internal ID number 0563 transmission ID number f1314 IMEI 300125061178080 transmission type IRIDIUM positioning system GPS instrument type NAVIS_SUNA_PH WMO ID number 2902884 WMO instrument type (table 1770) 863 WMO recorder type (table 4770) 60 start time [dd mm yyyy hh mm (Z)] 20 06 2023 13 39 status of start time n/a launch time [dd mm yyyy hh mm (Z)] 20 06 2023 14 54 status of launch time n/a launch position [lat latm lon lonm] 13. 11.988 149. 59.128 status of launch position n/a delay of first down time [hours] 4 descent sampling period [seconds] 0 down time [hours] 17.833 up time [hours] 11 ascent time out [hours] 9 park descent time [hours] 5 deep profile descent time [hours] 5 connect time out [seconds] 60 continuous profile activation [dbar] 985 park and profile cycle number 1 deep profile piston position 199 park piston position 351 pressure activation piston position 301 max air bladder pressure 127 ok vacuum threshold 98 piston full extenstion 880 ascent buoyancy nudge [counts] 30 initiation buoyancy nudge [counts] 60 telemetry retry interval [min] 15 clock drift [hours/hours] 0 last cycle n/a add to grey list y 1 grey list date 1 2023-07-17 9999-99-99 grey list flag 1 4 grey list parameter 1 PH why_add_to_grey_list 1 maybe poor sensor performance ================================ calib eq 1 for oxygen V=(PHASE_DELAY_DOXY+Pcoef1*PRES/1000)/39.457071; Ksv=C0+C1*TEMP_DOXY+C2*TEMP_DOXY^2; MLPL_DOXY=[(A0+A1*TEMP_DOXY+A2*V^2)/(B0+B1*V)-1]/Ksv; O2=MLPL_DOXY*Scorr*Pcorr; Scorr=A*exp[PSAL*(SolB0+SolB1*TS+SolB2*TS^2+SolB3*TS^3)+SolC0*PSAL^2]; A=[(1013.25-pH2O(TEMP,Spreset))/(1013.25-pH2O(TEMP,PSAL))]; pH2O(TEMP,S)=1013.25*exp[D0+D1*(100/(TEMP+273.15))+D2*ln((TEMP+273.15) /100)+D3*S]; Pcorr=1+((Pcoef2*TEMP+Pcoef3)*PRES)/1000; TS=ln[(298.15-TEMP)/(273.15+TEMP)]; DOXY[umol/kg]=44.6596*O2/rho, where rho is the potential density [kg/L] calculated from CTD data calib coef for oxygen Pcoef1=0.115, Pcoef2=0.00022, Pcoef3=0.0419; A0=1.0513, A1=-1.5e-03, A2=4.3172e-01; B0=-2.5295e-001, B1=1.6650e+000; C0=1.0418e-001, C1=4.4420e-003, C2=6.1242e-005;E=1.1e-02;Spreset=0; D0=24.4543, D1=-67.4509, D2=-4.8489, D3=-5.44e-4; SolB0=-6.24523e-3, SolB1=-7.37614e-3, SolB2=-1.03410e-3, SolB3=-8.17083e-3; SolC0=-4.88682e-7; calib comment for oxygen see SBE63 User’s Manual (manual version #007, 10/28/13); see Processing Argo OXYGEN data at the DAC level, Version 2.2 (DOI: http://dx.doi.org/10.13155/39795 calib eq 1 for temp_doxy temp_doxy=1/(ta0+(ta1*L)+(ta2*L^2)+(ta3*L^3))-273.15; calib coef for temp_doxy ta0=6.899261e-004;ta1=2.550544e-004;ta2=3.081117e-007;ta3=1.116952e-007; calib eq 1 for chla CHLA=(FLUORESCENCE_CHLA-DARK_CHLA)*SCALE_CHLA; calib coef for chla SCALE_CHLA=1.661E-03;DARK_CHLA=49; calib comment for chla none calib eq 1 for bbp700 BBP700=2*pi*khi *((BETA_BACKSCATTERING700-DARK_BACKSCATTERING700)*SCALE_BACKSCATTERING700-BETASW700); calib coef for bbp700 DARK_BACKSCATTERING700=48;SCALE_BACKSCATTERING700=3.581E-07;khi=1.076;BETASW700 (contribution of pure sea water) is calculated at 150 deg; calib comment for bbp700 Sullivan et al., 2013, Zhang et al., 2009, BETASW700 is the contribution by the pure seawater at 700nm, requiring temperature, salinity and using a depolarization of 0.039, its default value. the script can be found at http://doi.org/10.17882/42916. Reprocessed from the file provided by Andrew Bernard (Seabird) following