, Portia Joy Nillos, Espeland, Sigurd Heiberg, Olsen, Esben Moland, Moland, Even, and Abesamis, Rene A.

Subjects

*FISHERIES, *HOMARUS gammarus, *MARINE parks & reserves, *DECAPODA, *WILDLIFE conservation

Abstract

Marine protected areas (MPAs) are considered viable fisheries management tools due to their potential benefits of adult spillover and recruitment subsidy to nearby fisheries. However, before-after control-impact studies that explore the biological and fishery effects of MPAs to surrounding fisheries are scarce. We present results from a fine-scale spatial gradient study conducted before and after the implementation of a 5 km2 lobster MPA in southern Norway. A significant nonlinear response in lobster abundance, estimated as catch-per-unit-effort (CPUE) from experimental fishing, was detected within 2 years of protection. After 4 years, CPUE values inside the MPA had increased by a magnitude of 2.6 compared to before-protection values. CPUE showed a significant nonlinear decline from the centre of the MPA, with a depression immediately outside the border and a plateau in fished areas. Overall fishing pressure almost doubled over the course of the study. The highest increase in fishing pressure (by a magnitude of 3) was recorded within 1 km of the MPA border, providing a plausible cause for the depression in CPUE. Taken together, these results demonstrate the need to regulate fishing pressure in surrounding areas when MPAs are implemented as fishery management tools. [ABSTRACT FROM AUTHOR]

Published

2019

2. The management of lobster in coastal Skagerrak : recreational fisheries, unreported commercial catches andmarine protected areas

Author

Kleiven, Alf Ring and Jentoft, Svein

Subjects

marine reserve, VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920::Ressursbiologi: 921, marine bevaringsområder, recreational fishing, IUU, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Catch: 925, UUU, marine reservater, Skagerrak, hummer, hummerforvaltning, lobster management, MPA, UUU-fiske, VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920::Fangst: 925, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Other fisheries disciplines: 929, VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920::Andre fiskerifag: 929, fritidsfiske, Homarus gammarus, lobster, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921

Abstract

Papers 1 and 2 are not available in Munin: 1. Pettersen, A.R., E. Moland, E. Moland Olsen and J.A. Knutsen.: 'Lobster reserves in coastal Skagerrak - An integrated analysis of the implementation process', in E. Dahl, E. Moksness and J. Støttrup (ed), Coastal Zone Management (2009) Pages 178-188. Wiley-Blackwell Publishing. London. 2. Kleiven, A.R., E. Moland and U.R. Sumaila: 'Recreational fishing as a selfsubsidising activity : implications for sustainability of targeted fish stocks' (manuscript) The implementation of four experimental lobster reserves in Norway in 2006 highlighted a set of important questions regarding lobster management. This thesis presents a study on the management and fishery of the European lobster (Homarus gammarus) in Skagerrak. Firstly, the implementation process of the lobster reserves was analysed. It revealed that local stakeholders, such as recreational fishers, were positive to the use of reserves for management of lobster. However, they were not involved in the implementation process. By reviewing existing literature regarding recreational fisheries, we show that recreational fishers behave differently than commercial fishers. Recreational fishers are not dependent on making profit from the fishery and the value of recreational fishing to those who engage in it is a combination of catch and experience value. The latter implies that recreational fishers can continue fishing when stocks are at a low level, in the same way as subsidised commercial fisheries. We termed this self-subsidising: A fishery as one in which fishers subsidise themselves through an economic investment in gear and time from their non-fishery based earnings. Further, methods to estimate recreational, commercial and total effort and catch were developed. A probability-based strip transect survey method was developed and used to estimate the recreational and commercial effort in the fishery. The survey revealed that recreational fishers outnumber commercial fishers, contributing to 2/3 of the total effort (number of traps) during the season. Lastly, we collaborated with recreational fishers that reported catch and effort through catch diaries. Test validation from a random sample of fishers showed that the catch rate from those who filled out catch diaries could be considered as representative for the recreational lobster fishing population in the study area. We also found that mean recreational catch rates could be considered as representative for the catch rates in the commercial fishery. Our estimates show that recreational fishers represent 65 % of the total landings in the study area. In addition, 77 % of the lobsters caught by commercial fishers remain unreported. Hence, total catch from the recreational and commercial fishery combined, was estimated to be 14 times higher than the officially reported landings. The main conclusion in this thesis is that the lobster fishery can be considered unregulated: there are no quotas, no total effort regulations and no registry of participation from neither commercial nor recreational fisheries. The lack of data information may lead to mismanagement of the lobster fishery with the risk of further population reduction. Further, the positive attitude towards the lobster reserves, as expressed from the local stakeholders, clearly shows the potential in using lobster reserves as an important tool in the management of the European lobster in coastal Skagerrak. Implementation of more lobster reserves should strive to achieve stronger stakeholder involvement from the early start of the process in order to incorporate local user knowledge and ensure legitimacy of new reserves.

