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Journal articles on the topic 'Greenland shark'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 March 2023

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1

Grant, Scott M., Rennie Sullivan, and Kevin J. Hedges. "Greenland shark (Somniosus microcephalus) feeding behavior on static fishing gear, effect of SMART (Selective Magnetic and Repellent-Treated) hook deterrent technology, and factors influencing entanglement in bottom longlines." PeerJ 6 (May 17, 2018): e4751. http://dx.doi.org/10.7717/peerj.4751.

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The Greenland Shark (Somniosus microcephalus) is the most common bycatch in the Greenland halibut (Reinhardtius hippoglossoides) bottom longline fishery in Cumberland Sound, Canada. Historically, this inshore fishery has been prosecuted through the ice during winter but winter storms and unpredictable landfast ice conditions since the mid-1990s have led to interest in developing a summer fishery during the ice-free season. However, bycatch of Greenland shark was found to increase substantially with 570 sharks captured during an experimental Greenland halibut summer fishery (i.e., mean of 6.3 s
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Grant, Scott M., Jenna G. Munden, and Kevin J. Hedges. "Effects of monofilament nylon versus braided multifilament nylon gangions on catch rates of Greenland shark (Somniosus microcephalus) in bottom set longlines." PeerJ 8 (December 3, 2020): e10407. http://dx.doi.org/10.7717/peerj.10407.

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The Greenland shark (Somniosus microcephalus) is the main bycatch species in established and exploratory inshore longline fisheries for Greenland halibut (Reinhardtius hippoglossoides) on the east coast of Baffin Island, Canada. Bycatch and entanglement in longline gear has at times been substantial and post-release survival is questionable when Greenland sharks are released with trailing fishing gear. This study investigated the effect of the type of fishing line used in the gangion and gangion breaking strength on catch rates of Greenland shark and Greenland halibut in bottom set longlines.
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Gallant, Jeffrey J., Marco A. Rodriguez, Michael J. W. Stokesbury, and Chris Harvey-Clark. "Influence of Environmental Variables on the Diel Movements of the Greenland Shark (Somniosus microcephalus) in the St. Lawrence Estuary." Canadian Field-Naturalist 130, no. 1 (2016): 1. http://dx.doi.org/10.22621/cfn.v130i1.1784.

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The geographic distribution of the Greenland Shark (Somniosus microcephalus) extends from the Arctic Ocean to the North Atlantic Ocean. However, little is known about the habitat of this species, as it is generally found at great depths or in the High Arctic. In the St. Lawrence Estuary, Greenland Sharks undertake diel vertical movements into shallow water (≤ 30 m), but the reasons for these movements are unknown. To test the hypothesis that environmental variables drive the movements of this shark in the St. Lawrence Estuary, eight Greenland Sharks were tagged with acoustic telemetry transmit
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Cosandey-Godin, Aurelie, Elias Teixeira Krainski, Boris Worm, and Joanna Mills Flemming. "Applying Bayesian spatiotemporal models to fisheries bycatch in the Canadian Arctic." Canadian Journal of Fisheries and Aquatic Sciences 72, no. 2 (2015): 186–97. http://dx.doi.org/10.1139/cjfas-2014-0159.

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Understanding and reducing the incidence of accidental bycatch, particularly for vulnerable species such as sharks, is a major challenge for contemporary fisheries management. Here we establish integrated nested Laplace approximations (INLA) and stochastic partial differential equations (SPDE) as two powerful tools for modelling patterns of bycatch through time and space. These novel, computationally fast approaches are applied to fit zero-inflated hierarchical spatiotemporal models to Greenland shark (Somniosus microcephalus) bycatch data from the Baffin Bay Greenland halibut (Reinhardtius hi
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McMeans, Bailey C., Jörundur Svavarsson, Susan Dennard та Aaron T. Fisk. "Diet and resource use among Greenland sharks (Somniosus microcephalus) and teleosts sampled in Icelandic waters, using δ13C, δ15N, and mercury". Canadian Journal of Fisheries and Aquatic Sciences 67, № 9 (2010): 1428–38. http://dx.doi.org/10.1139/f10-072.

