The coupling between Atlantic inflow and overflow in the Iceland-Scotland region Bogi Hansen, Karin M. H. Larsen, Hjálmar Hátún, Svein Østerhus, Steffen.

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Presentation transcript:

The coupling between Atlantic inflow and overflow in the Iceland-Scotland region Bogi Hansen, Karin M. H. Larsen, Hjálmar Hátún, Svein Østerhus, Steffen M. Olsen AGU, 2003 Greenland Iceland Shet- land Faroes Arctic C o l i n g Nordic Seas Atlantic inflow Overflow World Ocean

Monitoring section Iceland Faroe Faroes Current image:AGU 2003

Atlantic water on monitoring section Satellite altimetry Atlantic Arctic Bottom temperature Hansen et al., 2015: CTD + ADCP + Altimetry => Volume transport 1993 – 2014 ADCPs: 1997-2015

Faroe-Shetland Channel AGU, 2003 Faroe Current Iceland Faroes Faroe-Shetland Channel

Faroe-Shetland Channel Net flow = High inflow – High outflow NACLIM 2015-2016 8 ADCPs NACLIM 2014-2015 7 ADCPs Highly variable flow structure 100 CTD sections 4 ADCPs: 1995 – 2009 + 5 ADCPs: 2009 - 2011 Altimetry: 1992 - 2011 Berx et al., 2013: CTD + ADCP + Altimetry => Volume transport 1993 – 2011 Temperature

(Shelfedge to shelfedge) AGU, 2003 Iceland-Shetland inflow 1993-2014 (Shelfedge to shelfedge) Iceland Faroe branch Average: 3.8 Sv Faroes Total Iceland – Shetland trend +0.002±0.03 Sv/year Shetland branch Average: 2.7 Sv Faroe branch trend: +0.01±0.01 Sv/year Shetland branch trend: -0.01±0.02 Sv/year

Heat- & Salttransport of the Faroe Current

Atlantic water temperature and salinity (Faroe branch) SPG-shrinkage TAtl 3-year mean 1°C SAtl 0.1 psu

Heat transport of Faroe Current (relative to 0°C) Annual mean ± std. error 3-year mean 2014 20 year trend: 18±8%

Salt transport relative to 34.95 (≈ FBC-overflow salinity) 20 year trend: 130±30%

Atlantic inflow Temperature & Salinity Faroe Bank Channel overflow

Based on salinity of FBC-overflow water: This is indicative of a direct influence of the inflow on the overflow below, or, … an overturning loop local to the southern Norwegian Sea. Separate and stronger evidence in favour of our suggested NAW -> NNAW -> FSC loop is provided by the fact that anomalies progress from NAW to the recirculating NNAW, and then from NNAW back to FSC (both lagged by 1 year).

0.1°C FBC-overflow Greenland Iceland Faroes Shet- land Arctic AGU, 2003 Greenland Iceland Shet- land Faroes FBC-overflow No significant trend in volume transport 1995 – 2015 Arctic FBC bottom temperature FBC-overflow density probably increased 0.1°C The coldest overflow has warmed But, also become more saline World Ocean

Coupling of inflow and overflow across the Iceland-Faroe Ridge AGU, 2003 Coupling of inflow and overflow across the Iceland-Faroe Ridge Western Valley Iceland Faroes Wilkenskjeld and Quadfasel (2005) image:AGU 2003

Western Valley overflow is variable, but persistent 2-year ADCP at 600m depth downstream of Western Valley (Detlef Quadfasel) Average velocity profile Western Valley overflow is variable, but persistent

Observed and modeled Faroe Current transport Wilkenskjeld and Quadfasel (2005) Observed and modeled Faroe Current transport Modeled inflow = Net flow = Inflow – Overflow Modeled Net flow may be fairly correct Heat transport is difficult to model Modeled Observed

WOW Project Western valley OverfloW One year measurements

Future monitoring

Planned Faroe Current monitoring Satellite altimetry Atlantic Arctic Bottom temperature No money 1 – 2 ADCPs + PIES ?

? NACLIM Western Valley overflow One-year project No new moorings AGU, 2003 Western Valley overflow One-year project Iceland No new moorings Faroes No Faroese moorings FBC-overflow 2 ADCPs 4 Scottish ADCPs NACLIM ? The research leading to these results has received funding from the European Union 7th Framework Programme (FP7 2007-2013), under grant agreement n.308299 NACLIM www.naclim.eu