CIVIL ENGINEERING 365 ALL ABOUT CIVIL ENGINEERING

[ad_1]

  • 1.

    Kowalik, Z. & Proshutinsky, A. Y. The Arctic Ocean Tides. The Polar Oceans and Their Role in Shaping the Global Environment 1, 137–158 (American Geophysical Union (AGU), 1994).

  • 2.

    Proshutinsky, A. et al. Sea level variability in the Arctic Ocean from AOMIP models. J. Geophys. Res. Oceans 112, 129 (2007).


    Google Scholar
     

  • 3.

    Luneva, M. V., Aksenov, Y., Harle, J. D. & Holt, J. T. The effects of tides on the water mass mixing and sea ice in the Arctic Ocean. J. Geophys. Res. Oceans 120, 6669–6699 (2015).

    ADS 
    Article 

    Google Scholar
     

  • 4.

    Padman, L. & Erofeeva, S. A barotropic inverse tidal model for the Arctic Ocean. Geophys. Res. Lett. 31, 53–4 (2004).

    Article 

    Google Scholar
     

  • 5.

    Simmons, H. L., Hallberg, R. W. & Arbic, B. K. Internal wave generation in a global baroclinic tide model. Deep Sea Research Part II: Topical Studies in Oceanography 51, 3043–3068 (2004).

    ADS 
    Article 

    Google Scholar
     

  • 6.

    Carmack, E. et al. Toward Quantifying the Increasing Role of Oceanic Heat in Sea Ice Loss in the New Arctic. Bull. Amer. Meteor. Soc 96, 2079–2105 (2015).

    ADS 
    Article 

    Google Scholar
     

  • 7.

    Environmental Working Group. Joint U.S.-Russian Atlas of the Arctic Ocean. NSIDC https://doi.org/10.7265/N5H12ZX4 (1997).

  • 8.

    Kulikov, E. A. Barotropic and baroclinic tidal currents on the Mackenzie shelf break in the southeastern Beaufort Sea. J. Geophys. Res. 109, 307–18 (2004).

    Article 

    Google Scholar
     

  • 9.

    Fer, I., Müller, M. & Peterson, A. K. Tidal forcing, energetics, and mixing near the Yermak Plateau. 1812-0792 11, 287–304 (2015).


    Google Scholar
     

  • 10.

    Münchow, A. & Melling, H. Ocean current observations from Nares Strait to the west of Greenland: Interannual to tidal variability and forcing. J. Mar. Res. 66, 801–833 (2008).

    Article 

    Google Scholar
     

  • 11.

    Janout, M. A. & Lenn, Y.-D. Semidiurnal Tides on the Laptev Sea Shelf with Implications for Shear and Vertical Mixing. J. Phys. Oceanogr 44, 202–219 (2014).

    ADS 
    Article 

    Google Scholar
     

  • 12.

    Pnyushkov, A. V. & Polyakov, I. V. Observations of Tidally Induced Currents over the Continental Slope of the Laptev Sea, Arctic Ocean. J. Phys. Oceanogr 42, 78–94 (2012).

    ADS 
    Article 

    Google Scholar
     

  • 13.

    Baumann, T. M. et al. Semidiurnal current dynamics in the Arctic Ocean’s eastern Eurasian Basin. Preprint at ESSOAr, https://doi.org/10.1002/essoar.10502530.1 (2020).

  • 14.

    Pawlowicz, R., Beardsley, B. & Lentz, S. Classical tidal harmonic analysis including error estimates in MATLAB using T_TIDE. Computers & Geosciences 28, 929–937 (2002).

    ADS 
    Article 

    Google Scholar
     

  • 15.

    Foreman, M. Manual for tidal currents analysis and prediction. (Institute of Ocean Sciences, Patricia Bay, Sidney, BC, 1978).

  • 16.

    Ray, R. D. & Mitchum, G. T. Surface manifestation of internal tides in the deep ocean: observations from altimetry and island gauges. Progress in Oceanography 40, 135–162 (1997).

    ADS 
    Article 

    Google Scholar
     

  • 17.

    Baumann, T. M. et al. Arctic Tidal Current Atlas from Moored Current Observations, Arctic Ocean, 1998–2018. Arctic Data Center, https://doi.org/10.18739/A26M3340D (2019).

  • 18.

    RD Instruments. WorkHorse Acoustic Doppler Current Profiler Technical Manual. P/N 957-6150-00 (2005).

  • 19.

    Pollard, R. T. & Millard, R. C. Comparison between observed and simulated wind-generated inertial oscillations. Deep Sea Research and Oceanographic Abstracts 17, 813–821 (1970).

    ADS 
    Article 

    Google Scholar
     

  • 20.

