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92 results on '"Yaragina, Natalia A."'

1. Predator biomass affects west–east shifts in Barents Sea capelin (Mallotus villosus) spawning ground use.

Author

Olsen, Tora, Frøysa, Håvard G., Yaragina, Natalia A., Titelman, Josefin, Durant, Joel M., and Langangen, Øystein

Subjects
SEA ice, BIOMASS, WATER temperature, MIGRATORY fishes, SPRING
Abstract

Spawning locations of migratory fish influence the environmental and oceanographic fate of eggs and larvae. However, we have an incomplete understanding of how and why realized spawning locations vary. We quantified the yearly variation in spawning location for Barents Sea capelin (Mallotus villosus) within the recognized spawning areas along the coast of northern Norway and Murman. Furthermore, we tested whether water temperature, sea ice cover, predation and capelin fisheries are associated with spawning locations. Estimated spatial variation in spawning longitude used data from Soviet‐Russian ichthyoplankton surveys from 1959 to 1993 and a bootstrap procedure. The mean spawning area along the coast was then calculated by combining larvae observations with backtracking a larvae drift model from potential spawning areas. We fitted a generalized additive model (GAM) to assess the effects of environmental conditions on these drift‐corrected spawning longitudes. Capelin's mean yearly spawning location varied substantially across the study period. An increase in immature cod biomass, a major predator of capelin, during the spawning migration period in winter and early spring corresponds to more eastward capelin spawning. The eastward shift in mean spawning longitude seems to reach an eastern limit at high immature cod biomass. Sea temperature, sea ice cover and capelin fisheries were not associated with mean capelin spawning longitude. We show that the realized spawning areas for capelin are related to cod biomass, potentially through cod predation depleting and/or acting as a migration barrier for mature capelin. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Ontogenetic spatial constraints of sub‐arctic marine fish species

Author

Ciannelli, Lorenzo, primary, Neuheimer, Anna B., additional, Stige, Leif C., additional, Frank, Kenneth T., additional, Durant, Joel M., additional, Hunsicker, Mary, additional, Rogers, Lauren A., additional, Porter, Steve, additional, Ottersen, Geir, additional, and Yaragina, Natalia A., additional

Published
2021
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14. Diets of the Barents Sea cod (Gadus morhua) from the 1930s to 2018

Author

Townhill, Bryony L., Holt, Rebecca E., Bogstad, Bjarte, Durant, Joel M., Pinnegar, John K., Dolgov, Andrey, Yaragina, Natalia A., Johannesen, Edda, and Ottersen, Geir

Abstract

A new dataset on the diet of Atlantic cod in the Barents Sea from the 1930s to the present day has been compiled to produce one of the largest fish diet datasets available globally. Atlantic cod is one of the most ecologically and commercially important fish species in the North Atlantic. The stock in the Barents Sea is by far the largest, as a result of both successful management and favourable environmental conditions since the early 2000s. As a top predator, cod plays a key role in the Barents Sea ecosystem. The species has a broad diet consisting mainly of crustaceans and teleost fish, and both the amount and type of prey vary in space and time. The data – from Russia, Norway and the United Kingdom – represent quantitative stomach content records from more than 400 000 fish and qualitative data from 2.5 million fish. Many of the data are from joint collaborative surveys between Norway and Russia. The sampling was conducted throughout each year, allowing for seasonal, annual and decadal comparisons to be made. Visual analysis shows cod diets have changed considerably from the start of the dataset in the 1930s to the present day. There was a large proportion of herring in the diets in the 1930s, whereas in more recent decades capelin, invertebrates and other fish dominate. There are also significant interannual asynchronous fluctuations in prey, particularly capelin and euphausiids. Combining these datasets can help us understand how the environment and ecosystems are responding to climatic changes, and what influences the diet and prey switching of cod. Trends in temperature and variability indices can be tested against the occurrence of different prey items, and the effects of fishing pressure on cod and prey stocks on diet composition could be investigated. The dataset will also enable us to improve parametrization of food web models and to forecast how Barents Sea fisheries may respond in the future to management and to climate change. The Russian data are available through joint projects with the Polar Branch of the Russian Federal Research Institute of Fisheries and Oceanography (VNIRO). The UK and Norwegian data (Townhill et al., 2020) are being released with this paper at https://doi.org/10.21335/NMDC-2139169383.

Published
2021

18. Bycatch data from ichthyoplankton surveys reveal long-term trends in gelatinous zooplankton in the Norwegian and Barents Seas.