ADMT18. This file is accessible at http://doi.org/10.17882/54520 calib eq 1 for bbp532 BBP532=2*pi*khi *((BETA_BACKSCATTERING532-DARK_BACKSCATTERING532)*SCALE_BACKSCATTERING532-BETASW532); calib coef for bbp532 DARK_BACKSCATTERING532=50;SCALE_BACKSCATTERING532=1.263E-06;khi=1.076;BETASW532 (contribution of pure sea water) is calculated at 124 deg; calib comment for bbp532 Sullivan et al., 2013, Zhang et al., 2009, BETASW532 is the contribution by the pure seawater at 532nm, requiring temperature, salinity and using a depolarization of 0.039, its default value. the script can be found at http://doi.org/10.17882/42916. Reprocessed from the file provided by Andrew Bernard (Seabird) following ADMT18. This file is accessible at http://doi.org/10.17882/54520 calib eq 1 for nitrate The sensor returns UV_INTENSITY_DARK_NITRATE and UV_INTENSITY_NITRATE(Ntrans), a subset of continuous pixels of UV_INTENSITY_NITRATE(N), N = 1 to 256. The Ntrans indices span the interval [PIXEL_START, PIXEL_END] subset of the original array (1 to 256). Thus Ntrans(i) refers to pixel N = (PIXEL_START+i-1). PIXEL_START and PIXEL_END are defined from calibration data so that the [PIXEL_START, PIXEL_END] interval is the smallest interval of pixels that correspond to the [217 nm, 250 nm] interval of wavelengths. Only a subset of the [PIXEL_START, PIXEL_END] interval is processed to compute nitrate concentration. This subset is defined as the [PIXEL_FIT_START, PIXEL_FIT_END] interval which is the smallest interval of pixels that correspond to the [217 nm, 240 nm] interval of wavelengths (thus PIXEL_FIT_START = PIXEL_START). In the following equations the data are computed for each pixel R = PIXEL_FIT_START to PIXEL_FIT_END; ABSORBANCE_SW(R)=-log10[(UV_INTENSITY_NITRATE(R)-UV_INTENSITY_DARK_NITRATE)/UV_INTENSITY_REF_NITRATE(R)]; F(R,T)=(A+B*T)*exp[(C+D*T)*(OPTICAL_WAVELENGTH_UV(R)-OPTICAL_WAVELENGTH_OFFSET)]; E_SWA_INSITU(R)=E_SWA_NITRATE(R)*F(R,TEMP)/F(R,TEMP_CAL_NITRATE); ABSORBANCE_COR_NITRATE(R)=ABSORBANCE_SW(R)-(E_SWA_INSITU(R)*PSAL)*[1-(0.026*PRES/1000)]; Perform a multilinear regression to get MOLAR_NITRATE with estimated ABSORBANCE_COR_NITRATE(R) with ABSORBANCE_COR_NITRATE(R)=BASELINE_INTERCEPT+BASELINE_SLOPE*OPTICAL_WAVELENGTH_UV(R)+MOLAR_NITRATE*E_NITRATE(R); NITRATE=MOLAR_NITRATE/rho, where rho is the potential density [kg/L] calculated from CTD data. calib coef for nitrate n/a calib eq 1 for ph k0T=k0+k2*TEMP; pcorr=f1*PRES+f2*PRES^2+f3*PRES^3+f4*PRES^4+f5*PRES^5+f6*PRES^6; k0TP=k0T+pcorr; Tk=273.15+TEMP; Cltotal=(0.99889/35.453*PSAL/1.80655)/(1-0.001005*PSAL); ADH=3.4286e-6*TEMP^2+6.7524e-4*TEMP+0.49172143; IonS=19.924*PSAL/(1000-1.005*PSAL); log10gammaHCl=[-ADH*sqrt(IonS)/(1+1.394*sqrt(IonS))]+[(0.08885-0.000111*TEMP)*IonS]; deltaVHCl=17.85+0.1044*TEMP-0.001316*TEMP^2; log10gammaHCLtP=log10gammaHCl+[deltaVHCl*(PRES/10)/(R*Tk*ln(10))/2/10]; PH_IN_SITU_FREE=[(VRS_PH-k0TP)/(R*Tk/F*ln(10))]+[ln(Cltotal)/ln(10)]+2*log10gammaHCLtP-log10(1-0.001005*PSAL); Stotal=(0.14/96.062)*(PSAL/1.80655); Khso4=exp{[-4276.1/Tk+141.328-23.093*ln(Tk)]+[(-13856/Tk+324.57-47.986*ln(Tk))*IonS^0.5]+[(35474/Tk-771.54+114.723*ln(Tk))*IonS]-[2698/Tk*IonS^1.5]+[1776/Tk*IonS^2]+ln(1-0.001005*PSAL)}; deltaVHSO4=-18.03+0.0466*TEMP+0.000316*TEMP^2; KappaHSO4=(-4.53+0.09*TEMP)/1000; lnKhso4fac=(-deltaVHSO4+0.5*KappaHSO4*(PRES/10))*(PRES/10)/(R*10*Tk); Khso4TPS=Khso4*exp(lnKhso4fac); PH_IN_SITU_TOTAL=PH_IN_SITU_FREE-log10(1+Stotal/Khso4TPS) calib