    D’Asaro, E. A. The Energy Flux from the Wind to Near-Inertial Motions in the Surface Mixed Layer. J. Phys. Oceanogr. 15, 1043–1059 (1985).

    ADS 
    Article 

    Google Scholar
     

  • 21.

    Holloway, G. & Proshutinsky, A. Role of tides in Arctic ocean/ice climate. J. Geophys. Res. 112, 3069–10 (2007).


    Google Scholar
     

  • 22.

    Sundfjord, A., Renner, A. H. & Beszczynska-Möller, A. A-TWAIN mooring hydrography and current data Sep 2012 – Sep 2013. Norwegian Polar Institute, https://doi.org/10.21334/npolar.2017.73d0ea3a (2017).

  • 23.

    Mudge, T., Weingartner, T. & Dobbins, E. Eastward and northward components of ocean current, temperature, salinity and ice analysis collected from industry sponsored moorings in the Chukchi Sea, Alaska from 2008-09-08 to 2016-10-13. NOAA National Centers for Environmental Information, https://accession.nodc.noaa.gov/0164964 (2017).

  • 24.

    McRaven, L. Mooring Observations from the Atlantic Water Inflow Experiment (ATWAIN) from September 21, 2012 through September 19, 2013. Arctic Data Center, https://doi.org/10.18739/A2S569 (2018).

  • 25.

    Gratton, Y. et al. Long-term oceanic observatories (moorings) in the Beaufort Sea during the Canadian Arctic Shelf Exchange Study, 2002-2004. Polardata.ca, https://doi.org/10.5884/11653 (2015).

  • 26.

    Weingartner, T., Statscewich, H., Stoudt, C. & Dobbins, E. Currents, Temperature, Salinity, and Sea Ice measurements from moorings in Barrow Canyon, Chukchi Sea, 2010–2015. NOAA National Centers for Environmental Information, https://accession.nodc.noaa.gov/0160090 (2017).

  • 27.

    Okkonen, S. Mooring data 2010-2011, south flank of Barrow Canyon. Arctic Data Center, https://doi.org/10.18739/A20K5X (2012).

  • 28.

    Okkonen, S. Mooring data 2011-2012, south flank of Barrow Canyon. Arctic Data Center, https://doi.org/10.18739/A21C7X (2012).

  • 29.

    Lee, C. M. Moored ADCP current profiles from the Davis Strait observational array. Arctic Data Center, https://doi.org/10.18739/A2TV7W (2009).

  • 30.

    Stabeno, P. J. et al. NOAA/EcoFOCI Chukchi Sea ADCP Mooring time-series data, stations C1, C2, and C3, 2010-08-29 to 2012-08-22, including zonal (U) and meridional (V) current measurements. NOAA National Centers for Environmental Information, https://accession.nodc.noaa.gov/0149848 (2016).

  • 31.

    Fukamachi, Y. et al. SIZOnet: Acoustic Doppler Current Profiler (ADCP) data, Barrow, AK, USA. Arctic Data Center, https://doi.org/10.18739/A2MT1D (2016).

  • 32.

    de Steur, L. Moored current meter data from the western Fram Strait 1997-2009. Norwegian Polar Institute, https://doi.org/10.21334/npolar.2019.8bb85388 (2019).

  • 33.

    Simmons, H. Beaufort Sea Mooring I1. Arctic Data Center, https://doi.org/10.18739/A25S6X (2013).

  • 34.

    Simmons, H. Beaufort Sea Mooring I2. Arctic Data Center, https://doi.org/10.18739/A2X911 (2013).

  • 35.

    Simmons, H. & Martini, K. I. Beaufort Sea Mooring I3. Arctic Data Center https://doi.org/10.18739/A2233Z (2013).

  • 36.

    Woodgate, R. A. Increases in the Pacific inflow to the Arctic from 1990 to 2015, and insights into seasonal trends and driving mechanisms from year-round Bering Strait mooring data. Progress in Oceanography 160, 124–154 (2018).

    ADS 
    Article 

    Google Scholar
     

  • 37.

    Woodgate, R. A., Stafford, K. M. & Prahl, F. A synthesis of year-round interdisciplinary mooring measurements in the Bering Strait (1990–2014) and the RUSALCA years (2004–2011). Oceanography https://doi.org/10.2307/24861901 (2015).

    Article 

    Google Scholar
     

  • 38.

    Muenchow, A. Canadian Archipelago Throughflow Study: ADCP moorings 2003-06. Arctic Data Center, https://doi.org/10.18739/A23K67 (2013).

  • 39.

    Muenchow, A. Canadian Archipelago Throughflow Study: ADCP moorings 2007-09. Arctic Data Center, https://doi.org/10.18739/A2RR77 (2014).

  • 40.

    Weingartner, T. UAF Barrow Canyon and Central Channel Moorings. Version 1.0. Earth Observing Laboratory Data, https://doi.org/10.5065/D62805QS (2010).