Author

Yaragina, Natalia A, Stige, Leif Chr, and Langangen, Øystein

Subjects
*FISH larvae, *ICHTHYOPLANKTON, *HYDROZOA, *CTENOPHORA, *MEDUSOZOA, *BYCATCHES
Abstract

Gelatinous zooplankton play important roles as consumers in marine food webs, but the spatial and temporal dynamics of them are difficult to quantify because their fragility makes accurate sampling by traditional gears challenging. As a result, accurately quantified long-term data series targeting this group are scarce. To shed light on the dynamics of three groups of gelatinous zooplankton (medusae, ctenophores, and chaetognaths), we present and analyse time-series on frequency of occurrence and a relative index of abundance for each group recorded as bycatch in ichthyoplankton surveys. The time-series represent two areas (southwestern Barents Sea and northeastern Norwegian Sea), two seasons (spring and summer), and a 35-years period (1959–1993). Results suggest that occurrences of medusae and ctenophores increased from spring to summer in ocean shelf areas, whereas chaetognaths were ubiquitous in both seasons with highest abundance in oceanic areas. Spring occurrences correlated positively with summer occurrences for medusae and chaetognaths but not ctenophores, implying longest prediction horizon for the two first groups. The occurrence of medusae, but not ctenophores and chaetognaths, was consistently higher in warm than cold years. These results suggest that the occurrence and potentially the role of medusae in this arcto-boreal environment is most profound in warm periods. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Ontogenetic spatial constraints of sub‐arctic marine fish species.

Author

Ciannelli, Lorenzo, Neuheimer, Anna B., Stige, Leif C., Frank, Kenneth T., Durant, Joel M., Hunsicker, Mary, Rogers, Lauren A., Porter, Steve, Ottersen, Geir, and Yaragina, Natalia A.

Subjects
MARINE fishes, LIFE history theory, SPECIES distribution, MARINE biology, SPECIES
Abstract

Marine species may respond and adapt to climate change through shifting spatial distributions, but options may be limited by the occupancy of essential habitats which are anchored in space. Limited knowledge of when spatial constraints are most likely to occur in marine fish life cycles has impeded the development of realistic distribution forecasts. In this study, we develop and implement analytical techniques to identify spatial constraints, defined by both the consistency through which a particular geographic area is used year after year, and by the extent of such area with respect to the entire population range. This approach is applied to simulated data and to ten case‐studies including six groundfish species from three subarctic marine systems. Our analyses illustrate that the early phase of the species' life cycle is more spatially constrained than older life stages. We detected significant species‐specific variability in both the degree to which species are anchored in space throughout their life cycle, and the ontogenetic changes in the geographic association. There is an indication that this variability can be explained by the species life history strategy, highlighting the need to extend similar analyses to other species and regions. The presence of ontogenetic spatial constraints, particularly during early life stages, indicates restrictions exist to changes in spatial distribution and questions the assertion that global warming will uniformly result in an increase in abundance and harvest at higher latitudes and decreases at lower latitudes. Our study develops ecological and analytical insights that are critical for accurate projections of species distributions under different climate change scenarios. [ABSTRACT FROM AUTHOR]

Published
2022
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24. role of spatial distribution for growth and survival of juvenile cod Gadus morhua in the Barents Sea.

Author

Durant, Joël M, Yaragina, Natalia, and Stige, Leif Christian

Subjects
*ATLANTIC cod, *BODY size, *FISHERY management, *FISH populations
Abstract

While the importance of early life survival and growth variations for population dynamics is well documented, there is still a relatively limited understanding of how survival and growth is affected by the species' spatial distribution. Using Barents Sea spatial bottom survey data (1994–2018), we study the spatiotemporal variability of the juvenile Atlantic cod (Gadus morhua) growth and survival. We used indices of the spatial distribution of juvenile cod at age-1 to study the role of distribution for the change in abundance and mean body size through their second winter of life (from age-1 to age-2). Over the 24 years analysed, we found that the location where the age-1 cod are in the Barents Sea matters for their growth and survival. We found that year-classes growing up in the western Barents Sea have higher mortality but faster growth than year-classes distributed farther east. Our results indicate that the biotic and abiotic conditions encountered at the settlement location may influence the spatial survival and growth of age-1 cod and subsequently the population dynamics. Our results underscore the importance of distribution for survival and growth early in life and by providing this essential information has implications for stock assessment and spatial fisheries management. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Effects of climate and spawning stock structure on the spatial distribution of Northeast Arctic cod larvae.

