ĐĎॹá>ţ˙ …‡ţ˙˙˙ƒ„˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙ěĽÁ3 đżIcbjbjöĘöĘ &”” ” I_˙˙˙˙˙˙lćććććććúJ1J1J1J1 V1¤ú™J>22222222JJJJJJJ$×K ÷Mž>Jć22222>JśBćć22SJśBśBśB2ţć2ć2JśB2JśBbśBJććJ2ú1 °uŽf’ůČúP0J18" JJiJ0™JJľN&AľNJśBúúććććŮ Explorer of the Seas METADATA - 2003 Class of Data: Surface ocean carbon dioxide concentrations Dataset Identifier: AOML_Explorer Two Files: Explorer_2003_East Explorer_2003_West Statement of how to cite dataset: Explorer website: http://www.aoml.noaa.gov/ocd/gcc/explorer_cruisetracks.php These data are made freely available to the public and the scientific community in the belief that their wide dissemination will lead to greater understanding and new scientific insights. The availability of these data does not constitute publication of the data. We rely on the ethics and integrity of the user to assure that AOML receives fair credit for our work. Please send manuscripts using this data to AOML for review before they are submitted for publication so we can insure that the quality and limitations of the data are accurately represented. Measurement platform identifier: Explorer of the Seas Cruise Information: Weekly cruises through the Caribbean departing from Miami, Florida. Project Information: This project represents a collaboration between Royal Caribbean International, the University of Miami's Rosenstiel School of Marine and Atmospheric Science, the National Oceanic and Atmospheric Administration, the National Science Foundation, the Office of Naval Research, and the National Aeronautics and Space Administration. Scientist responsible for technical quality of dataset: Rik Wanninkhof NOAA/AOML/Ocean Chemistry Division 4301 Rickenbacker Causeway Miami, Florida 33149 Rik.Wanninkhof@noaa.gov Contact person for this dataset: Betty Huss NOAA/AOML/Ocean Chemistry Division 4301 Rickenbacker Causeway Miami, Florida 33149 Betty.Huss@noaa.gov Timestamp for initial submission of dataset: 8/08/08 Timestamp for the most recent update of dataset: 8/08/08 Timestamp period the dataset refers to: 2/09/2003 - 12/31/2003 Geographic area the dataset refers to: 16 N to 27 N 60 W to 88 W Eastern Cruise Track: Day 1 - Miami, Florida (25.8 N/80.7 W) Day 3 - San Juan, Puerto Rico (18.5 N/66.1 W) Day 4 - Philipsburg, St. Maarten (18.0 N/63.0 W) Day 5 - Charlotte Amalie, St. Thomas (18.3 N/64.9 W) Day 7 - Nassau, Bahamas (25.1 N/77.3 W) Day 8 - Miami, Florida (25.8 N/80.7 W) Western Cruise Track: Day 1 - Miami, Florida (25.8 N/80.7 W Day 3 – Labadee, Hispaniola (19.8 N/72.3 W) Day 4 – Ocho Rios, Jamaica (18.4 N/77.1 W) Day 5 – George Town, Grand Cayman (19.3 N/81.4 W) Day 6 – Cozumel, Mexico (20.5 N/87.0 W) Day 8 - Miami, Florida (25.8 N/80.7 W) List of variables included in this dataset: COLUMN HEADER EXPLANATION 1. Group_Ship: AOML_Explorer for all Explorer of the Seas data. 2. Cruise: Cruise Name (For example, EX0546W: EX = Explorer of the Seas, 05 = 2005, 46 = 46th weekly cruise, and W = western track). 3. JD_GMT: Decimal year day. 4. Date_DDMMYYYY: The date format has been changed to comply with the IOCCP recommendations. 5. TIME_HH:MM:SS: GMT time. NOTE: local time = GMT - 4 hr or GMT - 5 hr. 6. Lat_dec_degree: Latitude in decimal degrees (negative values are in the southern hemisphere). 7. Long_dec_degree: Longitude in decimal degrees (negative values are in the western latitudes). 8. xCO2eq_ppm: Mole fraction of CO2 (dry) in the headspace equilibrator at equilibrator temperature (Teq) in parts per million. 9. xCO2a_ppm: Mole fraction of CO2 in air in parts per million. This field is not measured on the Explorer of the Seas - all data initialized to -9. 