DOCSLIB.ORG

Printed Publications of the Canadian Oceanographic Data Centre

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Printed Publications of the Canadian Oceanographic Data Centre PRINTED PUBLICATIONS OF THE CANADIAN OCEANOGRAPHIC DATA CENTRE CODC- S Index 008781 PRINTED PUBLICATIONS OF THE CANADIAN OCEANOGRAPHIC DATA CENTRE YEAR NO. TITLE 1963 1 Grand Bank and St. Pierre Bank 2 Ocean Weather Station "P" 3 Ocean Weather Station "P" 4 Five Arctic Surveys 5 Cape Parry Area, N.W.T. 6 Ocean Weather Station "P" 1964 1 Hudson Bay Project, 1961 2 Franklin and Darnley Bays, N.W.T. 3 Southern Labrador to Northern Grand Bank 4 Scotian Shelf 5 Ocean Weather Station "P" 6 Scotian Shelf, Halifax Section 7 Halifax Approaches and Cabot Strait 8 Gulf of St. Lawrence 9 South East of Grand Banks 10 South East of Grand Banks 11 Scotian Shelf - Tail of Grand Banks 12 Hudson Bay Project 1961 13 Great Bear Lake, N.W.T. 1963 14 ICNAF Norwestlant - 2 Surveys 15 Ocean Weather Station "P" 16 Scotian Shelf, Cabot Strait & Continental Slope 17 Southern Labrador and Grand Banks - 1963 18 Eastern Arctic - 1960 19 Gulf of St. Lawrence 20 Ocean Weather Station "P" 1965 1 Gulf of St. Lawrence 2 Gulf of St. Lawrence 3 Ocean Weather Station "P" 4 .Halifax Section & Scotian Shelf - 4 Surveys 5 Gulf of St. Lawrence 6 Gulf of St. Lawrence (Strait of Belle Isle) 7 Ocean Weather Station "P" 8 Ocean Weather Station "P" 9 Gulf of St. Lawrence 10 North Atlantic, East of Nova Scotia, South of Grand Banks, 2 Surveys 11 Baffin Bay, Smith Sound to Strait of Belle Isle 12 Saguenay and Gulf of St. Lawrence 13 Grand Banks to the Azores DBRARY 1NSTITUTE OF OCEAN SCIENCES ... /2 2 YEAR NO. TITLE 1966 l Ocean Weather Station "P" 2 Western North Atlantic and Caribbean Sea 3 Ocean Weather Station "P" 4 Arctic, Hudson Bay and Hudson Strait 5 Ocean Weather Station "P" 6 Ocean Weather Station "P" 7 Gulf Stream between Cape Cod and Bermuda 8 Ocean Weather Station "P" 9 Gulf of St. Lawrence and Halifax Section 10 Gulf of St. Lawrence, Halifax Section and Scotian Shelf to Grand Banks 11 Ocean Weather Station "P" 12 Arctic 1961 13 Great Bear Lake, N.W.T. 1967 l Gulf of St. Lawrence 2 Sable Island to Grand Banks 3 Cabot Strait 4 Baffin Bay, 1962 5 Ocean Weather Station "P" 6 Ocean Weather Station "P" 7 Baffin Bay, 1963 8 Ocean Weather Station "P" 1968 l Stanwell-Fletcher Lake, Somerset Island, N.W.T., 1965-1966 2 Ocean Weather Station "P" 3 Gulf of St. Lawrence 4 Hudson Bay, Hudson Strait and Arctic 5 Ocean Weather Station "P" 6 Baffin Bay Bathythermograms 7 Scotian Shelf 8 Observation of Seawater Temperature and Salinity on the Pacific Coast of Canada, 1966 9 Ocean Weather Station "P" 1969 l Labrador and Irminger Seas 2 Grand Banks to the Azores and Scotian Shelf 3 Ocean Weather Station "P" 4 East Greenland, Denmark Strait and Irminger Sea 5 Cabot Strait 6 Ocean Weather Station "P" 7 Davis Strait and Northern Labrador Sea 8 Gulf of St. Lawrence and Scotian Shelf 9 Scotian Shelf 10 Ocean Weather Station "P" 11 Gulf of St. Lawrence 12 Ocean Weather Station "P" 13 Operation Tanquary, Ellesmere Island, N.W.T., 1963-1966 ... /3 3 YEAR NO. TITLE 1970 1 Generator Lake, Baffin Island, N.W.T. and Tasiujaq Cove, Ekalugad Fiord, Baffin Island, N.W.T., 1968 1971 1 Gulf of St. Lawrence - 2 Surveys, June 18-30, 1968 and June 16-July 1, 1968 2 Gulf of St. Lawrence·, Sept. 17-Oct. 7, 1969 1972 1 Gulf of St. Lawrence, Nov. 18-28, 1971 1973 1 Gulf of St. Lawrence 2 James Bay, July 20-Oct. 30, 1972 26-11-81 .
