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Dataset #6876 | EM-EU-05-20170717-EME…

RSS 2.0 Atom 1.0
uploaded by KIT
during EMeRGe-EU mission.

Primary data

Releases

Information about all releases of the current dataset #6876 and their availability. The release number is automatically incremented by 1 for each update, starting at 1 for the first release.
Release Upload Date Filesize File
8 2022-07-20 92.5 MiB Download Icon
7 2022-05-03 87.7 MiB No Download
6 2021-11-14 87.6 MiB No Download
5 2021-07-06 87.1 MiB No Download
4 2020-12-15 82.6 MiB No Download
3 2020-12-14 81.8 MiB No Download
2 2020-06-30 36.4 MiB No Download
1 2020-03-21 46.9 MiB No Download

Further Information

  • Begin of free primary data access: 2024-08-01
  • Number of downloads: 656

Entries (observed variables)

Information about observed variables of the current dataset.
No. Name
001 Time; UTC seconds after midnight to DATE (line 7); [s]; BAHAMAS; V01;
002 ABSHUM; Absolute Humidity; [g m-3]; BAHAMAS; V01;
003 Acetaldehyde_D13C; D13C of Acetaldehyde; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
004 Acetaldehyde_D13C_ERROR; D13C_ERROR of Acetaldehyde; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
005 Acetaldehyde_FLAG; FLAG of Acetaldehyde; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
006 Acetaldehyde_IRMS_CONC; IRMS_CONC of Acetaldehyde; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
007 Acetaldehyde_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Acetaldehyde; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
008 Acetaldehyde_MSD_CONC; MSD_CONC of Acetaldehyde; NA; MIRAH; V01;
009 Acetaldehyde_MSD_CONC_ERROR; MSD_CONC_ERROR of Acetaldehyde; NA; MIRAH; V01;
010 ALPHA; Angle of Attack; [deg]; BAHAMAS; V01;
011 alpha_Methylstyrene_D13C; D13C of alpha_Methylstyrene; [per mill]; MIRAH; V01;
012 alpha_Methylstyrene_D13C_ERROR; D13C_ERROR of alpha_Methylstyrene; [per mill]; MIRAH; V01;
013 alpha_Methylstyrene_FLAG; FLAG of alpha_Methylstyrene; [-]; MIRAH; V01;
014 alpha_Methylstyrene_IRMS_CONC; IRMS_CONC of alpha_Methylstyrene; [pptV]; MIRAH; V01;
015 alpha_Methylstyrene_IRMS_CONC_ERROR; IRMS_CONC_ERROR of alpha_Methylstyrene; [pptV]; MIRAH; V01;
016 alpha_Methylstyrene_MSD_CONC; MSD_CONC of alpha_Methylstyrene; NA; MIRAH; V01;
017 alpha_Methylstyrene_MSD_CONC_ERROR; MSD_CONC_ERROR of alpha_Methylstyrene; NA; MIRAH; V01;
018 AMTEX_O3; Ozone, volume mixing ratio [ppb]; [ppbV]; AMTEX_O3; V01;
019 BAR; CO uptake Barcelona (MPC in IBE); [g]; Source_regions; V01; 0.8E-3.0E, 40.9N-41.9N
020 BCm; STP-corrected refractory Black carbon (rBC) mass concentration; [ug m-3]; SP2; V02;
021 BCn; STP-corrected refractory Black carbon (rBC) number concentration; [cm-3]; SP2; V02;
022 Benzene_1_2_4_trimethyl__D13C; D13C of Benzene_1_2_4_trimethyl_; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
023 Benzene_1_2_4_trimethyl__D13C_ERROR; D13C_ERROR of Benzene_1_2_4_trimethyl_; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
024 Benzene_1_2_4_trimethyl__FLAG; FLAG of Benzene_1_2_4_trimethyl_; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
025 Benzene_1_2_4_trimethyl__IRMS_CONC; IRMS_CONC of Benzene_1_2_4_trimethyl_; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
026 Benzene_1_2_4_trimethyl__IRMS_CONC_ERROR; IRMS_CONC_ERROR of Benzene_1_2_4_trimethyl_; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
027 Benzene_1_2_4_trimethyl__MSD_CONC; MSD_CONC of Benzene_1_2_4_trimethyl_; NA; MIRAH; V01;
028 Benzene_1_2_4_trimethyl__MSD_CONC_ERROR; MSD_CONC_ERROR of Benzene_1_2_4_trimethyl_; NA; MIRAH; V01;
029 Benzene_D13C; D13C of Benzene; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
030 Benzene_D13C_ERROR; D13C_ERROR of Benzene; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
031 Benzene_FLAG; FLAG of Benzene; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
032 Benzene_IRMS_CONC; IRMS_CONC of Benzene; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
033 Benzene_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Benzene; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
034 Benzene_MSD_CONC; MSD_CONC of Benzene; NA; MIRAH; V01;
035 Benzene_MSD_CONC_ERROR; MSD_CONC_ERROR of Benzene; NA; MIRAH; V01;
036 BETA; Angle of Sideslip; [deg]; BAHAMAS; V01;
037 BNR; CO uptake Belgium, Netherlands and Ruhr area; [g]; Source_regions; V01; 2.2E-8.0E, 50.0N-54.5N