10. Pres_Equil_hPa: Barometric pressure in the lab in hectopascals (1 hectopascal = 1 millibar). 11. Pres_sealevel_hPa: Barometric pressure from ship's barometer, corrected to sea level in hectopascals (1 hectopascal = 1 millibar). 12. EqTemp_C: Temperature in equilibrator water in degrees centigade. Temperature in equilibrator measured with a calibrated thermistor. 13. SST(TSG)_C: Temperature from the ship's thermosalinograph in degrees centigrade. 14. Sal(TSG)_Permil: Salinity from the ship's thermosalinograph on the Practical Salinity Scale. 15. Water_flow_l/min: Water flow through equilibrator in liters per minute. 16. Gasflow_IR_ml/min: Gas flow through the Licor infrared analyzer before the flow is stopped in milliliters per minute. 17. Temp_IR_C: Temperature of the Licor infrared analyzer sample cell in degrees centigrade. 18. Pres_IR_hPa: Pressure in the Licor infrared analyzer in hectopascals. NOTE: There is no pressure sensor in the Licor but since it is vented to atmosphere prior to measurement, this value is the same as the pressure in the lab (number 10 above). (1 hectopascal = 1 millibar). 19. Ship_heading_true_degree: Ship's heading from ship's navigation system in degrees with 0 = North and 90 = East. 20. Ship_speed_knot: Ship's speed from ship's navigation system in knots. 21. Wind_dir_rel_degree: Wind direction relative to the ship from ship's navigation system in degrees with 0 = from the bow and 90 = from starboard. 22. Wind_speed_rel_m/s: Wind speed relative to the ship from ship's navigation system in meters per second. 23. fCO2W@SST_uatm: Fugacity of CO2 in sea water in microatmospheres calculated as outlined below. 24. Qcflag_water: Quality control flag for sea water xCO2 and fCO2 values with 2 = good value, 3 = questionable value, 4 = bad value, and 9 = no measurement taken. 25. fCO2a_uatm: Fugacity of CO2 in air in microatmospheres. This field is not measured on the Explorer of the Seas - all data initialized to -9. 26. Qcflag_air: Quality control flag for air xCO2 and fCO2. Since no air values were taken, all values are initialized to 9. 27. dfCO2_uatm: Sea water fCO2 - air fCO2 in microatmospheres. This uses the average air value for the current hour. This field is not measured on the Explorer of the Seas - all data initialized to -9. 28. Fluoro_ug/l: Reading from the fluorometer in micrograms per liter. 29. Wind_speed_true_m/s: True wind speed in meters per second. 30. Wind_dir_true_degree: True wind direction in degrees were 0 = North and 90 = East. 31. Air_Temp_C: Outside air temperature from ship's computer system in degrees centigrade. 32. Oxygen: Units not known at this time. The following fields have been QC'ed by the CO2 group: Group_Ship Cruise JD_GMT DATE_DDMMYYYY TIME_HH:MM:SS Lat_dec_degree Long_dec_degree xCO2eq_ppm Pres_Equil_hPa EqTemp_C Water_flow_l/min Gasflow_IR_ml/min Temp_IR_C Pres_IR_hPa fCO2W@SST_uatm QCflag_water The following fields are from ship's onboard systems and the quality of this data cannot be verified: Pres_sealevel_hPa SST(TSG)_C Sal(TSG)_Permil Ship­_heading_true_degree Ship_speed_knot Wind_dir_rel_degree Wind_speed_rel_m/s Fluoro_ug/l Wind_speed_true_m/s Wind_dir_true_degree Air_Temp_C Oxygen Narrative description of system design: CO2 ANALYTICAL SYSTEM: The concentration of carbon dioxide (CO2) in surface ocean water is determined by measuring the concentration of CO2 in gas that is in contact with the water. Surface water is pumped over 200 m through 7/8" Teflon tubing from an inlet in the ship's bow