Published

2010

3. Total Catch of a Red-Listed Marine Species Is an Order of Magnitude Higher than Official Data.

Author

Kleiven, Alf Ring, Olsen, Esben Moland, and Vølstad, Jon Helge

Subjects

*FISHERY management, *FISHING catch effort, *HOMARUS gammarus, *FISHERY statistics

Abstract

Accurate information on total catch and effort is essential for successful fisheries management. Officially reported landings, however, may be underestimates of total catch in many fisheries. We investigated the fishery for the nationally red-listed European lobster (Homarus gammarus) in south-eastern Norway. Probability-based strip transect surveys were used to count buoys in the study area in combination with catch per unit effort data obtained independently from volunteer catch diaries, phone interviews, and questionnaires. We estimate that recreational catch accounts for 65% of total catch in the study area. Moreover, our results indicate that only a small proportion (24%) of lobsters landed commercially were sold through the legal market and documented. Total estimated lobster catch was nearly 14 times higher than reported officially. Our study highlights the need for adequate catch monitoring and data collection efforts in coastal areas, presents a clear warning to resource managers that illegal, unreported and unregulated (IUU) fisheries in coastal areas should not be ignored, and shows the potential impact of recreational fisheries. [ABSTRACT FROM AUTHOR]

Published

2012

4. Place-based management at different spatial scales.

Author

Olsen, Erik, Kleiven, Alf, Skjoldal, Hein, and Quillfeldt, Cecilie

Subjects

*MARINE parks & reserves, *HOMARUS gammarus, *ECOLOGICAL mapping, *SPATIAL ecology, *MANAGEMENT

Abstract

Place-based management is any management action having implications for a specified area. Place-based management is seen as a key component to practical implementation of ecosystem approach to management, with marine spatial planning (MSP) being the currently most promoted approach. In the present paper we address the challenges of place-based management at local, regional and global (oceanic) spatial scales using case studies from the Northeast Atlantic with examples from Norway. Both ecological, governance and management complexity increases with increasing geographic scale, with associated increases in uncertainty and thus increasing need for managing under the precautionary approach. A process where (ecologically) valuable and vulnerable areas are defined early on is essential to successful place-based management under the ecosystem approach. Integrating across sectors and achieving necessary cooperation between involved institutions and stakeholders is also necessary. [ABSTRACT FROM AUTHOR]

Published

2011

5. Lobster reserves as a management tool in coastal waters: Two decades of experience in Norway.

Author

Knutsen, Jan Atle, Kleiven, Alf Ring, Olsen, Esben Moland, Knutsen, Halvor, Espeland, Sigurd Heiberg, Sørdalen, Tonje Knutsen, Thorbjørnsen, Susanna Huneide, Hutchings, Jeffrey A., Fernández-Chacón, Albert, Huserbråten, Mats, Villegas-Ríos, David, Halvorsen, Kim Tallaksen, Nillos Kleiven, Portia Joy, Langeland, Thomas Kiland, and Moland, Even

Subjects

COASTAL zone management, LOBSTERS, FISHERY management, MARINE parks & reserves, MARINE resources conservation, FISHERY laws