coef for ph R=8.31446;F=96485;k0=-1.2902;k2=-0.00084218;f0=-0.00092842;f1=3.6221e-06;f2=-2.4072e-09;f3=-7.9741e-13;f4=2.3507e-15;f5=-1.2389e-18;f6=2.1171e-22; ==================================== conductivity calibration date 05 11 2021 temperature calibration date 05 11 2021 pressure calibration date 15 11 2021 flbbcd calibration date 22 11 2021 oxygen calibration date 16 10 2021 nitrate calibration date 01 12 2021 ph calibration date 10 11 2021 float manufacturer SBE float serial number 1313 PI FEI CHAI program name CHINA ARGO principal investigator address CSIO, HANGZHOU originating country CHINA float deployer CHAO CUI float deployer address OUC, QINGDAO deployment type R/V deployment platform DONG FANG HONG 3 deployment cruise id n/a profile at deployment n/a nominal drift pressure [dbar] 1000 cycles for drift pressure 1 nominal profile pressure [dbar] 1000 cycles for profile pressure 1 pump type n/a conductivity sensor type SBE41N_V5.3.5 conductivity sensor manufacturer SBE conductivity sensor serial number 16712 conductivity sensor accuracy 0.005 conductivity sensor resolution 0.001 Profile Sampling Method continuous temperature sensor type SBE41N_V5.3.5 temperature sensor manufacturer SBE temperature sensor serial number 16712 temperature sensor accuracy 0.002 temperature sensor resolution 0.001 pressure sensor type DRUCK_2900PSIA pressure sensor manufacturer DRUCK pressure sensor serial number 11980563 pressure sensor accuracy 2.4 pressure sensor resolution 0.1 oxygen sensor type SBE63_OPTODE oxygen sensor manufacturer SBE oxygen sensor serial number 3015 oxygen sensor accuracy 5 oxygen sensor resolution 0.4 oxygen sensor pressure offset 0.0 oxygen sampling in air 0 chlorophyll sensor type MCOMS_FLBB2 chlorophyll sensor manufacturer WETLABS chlorophyll sensor serial number 0320 chlorophyll sensor accuracy 0.08 chlorophyll sensor resolution 0.025 chlorophyll sensor excit wavelength 470 chlorophyll sensor emission wavelength 695 backscattering sensor type MCOMS_FLBB2 backscattering sensor manufacturer WETLABS backscattering sensor serial number 0320 backscattering sensor accuracy -999.9 backscattering sensor resolution -999.9 backscattering sensor wavelength 532 backscattering sensor angle 124 backscattering sensor pressure offset 0.1 backscattering sensor type MCOMS_FLBB2 backscattering sensor manufacturer WETLABS backscattering sensor serial number 0320 backscattering sensor accuracy -999.9 backscattering sensor resolution -999.9 backscattering sensor wavelength 700 backscattering sensor angle 124 backscattering sensor pressure offset 0.1 nitrate sensor type SUNA_V2 nitrate sensor manufacturer SATLANTIC nitrate sensor serial number 1798 nitrate sensor accuracy 2 nitrate sensor resolution 0.01 nitrate sensor pressure offset 1.26 nitrate calibration file SNA1798C.CAL nitrate pixel start 36 nitrate pixel end 76 nitrate pixel fit start 36 nitrate pixel fit end 64 ph sensor type SEAFET ph sensor manufacturer SBE ph sensor serial number 11100 ph sensor accuracy 0.005 ph sensor resolution 0.0004 battery type Lithium initial battery voltage [volt] 15.0 primary control board type N1 primary board serial number 1695 secondary control board type n/a secondary control board serial number n/a ROM version 190520 manual version 190520 comment n/a