README FILE FOR BERING STRAIT MOORING DATA Jul 2018 ============================================================================= 12345678901234567890123456789012345678901234567890123456789012345678901234567 Bering Strait Moorings 2016-2017 This is an archive of data from moorings deployed in Bering Strait from summer 2016 to summer 2017. Mooring deployments were funded by the NSF-Arctic Observing Network award PLR-1304052 (PI: Woodgate, Heimbach and Nguyen). The mooring work required 2 dedicated cruises: - in 2016 (7th - 15th July), a ~ 9 day cruise on the US vessel Norseman2 deployed the moorings. Some CTD sections were run on this cruise, and those data are archived separately. - in 2017 (7th - 15th July), a ~ 9 day cruise on the US vessel Norseman2 deployed the moorings. Some CTD sections were run on this cruise, and those data are archived separately. For 2016 to 2017, a total of three moorings were deployed: - two moorings (A2 and A4) in the US channel of the strait, - one mooring (A3) at a site just north of the strait. In what follows, mooring names include a two digit suffix to represent year of deployment. Sites A2, and A3 were established in 1990. A2 and A3 have been occupied almost continuously (all years except 96-97) since then. Site A4 was established in 2001. Mooring location A2 is in the middle of the eastern (Alaskan side) channel. Mooring location A3 is just north of the strait, immediately east of the Russian-US EEZ (Exclusive Economic Zone) line. Experience has shown that site A3 samples both eastern and western channel water. Mooring location A4 is close to the Alaskan coast and allows measurement of the Alaska Coastal Current. For an overview of previous and on-going Bering Strait mooring work, please see http://psc.apl.washington.edu/BeringStrait.html. Moorings carry a variety of instruments, listed in the table below. All records are year-round, sampling hourly or more frequently (Time Int. in table below). Data from instruments marked with * are not included in this archive. For access to these data, please contact the named PI in list below table. 12345678901234567890123456789012345678901234567890123456789012345678901234567 -------------------------------------------------------------------------- ID Deployed Latitude Longitude Instrument S/N Time Inst. Water in Year (N) (W) Int. Depth Depth -------------------------------------------------------------------------- A3-16 2016 66 19.57 168 57.04 ISCAT 13003 NR 16m 57m ISCAT-Logger 23 30min ... 57m 300kHz-ADCP 10926 30min 43m 57m SBE16 0005 60min 43m 57m AURAL M2* 113LF - 48m 57m A2-16 2016 65 46.87 168 34.06 ISCAT 8964 5min 16m 55m ISCAT-Logger 04 30min ... 55m 300kHz-ADCP 2332 30min 45m 55m APL Marine Rec* 02 - 49m 55m SBE16 1541 60min 50m 55m A4-16 2016 65 44.76 168 15.77 ISCAT 8963 NR 16m 48m ISCAT-Logger 26 30min ... 48m 300kHz-ADCP 12845 30min 37m 48m AURAL M2* 233F - 41m 48m SBE16 2264 60min 42m 48m -------------------------------------------------------------------------- Depths are estimated from mooring design and pressure sensors where available, and are good to 1-2m. NR=instrument not recovered ND=No data Instruments with data included here: ISCAT - SBE37IM in ice resistant float, telemetering data inductively to a Logger below (system developed at APL-UW) 300KHz-ADCP - 300kHz RDI/Teledyne Workhorse Acoustic Doppler Current Profiler SBE37 Microcat - Seabird SBE 37 Temperature Salinity Pressure recorder SBE16woptic - Seabird SBE16plus with optical data (including some or all of fluorescence, turbidity, transmissivity and PAR) - see headers SBE26p-BPG - Seabird SBE26plus Bottom Pressure Gauge RCM9Turb - Aanderaa RCM9 acoustic current meter with turbidity sensor RCM9LW - Aanderaa Lightweight RCM9 acoustic current meter Instruments with data not included here: AARI-CM&CTD - Current meter and CTD from AARI (Arctic and Antarctic