Load more

Recommended publications
  • Re-Evaluation of Strike-Slip Displacements Along and Bordering Nares Strait
    Polarforschung 74 (1-3), 129 – 160, 2004 (erschienen 2006) In Search of the Wegener Fault: Re-Evaluation of Strike-Slip Displacements Along and Bordering Nares Strait by J. Christopher Harrison1 Abstract: A total of 28 geological-geophysical markers are identified that lich der Bache Peninsula und Linksseitenverschiebungen am Judge-Daly- relate to the question of strike slip motions along and bordering Nares Strait. Störungssystem (70 km) und schließlich die S-, später SW-gerichtete Eight of the twelve markers, located within the Phanerozoic orogen of Kompression des Sverdrup-Beckens (100 + 35 km). Die spätere Deformation Kennedy Channel – Robeson Channel region, permit between 65 and 75 km wird auf die Rotation (entgegen dem Uhrzeigersinn) und ausweichende West- of sinistral offset on the Judge Daly Fault System (JDFS). In contrast, eight of drift eines semi-rigiden nördlichen Ellesmere-Blocks während der Kollision nine markers located in Kane Basin, Smith Sound and northern Baffin Bay mit der Grönlandplatte zurückgeführt. indicate no lateral displacement at all. Especially convincing is evidence, presented by DAMASKE & OAKEY (2006), that at least one basic dyke of Neoproterozoic age extends across Smith Sound from Inglefield Land to inshore eastern Ellesmere Island without any recognizable strike slip offset. INTRODUCTION These results confirm that no major sinistral fault exists in southern Nares Strait. It is apparent to both earth scientists and the general public To account for the absence of a Wegener Fault in most parts of Nares Strait, that the shape of both coastlines and continental margins of the present paper would locate the late Paleocene-Eocene Greenland plate boundary on an interconnected system of faults that are 1) traced through western Greenland and eastern Arctic Canada provide for a Jones Sound in the south, 2) lie between the Eurekan Orogen and the Precam- satisfactory restoration of the opposing lands.