  • 41.

    Weingartner, T. J. et al. Circulation and water properties in the landfast ice zone of the Alaskan Beaufort Sea. Continental Shelf Research 148, 185–198 (2017).

    ADS 
    Article 

    Google Scholar
     

  • 42.

    Weingartner, T., Danielson, S., Kasper, J. L. & Okkonen, S. R. Circulation and water property variations in the nearshore Alaskan Beaufort Sea (1999–2007). OCS Study MMS (2009).

  • 43.

    Polyakov, I. V. NABOS II – ADCP Water Current Data 2013 – 2015. Arctic Data Center, https://doi.org/10.18739/A2RS9B (2016).

  • 44.

    Polyakov, I. V. Acoustic Dopper Current Profiler (ADCP) from moorings taken in the Eurasian and Makarov basins, Arctic Ocean, 2015-2018. Arctic Data Center, https://doi.org/10.18739/A2HT2GB80 (2019).

  • 45.

    Fer, I. & Peterson, A. K. Moored measurements of ocean current, temperature and salinity from Yermak Plateau, Sep. 2014–Aug. 2015. Norwegian Marine Data Centre, https://doi.org/10.21335/NMDC-1508183213 (2019).

  • 46.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F3-15. PANGAEA, https://doi.org/10.1594/PANGAEA.853902 (2015).

  • 47.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F4-15. PANGAEA, https://doi.org/10.1594/PANGAEA.853903 (2015).

  • 48.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F5-15. PANGAEA, https://doi.org/10.1594/PANGAEA.853904 (2015).

  • 49.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F7-12. PANGAEA, https://doi.org/10.1594/PANGAEA.853905 (2015).

  • 50.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F8-13. PANGAEA, https://doi.org/10.1594/PANGAEA.853907 (2015).

  • 51.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F10-12. PANGAEA, https://doi.org/10.1594/PANGAEA.853910 (2015).

  • 52.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F15-9. PANGAEA, https://doi.org/10.1594/PANGAEA.853918 (2015).

  • 53.

    von Appen, W.-J., ller, A. B.-M. & Fahrbach, E. Physical oceanography and current meter data from mooring F16-9. PANGAEA, https://doi.org/10.1594/PANGAEA.853920 (2015).

  • 54.

    Janout, M., lemann, J. A. H., Timokhov, L. & Kassens, H. Moored measurements of current, temperature and salinity on the Laptev Sea shelf in 2013-2014. PANGAEA, https://doi.org/10.1594/PANGAEA.908837 (2019).

  • 55.

    Morison, J. H. et al. North Pole Environmental Observatory (NPEO) Oceanographic Mooring Data. Arctic Data Center, https://doi.org/10.5065/D6P84921 (2009).

  • 56.

    Pickart, R. S., Fratantoni, P. S. & Torres, D. J. Moored ADCP Observations 2002-2003 from the Beaufort Shelf Edge Mooring Array. Arctic Data Center, https://doi.org/10.5065/D6J964FR (2009).

  • 57.

    Pickart, R. S., Fratantoni, P. S. & Torres, D. J. Moored ADCP Observations 2003–2004 from the Beaufort Shelf Edge Mooring Array. Arctic Data Center, https://doi.org/10.5065/D6FF3QF3 (2009).

  • 58.

    Aagaard, K. D. & Woodgate, R. UW Mooring Data for the Northern Chukchi Sea 2002-2004. Arctic Data Center, https://doi.org/10.5065/D64747X3 (2007).

  • 59.

    Fer, I. Current measurements at the Storfjord sill, Svalbard, Sept. 2003–May 2007. Norwegian Marine Data Centre, https://doi.org/10.21335/NMDC-273201156 (2019).

  • 60.

    Gascard J-C. et al. ADCP mooring data in 2007-2008 north of Svalbard over the Yermak Plateau in the Yermak Pass. Polardata.ca https://doi.org/10.17882/51023 (2017).

  • 61.

    ArcticNet/Amundsen Science Mooring Data Collection. Mooring data of the Integrated Beaufort Observatory (iBO), a project from the Beaufort Regional Environmental Assessment (BREA) Marine Observatories in the Canadian Arctic. ArcticNet Inc. and Amundsen Science, Québec, Canada. Polardata.ca https://doi.org/10.21335/NMDC-273201156 (2019).

  • 62.

    Fortier, M. et al. Beaufort Regional Environmental Assessment (BREA) – Marine Observatories. Waterloo, Ontario, Canada: Canadian Cryospheric Information Network (CCIN). Polardata.ca, https://doi.org/10.21335/NMDC-273201156 (2012).

  • [ad_2]

    Source link

    Leave a Reply

    Your email address will not be published. Required fields are marked *