Relevant bibliographies by topics / Arctic distribution

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Arctic distribution'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Arctic distribution"

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Avetisov, Georgiy, and A. Jolondz. "ARCTIC." Zemletriaseniia Severnoi Evrazii [Earthquakes in Northern Eurasia], no. 22 (November 12, 2019): 268–72. http://dx.doi.org/10.35540/1818-6254.2019.22.24.

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The review of the Arctic basin seismicity for 2013 is presented. It is based mainly on the data from the sta-tions of world network, located outside the basin. The data from a single local seismic station was used. It was "Franz Josef Land" station with two sets of seismic sensors, ZF1 and ZF2. The station is a part the Ar-khangelsk network, operating in the region since September 2011. There were 38 earthquakes with mb=3.0–4.6 in the Arctic basin in total. A map of their epicenters is provided. 28 of them are connected with the seismically active zone, which extends through the deep-water par
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KUZMIN, I. V., G. J. HUGHES, A. D. BOTVINKIN, S. G. GRIBENCHA, and C. E. RUPPRECHT. "Arctic and Arctic-like rabies viruses: distribution, phylogeny and evolutionary history." Epidemiology and Infection 136, no. 4 (2007): 509–19. http://dx.doi.org/10.1017/s095026880700903x.

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SUMMARYForty-one newly sequenced isolates of Arctic and Arctic-like rabies viruses, were genetically compared to each other and to those available from GenBank. Four phylogenetic lineages of Arctic viruses were identified. Arctic-1 viruses circulate in Ontario, Arctic-2 viruses circulate in Siberia and Alaska, Arctic-3 viruses circulate circumpolarly, and a newly described lineage Arctic-4 circulates locally in Alaska. The oldest available isolates from Siberia (between 1950 and 1960) belong to the Arctic-2 and Arctic-3 lineages and share 98·6–99·2% N gene identity with contemporary viruses. T
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Kuzmin, I. V., G. J. Hughes, A. D. Botvinkin, S. G. Gribencha, and C. E. Rupprecht. "Arctic and Arctic-like rabies viruses: distribution, phylogeny and evolutionary history." Epidemiol Infect 136, no. 4 (2008): 509–19. https://doi.org/10.5281/zenodo.13527131.

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(Uploaded by Plazi for the Bat Literature Project) Forty-one newly sequenced isolates of Arctic and Arctic-like rabies viruses, were genetically compared to each other and to those available from GenBank. Four phylogenetic lineages of Arctic viruses were identified. Arctic-1 viruses circulate in Ontario, Arctic-2 viruses circulate in Siberia and Alaska, Arctic-3 viruses circulate circumpolarly, and a newly described lineage Arctic-4 circulates locally in Alaska. The oldest available isolates from Siberia (between 1950 and 1960) belong to the Arctic-2 and Arctic-3 lineages and share 98.6-99.2%
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Kuzmin, I. V., G. J. Hughes, A. D. Botvinkin, S. G. Gribencha, and C. E. Rupprecht. "Arctic and Arctic-like rabies viruses: distribution, phylogeny and evolutionary history." Epidemiol Infect 136, no. 4 (2008): 509–19. https://doi.org/10.5281/zenodo.13527131.

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(Uploaded by Plazi for the Bat Literature Project) Forty-one newly sequenced isolates of Arctic and Arctic-like rabies viruses, were genetically compared to each other and to those available from GenBank. Four phylogenetic lineages of Arctic viruses were identified. Arctic-1 viruses circulate in Ontario, Arctic-2 viruses circulate in Siberia and Alaska, Arctic-3 viruses circulate circumpolarly, and a newly described lineage Arctic-4 circulates locally in Alaska. The oldest available isolates from Siberia (between 1950 and 1960) belong to the Arctic-2 and Arctic-3 lineages and share 98.6-99.2%
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Kuzmin, I. V., G. J. Hughes, A. D. Botvinkin, S. G. Gribencha, and C. E. Rupprecht. "Arctic and Arctic-like rabies viruses: distribution, phylogeny and evolutionary history." Epidemiol Infect 136, no. 4 (2008): 509–19. https://doi.org/10.5281/zenodo.13527131.