Research Institute, Russia), PI: Igor Lavrenov, AARI ISUS - ISUS Nitrate sensor, PI: Terry Whitledge, UAF AURAL M2* - Aural Marine Mammal Acoustic Recorder, PI: Kate Stafford, UW APL Marine Rec* - APL Marine Recorder, PI: Kate Stafford, UW. Each data file contains the data from one instrument-year - the listed year in the mooring name is the year in which the mooring was deployed. For RCMs and SBEs, calibrated data are recorded in one file per instrument per year, with naming convention: BeringStrait_yyyy_ID_III_#####.ttt yyyy=Deployment year; ID=mooring ID; III=instrument type; #####=serial number; ttt=indicates calibration, with .pre=pre-deployment calibration used, .ppp=pre and post deployment calibrations merged. The SBE-16 and 37 hexidecimal files (unaltered from the download) are also included, indicated by extension .hex or .asc For the ADCPs, there are multiple files per instrument. BeringStrait_yyyy__ID_#####ADCPraw.000 = Binary download from the ADCP (see notes below for multiple .000 files) BeringStrait_yyyy__ID_#####_ADCPdeploytests.txt = pre deployment tests BeringStrait_yyyy__ID_#####_ADCPrecoverytest.txt = post deployment tests The remainder are ASCII conversions of the data, corrected for clock drift and magnetic declination. BeringStrait_yyyy__ID_#####.btm = ASCII bottom track data (including ice range and velocity) BeringStrait_yyyy__ID_#####.ins = ASCII instrument data (e.g. heading, pitch, roll, temperature) BeringStrait_yyyy__ID_#####_bin01.rdat = ASCII water velocity data in Bin 1 BeringStrait_yyyy__ID_#####.bin02.rdat = ASCII water velocity data in Bin 2 etc. (Bin depths are given in the data files) Header information is included in each data file. ----------------------------------------------------------------------------- For details of the measurements and their interpretation, please see: Woodgate, R.A., K.M.Stafford and F.G.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 and 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, 160, 124-154, doi:10.1016/j.pocean.2017.12.007. Please use 2015 and 2018 citations for these data. For an overview of cruises and project, please see: http://psc.apl.washington.edu/BeringStrait.html For relevant papers, please see: Roach, A.T., K. Aagaard, C. H. Pease, S.A. Salo, T. Weingartner, V. Pavlov, and M. Kulakov (1995) Direct measurements of transport and water properties through Bering Strait, J. Geophys. Res., 100, 18,443-18,457. Woodgate, R.A., and K. Aagaard (2005) Revising the Bering Strait freshwater flux into the Arctic Ocean, Geophys. Res. Lett., 32, L02602, doi:10.1029/2004GL021747. Woodgate, R.A., K. Aagaard, and T. Weingartner (2005) Monthly temperature, salinity, and transport variability of the Bering Strait throughflow, Geophys. Res. Lett., 32, No. 4, L04601, doi:10.1029/2004GL021880. Woodgate, R. A., K. Aagaard, and T. J. Weingartner (2005) A year in the physical oceanography of the Chukchi Sea: Moored measurements from autumn 1990-1991,Deep-Sea Res., Part II, 52, 3116-3149, doi: 10.1016/j.dsr2.2005.10.016. Woodgate, R. A., K. Aagaard, and T. J. Weingartner (2006) Interannual changes in the Bering Strait fluxes of volume, heat and freshwater between 1991 and 2004, Geophys. Res. Lett., 33, L15609, doi:10.1029/2006GL026931. Woodgate, R. A., T. Weingartner, and R. Lindsay (2010), The 2007 Bering Strait oceanic heat flux and anomalous Arctic sea-ice retreat, Geophys. Res. Lett., 37, L01602, doi:10.1029/2009GL041621. Woodgate, R.A., T. Weingartner, and R. Lindsay (2012), Observed increases in Bering Strait oceanic fluxes from the Pacific to the Arctic from 2001 to 2011 and their impacts on the Arctic Ocean water column, Geophys. Res. Lett., 39, L24603, doi:10.1029/2012GL054092. 