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Stable carbon (δ13C) and nitrogen (δ15N) isotopes and total mercury (Hg) were used to investigate diet and resource use among Greenland sharks ( Somniosus microcephalus ) and 14 teleosts inhabiting Icelandic waters. Greenland shark stomachs contained 11 of the teleosts sampled, along with other fishes and marine mammal tissues. Teleost resource use ranged from pelagic (e.g., Argentina silus ) to benthic (e.g., Anarhichas lupus ) based on δ13C, and relative trophic positions (TP, based on δ15N) ranged from 3.0 ( Mallotus villosus ) to 3.8 (e.g., Brosme brosme ). Greenland shark δ13C indicated f
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6

MacNeil, M. A., B. C. McMeans, N. E. Hussey, et al. "Biology of the Greenland shark Somniosus microcephalus." Journal of Fish Biology 80, no. 5 (2012): 991–1018. http://dx.doi.org/10.1111/j.1095-8649.2012.03257.x.

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7

Nielsen, Julius, Rasmus B. Hedeholm, Malene Simon, and John F. Steffensen. "Distribution and feeding ecology of the Greenland shark (Somniosus microcephalus) in Greenland waters." Polar Biology 37, no. 1 (2013): 37–46. http://dx.doi.org/10.1007/s00300-013-1408-3.

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8

Folkins, Margaret H., Scott M. Grant, and Philip Walsh. "A feasibility study to determine the use of baited pots in Greenland halibut (Reinhardtius hippoglossoides) fisheries, supported by the use of underwater video observations." PeerJ 9 (January 4, 2021): e10536. http://dx.doi.org/10.7717/peerj.10536.

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High incidental catches of Greenland shark (Somniosus microcephalus) in Nunavut’s Greenland halibut (Reinhardtius hippoglossoides) fishery has led to studies on the feasibility of capturing Greenland halibut with baited pots. In this study, catch rates among six experimental pots are compared. In addition to this, underwater video observations of Greenland halibut interacting with two of these experimental pot types are quantified in order to help provide recommendations on future pot designs. Catch rates of Greenland halibut differed among pots with different entrance mesh types, and none of
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9

Steeves, Holly N., Bailey Mcmeans, Chris Field, et al. "Non-parametric analysis of the spatio-temporal variability in the fatty-acid profiles among Greenland sharks." Journal of the Marine Biological Association of the United Kingdom 98, no. 3 (2016): 627–33. http://dx.doi.org/10.1017/s002531541600148x.

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Shifting prey distributions due to global warming are expected to generate dramatic ecosystem-wide changes in trophic structure within Arctic marine ecosystems. Yet a relatively poor understanding of contemporary Arctic food webs makes it difficult to predict the consequences of such changes for Arctic predators. Doing so requires quantitative approaches that can track contemporary changes in predator diets through time, using accurate, well-defined methods. Here we use fatty acids (FA) to quantify differences in consumer diet using permutational multivariate analysis of variance tests that ch
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10

Russo, Roberta. "Meet the Greenland shark, a seemingly sleepy Arctic predator." Biodiversity 17, no. 1-2 (2016): 56–59. http://dx.doi.org/10.1080/14888386.2016.1180640.

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11

Russo, Roberta, Daniela Giordano, Gianluca Paredi, et al. "The Greenland shark Somniosus microcephalus—Hemoglobins and ligand-binding properties." PLOS ONE 12, no. 10 (2017): e0186181. http://dx.doi.org/10.1371/journal.pone.0186181.

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12

Nielsen, Julius, Rasmus B. Hedeholm, Arve Lynghammar, et al. "Assessing the reproductive biology of the Greenland shark (Somniosus microcephalus)." PLOS ONE 15, no. 10 (2020): e0238986. http://dx.doi.org/10.1371/journal.pone.0238986.

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13

Augustine, Starrlight, Konstadia Lika, and Sebastiaan A. L. M. Kooijman. "Comment on the ecophysiology of the Greenland shark, Somniosus microcephalus." Polar Biology 40, no. 12 (2017): 2429–33. http://dx.doi.org/10.1007/s00300-017-2154-8.

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14

Ademollo, N., L. Patrolecco, J. Rauseo, J. Nielsen, and S. Corsolini. "Bioaccumulation of nonylphenols and bisphenol A in the Greenland shark Somniosus microcephalus from the Greenland seawaters." Microchemical Journal 136 (January 2018): 106–12. http://dx.doi.org/10.1016/j.microc.2016.11.009.