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(Uploaded by Plazi for the Bat Literature Project) Forty-one newly sequenced isolates of Arctic and Arctic-like rabies viruses, were genetically compared to each other and to those available from GenBank. Four phylogenetic lineages of Arctic viruses were identified. Arctic-1 viruses circulate in Ontario, Arctic-2 viruses circulate in Siberia and Alaska, Arctic-3 viruses circulate circumpolarly, and a newly described lineage Arctic-4 circulates locally in Alaska. The oldest available isolates from Siberia (between 1950 and 1960) belong to the Arctic-2 and Arctic-3 lineages and share 98.6-99.2%
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Kuzmin, I. V., G. J. Hughes, A. D. Botvinkin, S. G. Gribencha, and C. E. Rupprecht. "Arctic and Arctic-like rabies viruses: distribution, phylogeny and evolutionary history." Epidemiol Infect 136, no. 4 (2008): 509–19. https://doi.org/10.5281/zenodo.13527131.

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(Uploaded by Plazi for the Bat Literature Project) Forty-one newly sequenced isolates of Arctic and Arctic-like rabies viruses, were genetically compared to each other and to those available from GenBank. Four phylogenetic lineages of Arctic viruses were identified. Arctic-1 viruses circulate in Ontario, Arctic-2 viruses circulate in Siberia and Alaska, Arctic-3 viruses circulate circumpolarly, and a newly described lineage Arctic-4 circulates locally in Alaska. The oldest available isolates from Siberia (between 1950 and 1960) belong to the Arctic-2 and Arctic-3 lineages and share 98.6-99.2%
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Dreiling, Volker, and Berthold Friederich. "Spatial distribution of the arctic haze aerosol size distribution in western and eastern Arctic." Atmospheric Research 44, no. 1-2 (1997): 133–52. http://dx.doi.org/10.1016/s0169-8095(96)00035-x.

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D’Angelo, Alessandra, Nicole Trenholm, Brice Loose, Laura Glastra, Jacob Strock, and Jongsun Kim. "Microplastics Distribution within Western Arctic Seawater and Sea Ice." Toxics 11, no. 9 (2023): 792. http://dx.doi.org/10.3390/toxics11090792.

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Microplastic pollution has emerged as a global environmental concern, exhibiting wide distribution within marine ecosystems, including the Arctic Ocean. Limited Arctic microplastic data exist from beached plastics, seabed sediments, floating plastics, and sea ice. However, no studies have examined microplastics in the sea ice of the Canadian Arctic Archipelago and Tallurutiup Imanga National Marine Conservation Area, and few have explored Arctic marginal seas’ water column. The majority of the microplastic data originates from the Eurasian Arctic, with limited data available from other regions
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Lameris, Thomas K., Jeroen Hoekendijk, Geert Aarts, et al. "Migratory vertebrates shift migration timing and distributions in a warming Arctic." Animal Migration 8, no. 1 (2021): 110–31. http://dx.doi.org/10.1515/ami-2020-0112.

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Abstract Climate warming in the Arctic has led to warmer and earlier springs, and as a result, many food resources for migratory animals become available earlier in the season, as well as become distributed further northwards. To optimally profit from these resources, migratory animals are expected to arrive earlier in the Arctic, as well as shift their own spatial distributions northwards. Here, we review literature to assess whether Arctic migratory birds and mammals already show shifts in migration timing or distribution in response to the warming climate. Distribution shifts were most prom
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Vihtakari, Mikko, Robinson Hordoir, Margaret Treble, et al. "Pan-Arctic suitable habitat model for Greenland halibut." ICES Journal of Marine Science 78, no. 4 (2021): 1340–56. http://dx.doi.org/10.1093/icesjms/fsab007.

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Abstract Deep-sea marine fishes support important fisheries but estimates of their distributions are often incomplete as the data behind them may reflect fishing practices, access rights, or political boundaries, rather than actual geographic distributions. We use a simple suitable habitat model based on bottom depth, temperature, and salinity to estimate the potential distribution of Greenland halibut (Reinhardtius hippoglossoides). A large presence-only dataset is examined using multivariate kernel densities to define environmental envelopes, which we link to spatial distribution using a pan
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Dissertations / Theses on the topic "Arctic distribution"

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Lipscomb, William H. "Modeling the thickness distribution of Arctic sea ice /." Thesis, Connect to this title online; UW restricted, 1998. http://hdl.handle.net/1773/10081.

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Llinas, Leopoldo. "Distribution, Reproduction, and Transport of Zooplankton in the Western Arctic." Scholarly Repository, 2008. http://scholarlyrepository.miami.edu/oa_dissertations/25.