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, 160, 124-154, doi:10.1016/j.pocean.2017.12.007. For queries, please contact: Rebecca Woodgate woodgate@apl.washington.edu (206) 221-3268 Polar Science Center, Applied Physics Lab, University of Washington 1013 NE 40th, Seattle, WA 98105-6698 USA ------------------------------------------------------------------------------ Meta data ========= 1) Platform: Subsurface oceanographic moorings 2) Project title: Bering Strait 3) Data collection dates: July 2016 to July 2017 4) PI: Rebecca Woodgate (woodgate@apl.washington.edu) 5) Data collection method: Year-round moorings carrying - Sea-Bird temperature/conductivity and pressure recorders (SBE) - RDI 300kHz Workhorse Acoustic Doppler Current Profilers (ADCP) - APL data loggers for inductive data from ISCAT system 6) Data calibration method: Unless noted otherwise in the header on each data file, timestamps have been corrected for observed instrument clock drift. All times are given in GMT. For SBEs, calibration coefficients are given in header file. SBEs: - Generally pre and post calibrated by the manufacturer (indicated by suffix .ppp) - pre and post calibrations linearly time-weighted through the deployment. - .pre suffix indicates only pre-cruise calibration used - just prior to recovery, a CTD cast was performed in the vicinity of the mooring as an attempt to provide and inwater calibration. Immediately after recovery, SBE instruments were placed in a stirred tank of sea water, to check immediate post deployment calibrations (figure included here). These are both just informational checks to assess how well the post-cruise manufacturer's calibration captures the final in-water state. The final post-cruise calibration used is that from the manufacturer. ADCPS: Tested by APL/manufacturer pre deployment. - compasses calibrated as per manufacturer's specifications in Seattle prior to deployment. Estimated compass error is included in the header file - where available, at sea compass check also included in header file - direction corrected to true north, magnetic declination used is cited in the header. - data requiring speed of sound in water is corrected by the ADCP using the water temperature measured by the ADCP. - intensity of returned signals is not specially calibrated. 7) Instrumentation used: (see table for sampling frequencies) Sea-Bird SBE16 recorders ISCAT loggers (SBE37 Microcat logging data to an APL-Logger) RDI 300 kHz Workhorse ADCP - bin size 2m 8) Quality control procedures: Quality control provided by Rebecca Woodgate. ADCP data rely on ADCP internal temperature for speed of sound corrections. ADCP Data files are included for all bins up to the surface although bins near the surface contain much larger errors (likely due to surface effects) and should be treated with caution. 9) Data format: SBE data - ASCII, format given in individual headers (uncalibrated "hex" or "asc" data also included for SBEs) ADCP data - 2 formats: a) BINARY download file from ADCP and b) ASCII conversion of these files (in 2m bins) 10) Data collection problems: By Mooring: - no significant problems. On two moorings A2 and A3, both releases were needed to release the moorings. On A2, the first release had turned, although it did not alone allow the mooring to surface. On A3, while the second release released the mooring, on recovery the first release was found to be still locked. - biofouling is a typical issue in the strait, but biofouling was moderate this year. For these recoveries, A2-16 was the most heavily fouled. Fouling was mostly by barnacles, up over 2cm long, with some bryozoam-like growth on several parts of the moorings. Overall, release hooks and salinity cells were generally clear of biofouling, although, as discussed below, salinity drifts are still significant. Photographic documentation of biofouling on recovery is available via cruise reports, included here and on the Bering Strait website: http://psc.apl.washington.edu/BeringStrait.html. By Instrument: === ISCATS (Loggers and SBE37s) A216 - SBE37 8964 - Recovered, data good - Logger 04 - Data good - corrected for logger clock set 1day wrong - Postcal shows salinity drift of ~ 0.05psu - Final record still 0.01 psu fresher than tank test A316 - SBE37 13003 - lost 14th April 2017 - corrected for SBE37 clock set 1day wrong - Logger 23 - Data good, although batteries dead on recovery - Coupler and weak link also lost - No postcal available, but compared to underlying SBE SBE37 may be 0.2psu too salty by end of record A416 - SBE37 8963 - lost 12th Jan 2017 - corrected for SBE37 clock set 1day wrong - Logger 26 - Data good - corrected for logger clock set 1day wrong - Coupler and weak link still present, along with 19.2m wire, suggesting the iscat top was cut cleanly from the cable just below the stopper block. - no postcal available === ADCPs Note that ADCP range measurements are not corrected for pitch and roll. For full discussion and correction, see: Woodgate and Holroyd, 2011, included in archive. A216_adcp02332 - bin 1 has high velocity errors - pitch and roll generally < 10 deg, peaking at 20 deg - pitch has offset of ~ 5deg, possibly relating to SBE mounted on side of ADCP cage - range measurements not corrected for pitch and roll - data generally good until Bin15 (~13m) - temperature data not quality controlled A316_adcp10926 - ran on deck pre deployment, failed on deployment, wrote multiple files (not processed here), until restarting successfully on 11th July and running for rest of year. Only 11th July 2017 data included here. Original downloads archived unprocessed. - bin 1 has some high velocity errors - pitch and roll generally < 10 deg, peaking at 20 deg - range measurements not corrected for pitch and roll - data generally good until Bin14 (~13m) - temperature data not quality controlled A416_adcp12845 - wrote ~ 300 files of varying length. These have been concatenated to give a fairly continuous record from deployment to early Feb 2018. Note that data are NOT continuous - there are some 2-5 day gaps. Data are presented here with time-stamp of data collection. - bin 1 has some high velocity errors - bins 6,7,8, have some high velocity errors - pitch and roll generally < 10 deg, peaking at 20 deg - range measurements not corrected for pitch and roll - data generally good until Bin11 (~13m) - temperature data not quality controlled === SBE16 A216_1541 - cell clear on recovery - 0.11 psu change between pre and post cals - drift confirmed by onship tank calibration suggesting uncorrected SBE16 ~ 0.1psu too fresh. Postcal still ~0.01psu fresher than tank reference. - salinity cell failed after post-cruise calibration A316_0005 - cell clear on recovery - 0.07 psu change between pre and post cals - drift confirmed by onship tank calibration suggesting uncorrected SBE16 ~ 0.07psu too fresh. Postcal still ~0.02psu fresher than tank reference. A416_2264 - cell clear on recovery - Instrument failed while in the water from internal electronic failure. Data only good until 23rd Sep 2016. - Batteries flat on recovery, no clock check available - record derived from pre cal only 11) Other related data sets: This data set is a continuation of mooring measurements made in the Bering Strait almost continuously since 1990. Mooring data have already been archived via the SBI project, managed by JOSS/EOS, and at NODC. For details see http://psc.apl.washington.edu/BeringStrait.html http://www.eol.ucar.edu/projects/sbi/ http://sbi.utk.edu/ http://www.nodc.noaa.gov Since 2000, CTD sections have been run in the Bering Strait on the mooring cruises. This data is also accessible via the http links above. 