to the equilibration chamber. Water comes from the bow intake 2 m below the water line and the TSG is located close to the inlet. Since the sea surface temperature is high and the ship is well air-conditioned, the Teq is on average about 0.4 °C lower than SST. The equilibration chamber has an enclosed volume of gas, or headspace, and a pool of seawater that continuously overflows to a drain. As the water flows through the chamber, the dissolved gases (like CO2) partition between the water and the headspace. At equilibrium, the ratio of CO2 in the water and in the headspace is influenced most by temperature, and that relationship is known. By measuring the concentration of CO2 in the headspace and the temperature in the chamber, the partial pressure (or fugacity) of CO2 in the surface water can be calculated. INSTRUMENT DESCRIPTION The general principle of instrumental design can be found in Wanninkhof and Thoning (1993), Ho et al. (1995), and Feely et al. (1998). The concentration of CO2 in the headspace gas is measured using the adsorption of infrared (IR) radiation, which results from changes in the rotational and vibrational energy state of the CO2 molecule. The LI-COR detector passes IR radiation through two 6" cells. The reference cell is flushed with a gas of known CO2 concentration. The sample cell is flushed with the headspace gas. A vacuum-sealed, heated filament is the broadband IR source. The IR radiation alternates between the two cells via a chopping shutter disc. An optical filter selects an adsorption band specific for CO2 (4.26 micron) to reach the detector. The solid state (lead selenide) detector is kept at -12 degrees °C for excellent stability and low signal noise (less than 0.2 ppm). Several steps are taken to reduce interferences and to increase the accuracy of the measurements. After the equilibration chamber, the headspace travels through a drying trap to remove water vapor. During each analysis, the headspace gas is compared to a reference gas of known concentration. To improve the accuracy of the measurements, three different gaseous standards for CO2 are analyzed once an hour instead of the headspace gas. Analyzer: LI-COR 6252 (analog output) infrared (IR) analyzer. Method of Analysis: Differential analyses relative to a reference gas which is close to the CO2 concentration of the middle standard. Measures dried equilibrator headspace gas. Gas flow is stopped prior to IR readings. Drying Method: The equilibrator headspace sample gas first goes through an air filter and a thermoelectric refrigerator (~6-10 °C). The sample and standard gases pass through a Perma Pure (Nafion) dryer and a short column of magnesium perchlorate before reaching the analyzer. The counter flow in the Perma Pure tube is the reference gas. Equilibrator (setup, size, flows): The equilibrator was fabricated using a filter housing (ColeParmer, U-010509-00) with ~0.5 L water reservoir and ~0.8 L gaseous headspace. Water flow rate is ~1.5 L/min. Headspace recirculation rate is ~80 ml/min. Narrative statement identifying measurement method for each required parameter: CALCULATIONS: The mixing ratios of ambient air and equilibrated headspace air are calculated by fitting a second-order polynomial through the hourly averaged millivolt response of the detector versus mixing ratios of the standards. Mixing ratios of dried equilibrated headspace and air are converted to fugacity of CO2 in surface seawater and water saturated air in order to determine the fCO2. For ambient air and equilibrator headspace, the fCO2a (or fCO2eq) is