    [Show full text]
  • Canada's Arctic Marine Atlas
    Lincoln Sea Hall Basin MARINE ATLAS ARCTIC CANADA’S GREENLAND Ellesmere Island Kane Basin Nares Strait N nd ansen Sou s d Axel n Sve Heiberg rdr a up Island l Ch ann North CANADA’S s el I Pea Water ry Ch a h nnel Massey t Sou Baffin e Amund nd ISR Boundary b Ringnes Bay Ellef Norwegian Coburg Island Grise Fiord a Ringnes Bay Island ARCTIC MARINE z Island EEZ Boundary Prince i Borden ARCTIC l Island Gustaf E Adolf Sea Maclea Jones n Str OCEAN n ait Sound ATLANTIC e Mackenzie Pe Ball nn antyn King Island y S e trait e S u trait it Devon Wel ATLAS Stra OCEAN Q Prince l Island Clyde River Queens in Bylot Patrick Hazen Byam gt Channel o Island Martin n Island Ch tr. Channel an Pond Inlet S Bathurst nel Qikiqtarjuaq liam A Island Eclipse ust Lancaster Sound in Cornwallis Sound Hecla Ch Fitzwil Island and an Griper nel ait Bay r Resolute t Melville Barrow Strait Arctic Bay S et P l Island r i Kel l n e c n e n Somerset Pangnirtung EEZ Boundary a R M'Clure Strait h Island e C g Baffin Island Brodeur y e r r n Peninsula t a P I Cumberland n Peel Sound l e Sound Viscount Stefansson t Melville Island Sound Prince Labrador of Wales Igloolik Prince Sea it Island Charles ra Hadley Bay Banks St s Island le a Island W Hall Beach f Beaufort o M'Clintock Gulf of Iqaluit e c n Frobisher Bay i Channel Resolution r Boothia Boothia Sea P Island Sachs Franklin Peninsula Committee Foxe Harbour Strait Bay Melville Peninsula Basin Kimmirut Taloyoak N UNAT Minto Inlet Victoria SIA VUT Makkovik Ulukhaktok Kugaaruk Foxe Island Hopedale Liverpool Amundsen Victoria King
    [Show full text]
  • Glaciated Landscapes Along Smith Sound, Ellesmere Island, Canada and Greenland
    Annals of Glaciology 28 1999 # International Glaciological Society Glaciated landscapes along Smith Sound, Ellesmere Island, Canada and Greenland Weston Blake, Jr Geological Survey of Canada, Ottawa, Ontario K1A 0E8, Canada ABSTRACT. Both the Ellesmere Island and Greenland coasts of Smith Sound, at 78³20' Nto 78³50 ' N, exhibit exceptionally well-sculptured and heavily striated Pre- cambrian bedrock.The glacial features were created by the southward flow of the ``Smith Sound Ice Stream'', which overrode Pim Island .550 m), where Smith Sound is 4500 m deep and 40 km wide. The Smith Sound Ice Stream was the drainageway to Baffin Bay for ice derived from the coalescence of the Innuitian and Greenland ice sheets over Kane Basin, the shallowest part .much of it 5200 m) of the Nares Strait system, in late-Wisconsinan .Weichselian) time. The north^south oriented glacial features along the outermost coasts of Smith Sound contrast markedly with the present-day eastward flow of outlet glaciers from the Prince of Wales Icefield .Ellesmere Island) and the westward flow of outlet glaciers from the Greenland ice sheet .Inglefield Land).The oldest 14C ages on marine shells and lake sediments show that glacier ice had receded from the Ellesmere Island coast of Smith Sound by 900014 CyrBP. The heads of the three longest fiords,120^140 km to the west and northwest, did not become ice-free until 450014CyrBP. INTRODUCTION .Carey Òer, Fig.1), 225 km south of Rice Strait in northern Baffin Bay, with the PearyAuxiliary Expedition in 1894: When Per Schei, geologist on the Second Norwegian Arctic ``Theyare very notably abraded by glacial action coming from Expedition in the Fram .1898^1902), reported on the results of the north.