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This dissertation focuses on the distribution, reproduction, and transport of zooplankton in the Chukchi and Beaufort seas and adjacent Canada Basin. Specifically, it analyzes 1) the species-specific distribution of copepod nauplii as it is forced by the surface layer mesoscale circulation and physical properties, 2) the reproduction of the dominant copepod Calanus glacialis in the western Arctic, and 3) the effects of eddy transport on the zooplankton community in the Chukchi and Beaufort seas and Canada Basin. To achieve this I adapted a molecular identification method to work with small cru
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Wayolle, Audrey A. J. "Multiscale soil carbon distribution in two Sub-Arctic landscapes." Thesis, University of Stirling, 2011. http://hdl.handle.net/1893/6502.

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In recent years, concern has grown over the consequences of global warming. The arctic region is thought to be particularly vulnerable to increasing temperatures, and warming is occurring here substantially more rapidly than at lower latitudes. Consequently, assessments of the state of the Arctic are a focus of international efforts. For the terrestrial Arctic, large datasets are generated by remote sensing of above-ground variables, with an emphasis on vegetation properties, and, by association, carbon fluxes. However, the terrestrial component of the carbon (C) cycle remains poorly quantifie
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Dalén, Love. "Distribution and abundance of genetic variation in the arctic fox." Doctoral thesis, Stockholms universitet, Zoologiska institutionen, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-726.

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This thesis investigates how changes in population size and spatial movements of individuals have shaped the distribution and abundance of neutral genetic variation in the arctic fox. This is done through mitochondrial and microsatellite DNA analyses on samples covering most of the species’ distribution, but with special emphasis on Scandinavia. On the species level, nucleotide diversity was relatively low, which indicated a historical expansion in population size in connection with the onset of the last Ice Age. It is thus possible that the glacial cycles have affected the arctic fox, and oth
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Dalén, Love. "Distribution and abundance of genetic variation in the arctic fox /." Stockholm : Dept. of Zoology, Stockholm University, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-726.

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Thaler, Mary. "Diversity and distribution of heterotrophic flagellates in the Arctic Ocean." Thesis, Université Laval, 2014. http://www.theses.ulaval.ca/2014/30411/30411.pdf.

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Dans les environnements marins arctiques, les protistes unicellulaires constituent les premiers maillons du réseau trophique. Les flagellés hétérotrophes (HF) jouent un rôle clé au sein de ce réseau trophique comme brouteurs de bactéries et de phytoplanctons, étant broutés à leur tour par les microzooplanctons comme les dinoflagellés ou les ciliés. Les scientifiques prévoient que les changements environnementaux extrêmes qui ont présentement lieu dans l’Océan Arctique transformeront ces communautés de protistes. Le sujet de cette thèse porte sur la composition taxonomique des communautés marin
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Baroudy, Ellysar. "Some factors affecting survival and distribution of Arctic charr (Salvelinus alpinus (L.)) in Windermere." Thesis, Lancaster University, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.334024.

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Shannon, Kerrie Ann. "Readiness and skill in an arctic environment : procurement, distribution and game playing." Thesis, University of Aberdeen, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.401181.

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In this dissertation I provide an ethnographic account of life in Coral Harbour, a predominantly Inuit community in Nunavut, Canada.  I specifically address aspects of procurement and everyday life that have often been under-represented in other Canadian Arctic ethnographies.  Whereas Arctic research commonly emphasises the importance of hunting as a major procurement activity, I focus specifically on other procurement activities that are separate from hunting.  Through an examination of women’s, children’s, and men’s activities in procurement, I address a lacuna in the literature and provide
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Chaulk, Amanda Holly. "Distribution and partitioning of mercury in the Arctic cryosphere: transport across snow-sea ice-water interfaces in the western Arctic Ocean." ACS Publications, 2011. http://hdl.handle.net/1993/4895.

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The high toxicity and ability to be transported over long distances and biomagnify up food chains have earned Mercury (Hg) recognition as a contaminant of global concern. The Arctic region is particularly vulnerable to Hg with high levels of Hg being detected in marine mammals. The importance of the cryosphere, especially sea ice, has often been neglected in considerations of the extent to which atmospherically derived Hg impinges on the underlying marine system. This thesis reports the first systematic study of Hg transport in the Arctic cryosphere (sea ice, brine, snow, and melt ponds) con
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Gardiner, Kathleen. "The role of cephalopods in the Canadian Arctic – an examination of their distribution, biogeography and trophic interactions within the Canadian eastern Arctic." Co-action Publishing, 2010. http://hdl.handle.net/1993/30747.