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15

Fujiwara, Yoshihiro, Yasuyuki Matsumoto, Takumi Sato, Masaru Kawato, and Shinji Tsuchida. "First record of swimming speed of the Pacific sleeper shark Somniosus pacificus using a baited camera array." Journal of the Marine Biological Association of the United Kingdom 101, no. 2 (2021): 457–64. http://dx.doi.org/10.1017/s0025315421000321.

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AbstractThe Pacific sleeper shark Somniosus pacificus is one of the largest predators in deep Suruga Bay, Japan. A single individual of the sleeper shark (female, ~300 cm in total length) was observed with two baited camera systems deployed simultaneously on the deep seafloor in the bay. The first arrival was recorded 43 min after the deployment of camera #1 on 21 July 2016 at a depth of 609 m. The shark had several remarkable features, including the snout tangled in a broken fishing line, two torn anteriormost left-gill septums, and a parasitic copepod attached to each eye. The same individua
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16

Feld, Katrine, Anne Noer Kolborg, Camilla Marie Nyborg, Mirko Salewski, John Fleng Steffensen, and Kirstine Berg-Sørensen. "Dermal Denticles of Three Slowly Swimming Shark Species: Microscopy and Flow Visualization." Biomimetics 4, no. 2 (2019): 38. http://dx.doi.org/10.3390/biomimetics4020038.

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Shark skin has for many years inspired engineers to produce biomimetic structures reducing surface drag or acting as an anti-fouling layer. Both effects are presumed to be consequences of the structure of shark skin that is composed of arrays of so-called dermal denticles. However, the understanding of the full functional role of the dermal denticles is still a topic of research. We report optical microscopy and scanning electron microscopy of dermal denticles from three slowly swimming shark species for which the functional role of the dermal denticles is suggested as one of defense (possibly
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17

Corsolini, Simonetta, Stefania Ancora, Nicola Bianchi, Giacomo Mariotti, Claudio Leonzio, and Jørgen S. Christiansen. "Organotropism of persistent organic pollutants and heavy metals in the Greenland shark Somniosus microcephalus in NE Greenland." Marine Pollution Bulletin 87, no. 1-2 (2014): 381–87. http://dx.doi.org/10.1016/j.marpolbul.2014.07.021.

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18

Carter, Anthony M., and Hiroaki Soma. "Viviparity in the longest-living vertebrate, the Greenland shark (Somniosus microcephalus)." Placenta 97 (August 2020): 26–28. http://dx.doi.org/10.1016/j.placenta.2020.05.014.

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19

Herdendorf, Charles E., and Tim M. Berra. "A Greenland Shark from the Wreck of the SSCentral Americaat 2,200 Meters." Transactions of the American Fisheries Society 124, no. 6 (1995): 950–53. http://dx.doi.org/10.1577/1548-8659(1995)124<0950:agsftw>2.3.co;2.

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20

Cotronei, Salvatore, Karla Pozo, Ondřej Audy, Petra Přibylová, and Simonetta Corsolini. "Contamination Profile of DDTs in the Shark Somniosus microcephalus from Greenland Seawaters." Bulletin of Environmental Contamination and Toxicology 101, no. 1 (2018): 7–13. http://dx.doi.org/10.1007/s00128-018-2371-z.

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21

Shadwick, Robert E., Diego Bernal, Peter G. Bushnell, and John F. Steffensen. "Blood pressure in the Greenland shark as estimated from ventral aortic elasticity." Journal of Experimental Biology 221, no. 19 (2018): jeb186957. http://dx.doi.org/10.1242/jeb.186957.

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22

Strid, Anna, Christoffer Bruhn, Ed Sverko, Jörundur Svavarsson, Gregg Tomy, and Åke Bergman. "Brominated and chlorinated flame retardants in liver of Greenland shark (Somniosus microcephalus)." Chemosphere 91, no. 2 (2013): 222–28. http://dx.doi.org/10.1016/j.chemosphere.2012.12.059.

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23

Corsolini, Simonetta, Karla Pozo, and Jørgen S. Christiansen. "Legacy and emergent POPs in the marine fauna of NE Greenland with special emphasis on the Greenland shark Somniosus microcephalus." Rendiconti Lincei 27, S1 (2016): 201–6. http://dx.doi.org/10.1007/s12210-016-0541-7.