    [Show full text]
  • Publications in Biological Oceanography, No
    National Museums National Museum of Canada of Natural Sciences Ottawa 1971 Publications in Biological Oceanography, No. 3 The Marine Molluscs of Arctic Canada Elizabeth Macpherson CALIFORNIA OF SCIK NCCS ACADEMY |] JAH ' 7 1972 LIBRARY Publications en oceanographie biologique, no 3 Musees nationaux Musee national des du Canada Sciences naturelles 1. Belcher Islands 2. Evans Strait 3. Fisher Strait 4. Southampton Island 5. Roes Welcome Sound 6. Repulse Bay 7. Frozen Strait 8. Foxe Channel 9. Melville Peninsula 10. Frobisher Bay 11. Cumberland Sound 12. Fury and Hecia Strait 13. Boothia Peninsula 14. Prince Regent Inlet 15. Admiralty Inlet 16. Eclipse Sound 17. Lancaster Sound 18. Barrow Strait 19. Viscount Melville Sound 20. Wellington Channel 21. Penny Strait 22. Crozier Channel 23. Prince Patrick Island 24. Jones Sound 25. Borden Island 26. Wilkins Strait 27. Prince Gustaf Adolf Sea 28. Ellef Ringnes Island 29. Eureka Sound 30. Nansen Sound 31. Smith Sound 32. Kane Basin 33. Kennedy Channel 34. Hall Basin 35. Lincoln Sea 36. Chantrey Inlet 37. James Ross Strait 38. M'Clure Strait 39. Dease Strait 40. Melville Sound 41. Bathurst Inlet 42. Coronation Gulf 43. Dolphin and Union Strait 44. Darnley Bay 45. Prince of Wales Strait 46. Franklin Bay 47. Liverpool Bay 48. Mackenzie Bay 49. Herschel Island Map 1 Geographical Distribution of Recorded Specimens CANADA DEPARTMENT OF ENERGY, MINES AND RESOURCES CANADASURVEYS AND MAPPING BRANCH A. Southeast region C. North region B. Northeast region D. Northwest region Digitized by tlie Internet Archive in 2011 with funding from California Academy of Sciences Library http://www.archive.org/details/publicationsinbi31nati The Marine Molluscs of Arctic Canada Prosobranch Gastropods, Chitons and Scaphopods National Museum of Natural Sciences Musee national des sciences naturelles Publications in Biological Publications d'oceanographie Oceanography, No.
    [Show full text]
  • A Catch History for Atlantic Walruses (Odobenus Rosmarus Rosmarus)
    A catch history for Atlantic walruses (Odobenus rosmarus rosmarus ) in the eastern Canadian Arctic D. Bruce Stewart 1,* , Jeff W. Higdon 2, Randall R. Reeves 3, and Robert E.A. Stewart 4 1 Arctic Biological Consultants, Winnipeg, Manitoba, R3V 1X2, Canada * Corresponding author; Email: [email protected] 2 Higdon Wildlife Consulting, 912 Ashburn Street, Winnipeg, Manitoba, R3G 3C9, Canada 3 Okapi Wildlife Associates, 27 Chandler Lane, Hudson, Quebec, J0P 1H0, Canada 5 501 University Crescent, Freshwater Institute, Fisheries and Oceans Canada, Central and Arctic Region, Winnipeg, Manitoba, R3T 2N6, Canada ABSTRACT Knowledge of changes in abundance of Atlantic walruses ( Odobenus rosmarus rosmarus ) in Canada is important for assessing their current population status. This catch history collates avail - able data and assesses their value for modelling historical populations to inform population recov - ery and management. Pre-historical (archaeological), historical (e.g., Hudson’s Bay Company journals) and modern catch records are reviewed over time by data source (whaler, land-based commercial, subsistence etc.) and biological population or management stock. Direct counts of walruses landed as well as estimates based on hunt products (e.g., hides, ivory) or descriptors (e.g., Peterhead boatloads) support a minimum landed catch of over 41,300 walruses in the eastern Canadian Arctic between 1820 and 2010, using the subsample of information examined. Little is known of Inuit catches prior to 1928, despite the importance of walruses to many Inuit groups for subsistence. Commercial hunting from the late 1500s to late 1700s extirpated the Atlantic walrus from southern Quebec and the Atlantic Provinces, but there was no commercial hunt for the species in the Canadian Arctic until ca.