Abstract

The positive effects of reduced fishing pressure in marine protected areas (MPAs) are now well documented globally. Yet, evidence of MPA benefits from long-term replicated before-after control-impact (BACI) studies and their usefulness in protecting target species are still rare, especially in northern temperate areas. Scientific rigor in the monitoring of MPAs is considered important for obtaining trust and compliance and can increase interest and enthusiasm for the benefits of marine conservation. Off the coast of southern Norway, a MPA implementation process started up in 2002. Based on comprehensive consultations with local fishers and managers, four experimental lobster reserves were appointed in 2004. Two years later (2006), the reserves came into effect as the Norwegian Directorate of Fisheries implemented regulations as a by-law of the Saltwater Fisheries Act that effectively banned all fixed gear. Long-term monitoring of the MPAs and adjacent control areas has enabled a rigorous scientific evaluation of the effects of these MPAs on lobster populations, including effects on density, growth, demography, behavior, and phenotypic diversity. As protection effects started to manifest, the lobster reserves attracted high public attention and were soon considered a credible supplement to traditional fisheries management. In the period from 2002 to 2021, more than 50 lobster reserves have been implemented in Norway. Here, we review the experiences since the lobster reserves were designated, implemented, and embraced by local communities in Norway, and over two decades have become an important tool for fishery management. Thoughts on the future of MPAs along the coast of Norway are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

6. Lobster and cod benefit from small-scale northern marine protected areas: inference from an empirical before-after control-impact study.

Author

Moland, Even, Olsen, Esben Moland, Knutsen, Halvor, Garrigou, Pauline, Espeland, Sigurd Heiberg, Kleiven, Alf Ring, André, Carl, and Knutsen, Jan Atle

Subjects

MARINE parks & reserves, ATLANTIC cod, HOMARUS gammarus, FISHERY management, FISH conservation, EMPIRICAL research

Abstract

Marine protected areas (MPAs) are increasingly implemented as tools to conserve and manage fisheries and target species. Because there are opportunity costs to conservation, there is a need for science-based assessment of MPAs. Here, we present one of the northernmost documentations of MPA effects to date, demonstrated by a replicated before -- after control-impact (BACI) approach. In 2006, MPAs were implemented along the Norwegian Skagerrak coast offering complete protection to shellfish and partial protection to fish. By 2010, European lobster (Homarus gammarus) catch-per-unit-effort (CPUE) had increased by 245 per cent in MPAs, whereas CPUE in control areas had increased by 87 per cent. Mean size of lobsters increased by 13 per cent in MPAs, whereas increase in control areas was negligible. Furthermore, MPA-responses and population development in control areas varied significantly among regions. This illustrates the importance of a replicated BACI design for reaching robust conclusions and management decisions. Partial protection of Atlantic cod (Gadus morhua) was followed by an increase in population density and body size compared with control areas. By 2010, MPA cod were on average 5 cm longer than in any of the control areas. MPAs can be useful management tools in rebuilding and conserving portions of depleted lobster populations in northern temperate waters, and even for a mobile temperate fish species such as the Atlantic cod. [ABSTRACT FROM AUTHOR]

Published

2013

7. Ghost fishing : the spatial extent of gear loss and effects on marine animal life along the Norwegian coast

Author

Løset, Ingrid Disch, Haugen, Thrond Oddvar, and Kleiven, Alf Ring

Subjects

Mathematics and natural science: 400::Zoology and botany: 480::Ecology: 488 [VDP], Lost fishing gear, European lobster, Homarus gammarus, 497 [Marine biology]