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24

Borodavkina, M. V., N. V. Chernova, and N. A. Chekmeneva. "About New Findings of the Greenland Shark Somniosus microcephalus in the Kara Sea." Journal of Ichthyology 59, no. 4 (2019): 623–27. http://dx.doi.org/10.1134/s0032945219030020.

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25

Nielsen, J., R. B. Hedeholm, J. Heinemeier, et al. "Eye lens radiocarbon reveals centuries of longevity in the Greenland shark (Somniosus microcephalus)." Science 353, no. 6300 (2016): 702–4. http://dx.doi.org/10.1126/science.aaf1703.

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26

Herbert, N. A., P. V. Skov, B. Tirsgaard, et al. "Blood O2 affinity of a large polar elasmobranch, the Greenland shark Somniosus microcephalus." Polar Biology 40, no. 11 (2017): 2297–305. http://dx.doi.org/10.1007/s00300-017-2142-z.

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27

Costantini, David, Shona Smith, Shaun S. Killen, Julius Nielsen, and John F. Steffensen. "The Greenland shark: A new challenge for the oxidative stress theory of ageing?" Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 203 (January 2017): 227–32. http://dx.doi.org/10.1016/j.cbpa.2016.09.026.

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28

Strid, Anna, Hrönn Jörundsdóttir, Olaf Päpke, Jörundur Svavarsson, and Åke Bergman. "Dioxins and PCBs in Greenland shark (Somniosus microcephalus) from the North-East Atlantic." Marine Pollution Bulletin 54, no. 9 (2007): 1514–22. http://dx.doi.org/10.1016/j.marpolbul.2007.04.018.

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29

Gallant, Jeffrey, Chris Harvey-Clark, Ransom A. Myers, and Michael J. W. Stokesbury. "Sea Lamprey Attached to a Greenland Shark in the St. Lawrence Estuary, Canada." Northeastern Naturalist 13, no. 1 (2006): 35–38. http://dx.doi.org/10.1656/1092-6194(2006)13[35:slatag]2.0.co;2.

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30

Walter, Ryan P., Denis Roy, Nigel E. Hussey, et al. "Origins of the Greenland shark (Somniosus microcephalus ): Impacts of ice-olation and introgression." Ecology and Evolution 7, no. 19 (2017): 8113–25. http://dx.doi.org/10.1002/ece3.3325.

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31

Idrobo, Carlos Julián, and Fikret Berkes. "Pangnirtung Inuit and the Greenland Shark: Co-producing Knowledge of a Little Discussed Species." Human Ecology 40, no. 3 (2012): 405–14. http://dx.doi.org/10.1007/s10745-012-9490-7.

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32

Ferrando, S., L. Gallus, L. Ghigliotti, et al. "Gross morphology and histology of the olfactory organ of the Greenland shark Somniosus microcephalus." Polar Biology 39, no. 8 (2015): 1399–409. http://dx.doi.org/10.1007/s00300-015-1862-1.

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33

Lydersen, Christian, Aaron T. Fisk, and Kit M. Kovacs. "A review of Greenland shark (Somniosus microcephalus) studies in the Kongsfjorden area, Svalbard Norway." Polar Biology 39, no. 11 (2016): 2169–78. http://dx.doi.org/10.1007/s00300-016-1949-3.

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34

Ferrando, S., L. Gallus, L. Ghigliotti, et al. "Anatomy of the olfactory bulb in Greenland shark Somniosus microcephalus (Bloch & Schneider, 1801)." Journal of Applied Ichthyology 33, no. 2 (2017): 263–69. http://dx.doi.org/10.1111/jai.13303.

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35

Anthoni, Uffe, Carsten Christophersen, Lone Gram, Niels H. Nielsen, and Per Nielsen. "Poisonings from flesh of the Greenland shark Somniosus microcephalus may be due to trimethylamine." Toxicon 29, no. 10 (1991): 1205–12. http://dx.doi.org/10.1016/0041-0101(91)90193-u.

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36

Santaquiteria, Aintzane, Julius Nielsen, Terje Klemetsen, Nils P. Willassen, and Kim Præbel. "The complete mitochondrial genome of the long-lived Greenland shark (Somniosus microcephalus): characterization and phylogenetic position." Conservation Genetics Resources 9, no. 3 (2017): 351–55. http://dx.doi.org/10.1007/s12686-016-0676-y.