    [Show full text]
  • An Aircraft-Based Study of Strong Gap Flows in Nares Strait, Greenland
    NOVEMBER 2018 H E I N E M A N N 3589 An Aircraft-Based Study of Strong Gap Flows in Nares Strait, Greenland GÜNTHER HEINEMANN Department of Environmental Meteorology, University of Trier, Trier, Germany (Manuscript received 16 May 2018, in final form 29 August 2018) ABSTRACT Gap flows and the stable boundary layer were studied in northwest Greenland during the aircraft-based Investigation of Katabatic Winds and Polynyas during Summer (IKAPOS) experiment in June 2010. The measurements were performed using the research aircraft POLAR 5 of Alfred Wegener Institute (AWI; Bremerhaven). Besides navigational and basic meteorological instrumentation, the aircraft was equipped with radiation and surface temperature sensors and a turbulence measurement system. In the area of Smith Sound at the southern end of the Nares Strait, a stable, but fully turbulent, boundary layer with strong winds of 2 up to 22 m s 1 was found during conditions of synoptically induced northerly winds through the Nares Strait. Strong surface inversions were present in the lowest 100–200 m. As a consequence of channeling effects, a well-pronounced low-level jet system was documented for each of four flights. The wind maximum is located at 20–50-km distance from the exit of Smith Sound. The 3D boundary layer structure past this gap is studied in detail. The channeling process is consistent with gap flow theory. The flow through the gap and over the surrounding mountains leads to the lowering of isotropic surfaces and the acceleration of the flow. The orographically channeled flow through Smith Sound plays a key role for the formation of the North Water polynya being the largest ice-producing polynya in the Arctic.
    [Show full text]
  • Publications
    PUBLICATIONS April 1982 avril Publications listed are those published by the Les ouvrages cites ont ete publies par le Service des Marine Environmental Data Services Branch donnees sur le milieu marin (SDMM) du Ministere (MEDS) of the Department of Fisheries and des Peches et Oceans de 1973 a 1982. Les rapports Oceans from 1973 to 1982. Also included are the manuscrits de la Direction generale de !'information et Marine Sciences and Information Directorate des sciences de la mer et des rapports des donnees du Manuscript Report Series, and the Canadian Centre canadien des donnees oceanographiques sont Oceanographic Data Centre's Data Record egalement inclus. Series. This publication is an update of the "Marine Cette publication est une mise-a-jour de "Publications Environmental Data Service Publications, April Service des donnees sur le milieu marin, avril 1981 ", 1981 " Cat. No. MEDS8100301 RB. numero de catalogue MEDS8100301RB. Requests for copies should be sent to: Des copies peuvent etre obtenues de: Marine Environmental Data Services Branch , Service des donnees sur le milieu marin, Ocean Science and Surveys, Sciences et !eves oceaniques, Department of Fisheries and Oceans, Ministere des Peches et des Oceans, Ottawa, Ontario. K 1 A OE6 Ottawa (Ontario) K 1A OE6 ©Minister of Supply and Services Canada 1982 ©Ministre des Approvisionnements et Services Canada 1982 MEDS8200301 RB MEDS820030 I RB Marine Environmental Ser-vice des donnees sur Data Service le milieu marin PUBLICATIONS April 1982 avril Contents/Table des matieres 3 Technical
    [Show full text]
  • Evidence from Driftwood Records for Century-To-Millennial Scale Variations of the Arctic and Northern North Atlantic Atmospheric Circulation During the Holocene
    1 Evidence from driftwood records for century-to-millennial scale variations of the Arctic and northern North Atlantic atmospheric circulation during the Holocene L.-B. Tremblay and L. A. Mysak Department of Atmospheric and Oceanic Sciences and Centre for Climate and Global Change Research, McGill University, Montr´eal,Qu´ebec, Canada A. S. Dyke Terrain Sciences Division, Geological Survey of Canada, Ottawa, Ontario, Canada Short title: ARCTIC CLIMATE VARIABILITY DURING HOLOCENE 2 Abstract. Different Holocene sea-ice drift patterns in the Arctic Ocean have been hypothesized by Dyke et al. from radiometric analyses of driftwood collected in the Canadian Arctic Archipelago. A dynamic-thermodynamic sea-ice model is used to simulate the modes of Arctic Ocean ice circulation for different atmospheric forcings, and hence determine the atmospheric circulations which may have accounted for the inferred ice drift patterns. The model is forced with the monthly mean wind stresses from 1968 (a year with very large ice export) and 1984 (very low ice export), two years with drastically different winter sea level pressure patterns and with different phases of the NAO index. The simulations show that for the 1968 wind stresses, a weak Beaufort Gyre with a broad Transpolar Drift Stream (TDS) shifted to the east are produced, leading to a large ice export from the Arctic. Similarly, the 1984 wind stresses lead to an expanded Beaufort Gyre with a weak TDS shifted to the west and a low ice export. These results correspond to the patterns inferred by Dyke et al. Based on the simulations, the driftwood record suggests that for centuries to millennia during the Holocene, the high latitude average atmospheric circulation may have resembled that of 1968, 1984 and today’s climatology, with abrupt changes from one state to the other.