12) Conditions for use or citation: Data freely available Please, as a courtesy, contact the PIs before using these data 13) Data qualifications or warnings: See also Data collection problems. For data issues relevant to a specific deployment, see the individual headers. In general: SBE data: Standard Sea-Bird limitations apply - estimated accuracy 0.02 deg C, 0.0012 S/m (corresponding to 0.02 psu), and < 1 db. - see header files for difference between pre and post calibration which are usually 0.03 psu or greater. - Note that post-calibrations on the SBE16s suggests salinity sensor drift during deployment of between 0.02 and 0.1psu, and this should be considered if post calibrations are not available - Note also that clogging of the salinity cell during deployment will not be captured by the post calibration and thus generally ends of records should be suspected for anomalously low salinities, especially if the SBE is not mounted vertical. ADCP data: Standard RDI limitations apply - estimated accuracy ~ 0.5 cm/s for water velocities (~100 pings per ensemble) Estimated errors (given in the files) vary with bin and time ~ 1 cm/s for ice velocities (2 or 5 pings per ensemble) Estimated errors (given in the files) vary with time ~ 1 deg in direction (see header files) Range to ice - accurate to 1% of range to surface (i.e. ~ 0.4 m) ~ 0.4 deg C in temperature Note that ADCP range measurements are not corrected for pitch and roll. For full discussion and correction, see: Woodgate and Holroyd, 2011, included in archive. 14) Grant numbers: Mooring sponsorship came from - National Science Foundation (NSF) Arctic Observing Network (AON) program, grant PLR-1304052 (PI: Woodgate, Heimbach and Nguyen) 15) Sample repository locations: National Ocean Data Center (http://www.nodc.noaa.gov) University of Washington (http://psc.apl.washington.edu/HLD) 16) Please use the following 2 citations for these data: Woodgate, R.A., K.M.Stafford and F.G.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 and 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, 160, 124-154, doi:10.1016/j.pocean.2017.12.007. ============================================================================== ============================================================================== FILE LISTING ============= Total number of files: 551 including 4 subdirectories Size (b) Name --------- ---- = Metadata file (1 file) 39160 Bering_Strait_Moorings_2016-2017_NSFAON_ReadMe.txt = Cruise reports (2 files), summary figure of tank test (1 file) and 1 technical note (1 file) 9220707 BeringStrait2016CruiseReport_Norseman2_9thAugust2016wEL.pdf 4913880 BeringStrait2017CruiseReport_Norseman2_22ndJuly2017witheventlog_small.pdf 45776 BS2017_Recoverytankwithpostcal.png 1853097 WoodgateandHolroyd2011_BTrangeCorrection.pdf = ISCAT data (5 files) - 3 ICLog*.pre of pre calibrated logger data - 1 ICsbe37*.ppp pre-post calibrated SBE37 data - 1 ICsbe37*.asc raw SBE37 data 1403465 BeringStrait_2016_A2_ICLog04_8964.pre 1083103 BeringStrait_2016_A3_ICLog23_13003.pre 726764 BeringStrait_2016_A4_ICLog26_8963.pre 9006618 BeringStrait_2016_A2_ICsbe37_8964.ppp 5700868 BeringStrait_2-16_A2_ICsbe37_8964raw.asc = SBE16 (6 files) - 3 .hex files of raw data - 2 .ppp files of pre-post calibrated data - 1 .pre files of pre calibrated data (as short record) (see also con file directory) 744520 BeringStrait_2016_A2_sbe16_1541.ppp 177590 BeringStrait_2016_A2_sbe16_1541raw.hex 744436 BeringStrait_2016_A3_sbe16_0005.ppp 177585 BeringStrait_2016_A3_sbe16_0005raw.hex 161216 BeringStrait_2016_A4_sbe16_2264.pre 135814 BeringStrait_2016_A4_sbe16_2264raw.hex .. and the 4 subdirectories, One subdirectory of SBE .con calibration files ./BeringStrait_2016_SBEconfiles: - 6 calibration files for SBEs (2264pos included although not used) 4760 0005posNov17.con 4759 0005preNov15.con 4763 1541posNov17.con 4763 1541preJun10.con 4765 2264posNov17.con 4765 2264preNov15.con Three subdirectories of ADCP data, naming conventions as described above, containing also 2 subdirectories of raw instrument files: 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