038 Butanal_D13C; D13C of Butanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
039 Butanal_D13C_ERROR; D13C_ERROR of Butanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
040 Butanal_FLAG; FLAG of Butanal; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
041 Butanal_IRMS_CONC; IRMS_CONC of Butanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
042 Butanal_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Butanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
043 Butanal_MSD_CONC; MSD_CONC of Butanal; NA; MIRAH; V01;
044 Butanal_MSD_CONC_ERROR; MSD_CONC_ERROR of Butanal; NA; MIRAH; V01;
045 Butanedione_D13C; D13C of _2_3_Butanedione; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
046 Butanedione_D13C_ERROR; D13C_ERROR of _2_3_Butanedione; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
047 Butanedione_FLAG; FLAG of _2_3_Butanedione; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
048 Butanedione_IRMS_CONC; IRMS_CONC of _2_3_Butanedione; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
049 Butanedione_IRMS_CONC_ERROR; IRMS_CONC_ERROR of _2_3_Butanedione; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
050 Butanedione_MSD_CONC; MSD_CONC of _2_3_Butanedione; NA; MIRAH; V01;
051 Butanedione_MSD_CONC_ERROR; MSD_CONC_ERROR of _2_3_Butanedione; NA; MIRAH; V01;
052 Butanone_D13C; D13C of _2_Butanone; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
053 Butanone_D13C_ERROR; D13C_ERROR of _2_Butanone; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
054 Butanone_FLAG; FLAG of _2_Butanone; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
055 Butanone_IRMS_CONC; IRMS_CONC of _2_Butanone; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
056 Butanone_IRMS_CONC_ERROR; IRMS_CONC_ERROR of _2_Butanone; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
057 Butanone_MSD_CONC; MSD_CONC of _2_Butanone; NA; MIRAH; V01;
058 Butanone_MSD_CONC_ERROR; MSD_CONC_ERROR of _2_Butanone; NA; MIRAH; V01;
059 C2H2O2; C2H2O2 (Glyoxal), volume mixing ratio; [pptV]; MINIDOAS_C2H2O2; V04;
060 C2H2O2_unc; C2H2O2 (Glyoxal), uncertainty; [pptV]; MINIDOAS_C2H2O2; V04;
061 C3H4O2; C3H4O2^* (Methylglyoxal), volume mixing ratio; [pptV]; MINIDOAS_C3H4O2; V02;
062 C3H4O2_unc; C3H4O2^* (Methylglyoxal), uncertainty; [pptV]; MINIDOAS_C3H4O2; V02;
063 CAN; CO uptake Canada; [g]; Source_regions; V01; 134.0W-55.0W, 47.0N-71.0N
064 CCNB; CCN number concentration; [cm-3]; CCN; V01; sampled with the HASI inlet for a fixed supersaturation
065 CH4; mole_fraction_of_methane_in_air; [ppmV]; PICARRO; V02;
066 CH4_unc; mole_fraction_of_methane_in_air, uncertainty, see normal comments for calculation; [ppmV]; PICARRO; V02;
067 Cha01; particle number concentration between 250 and 280 nm; [cm-3]; SKY_OPC; V03;
068 Cha02; particle number concentration between 280 and 300 nm; [cm-3]; SKY_OPC; V03;
069 Cha03; particle number concentration between 300 and 350 nm; [cm-3]; SKY_OPC; V03;
070 Cha04; particle number concentration between 350 and 400 nm; [cm-3]; SKY_OPC; V03;
071 Cha05; particle number concentration between 400 and 450 nm; [cm-3]; SKY_OPC; V03;
072 Cha06; particle number concentration between 450 and 500 nm; [cm-3]; SKY_OPC; V03;
073 Cha07; particle number concentration between 500 and 580 nm; [cm-3]; SKY_OPC; V03;
074 Cha08; particle number concentration between 580 and 650 nm; [cm-3]; SKY_OPC; V03;
075 Cha09; particle number concentration between 650 and 700 nm; [cm-3]; SKY_OPC; V03;
076 Cha10; particle number concentration between 700 and 800 nm; [cm-3]; SKY_OPC; V03;
077 Cha11; particle number concentration between 800 and 1000 nm; [cm-3]; SKY_OPC; V03;
078 Cha12; particle number concentration between 1000 and 1300 nm; [cm-3]; SKY_OPC; V03;
079 Cha13; particle number concentration between 1300 and 1600 nm; [cm-3]; SKY_OPC; V03;
080 Cha14; particle number concentration between 1600 and 2000 nm; [cm-3]; SKY_OPC; V03;
081 Cha15; particle number concentration between 2000 and 2500 nm; [cm-3]; SKY_OPC; V03;
082 Cha16; particle number concentration between 2500 and 3000 nm; [cm-3]; SKY_OPC; V03;
083 Cha17; particle number concentration between 3000 and 3500 nm; [cm-3]; SKY_OPC; V03;
084 Cha18; particle number concentration between 3500 and 4000 nm; [cm-3]; SKY_OPC; V03;
085 Cha19; particle number concentration between 4000 and 5000 nm; [cm-3]; SKY_OPC; V03;