Author

Endo, Clarissa Akemi Kajiya, Vikebø, Frode B, Yaragina, Natalia A, Hjøllo, Solfrid Sætre, and Stige, Leif Christian

Subjects
LARVAE, SPAWNING, PREY availability, OCEAN currents, GEOGRAPHICAL distribution of fishes, FISH spawning, WATER temperature
Abstract

The spatial distribution of fish early life stages can impact recruitment at later stages and affect population size and resilience. Northeast Arctic (NEA) cod spawning occurs along the Norwegian coast. Eggs, larvae, and pelagic juveniles drift near-surface towards the Barents Sea nursery area. In this study, a 35-year long time series of NEA cod larvae data was analysed in combination with factors that potentially may affect the distribution of eggs and larvae. These factors included biological aspects of the spawning stock, and environmental variables, such as water temperature, wind, ocean current, and prey abundance. Our aim was to shed light on how these factors influence larval abundance and distribution and how larval abundance and distribution influenced recruitment at age 3. We found that biomass and mean weight of the spawners were positively associated with larval abundance and that a high liver condition index of the spawners was associated with a north-easterly distribution of the larvae. The environmental variables showed generally weak or no correlations with abundance or distribution of larvae. Lastly, we found significant association between larval abundance and year-class abundance at age 3, while the spatial distribution metrics of the larvae, i.e. distribution extent, mean longitude, and mean latitude, showed no significant association with future year-class abundance. [ABSTRACT FROM AUTHOR]

Published
2021
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27. Diets of the Barents Sea cod from the 1930s to the present day.

Author

Townhill, Bryony L., Holt, Rebecca E., Bogstad, Bjarte, Durrant, Joël M., Pinnegar, John K., Dolgov, Andrey V., Yaragina, Natalia A., Johannesen, Edda, and Ottersen, Geir

Subjects
ATLANTIC cod, FISHERIES, ANIMAL nutrition, CLIMATE change, GASTROINTESTINAL contents, CRUSTACEA, GEOGRAPHICAL distribution of fishes
Abstract

A new dataset on the diet of Atlantic cod in the Barents Sea from the 1930s to the present day has been compiled, to produce one of the largest fish diet datasets available globally. Atlantic cod is one of the most ecologically and commercially important fish species in the North Atlantic. The stock in the Barents Sea is by far the largest, as a result of both successful management and favourable environmental conditions since the early 2000s. As a top predator, cod plays a key role in the Barents Sea ecosystem. The species has a broad diet consisting mainly of crustaceans and teleost fish, and both the amount and type of prey vary in space and time. The data, from Russia, Norway and the United Kingdom, represents quantitative stomach contents records from more than 400,000 fish, and qualitative data from 2.5 million fish. Much of the data is from joint collaborative surveys between Norway and Russia. The sampling was done throughout each year allowing for seasonal, annual and decadal comparisons to be made. Visual analysis shows cod diets have changed considerably from the start of the dataset in the 1930s to the present day. There was a large proportion of herring in the diets in the 1930s, whereas in more recent decades, capelin, invertebrates and other fish dominate. There are also significant interannual asynchronous fluctuations in prey, particularly capelin and euphausiids. Combining these datasets can help us understand how the environment and ecosystems are responding to climatic changes, and what influences the diet and prey switching of cod. Trends in temperature and variability indices can be tested against the occurrence of different prey items, and the effects of fishing pressure on cod and prey stocks on diet composition could be investigated. The dataset will also enable us to improve parametrisation of food web models, and to forecast how Barents Sea fisheries may respond in the future, to management and to climate change. The Russian data is available through joint projects with Polar branch of VNIRO. The UK and Norwegian data (Townhill et al., 2020) is being released with this paper at https://doi.org/10.21335/NMDC-2139169383. [ABSTRACT FROM AUTHOR]

Published
2020
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33. 20th anniversary of the PINRO-IMR cooperation in the investigations of fish feeding in the Barents Sea: results and perspectives

Author

Dolgov, Andrey V., Yaragina, Natalia A., Orlova, Emma L., Bogstad, Bjarte, Johannesen, Edda, and Mehl, Sigbjørn

Subjects
VDP::Mathematics and natural science: 400::Zoology and botany: 480::Ecology: 488
Abstract

Long term bilateral Russian/Norwegian scientific co-operation as a basis for sustainable management of living marine resources in the Barents Sea. Proceeding of the 12th Norwegian/Russian Symposium Tromsø, 21-22 August 2007 Since 1986 the Institute of Marine Research, (IMR), Norway and the Knipovich Polar Research Institute of Marine Fisheries and Oceanography (PINRO), Russia, have carried out a joint research program on the trophic relationships in the Barents Sea. As part of this program, the two institutions have exchanged quantitative diet data from fish in the Barents Sea, mainly cod. Diet data can give information about important trophic links in the ecosystem and the strenght of those links. Therefore, diet data is important for quantifying interactions between fish stocks, e.g. by calculating how natural mortality due to predation influences their dynamics. In this paper we give an overview of diet data collected by IMR and PINRO during the last 20 years, and present some results and perspectives for future work.