calculated assuming 100% water vapor content: fCO2eq = xCO2eq(P-pH2O)exp(B11+2d12)P/RT where fCO2eq is the fugacity in the equilibrator, pH2O is the water vapor pressure at the sea surface temperature, P is the atmospheric pressure (in atm), T is the SST or equilibrator temperature (in K) and R is the ideal gas constant (82.057 cm^3ˇatmˇdeg^-1ˇmol^-1). The exponential term is the fugacity correction where B11 is the second virial coefficient of pure CO2 B11 = -1636.75 + 12.0408T - 0.032795T^2 + 3.16528E-5 T^3 and d12 = 57.7 - 0.118 T is the correction for an air-CO2 mixture in units of cm^3ˇmol^-1 (Weiss, 1974). The calculation for the fugacity at SST involves a temperature correction term for the increase of fCO2 due to heating of the water from passing through the pump and through 5 cm ID PVC tubing within the ship. The water in the equilibrator is typically 0.4 °C cooler than sea surface temperature. The empirical temperature correction from equilibrator temperature to SST is outlined in Weiss et al. (1982). dln(fCO2)=(teq-SST)(0.0317-2.7851E-4 teq - 1.839E-3 ln(fCO2eq)) where dln(fCO2) is the difference between the natural logarithm of the fugacity at Teq and SST, and Teq is the equilibrator temperature in degrees C. Sampling Cycle: The system runs on an hourly cycle during which 3 standard gases, a reference gas and 20 surface water samples (from the equilibrator head space) are analyzed on the following schedule: Mins. after hour Sample ================ ====== 0:00 Low Standard 2:10 Mid Standard 4:25 High Standard 6:40 Reference 8:55 Water 11:28 Water 14:01 Water 16:34 Water 19:07 Water 21:40 Water 24:13 Water 26:46 Water 29:19 Water 31:52 Water 34:25 Water 36:58 Water 39:31 Water 42:04 Water 44:37 Water 47:10 Water 49:43 Water 52:16 Water 54:49 Water 57:22 Water NOTES ON DATA: Columns have a default value of -9 in case of instrument malfunction, erroneous readings or missing data. Furthermore, if a suspicious xCO2 value, pressure or temperature value is encountered, the fCO2 is not calculated. Analytical Instrument Manufacturer/Model: The Explorer of the Seas system was built by Dave Chipman in 2000. The analyzer is a LI-COR 6252 (analog output) infrared analyzer. Standard Gases and Reference Gas: The three standard gases come from CMDL in Boulder and are directly traceable to the WMO scale. The reference gas is a non-calibrated gas from a commercial company. Any value outside the range of the standards (192 ppm, 426 ppm, and 514 ppm) should be considered approximate (5 ppm). While individual data points above 514 ppm or below 192 ppm may not be accurate, the general trends should be indicative of the seawater chemistry. Description of any additional environmental control: The system is located in the ocean laboratory of the Explorer of the Seas. The room is air-conditioned with little temperature fluctuation. Resolution of measurement: The resolution of the instrument is better than 0.1 ppm. Estimated overall uncertainty of measurement: The xCO2eq measurements are believed accurate to 1 ppm. The fCO2@SST measurements are believed to be precise to 2 ppm. List of calibration gases used: The standards used on the cruise are: STANDARD TANK # CONCENTRATION VENDOR STD1 CA4563 192.34 CMDL STD2 CA3253 426.96 CMDL STD3 CA3758 514.24 CMDL Traceability to an internationally recognized scale (including date/place of last calibration made): All standards are obtained from NOAA/CMDL, now called the Global Monitoring Division of the Earth Research Laboratory and are directly traceable to WHO scale. Uncertainty of assigned value