Abstract

Tapte fiskeredskaper er en av de større bidragsyterne til verdens marine forsøplingsproblemer og de er blitt anerkjent som en kilde til alvorlige biologiske og sosio-økonomiske problemer over hele verden. Moderne fiskeutstyr er produsert av ikke-nedbrytbare syntetiske materialer og kan utgjøre en stor trussel for det marine dyrelivet ved at det kan fortsette å fiske i mange år selv om utstyret er gått tapt for fiskeren. Slikt «spøkelsesfiske» kan oppstå når dyrene vikles inn i garn eller fanges i teiner. Det er idag lite kunnskap om omfanget av redskapstap og problemer med spøkelsefiske i kystfisket. Dette skyldes i hovedsak at det er lite rapportering av slike hendelser samt at det er krevende å gjennomføre langsiktige studier på temaet. I Norge er dette problemet gitt økt oppmerksomhet gjennom et prosjekt der lokale dykkerklubber har bidratt til forskning ved å rydde og rapportere om tapte fiskeredskaper. I dette prosjektet har dykkere innrapportert betydelige data på funn av tapte redskaper langs Norskekysten i perioden 2015-2018. Ved å analysere skjemaer utfylt av dykkerne, har målet for studien vært å undersøke omfang samt geografisk fordeling av tapte fiskeredskaper fra kystfisket i Norge. Dernest, å anslå et estimat på fangstrate og fangstfordeling av spøkelsesfiske samt å vurdere hvilke virkninger dette har på marine dyregrupper, med hovedfokus på europeisk hummer (Homarus gammarus). Videre ble fangstraten modellert for å undersøke om redskapstyper og ulike miljøvariabler kunne påvirke fangsten i spøkelsesfiske. Totalt 4128 tapte fiskeredskaper ble funnet av dykkere under oppryddingsarbeider i perioden 2015-2018 fordelt på 3456 teiner (84%), 461 ruser (11%) og 211 garn (5%). Sammenklappede teiner (44%) var den redskapstypen som ble hyppigst funnet, etterfulgt av 871 i kategorien andre teinetyper (21%) og 794 skotteteiner (19%). Den geografiske fordelingen av de tapte fiskeredskapene var signifikant forskjellig mellom regioner, med største antall funn på sør-øst kysten (n = 2045). Dette kan indikere at denne regionen er et betydelig oppsamlingsområde for tap av fiskeredskap. Ut i fra analysene av fangstrate i spøkelsesfiske ble det anslått at 29% av fangstredskapene inneholdt dyr. Totalt 3779 krabber, 1406 fisk og 160 hummer ble fanget av ulike fiskeredskaper, der gjennomsnittlig fangstrate varierte fra 0.62-3.09 dyr/per redskap. Skotteteiner hadde en gjennomsnittlig fangst på 2.09 krabber, 0.12 hummer og 0.88 fisk per teine med høyest relative forekomst av fangst (52%) sammenliget med andre redskaper. Selv om garn var mindre representert i antall, ble det registrert dyr i 41 % av disser. Garn hadde i tillegg høyest gjennomsnittlig fangst av krabber (2.27 krabber/garn). Av alle redskapstypene inneholdt de sammeneleggbare teinene minst antall dyr (15%), der hver teine fanget i gjennomsnitt 0.62 dyr/teine, som kan indikere at denne teinetypen er mer en kilde til søppel enn å ha effekt på spøkelsesfiske. Analysene av faktorer som påvirker fangstratene viste klare forskjeller i fangstrate mellom hummer, krabber og fisk avhengig av redskapstype, dybde, substrat og helningsvinkel på bunnen. Signifikante interaksjonseffekter mellom mange av variablene indikerte at kombinasjonene av disse faktorene er viktige faktorer som påvirker fangstraten. Fangst av hummer ble anslått å være påvirket av både redskapstype, dybde, substrat og bunnskråning. Interaksjonseffekter mellom substrat og dybde, antydet at dybde-effekten var avhengig av helningsvinkel, men dette var ikke statistisk signifikant. Sammenleggbare teiner hadde den største fangsten av alle teinetypene, med en maksimal fangstrate på 3-4 hummer ved middels dyp på hardbunn. Selv om den maksimale fangstraten trolig er overpredikert på grunn av feilkilder i dataene, kan disse funnene reflektere habitat preferanse og områder hummerteiner vanligvis plasseres. Videre var sannsynligheten for fangst (gitt at det ikke var andre dyr) nesten 90% i skotteteiner funnet på steinete substrat og slak skråning, mens sammenleggbare teiner hadde en lav sannsynlighet for fangst. Forskjellene mellom den estimerte fangsten og sannsynligheten for fangst gjorde tolkningen vanskelig, men det kan tyde på at fangstraten på hummer også er avhengig av forekomst av andre dyr i teina. Hittil har det ikke vært noen studier som har undersøkt omfanget av redskapstap og potensielle virkninger av spøkelsefiske på marine dyr i kystfisket i Norge. Denne studien gir et godt grunnlag for videre studier av spøkelsefiske. Selv om feilkilder i dataene kan ha virket inn på analysene, viste resultatene klare tendenser til at fangstraten i spøkelsesfiske varierer avhengig av redskapstype og miljøfaktorer. Videre indikerer interaksjonseffekter mellom disse faktorene at mekanismene som styrer spøkelsesfiske kan være komplekse. Å skaffe kunnskap om omfanget av redskapstap og spøkelsefiske er viktig for fiskeriforvaltningen, da spøkelsefiske er en trussel for fiskerier, fiskebestander og marine økosystemer. Derelict fishing gear, often referred to as abandoned, lost or otherwise discarded fishing gear (ALDFG), is one of the major contributors of the worldwide marine debris problem and has been recognized as a source of serious biological and socio-economic problems worldwide. Modern fishing gear are made