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This thesis establishes baseline information on the distribution, biogeographical variability, habitat preference and trophic interactions for the most common Canadian Arctic cephalopod species: Gonatus fabricii, Rossia moelleri, R. palpebrosa, Bathypolypus species complex and Cirroteuthis muelleri. Records of Arctic cephalopods and their predators were compiled and areas of interest within the Canadian Arctic were identified. Morphometric analyses of G. fabricii and R. palpebrosa identified potential populations and described the key morphometric characters associated with each population.
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Books on the topic "Arctic distribution"

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L, McJannet Cheryl, ed. Rare vascular plants in the Canadian Arctic. Canadian Museum of Nature, 1993.

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Osterman, Lisa E. Distribution of benthic foraminifers (>125 um) in the surface sediments of the Arctic Ocean. U. S. Geological Survey, 1999.

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Osterman, Lisa E. Distribution of benthic foraminifers (>125 µm) in the surface sediments of the Arctic Ocean. U. S. Geological Survey, 1999.

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Barry, Hargrave, ed. Distribution of chlorinated hydrocarbon pesticides and PCBs in the Arctic Ocean. Fisheries and Oceans, 1989.

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Dickson, D. Lynne. Seasonal movement of king eiders breeding in western Arctic Canada and northern Alaska. Canadian Wildlife Service, 2012.

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Skaar, Don. Distribution, relative abundance and habitat utilization of the arctic grayling (Thymallus arcticus) in the upper Big Hole River drainage, Montana: July 5 to September 8, 1988. The Program, 1989.

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Mallory, M. L. Monitoring northern fulmars in the Canadian Arctic: Plot locations and counts at selected colonies. Canadian Wildlife Service, 2005.

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Robinson, Scott R. Movements and distribution of western Arctic caribou herd across Buckland Valley and Nulato Hills, winter of 1986-87. U.S. Dept. of the Interior, Bureau of Land Management, 1987.

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Mumm, Nicolai. Zur sommerlichen Verteilung des Mesozooplanktons im Nansen-Becken, Nordpolarmeer =: On the summerly distribution of mesozooplankton in the Nansen Basin, Arctic Ocean. Alfred-Wegener-Institut für Polar- und Meeresforschung, 1991.

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American Ornithologists' Union. Committee on Classification and Nomenclature., ed. Check-list of North American birds: The species of birds of North America from the Arctic through Panama, including the West Indies and Hawaiian Islands. 7th ed. The Union, 1998.

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Book chapters on the topic "Arctic distribution"

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Petryashov, V. V. "Arctic Ocean Mysids (Crustacea, Mysidacea): Evolution, Composition, and Distribution." In The Arctic Seas. Springer US, 1989. http://dx.doi.org/10.1007/978-1-4613-0677-1_15.

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Rantala, Outi, Veera Kinnunen, Emily Höckert, et al. "Staying Proximate." In Arctic Encounters. Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-39500-0_1.

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AbstractThe introductory chapter ‘Staying proximate’ welcomes the reader to stay with more-than-human relations in present times of ecological crisis, known as the age of the Anthropocene. The chapter joins feminist, postcolonial, and Indigenous environmental scholars’ call for more nuanced alternatives to the Anthropocenic imaginary, ones that attend to the multiplicity, difference, and uneven distribution of more-than-human responsibilities, vulnerabilities, and sufferings in the world. We seek alternatives to the distancing, generalising, and even apocalyptic imaginaries of the Anthropocene
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Schumacher, Trond, and Sigmund Sivertsen. "Sarcoleotia Globosa (Sommerf.: Fr.) Korf, Taxonomy, Ecology and Distribution." In Arctic and Alpine Mycology II. Springer US, 1987. http://dx.doi.org/10.1007/978-1-4757-1939-0_12.

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Melchiorre, Tiziana. "A new distribution of power in the Arctic." In Legal and Geopolitical Complexity in the Arctic. Routledge, 2025. https://doi.org/10.4324/9781032633008-2.

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Mallory, M. L., A. J. Gaston, H. G. Gilchrist, G. J. Robertson, and B. M. Braune. "Effects of Climate Change, Altered Sea-Ice Distribution and Seasonal Phenology on Marine Birds." In A Little Less Arctic. Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9121-5_9.

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Belyaeva, N. V., and T. A. Khusid. "Distribution Patterns of Calcareous Foraminifers in Arctic Ocean Sediments." In Geological History of the Polar Oceans: Arctic versus Antarctic. Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-2029-3_17.