    [Show full text]
  • Retreat of the Smith Sound Ice Stream in the Early Holocene
    bs_bs_banner Retreat of the Smith Sound Ice Stream in the Early Holocene ANNE E. JENNINGS , JOHN T. ANDREWS , BRETT OLIVER, MAUREEN WALCZAK AND ALAN MIX Jennings, A. E., Andrews, J. T., Oliver, B., Walczak, M. & Mix, A.: Retreat of the Smith Sound Ice Stream in the Early Holocene. Boreas. https://doi.org/10.1111/bor.12391. ISSN 0300-9483. Nares Strait, a major connection between the Arctic Ocean and Baffin Bay, was blocked by coalescent Innuitian and Greenlandice sheets duringthe last glaciation.This paper focuses on the eventsandprocesses leading to the openingofthe strait and the environmental response to establishment of the Arctic-Atlantic throughflow. The study is based on sedimentological, mineralogical and foraminiferal analyses of radiocarbon-dated cores 2001LSSL-0014PC and TC from northern Baffin Bay. Radiocarbon dates on benthic foraminifera were calibrated with DR = 220Æ20 years. Basal compact pebbly mud is interpreted as a subglacial deposit formed by glacial overriding of unconsolidated marine sediments. It is overlain by ice-proximal (red/grey laminated, ice-proximal glaciomarine unit barren of foraminifera and containing >2 mm clasts interpreted as ice-rafted debris) to ice-distal (calcareous, grey pebbly mud with foraminifera indicative of a stratified water column with chilled Atlantic Water fauna and species associated with perennial and then seasonal sea ice cover) glacial marine sediment units. The age model indicates ice retreat into Smith Sound as early as c. 11.7 and as late as c. 11.2 cal. ka BP followed by progressively more distal glaciomarine conditions as the ice margin retreated toward the Kennedy Channel. Wehypothesize that a distinctIRD layerdeposited between 9.3 and 9 (9.4–8.9 1r) cal.
    [Show full text]
  • Hunt Allocation Modeling for Migrating Animals: the Case of Baffin Bay Narwhal, Monodon Monoceros
    Hunt Allocation Modeling for Migrating Animals: The Case of Baffin Bay Narwhal, Monodon monoceros CORTNEY A. WATT, THOMAS DONIOL-VALCROZE, LARS WITTING, RODERICK C. HOBBS, RIKKE GULDBORG HANSEN, DAVID S. LEE, MARIANNE MARCOUX, VERONIQUE LESAGE, EVA GARDE, STEVEN H. FERGUSON, and MADS PETER HEIDE-JØRGENSEN Introduction rison et al., 2018). Migration patterns particular challenge for ensuring in- follow predictable routes and seasonal dividual stocks are managed sustain- Marine mammal populations or timing such that the exposure to po- ably (Allen and Singh, 2016); thus, a stocks often have large spatial distri- tential interactions with anthropogenic modeling approach that accounts for butions and follow seasonal migration activities may occur at a number of lo- this movement and mixing of stocks patterns that expose them to taking by cations annually each for a short pe- is needed (Ogburn et al., 2017). In this hunters or other risks at different times riod of time (Rosenbaum et al., 2013; way, removals can be attributed to the and locations throughout the year O’Corry-Crowe et al., 2016; Forney stock of origin, regardless of the time (Heide-Jørgensen et al., 2003; Valen- et al., 2017; Watt et al., 2017). Un- of year or location of the hunt. zuela et al., 2009; Foote et al., 2010; derstanding migration of animals and In many cases, genetic samples and Horton et al., 2017), and often across residency time becomes particularly phenology of catches are used to esti- many international jurisdictions (Har- important for sustainable manage- mate the portion of each stock avail- ment of hunted species (Harrison et able to hunters at different hunting Cortney A.