of non-degradable synthetic materials that may persist in the marine environment for long periods of time, hence they may pose a great threat the marine wildlife as they can continue to fish for decades although all control of the gear has been lost by the fisher. This phenomenon is known as “ghost fishing” and may occur when animals get accidentally entangled in nets or confined in pots or traps. There is currently little knowledge about the extent of gear loss and the issue of ghost fishing in coastal fisheries, which is mainly a result of the reluctance of fishers to report such incidents and the efforts in undertaking long term studies. In Norway, this problem has received increased public attention through a citizen science project, where local diving clubs has contributed to research through trap clean-up events. Through this project, divers have reported large amounts of data on lost fishing gear retrieved from the Norwegian coast during the period 2015-2018. By analysing the submitted diving report forms, the objectives of this study were to examine the extent and geographical distribution of lost fishing gear from the coastal fishery in Norway. Secondly, this study estimated the ghost fishing catch rate and catch composition, as well as the impacts of ghost fishing on marine animal groups, focusing on the European lobster (Homarus gammarus). Furthermore, the captures were modelled to investigate whether gear type and different environmental variables could affect the ghost fishing catch rate. A total of 4128 lost fishing gear were retrieved by divers during clean-up efforts in the period 2015-2018. Of these, 3456 (84 %) were traps, 461 fyke nets (11 %) and 211 gillnets (5 %). Folding traps (44%) was the most frequently found gear type, followed by 871 other traps (21%) and 794 parlour traps (19 %). The geographical distribution of lost fishing gear was significant different among regions, with the largest number of gear retrieved from the south-eastern coast (n=2045), which indicated that this region might be a “hot spot” for accumulation of gear loss. The analysis of ghost fishing catch estimated that 29 % of the retrieved gear contained animals. This suggested that lost fishing gear may actively ghost fishing in the shallow waters along the Norwegian coast. In total, 3779 crabs, 1406 fish and 160 lobsters were caught by different fishing gear, with mean catch ranging from 0.62-3.09 animals/per gear. Parlour traps had an average catch of 2.09 crabs, 0.12 lobster and 0.88 fish per trap and had the highest relative occurrences of catch (52 %) of all gear. These findings suggested that parlour traps may have a greater impact on animals and become less selective when lost. Although gillnets were less represented in numbers, 41 % contained animals. Gillnets also had the greatest average catch of crabs (2.27 crabs/gear). Of all gear types, folding traps contained the least numbers of animals (15 %) where each trap captured on average 0.62 animals/trap, which suggested that folding traps are more a source of litter than a ghost fishing problem. Furthermore, the analysis of factors influencing the ghost fishing catch rate showed clear differences in catch rates among lobsters, crabs and fish depending on gear type, depth, substrate and bottom slope. Significant interaction effects between many of the variables indicated that the combinations of these factors are important factors influencing the ghost fishing catch rates. Catch of lobsters was estimated to be influenced by several factors such as gear type, substrate, bottom slope and depth. Interaction effects between substrate and depth, suggested that the depth effect was dependent on the level of substrate, yet this was not statistically significant. Folding traps had the largest catch of all trap types, with a maximum a catch rate of 3-4 lobsters at middle depths on boulder and rock substratum. Although, the maximum catch rate is likely to be overpredicted due to noise in the data, these findings could reflect their habitat preference and therefore the locations where lobster traps are usually set for fishing. Furthermore, the probability of catch (given no occupants) was nearly 90 % in parlour traps found on rock substrate and flat slope, while folding traps had a low probability of catch. Differences between the predicted catch and probability of catch made the interpretation difficult, but could indicate that the ghost catch of lobsters also depends on the presence of occupants in the trap. To date, there have been no studies investigating the extent of gear loss and the possible impacts of ghost fishing on marine animals in the coastal fishery in Norway. This study provides a good basis for further ghost fishing studies in this fishery. Although, a lot of noise in the data may have biased some of the analysis, the results showed clear tendencies that ghost fishing catch rate vary depending on gear type and environmental factors. Furthermore, the interaction effects revealed that the factors behind this pattern might be complex. Gaining knowledge about the extent of gear loss and the problem of ghost fishing is important for fisheries management, as ghost fishing is a major threat for fisheries, fish stocks and marine ecosystems. M-BIOL

Published

2019