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37

Hoch, Ella. "First Greenland record of the shark genus Ptychodus and the biogeographic significance of its fossil assemblage." Palaeogeography, Palaeoclimatology, Palaeoecology 92, no. 3-4 (1992): 277–81. http://dx.doi.org/10.1016/0031-0182(92)90087-l.

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38

Strid, Anna, Ioannis Athanassiadis, Maria Athanasiadou, Jörundur Svavarsson, Olaf Päpke, and Åke Bergman. "Neutral and phenolic brominated organic compounds of natural and anthropogenic origin in northeast Atlantic Greenland shark (Somniosus microcephalus)." Environmental Toxicology and Chemistry 29, no. 12 (2010): 2653–59. http://dx.doi.org/10.1002/etc.330.

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39

Yano, K., J. D. Stevens, and L. J. V. Compagno. "Distribution, reproduction and feeding of the Greenland shark Somniosus (Somniosus) microcephalus, with notes on two other sleeper sharks, Somniosus (Somniosus) pacificus and Somniosus (Somniosus) antarcticus." Journal of Fish Biology 70, no. 2 (2007): 374–90. http://dx.doi.org/10.1111/j.1095-8649.2007.01308.x.

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40

Stenvinkel, Peter, and Paul G. Shiels. "Long-lived animals with negligible senescence: clues for ageing research." Biochemical Society Transactions 47, no. 4 (2019): 1157–64. http://dx.doi.org/10.1042/bst20190105.

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Abstract Among several theories to explain the complicated process of human ageing, the mitochondrial oxidative stress hypothesis has received recent attention. Considering that lifespan and ageing rates vary considerably across taxa, a better understanding of factors that lead to negligible or extremely rapid senescence in mammals may generate novel approaches to target human ageing. Several species, such as naked mole rats, ocean quahog, rockfish and Greenland shark, have been identified that exhibit negligible senescence and superior resistance to age-related diseases. Considering that the
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41

Davis, Brendal, David L. VanderZwaag, Aurelie Cosandey-Godin, Nigel E. Hussey, Steven T. Kessel, and Boris Worm. "The Conservation of the Greenland Shark (Somniosus microcephalus): Setting Scientific, Law, and Policy Coordinates for Avoiding a Species at Risk." Journal of International Wildlife Law & Policy 16, no. 4 (2013): 300–330. http://dx.doi.org/10.1080/13880292.2013.805073.

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42

Rusyaev, S. M., and A. M. Orlov. "Bycatches of the greenland shark Somniosus microcephalus (Squaliformes, Chondrichthyes) in the barents sea and the adjacent waters under bottom trawling data." Journal of Ichthyology 53, no. 1 (2013): 111–15. http://dx.doi.org/10.1134/s0032945213010128.

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43

Chernova, N. V., E. V. Smirnova, and E. V. Raskhozheva. "First record of the Greenland shark Somniosus microcephalus (Squaliformes: Somniosidae) in the Siberian Arctic with notes on its distribution and biology." Journal of Ichthyology 55, no. 6 (2015): 827–35. http://dx.doi.org/10.1134/s0032945215060053.

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44

Lu, Zhe, Aaron T. Fisk, Kit M. Kovacs, et al. "Temporal and spatial variation in polychlorinated biphenyl chiral signatures of the Greenland shark (Somniosus microcephalus) and its arctic marine food web." Environmental Pollution 186 (March 2014): 216–25. http://dx.doi.org/10.1016/j.envpol.2013.12.005.

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45

Mc Nicholl, Darcy G., Les N. Harris, Tracey Loewen, et al. "Noteworthy occurrences among six marine species documented with community engagement in the Canadian Arctic." Animal Migration 8, no. 1 (2021): 74–83. http://dx.doi.org/10.1515/ami-2020-0113.

