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Zigzagging in the Arctic

Zigzagging in the Arctic. Rebecca Woodgate Polar Science Center, University of Washington, Seattle, USA in collaboration with Knut Aagaard (UW), Jim Swift (Scripps), Bill Smethie (LDEO), Kelly Falkner (OSU), Tom Weingartner (UAF) and many others Funded by NSF and ONR

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Zigzagging in the Arctic

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  1. Zigzagging in the Arctic Rebecca Woodgate Polar Science Center, University of Washington, Seattle, USA in collaboration with Knut Aagaard (UW), Jim Swift (Scripps), Bill Smethie (LDEO), Kelly Falkner (OSU), Tom Weingartner (UAF) and many others Funded by NSF and ONR With thanks to the crews of USCGC Polar Star, USCGC Healy, RV Helix, CCGS Laurier

  2. The Magic of Observations? CBL cruise, 2002 Helix cruise, 2004 CBL cruise, 2002 D.G.Barton, 1992

  3. The Magic of the Arctic Arctic Ocean Basics Arctic Ventilation by Pacific Waters – smoking guns in T-S space Tracing Atlantic waters in the Arctic by double diffusive ZigZags

  4. The Great Arctic Ocean Where are we in the Global Ocean? Broecker, 1991

  5. From the Atlantic From the Pacific To the Atlantic To the Atlantic Welcome to the Arctic Ocean Broad, Shallow Shelves Deep Basins Shallow entrance from the Pacific Medium and Deep connections to the Atlantic Russia Barents Sea Eurasian Basin Lomonosov R Fram Strait Bering Strait Canadian Basin You are here Greenland Canadian Archipelago About the size of the USA! USA Chart from IBCAO

  6. UN Environ Prog Pink=1979-2000 mean minimum NSIDC, 2006 Decreasing Ice cover What makes the Arctic “hot”? Stroeve et al, 2005, GRL Local communities subsistence Arctic Shipping Routes? Oil/Gas Exploration Links to Global Climate

  7. Arctic Ice Circulation AMSR, by Agnew, http://www.socc.ca/seaice/sea_ice_motion.cfm International Arctic Buoy Program, Rigor et al,

  8. What makes the Arctic FUN? Russia ICE Weak stratification (away from surface), low energy. Cold Thus – traditionally small terms are important, viz thermobaric, double diffusion etcetctc A Challenge to measure Barents Sea Eurasian Basin From the Pacific Lomonosov R Fram Strait Bering Strait Canadian Basin Greenland USA Chart from IBCAO

  9. Arctic Ocean Circulation Surface/Pacific water circulation “similar to ice motion” Atlantic water circum-Arctic Boundary current following topography EDDIES!

  10. Pacific Water in the Arctic Rich in Nutrients Source of heat, freshwater, stratification ... and upper ocean ventilation Pathways dependent on atmospheric state Steele et al, 2004

  11. Pacific and Atlantic Tracers?

  12. TEMPERATURE SALINITY Mechanical mixing in TS space creates straight lines between water masses Thus, straight lines in TS space suggest mechanical mixing Mixing in T-S Space

  13. Along the Chukchi Shelf, upwelling and diapycnal mixing of lower halocline waters and Pacific waters (Note ventilation by polynya waters couldn’t give this T-S structure) Pacific Nutrient Max Atl Pac Woodgate et al, 2005 Influence of shelf waters Use silicate to track Pacific Water in the Chukchi Borderland

  14. Atlantic layer warming of the 1990s Karcher et al, 2003 ‘93 ‘95 ‘80 ‘84 ‘87 ‘91 ‘96 ‘99 Follow the warming by tracing the temperature maximum Some suggestions of slight cooling following the warming Mooring and CTD Data, Woodgate etal, 2001; Scicex data, Gunn & Muench, 2001

  15. The Warming of the 1990s 1993 Larsen - 1 deg warmer on the Mendeleev Ridge - inversions in temperature and salinity Carmack et al, ‘95, and McLaughlin et al, ‘96

  16. Potential Temperature (deg C) Salinity (psu) Atlantic Water zigzags AOS94 Line up/ Nest all through the Arctic Angles of the Zigzags match double diffusive theory Carmack et al, 1997

  17. TEMPERATURE TEMPERATURE SALINITY SALINITY In double diffusive processes, heat diffuses faster than salt. So, in TS space resultant waters are not on a straight line between the parent water masses Mechanical mixing in TS space creates straight lines between water masses Mixing and Double Diffusion in T-S Space

  18. Diffusive Convection Regime Cold Fresh / Warm Salty unstable in temperature Salt fingering Regime Warm Salty / Cold Fresh unstable in salt Zigzags - things we know Line up throughout the Arctic (Carmack et al) NOT isopycnal, but double diffusive Theories for formation, and for growing to a large amplitude steady state (Turner, Ruddick, Toole, Georgi, McDougall, Walsh, Carmack, Rudels, May … )

  19. ‘93 ‘96 ‘99 ‘94 ‘97 ‘00 ‘95 ‘98 ‘02 Warming in the Chukchi Borderland warming progressing through the Chukchi Borderland cf Shimada et al, 2004;Woodgate et al, in press

  20. very different T-S structures • very sharp fronts • 1) The temperature maximum is very dependent on location • 2) Why are the structures so different? • 3) Can we follow pathways using the T-S structure? Structure in the Atlantic Water core Pacific Nutrient Max Woodgate et al, in press

  21. NEW?? BIG Zigzags - parents different OLD?? Form within the envelope of the parent water masses? SMALL Zigzags - parents similar Points of Zigzags contain least altered waters Zigzags – what else can they tell us?

  22. NEW?? NEW?? % Oxygen Saturation OLD?? OLD?? CFC-11 NEW?? Higher Oxygen and CFCs in the warmer, saltier part of the zigzags OLD?? Temperature Salt Oxygen CFC-11 Zigzags – do tracers agree with this??

  23. Tracking waters with Zigzags BIG ZIGZAGS - medium Oxygen - middle/low CFCs - Interleaving of boundary current with old basin waters Temperature Oxygen CFC-11

  24. Temperature Oxygen CFC-11 SMALL ZIGZAGS - high Oxygen - high CFCs New boundary current interleaving with recent basin waters

  25. Temp Oxyg CFC-11 RAGGED ZIGZAGS - Low Oxygen - Low CFCs Relic waters isolated in the Northwind Abyssal Plain

  26. Temp Oxyg CFC-11 POINT AND BUMP - Medium/high Oxygen - High CFCs Core of Boundary Current

  27. Temp Oxyg CFC-11 SMOOTH TEMPERATURE MAXIMUM - Low Oxygen - Medium CFCs Shelf-influenced waters Woodgate et al, in press

  28. Chukchi Borderland Atlantic Water Circulation Only shown Fram Strait Branch Water, but Barents Branch very similar Woodgate et al, in press, JGR http://psc.apl.washington.edu/HLD

  29. NEW OLD Arctic from TS-Space Using T-S Zigzags to trace Atlantic Water pathways Pacific/Atlantic diapycnal mixing via upwelling on the Chukchi Shelf http://psc.apl.washington.edu/HLD

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