Published
2007

34. Age reading from Northeast Arctic cod otoliths through 50 years of history

Author

Zuykova, N.V., Koloskova, V.P., Mjanger, Hildegunn, Nedreaas, Kjell Harald, Senneset, Harald, Yaragina, Natalia A., Ågotnes, Per, and Aanes, Sondre

Subjects
VDP::Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497
Abstract

Long term bilateral Russian/Norwegian scientific co-operation as a basis for sustainable management of living marine resources in the Barents Sea. Proceeding of the 12th Norwegian/Russian Symposium Tromsø, 21-22 August 2007 Extended abstract (Full article included in special issue of Marine Biology Research (vol. 4, 2008), celebrating the 50 years of Norwegian-Russian research cooperation.)

Published
2007

35. Variability in cannibalism in Northeast Arctic cod (Gadus morhua L.) during the period 1947-2006

Author

Yaragina, Natalia A., Bogstad, Bjarte, and Kovalev, Yuri

Subjects
VDP::Mathematics and natural science: 400::Zoology and botany: 480::Marine biology: 497
Abstract

Long term bilateral Russian/Norwegian scientific co-operation as a basis for sustainable management of living marine resources in the Barents Sea. Proceeding of the 12th Norwegian/Russian Symposium Tromsø, 21-22 August 2007 Extended abstract (Full article included in special issue of Marine Biology Research (vol. 4, 2008), celebrating the 50 years of Norwegian-Russian research cooperation.)

Published
2007

37. Fifteen years of annual Norwegian-Russian cod comparative age readings

Author

Yaragina, Natalia A., Nedreaas, Kjell Harald, Koloskova, V.P., Mjanger, Hildegunn, Senneset, Harald, Zuykova, N.V., and Ågotnes, Per

Subjects
VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921
Abstract

Long term bilateral Russian/Norwegian scientific co-operation as a basis for sustainable management of living marine resources in the Barents Sea. Proceeding of the 12th Norwegian/Russian Symposium Tromsø, 21-22 August 2007 Extended abstract (Full article included in special issue of Marine Biology Research (vol. 4, 2008), celebrating the 50 years of Norwegian-Russian research cooperation.)

Published
2007

39. Retrospective review of management advice for the northeast Arctic cod

Author

Aglen, Asgeir, Nakken, Odd, Sokolov, Konstantin, and Yaragina, Natalia A.

Subjects
VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Other fisheries disciplines: 929
Abstract

Ecosystem dynamics and optimal long-term harvest in the Barents Sea fisheries. Proceedings of the 11th Russian-Norwegian Symposium. Murmansk, 15-17 August 2005.

Published
2005

40. Systematic bias in estimates of reproductive potential of cod stocks: implications for stock/recruit theory and management

Author

Marshall, C. Tara, Needle, Coby L., Thorsen, Anders, Kjesbu, Olav Sigurd, and Yaragina, Natalia A.

Subjects
stomatognathic diseases, stomatognathic system, torsk, population dynamics, populasjonsdynamikk, cod, eye diseases, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921
Abstract

Stock/recruit relationships, describing the relationship between the parental population and the number of offspring produced, are a central tool in population ecology. For fish populations the stock/recruit relationship uses spawning stock biomass (SSB) to represent reproductive potential of the parental population. This assumes that the proportion of SSB comprised of females and the relative fecundity (number of eggs produced per unit mass) are both constant over time. To test these two constancy assumptions female-only spawner biomass (FSB) and total egg production (TEP) were estimated for the Northeast Arctic cod stock over a 56-year time period (1946-2001). During that time period the proportion of females (FSB/SSB) varied between 24 and 68% and the variation was systematic with length such that SSB became more female-biased as the mean length of spawners increased and more male-biased as mean length decreased. Over the same time period, relative fecundity of the stock (TEP/SSB) varied between 115 and 355 eggs g-1 and, like FSB/SSB, was significantly, positively correlated mean length of spawners. Because both FSB/SSB and TEP/SSB covaried with length composition, SSB is systematically biased estimate of reproductive potential. FSB and TEP were evaluated as possible replacements for SSB in stock/recruit relationship. Both indices gave a different interpretation of the recruitment response to reductions in stock size (over-compensatory) compared to that obtained using SSB (either compensatory or depensatory). The threshold level of stock size below which recruitment becomes impaired was estimated for each of the different stock/recruit relationships using piecewise linear regression. There was no difference between SSB and FSB in the assessment of stock status, however, in recent years (1980-2001) TEP fell below the threshold level more frequently than SSB fell below. This suggests that using SSB as a measure of stock reproductive potential may lead to overly optimistic assessments of stock status.