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Abstract Arctic marine ecosystems are changing, one aspect of which appears to be distributional expansions of sub-arctic species. For Arctic marine systems, there is limited occurrence information for many species, especially those found in restricted habitats (e.g., ice-covered, far north, or deep-water). Increasing observations through on-going Fisheries and Oceans Canada (DFO) community-based monitoring programs (e.g., Arctic Coast, Cambridge Bay Arctic Char stock assessment, Arctic Salmon, and Kugluktuk coastal surveys), community observation networks, and local media have augmented oppor
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46

Hussey, Nigel E., Jack Orr, Aaron T. Fisk, Kevin J. Hedges, Steven H. Ferguson, and Amanda N. Barkley. "Mark report satellite tags (mrPATs) to detail large-scale horizontal movements of deep water species: First results for the Greenland shark (Somniosus microcephalus)." Deep Sea Research Part I: Oceanographic Research Papers 134 (April 2018): 32–40. http://dx.doi.org/10.1016/j.dsr.2018.03.002.

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47

Large, Philip A., Norman G. Graham, Nils-Roar Hareide, et al. "Lost and abandoned nets in deep-water gillnet fisheries in the Northeast Atlantic: retrieval exercises and outcomes." ICES Journal of Marine Science 66, no. 2 (2009): 323–33. http://dx.doi.org/10.1093/icesjms/fsn220.

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Abstract Large, P. A., Graham, N. G., Hareide, N-R., Misund, R., Rihan, D. J., Mulligan, M. C., Randall, P. J., Peach, D. J., McMullen, P. H., and Harlay, X. 2009. Lost and abandoned nets in deep-water gillnet fisheries in the Northeast Atlantic: retrieval exercises and outcomes. – ICES Journal of Marine Science, 66: 323–333. The methods used and the results, including estimates of ghost catches present at the time of retrieval, from Irish and UK (England and Wales) gillnet retrieval exercises carried out in deep-water gillnet fisheries west of the British Isles are described. Summaries of the
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48

Dennard, Susan T., M. Aaron MacNeil, Margaret A. Treble, Steven Campana, and Aaron T. Fisk. "Hierarchical analysis of a remote, Arctic, artisanal longline fishery." ICES Journal of Marine Science 67, no. 1 (2009): 41–51. http://dx.doi.org/10.1093/icesjms/fsp220.

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Abstract Dennard, S. T., MacNeil, M. A., Treble, M. A., Campana, S., and Fisk, A. T. 2010. Hierarchical analysis of a remote, Arctic, artisanal longline fishery. – ICES Journal of Marine Science, 67: 41–51. This is the first paper to explore trends in catch per unit effort (cpue) through time of a Greenland halibut Reinhardtius hippoglossoides stock targeted by an artisanal, winter fishery in Cumberland Sound on southern Baffin Island, Canada. We modelled cpue data from 1987 to 2003, looking at two questions: what factors have driven cpue trends, and is cpue an accurate index of a stock's abun
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49

Buijs, Cunera. "Museum collection decolonization and indigenous cultural heritage in an island community: East Greenland and the ‘Roots 2 Share’ Photo Project." Island Studies Journal 11, no. 2 (2016): 537–60. http://dx.doi.org/10.24043/isj.366.

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The Roots 2 Share project, a collaboration between two Dutch and two Greenlandic museums, was established to share museum collections and photographs housed in the Netherlands with the Tunumiit people of East Greenland. The Tunumiit regard the collections in the Netherlands as belonging to their cultural heritage, yet the Dutch maintain authority over the collections, leading to imbalanced power relations. This unequal relationship has its basis in museums’ colonial pasts and hinders the sharing and exchange of cultural heritage. As an island, Greenland is often regarded as the periphery in co
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50

Ivanov, O. A., and V. P. Shuntov. "Importance of fish species in the bottom and near-bottoml biotopes of the Far-Eastern Seas and Pacific waters of Russia." Izvestiya TINRO 202, no. 2 (2022): 268–82. http://dx.doi.org/10.26428/1606-9919-2022-202-268-282.

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Importance of fish species in the benthal ichthyocoenoses (up to depths of 2000 m) is discussed for the Russian waters in the Far-Eastern Seas and adjacent North-West Pacific on the data of bottom trawl surveys conducted by Pacific Fish. Res. Inst. (TINRO) in 1977–2010. The inverse Simpson index (or polydominance index) was chosen as a measure of dominance; Sorensen-Chekanovsky similarity index was used for comparative analysis of the dominance structure in ichthyocoenoses. The importance is determined for the top 20 species ranked by biomass (94.9 % of the total biomass of all demersal fish o
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