TN368 bottle file: tn368_bottle_data_Dec_2020.txt (.mat), size: 1351x85

% CTD Station info columns
colCast_m=1;   % CTD cast #
colStNum_m=2;  % Station #
colStId_m=3;   % Station ID: 1-A, 2-B, 3-AUV, 4-AL-CTD, 5-P, 6-NS, 7-EW, 8-NS6A, 9-A10z, 10-SLP, 11-SSF, 12-ALF, 13-AC, 14-AL, 15-HS, 16-S, 17-L'; E.g.: st#=14, stId=1 => stName=14A
colYear_m=4;
colMon_m=5;
colDay_m=6;
colTime_m=7;
colLat_m=8;
colLon_m=9;
colDepT_m=10;      % Target depth
colDep_m=11;       % Depth
colPres_m=12;      % Pressure
colNiskenUsed_m=13; % # bottles used for BTL data averaging

% --- BTL data columns
colSig_m=14;       % Sigma-é00
colSig_s_m=15;     % Sigma-é00
colOxy_m=16;       % Sbeox0ML/L
colOxySat_m=17;    % OxsolMm/Kg
colOxyM_m=18;      % Sbeox0Mm/Kg
colPotTemp_m=19;   % Potemp090C
colPotTemp_s_m=20; % Potemp190C
colSal_m=21;       % Sal00
colSal_s_m=22;     % Sal11
colDens_m=23;      % Density00
colDens_s_m=24;    % Density11
colSoundVel_m=25;  % SvCM
colSoundVel_s_m=26;% SvCM1
%colPres_btl=19;   % PrDM
%colDep_btl=20;    % !!! Calculated DEPTH
colTemp_m=27;      % T090C
colTemp_s_m=28;    % T190C
colCnd_btl=29;     % C0S/m
colCnd_s_m=30;     % C1S/m
colOxyV_m=31;      % Sbeox0V
colFluor1_m=32;    % FlECO-AFL
colFluor2_m=33;    % WetCDOM
colUserPoly_m=34;  % Upoly0
colTrans_m=35;     % CStarTr0
colTurb_m=36;      % TurbWETntu0
colAlt_m=37;       % AltM
colSalD_m=38;      % Sal00 from DATCNV
colSpar_m=39;      % Spar
colPar_m=40;       % Par
colCpar_m=41;      % Cpar
colFluor1V_m=42;   % V0 - fluor1 voltage
colUserPolyV_m=43; % V6 - UserPoly voltage
% --- Nuts data columns.
colBotNuts_m=44;
colNO3_m=45;       % Nitrate (umol L^-^1)
colNH4_m=46;       % Ammonium (umol L^-^1)
colPO4_m=47;       % Phosphate (umol L^-^1)
colSi_m=48;        % Silicate (umol L^-^1)

% --- POC/PP/IntProductivity columns.
colPPVial_m=49;
colVolfilt_m=50;   % (mL)
colN_mg_m=51;     % (mg)
colC_mg_m=52;     % (mg)
colPON_m=53;      % (umol L^-^1)
colPOC_m=54;      % (umol L^-^1)
colCN_ratio_m=55; % (mol/mol)
colExp_m=56;       % Experiment ID: 1-experiment; 0-regular
colProc_io_m=57;
colProd_m=58;     % (mg m^-^3 h^-^1)
colIntProd_m=59;  % (mg C m^-^2 d^-^1)

% --- Bsi columns.
colBsi_m=60;
colCsi_m=61;

% --- Chlorophyll columns.
colNisk_Chl_m=62;
colFilt_0_m=63;
colChl_x_0_m=64;   % (mkg L^-^1) -  \mug L^-^1
colChl_y_0_m=65;   % (mkg L^-^1) -  \mug L^-^1
colPhaeo_x_0_m=66; % (mkg L^-^1) -  \mug L^-^1
colPhaeo_y_0_m=67; % (mkg L^-^1) -  \mug L^-^1
colQCflag_x_0_m=68;
colQCflag_y_0_m=69;
colFilt_10_m=70;
colChl_x_10_m=71;   % (mkg L^-^1) -  \mug L^-^1
colChl_y_10_m=72;   % (mkg L^-^1) -  \mug L^-^1
colPhaeo_x_10_m=73; % (mkg L^-^1) -  \mug L^-^1
colPhaeo_y_10_m=74; % (mkg L^-^1) -  \mug L^-^1
colQCflag_x_10_m=75;
colQCflag_y_10_m=76;

% --- ALK columns.
colNisk_alk_m=77;
colCO3_m=78;        % (umol/kg)
colHCO3_m=79;       % (mol/kg)
colAr_m=80;         % (unitless)
colCa_m=81;         % (unitless)
colAlk_m=82;
colDic_m=83;
colPCO2_m=84;       % (uatm)
colPH_m=85;         % (total scale)