%** ================================================================= ** %** BERING STRAIT ANNUAL MEANS - TEMPERATURE ** %** ================================================================= ** %** Processed May2023 from tempalla3 etc ** %** Contact: Rebecca Woodgate (woodgate@apl.washington.edu) (206)-221-3268 %** Background: http://psc.apl.washington.edu/BeringStrait.html %** %** If you use these data, especially for publications, please: %** a) Email me with the publication reference %** b) Cite the data, viz: %** %** CITATIONS: %** 1) Woodgate R.A., K.Stafford, F.Prahl, 2015, %** A Synthesis of Year-round Interdisciplinary Mooring Measurements %** in the Bering Strait (1990-2014) and the RUSALCA years (2004-2011), %** Oceanography 28(3):46-67, doi:10.5670/oceanog.2015.57 %** 2) Woodgate, R.A., 2018 %** 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 %** 3) Woodgate, R.A., and C.Peralta-Ferriz, 2021 submitted %** Warming and Freshening of the Pacific Inflow to the Arctic from 1990-2019 %** implying dramatic shoaling in Pacific Winter Water ventilation of the %** Arctic water column, submitted to Geophysical Research Letters %** 4) Woodgate, R.A.,2020 %** Freshening of the Pacific inflow to the Arctic, ASOF conference %** 28th Sept 2020, https://asof.awi.de/outputs/island-2020 %** %** See those references for methods and data isses %** %** ================================================================= ** %** ===== ANNUAL (CALENDAR YEAR) MEAN Temperatures (DegC)============ ** %** ================================================================= ** %** Temp = Annual mean near-bottom temperature at site %** err = error in that mean %** Mooring denoted by A1, A2, A3, A4 %** NaN = insufficient data to compute annual mean %** ---------------------------- % YEAR A1Temp A1Terr YEAR A2Temp A2Terr YEAR A4Temp A4Terr YEAR A3Temp A3Terr 1991 NaN NaN 1991 -0.26 0.84 1991 NaN NaN 1991 -0.51 0.67 1992 NaN NaN 1992 0.06 0.91 1992 NaN NaN 1992 NaN NaN 1993 -0.13 0.79 1993 0.46 1.14 1993 NaN NaN 1993 NaN NaN 1994 NaN NaN 1994 -0.08 0.92 1994 NaN NaN 1994 NaN NaN 1995 NaN NaN 1995 0.12 0.94 1995 NaN NaN 1995 NaN NaN 1996 NaN NaN 1996 NaN NaN 1996 NaN NaN 1996 NaN NaN 1997 NaN NaN 1997 NaN NaN 1997 NaN NaN 1997 NaN NaN 1998 NaN NaN 1998 0.31 1.08 1998 NaN NaN 1998 -0.16 0.82 1999 NaN NaN 1999 -0.19 0.91 1999 NaN NaN 1999 -0.46 0.71 2000 NaN NaN 2000 0.18 1.01 2000 NaN NaN 2000 -0.36 0.76 2001 NaN NaN 2001 -0.11 0.86 2001 NaN NaN 2001 -0.44 0.65 2002 NaN NaN 2002 0.52 1.17 2002 1.29 1.50 2002 0.35 1.01 2003 NaN NaN 2003 0.70 1.25 2003 1.38 1.48 2003 0.42 1.05 2004 NaN NaN 2004 NaN NaN 2004 1.92 1.77 2004 0.22 0.97 2005 -0.01 0.89 2005 0.48 1.19 2005 1.25 1.56 2005 0.22 1.02 2006 -0.02 0.86 2006 0.20 1.02 2006 1.09 1.44 2006 0.07 0.92 2007 0.39 0.97 2007 0.36 1.06 2007 1.76 1.70 2007 0.43 1.00 2008 -0.21 0.75 2008 NaN NaN 2008 0.34 1.11 2008 -0.20 0.77 2009 -0.34 0.70 2009 -0.17 0.83 2009 0.60 1.19 2009 -0.27 0.73 2010 0.07 0.86 2010 0.39 1.08 2010 1.46 1.61 2010 0.13 0.93 2011 0.29 0.95 2011 0.63 1.19 2011 1.16 1.46 2011 0.45 1.04 2012 NaN NaN 2012 -0.49 0.75 2012 0.54 1.27 2012 -0.58 0.61 2013 NaN NaN 2013 -0.08 0.88 2013 1.15 1.43 2013 -0.05 0.84 2014 NaN NaN 2014 0.29 0.98 2014 1.54 1.56 2014 0.21 0.94 2015 NaN NaN 2015 1.06 1.33 2015 1.59 1.57 2015 0.70 1.13 2016 NaN NaN 2016 0.66 1.28 2016 1.33 1.33 2016 0.54 1.12 2017 NaN NaN 2017 1.11 1.18 2017 NaN NaN 2017 1.14 1.12 2018 NaN NaN 2018 1.86 1.61 2018 2.28 1.79 2018 1.38 1.36 2019 NaN NaN 2019 1.17 1.38 2019 2.34 1.91 2019 0.70 1.07 2020 NaN NaN 2020 0.46 1.19 2020 1.00 1.44 2020 0.36 1.05 2021 NaN NaN 2021 NaN NaN 2021 0.88 1.36 2021 -0.55 0.65 2022 NaN NaN 2022 NaN NaN 2022 NaN NaN 2022 NaN NaN