Published
2005

41. From reproduction to recruitment on North-East Arctic cod

Author

Nash, Richard D.M., Marshall, C. Tara, and Yaragina, Natalia A.

Subjects
VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921
Abstract

Ecosystem dynamics and optimal long-term harvest in the Barents Sea fisheries. Proceedings of the 11th Russian-Norwegian Symposium. Murmansk, 15-17 August 2005.

Published
2005

43. Population growth across heterogeneous environments: effects of harvesting and age structure

Author

Durant, J.M., Hidalgo, Manuel, Rouyer, T.A., Hjermann, D.Ø., Ciannelli, Lorenzo, Eikeset, Anne Maria, Yaragina, Natalia, Stenseth, Nils Christian, Durant, J.M., Hidalgo, Manuel, Rouyer, T.A., Hjermann, D.Ø., Ciannelli, Lorenzo, Eikeset, Anne Maria, Yaragina, Natalia, and Stenseth, Nils Christian

Abstract

Population growth is affected by several factors such as climate, species interaction and harvesting pressure. However, additional complexity can arise if fishing increases the sensitivity to environmental variability. To predict the effects of fisheries and climate on marine populations, there is a need for improved understanding of how they affect key ecological processes such as population growth. In this study, we used a comparative approach investigating commercially fished species across different ecosystems: the Norwegian Sea−Barents Sea (Northeast Arctic cod), the North Sea (North Sea cod), the Atlantic Ocean (European hake), the Mediterranean Sea (European hake), and the Gulf of Alaska and Bering Sea (walleye pollock). Our objective was to compare the effects of commercial fisheries, age structure and environmental variability on population growth rate. We show that although all stocks experienced a decline in abundance, only 3 of them showed a concomitant decreasing trend in generation time (South Atlantic hake, North Atlantic hake and Northeast Arctic cod), suggesting a fishing-induced erosion in their age structure. Intra-specific analysis shows that changes in generation time triggered an increase in the relative contribution of recruitment to population growth. Furthermore, the contribution from recruitment to population growth changes due to large-scale climate indices or regional-scale environmental covariates, such as sea temperature. This study illustrates how and where the interaction between large-scale ecological patterns and regional/short-scale processes are important for designing management regulations

Published
2013

44. Basis for stock assessment and management advice

Author

Yaragina, Natalia A. and Aglen, Asgeir

Subjects
VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Other fisheries disciplines: 929, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921
Abstract

Management strategies for the fish stocks in the Barents sea. Proceedings of the 8th Norwegian-Russian Symposium. Bergen, 15-16 June 1999.

Published
2002

46. Interannual variations in the liver condition index of cod as an indicator of temperature and feeding conditions in the Barents Sea

Author

Yaragina, Natalia A. and Marshall, C. Tara

Subjects
temperatur, food supply, torsk, Barents Sea, VDP::Mathematics and natural science: 400::Geosciences: 450::Oceanography: 452, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Fish health: 923, temperature, Barentshavet, cod, fish physiology, mattilgang, fiskefysiologi, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920::Resource biology: 921
Abstract

Background: Northeast Arctic cod, inhabiting the edge of the species area, experience variable environmental conditions and feeding resources, one of the main of them is capelin. Lipids are an important biochemical link between capelin and cod. Lipids constitute approximately 10-15% of the total wet weight of capelin at the peak of their seasonal cycle in lipid accumulation (Jangaard 1974). In contrast, approximately 1% of the wet weight of the muscle tissue of cod is composed of lipids (Lie et al. 1988). The liver is the primary site of stored lipid reserves in cod. These reserves are utilized during periods of food limitation and the annual cycle of gonad maturation. Starved cod can replenish liver reserves rapidly in response to increased food (Karlsen et al. 1995). Lliver weight is likely to be a dynamic index of the physiological condition of cod.

Published
2001

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