    [Show full text]
  • Walrus Movements in Smith Sound: a Canada – Greenland Shared Stock Mads Peter Heide-Jørgensen,1,2 Janne Flora,3 Astrid O
    ARCTIC VOL. 70, NO. 3 (SEPTEMBER 2017) P. 308 – 318 https://doi.org/10.14430/arctic4661 Walrus Movements in Smith Sound: A Canada – Greenland Shared Stock Mads Peter Heide-Jørgensen,1,2 Janne Flora,3 Astrid O. Andersen,3 Robert E.A. Stewart,4 Nynne H. Nielsen1 and Rikke G. Hansen1 (Received 19 April 2016; accepted in revised form 27 March 2017) ABSTRACT. Fifty of 58 walruses (Odobenus rosmarus rosmarus) instrumented with satellite-linked transmitters in four areas in eastern Smith Sound, Northwest Greenland, during May and June of 2010 – 13 and 2015 provided data for this study. These animals departed from the feeding banks along the Greenland coast in June – July (average 14th June), simultaneously with the disappearance of sea ice from these areas. Most of them moved to Canadian waters in western Smith Sound. The most frequently used summering grounds were along the coasts of Ellesmere Island: on the eastern coast, the area around Alexandra Fiord, Buchanan Bay, and Flagler Bay (west of Kane Basin) and Talbot Inlet farther south, and on the southern coast, Craig Harbour. This distribution of tagged walruses is consistent with prior understanding of walrus movements in summer. In addition, however, nine tracks of these tagged animals entered western Jones Sound and four entered the Penny Strait- Lancaster Sound area, crossing two putative stock boundaries. Since these 13 tracks were made by 12 animals, one walrus entered both areas. It is possible that some of the tracked walruses used terrestrial haul-out sites in the largely ice-free areas of Jones Sound and Lancaster Sound for short periods during the summer, though this cannot be confirmed with certainty.
    [Show full text]
  • Preliminary Apatite Fission Track Thermal History Modelling of the Nares Strait Region of Eastern Ellesmere Island and Northwestern Greenland
    Polarforschung 74 (1-3), 113 – 127, 2004 (erschienen 2006) Preliminary Apatite Fission Track Thermal History Modelling of the Nares Strait Region of Eastern Ellesmere Island and Northwestern Greenland by Alexander M. Grist1 and Marcos Zentilli1 Abstract: Apatite fission track (FT) ages and length characteristics of Decken des kompressiven Eureka-Ereignisses. Diese diachrone Abkühlungs- samples obtained from Cambrian to Paleocene-aged sandstones collected geschichte lässt vermuten, dass die Deformation des Eurekans aufgeteilt in along the margin of Nares Strait in Ellesmere Island in the Canadian Arctic bestimmten Abständen in Ellesmere Island stattfand. Es ist daher wahrschein- Archipelago are dominated by a thermal history related to Paleogene relative lich, dass der Versatz entlang der Nares Strait sehr viel geringer ist als bisher plate movements between Greenland and Ellesmere Island. A preliminary für die Wegener-Störung postuliert. inverse FT thermal model for a Cambrian (Archer Fiord Formation) sandstone in the hanging wall of the Rawlings Bay thrust at Cape Lawrence is consistent with Paleocene exhumational cooling, likely as a result of erosion of the thrust. This suggests that thrusting at Cape Lawrence occurred prior to the INTRODUCTION onset of Eocene compression, likely due to transpression during earlier strike- slip along the strait. Models for samples from volcaniclastic sandstones of the GRIST & ZENTILLI (2005) presented apatite FT age and TL, and Late Paleocene Pavy Formation (from Cape Back and near Pavy River), and a (U-Th-Sm)/He age data for samples from the Nares Strait, sandstone from the Late Paleocene Mount Lawson Formation (at Split Lake, near Makinson Inlet) are also consistent with minor burial heating following Kane Basin and Smith Sound region in Canada and Green- known periods of basaltic volcanism in Baffin Bay and Davis Strait (c.
    [Show full text]