of each calibration gas: The uncertainty based on pre and post cruise calibrations is less than 0.05 ppm. Pressure/Temperature/Salinity: Thermosalinograph information can be found at http://www.rsmas.miami.edu/ rccl/facilities.html. Units: All xCO2 values are reported in parts per million (ppm) and fCO2 values are reported in microatmospheres (uatm) assuming 100% humidity at the equilibrator temperature. Bibliography: DOE (1994). Handbook of methods for the analysis of the various parameters of the carbon dioxide system in sea water; version 2. DOE. Feely, R. A., R. Wanninkhof, H. B. Milburn, C. E. Cosca, M. Stapp and P. P. Murphy (1998). A new automated underway system for making high precision pCO2 measurements onboard research ships. Analytica Chim. Acta 377: 185-191. Ho, D. T., R. Wanninkhof, J. Masters, R. A. Feely and C. E. Cosca (1997). Measurement of underway fCO2 in the Eastern Equatorial Pacific on NOAA ships BALDRIGE and DISCOVERER, NOAA data report ERL AOML-30, 52 pp., NTIS Springfield. Wanninkhof, R. and K. Thoning (1993). Measurement of fugacity of CO2 in surface water using continuous and discrete sampling methods. Mar. Chem. 44(2-4): 189-205. Weiss, R. F. (1970). The solubility of nitrogen, oxygen and argon in water and seawater. Deep-Sea Research 17: 721-735. Weiss, R. F. (1974). Carbon dioxide in water and seawater: the solubility of a non-ideal gas. Mar. Chem. 2: 203-215. Weiss, R. F., R. A. Jahnke and C. D. Keeling (1982). Seasonal effects of temperature and salinity on the partial pressure of CO2 in seawater. Nature 300: 511-513. Comments related to the individual legs: Explorer of the Seas Naming Convention: EX03NNT where EX is the ship abbreviation, 03 is the year, NN is the number of the cruise which will be a number between 1 and 52, and T is the cruise track which will be either W for the west track or E for the east track. For all legs, due to the slow response time of the system, the first 10 minutes of data for each hour for the entire leg was removed. This slow response time is not fully understood. On certain legs the response time was worse and up to 40 minutes of data was removed. Beginning in cruise EX0337W, the first hour of data after leaving port is removed. Ship heading and ship speed data not available for cruises EX0304E To EX0323W. EX0304E to EX0309W: SST and Salinity missing. Merged SST and Salinity from the TSG data. EX0305W: Removed the following suspect data - JD 47.841 to 48.022, JD 48.910 to 48.979, JD 49.958 to 50.00, JD 50.899 to 50.966, JD 52.661 to 52.750, and JD 52.868 to 52.980. EX0306E: Removed the following suspect data - JD 56.946 to 56.966, JD 57.995 to 58.033, and JD 58.104 to 58.114. EX0309W: System off from JD 76.873 to 76.916. EX0310E: System off from JD 85.253 to 85.985 and from JD 86.293 to 86.570. Removed the following suspect data - JD 84.156 to 84.225. EX0311W: System off from JD 90.251 to 90.928. EX0312E: Removed the following questionable data - JD 99.942 to 100.055. EX0313W: Removed the following questionable data - JD 105.444 to 105.489. EX0314E: Removed the following questionable data - JD 112.178 to 112.216 and JD 112.941 to 112.966. EX0318E: System down on 5/19/03 from 20:02 to 23:00. EX0319E: System down on 5/27/03 from 21:04 to 23:00 and down on 5/28/03 to 5/29/03 from 23:06 to 0.08. EX0320E: Removed the following questionable data - JD 157.597 to 157.623. EX0324E: Removed the following questionable data - JD 182.953 to 182.970, JD 183.093 to 183.125 and JD 183.925 to 183.948. EX0325W: Removed the following questionable data - JD 186.939 to 