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Černý, Jiří, Jana Elsterová, and Lauren Culler. "Melting, melting pot - climate change and its impact on ticks and tick-borne pathogens in the Arctic." In Climate, ticks and disease. CABI, 2021. http://dx.doi.org/10.1079/9781789249637.0067.

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Abstract This expert opinion defines the Arctic and its ecological conditions for ticks and discusses the potential impact of climatic change on the abundance and distribution of ticks and associated tick-borne diseases.
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Petryashov, V. V., B. I. Sirenko, A. A. Golikov, et al. "Macrobenthos Distribution in the Laptev Sea in Relation to Hydrology." In Land-Ocean Systems in the Siberian Arctic. Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-642-60134-7_17.

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Naidina, O. D., and H. A. Bauch. "Distribution of Pollen and Spores in Surface Sediments of the Laptev Sea." In Land-Ocean Systems in the Siberian Arctic. Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-642-60134-7_44.

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Cremer, H. "Spatial Distribution of Diatom Surface Sediment Assemblages on the Laptev Sea Shelf (Russian Arctic)." In Land-Ocean Systems in the Siberian Arctic. Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-642-60134-7_41.

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Conference papers on the topic "Arctic distribution"

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Sackinger, W. M., and Bertrand Theuveny. "Method of Calculation of Cathodic Protection Current Distribution for Steel Offshore Structures in the Arctic." In CORROSION 1986. NACE International, 1986. https://doi.org/10.5006/c1986-86398.

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Abstract Cathodic protection from impressed current sources presents many attractive characteristics for use on offshore structures in the Arctic. Because of the larger variability and adaptability which the impressed current method allows, it will be preferred in comparison with the use of sacrificial anodes. The main part of this study focuses on the winter case, when an ice rubble pile surrounds the structure. A computer-aided engineering tool for cathodic protection analysis, tailored for the arctic marine environment, is presented. A parametric study determines which of the variables affe
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Hazel, Terence, and Adrian Woodroffe. "Power Distribution for Arctic Subsea Tiebacks." In OTC Arctic Technology Conference. Offshore Technology Conference, 2012. http://dx.doi.org/10.4043/23819-ms.

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Alexeev, Denis. "DISTRIBUTION OF RADIOCAESIUM IN ARCTIC MARINE SEDIMENTS." In 18th International Multidisciplinary Scientific GeoConference SGEM2018. Stef92 Technology, 2018. http://dx.doi.org/10.5593/sgem2018/3.2/s15.140.

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Williams, Brock. "Verifying Permeability Distribution Using Interventionless Production Logging Technology." In Arctic Technology Conference. Offshore Technology Conference, 2016. http://dx.doi.org/10.4043/27399-ms.

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Mudge, Todd, Keath Borg, Kaan Ersahin, Ed Ross, Dawn Sadowy, and Jessy Barrette. "Estimation and Validation of Floe Size Distribution from Upward Looking Sonars." In Arctic Technology Conference. Offshore Technology Conference, 2016. http://dx.doi.org/10.4043/27481-ms.

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AbuHussein, Ahmed, Nicholas Ingalls, Md Ashraf Hossain Sadi, and Mohammad AbuAgreb. "Transient Stability Microgrid Model for Arctic Community Integration." In 2020 IEEE/PES Transmission and Distribution Conference and Exposition (T&D). IEEE, 2020. http://dx.doi.org/10.1109/td39804.2020.9300024.

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Dadman, S., and B. A. Bremdal. "Using light weight electric vehicles for V2G services in the Arctic." In 27th International Conference on Electricity Distribution (CIRED 2023). Institution of Engineering and Technology, 2023. http://dx.doi.org/10.1049/icp.2023.1230.

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Huang, Xianghui, and Samuel T. McJunkin. "AC Ring Distribution: Architecture for Subsea Power Distribution." In ASME 2010 29th International Conference on Ocean, Offshore and Arctic Engineering. ASMEDC, 2010. http://dx.doi.org/10.1115/omae2010-20599.

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Subsea power transmission and distribution is an emerging technology that may enable the oil and gas industry to produce hydrocarbon reserves in deeper and more remote offshore waters. The longer tieback subsea operations will likely require pumps and compressors driven by electric motors to be located on the sea floor to pressure boost the oil and gas to surface and/or onshore platforms. Existing HVAC and HVDC technologies are efficient means for subsea power transmission and distribution. However, they are subject to a variety of limitations, for instance, the single-point failures that woul
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Sand, B., and L. Fransson. "Influence of Structural Geometry on the Ice Pressure Distribution on Vertical Structures." In OTC Arctic Technology Conference. Offshore Technology Conference, 2011. http://dx.doi.org/10.4043/22095-ms.