187.00, JD 190.998 to 191.042, and JD 191.500 to 191.510. EX0326E: Data dropout for SST, Salinity, Latitude, and Longitude starting on 7/13/03 at 23:19 to end of cruise. Merged SST and Salinity from the TSG data and Latitude and Longitude from GPS1 data. Removed the following questionable data - JD 193.941 to 193.968, 195.239 to 195.243, JD 196.951 to 196.958 and JD 197.915 to 197.948. EX0327W: Data dropout for SST, Salinity, Latitude, and Longitude starting on 7/20/03 at 15:06 to 7/24/03 21:24. Merged SST and Salinity from the TSG data and Latitude and Longitude from GPS1 data. Removed the following questionable data - JD 200.953 to 201.008 and 202.899 to 202.915. EX0328E: System down from 7/29/03 to 7/30/03 from 14:42 to 0:34 and on 8/1/03 from 15:59 to 8/1/03 22:02. Removed the following questionable data - JD 210.152 to 210.167. EX0330E: Problems with SST, Salinity, Latitude, and Longitude. Merged SST and Salinity from the TSG data and Latitude and Longitude from the GPS1 data. EX0331W: System down from 8/19/03 to 8/19/03 from 12:04 to 17:00. Removed the following questionable data - JD 230.894 to 230.915. EX0336E: System down on 9/26/03 from 15:00 to 18:00. EX0338E: System down on 10/4/03 from 22:00 to 24:00. SST, Salinity, Latitude and Longitude unchanging on 10/10/03 from 19:52 to 10:49. Merged SST and Salinity from the TSG data and Latitude and Longitude from the GPS1 data. EX0340E: System down on 10/20/03 from 17:02 to 18:59, on 10/22/03 from 21:11 to 22:08 and on 10/24/03 from 15:02 to 16:59. EX0343W: System down on 11/10/03 from 12:02 to 21:02. EX0345W: Water flow rate was very low, therefore, equilibration time was very long. Small-scale variability is missing and there is a possible positive bias of about 5 ppm. EX0346E: Water flow meter was not working; probable low water flow. EX0348E: Missing SST, Salinity, Latitude and Longitude. Merged SST and Salinity from the TSG data and Latitude and Longitude from the GPS1 data. EX0349: Missing SST, Salinity, Latitude and Longitude. Merged SST and Salinity from the TSG data and Latitude and Longitude from the GPS1 data. System down on 12/22/03 to 12/23/03 from 12:02 to 23:59 and down on 12/24/03 from 22:02 to 22:59. EX0350: Partially missing SST, Salinity, Latitude and Longitude. Merged SST and Salinity from the TSG data an Latitude and Longitude from the GPS1 data. System down on 12/30/03 to 12/23/03 from 10:02 to 22:02 and down on 12/31/03 from 10:02 to 20:02. ,JÄJâJIcýňýCJOJQJ^JaJPJ89:vwš›żóôijż^ŻO˘ĂÄĹüýýýýýýýýýýýýýýýýýýýýýýýýýýýýýýIcţ]^stš F Š Ö ×   $ L l ‡ ¤ Ľ Ć Ç × ˙  : S T ‰ Š Ä ýýýýýýýýýýýýýýýýýýýýýýýýýýýýýÄ Ĺ   , - ? 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ZlZľZ[[Ď[Ó[$\(\á\ĺ\~]‚]€^ƒ^$_(_K_3333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333337Œ™ľšč쁂ƒ…‡ˆź˝žŔÂĂíîđńňöúűüţ34;<EFLNź ź P ‰ č č ’C“CjLkL˜L™L€NNłNËNĚNĚN×N—O˜O=_>_>_H_K_˙˙ Betty Huss9C:\Explorer\Explorer2004\CDIAC\Metadata_Explorer_2004.doc Betty HussAC:\CRUISES\Explorer\Explorer2004\CDIAC\Explorer_Metadata_2004.doc Betty HussAC:\CRUISES\Explorer\Explorer2003\CDIAC\Explorer_Metadata_2003.doc Betty HussnC:\Documents and Settings\huss\Application Data\Microsoft\Word\AutoRecovery save of Explorer_Metadata_2003.asd Betty HussnC:\Documents and Settings\huss\Application Data\Microsoft\Word\AutoRecovery save of Explorer_Metadata_2003.asd Betty HussAC:\CRUISES\Explorer\Explorer2003\CDIAC\Explorer_Metadata_2003.doc Betty HussnC:\Documents and Settings\huss\Application Data\Microsoft\Word\AutoRecovery save of Explorer_Metadata_2003.asd Betty 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