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Saha, Debashish, Saeed Reza Dehghani, Kevin Pope, and Yuri Muzychka. "Temperature Distribution during Solidification of Saline and Fresh Water Droplets after Striking a Super-Cooled Surface." In Arctic Technology Conference. Offshore Technology Conference, 2016. http://dx.doi.org/10.4043/27421-ms.

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Reports on the topic "Arctic distribution"

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Edlund, S. A. The distribution of plant communities on Melville Island, Arctic Canada. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1994. http://dx.doi.org/10.4095/194026.

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Flanner, Mark. Using ARM Measurements to Improve the Simulated Vertical Distribution of Arctic Aerosols in the Community Atmosphere Model: Final Technical Report. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1569645.

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Rykken, Jessica. Pollinator diversity and floral associations in subarctic sand dunes of Kobuk Valley National Park, Alaska. National Park Service, 2024. http://dx.doi.org/10.36967/2302008.

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Active sand dunes in Kobuk Valley National Park are a regionally rare and ecologically distinct landscape feature occurring within the northern boreal biome. The sand dunes harbor a rich diversity of plants, including several rare and disjunct species and the endemic Kobuk locoweed (Oxytropis kobukensis). Pollinators associated with these dune plants have not been studied in Kobuk Valley, despite their essential role in transporting pollen which many plants rely on for successful reproduction. In order to gain a better understanding of pollinator diversity and plant-pollinator associations in
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Moore, R. M. Oceanographic Distributions of Zinc, Cadmium, Copper and Aluminium in Waters of the Central Arctic. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1989. http://dx.doi.org/10.4095/126776.

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Moore, R. M. The Relationship Between Distributions of Dissolved Cadmium, Iron and Aluminium and Hydrography in the Central Arctic Ocean. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1989. http://dx.doi.org/10.4095/126777.

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Henderson, Tim, Vincent Santucci, Tim Connors, and Justin Tweet. National Park Service geologic type section inventory: Central Alaska Inventory & Monitoring Network. National Park Service, 2022. http://dx.doi.org/10.36967/nrr-2293381.

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A fundamental responsibility of the National Park Service (NPS) is to ensure that park resources are preserved, protected, and managed in consideration of the resources themselves and for the benefit and enjoyment by the public. Through the inventory, monitoring, and study of park resources, we gain a greater understanding of the scope, significance, distribution, and management issues associated with these resources and their use. This baseline of natural resource information is available to inform park managers, scientists, stakeholders, and the public about the conditions of these resources
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Joly, Kyle, Matthew Cameron, Matthew Cameron, and Kyle Joly. Caribou vital sign annual report for the Arctic Network Inventory and Monitoring Program: September 2023?August 2024. National Park Service, 2024. http://dx.doi.org/10.36967/2306687.

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Abstract:
Caribou (Rangifer tarandus) are an integral part of the ecological and cultural fabric of northwest Alaska. Western Arctic Herd (WAH) caribou roam this entire region, including all 5 Arctic Network (ARCN) Inventory and Monitoring Program?s National Park units. Conservation of healthy caribou populations is specifically mentioned within the enabling legislation (Alaska National Interested Lands Conservation Act) for 3 of these units and is of importance to subsistence hunters. Caribou are, by far, the most abundant large mammal in northwest Alaska and are famous for their long-distance migratio
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Joly, Kyle, and Matthew Cameron. Caribou vital sign annual report for the Arctic Network Inventory and Monitoring Program: September 2022?August 2023. National Park Service, 2023. http://dx.doi.org/10.36967/2301773.

Full text
Abstract:
Caribou (Rangifer tarandus) are an integral part of the ecological and cultural fabric of northwest Alaska. Western Arctic Herd (WAH) caribou roam over this entire region, including all 5 Arctic Network (ARCN) Inventory and Monitoring Program?s National Park units. Conservation of healthy caribou populations is specifically mentioned within the enabling legislation (Alaska National Interested Lands Conservation Act or ANILCA) for 3 of these park units and is of importance to subsistence hunters. Caribou are, by far, the most abundant large mammal in northwest Alaska and are famous for their lo
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9

Distribution of benthic foraminifers (>125 um) in the surface sediments of the Arctic Ocean. US Geological Survey, 1999. http://dx.doi.org/10.3133/b2164.

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