086 Cha20; particle number concentration between 5000 and 6500 nm; [cm-3]; SKY_OPC; V03;
087 Cha21; particle number concentration between 6500 and 7500 nm; [cm-3]; SKY_OPC; V03;
088 Cha22; particle number concentration between 7500 and 8500 nm; [cm-3]; SKY_OPC; V03;
089 Cha23; particle number concentration between 8500 and 10000 nm; [cm-3]; SKY_OPC; V03;
090 Cha24; particle number concentration between 10000 and 12500 nm; [cm-3]; SKY_OPC; V03;
091 Cha25; particle number concentration between 12500 and 15000 nm; [cm-3]; SKY_OPC; V03;
092 Cha26; particle number concentration between 15000 and 17500 nm; [cm-3]; SKY_OPC; V03;
093 Cha27; particle number concentration between 17500 and 20000 nm; [cm-3]; SKY_OPC; V03;
094 Cha28; particle number concentration between 20000 and 25000 nm; [cm-3]; SKY_OPC; V03;
095 Cha29; particle number concentration between 25000 and 30000 nm; [cm-3]; SKY_OPC; V03;
096 Cha30; particle number concentration between 30000 and 32000 nm; [cm-3]; SKY_OPC; V03;
097 Cha31; particle number concentration between 32000 and 40000 nm; [cm-3]; SKY_OPC; V03;
098 CHANNEL_00_CONC_STP; Concentration Channel 0 from the OPC (231-303 nm according to the calibration, median at 272 nm); [cm-3]; AMETYST_OPC; V05;
099 CHANNEL_00_CORRECTED_1_8; Conc. Channel 0 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
100 CHANNEL_00_CORRECTED_2_6; Conc. Channel 0 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
101 CHANNEL_01_CONC_STP; Concentration Channel 1 from the OPC (249-330 nm according to the calibration, median at 296 nm); [cm-3]; AMETYST_OPC; V05;
102 CHANNEL_01_CORRECTED_1_8; Conc. Channel 1 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
103 CHANNEL_01_CORRECTED_2_6; Conc. Channel 1 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
104 CHANNEL_02_CONC_STP; Concentration Channel 2 from the OPC (282-385 nm according to the calibration, median at 338 nm); [cm-3]; AMETYST_OPC; V05;
105 CHANNEL_02_CORRECTED_1_8; Conc. Channel 2 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
106 CHANNEL_02_CORRECTED_2_6; Conc. Channel 2 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
107 CHANNEL_03_CONC_STP; Concentration Channel 3 from the OPC (338-490 nm according to the calibration, median at 441 nm); [cm-3]; AMETYST_OPC; V05;
108 CHANNEL_03_CORRECTED_1_8; Conc. Channel 3 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
109 CHANNEL_03_CORRECTED_2_6; Conc. Channel 3 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
110 CHANNEL_04_CONC_STP; Concentration Channel 4 from the OPC (390-624 nm according to the calibration, median at 497 nm); [cm-3]; AMETYST_OPC; V05;
111 CHANNEL_04_CORRECTED_1_8; Conc. Channel 4 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
112 CHANNEL_04_CORRECTED_2_6; Conc. Channel 4 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
113 CHANNEL_05_CONC_STP; Concentration Channel 5 from the OPC (432-740 nm according to the calibration, median at 577 nm); [cm-3]; AMETYST_OPC; V05;
114 CHANNEL_05_CORRECTED_1_8; Conc. Channel 5 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
115 CHANNEL_05_CORRECTED_2_6; Conc. Channel 5 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
116 CHANNEL_06_CONC_STP; Concentration Channel 6 from the OPC (485-881 nm according to the calibration, median at 670 nm); [cm-3]; AMETYST_OPC; V05;
117 CHANNEL_06_CORRECTED_1_8; Conc. Channel 6 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
118 CHANNEL_06_CORRECTED_2_6; Conc. Channel 6 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
119 CHANNEL_07_CONC_STP; Concentration Channel 7 from the OPC (557-1114 nm according to the calibration, median at 811 nm); [cm-3]; AMETYST_OPC; V05;
120 CHANNEL_07_CORRECTED_1_8; Conc. Channel 7 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
121 CHANNEL_07_CORRECTED_2_6; Conc. Channel 7 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
122 CHANNEL_08_CONC_STP; Concentration Channel 8 from the OPC (622-1396 nm according to the calibration, median at 954 nm); [cm-3]; AMETYST_OPC; V05;
123 CHANNEL_08_CORRECTED_1_8; Conc. Channel 8 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
124 CHANNEL_08_CORRECTED_2_6; Conc. Channel 8 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
125 CHANNEL_09_CONC_STP; Concentration Channel 9 from the OPC (700-1604 nm according to the calibration, median at 1110 nm); [cm-3]; AMETYST_OPC; V05;
126 CHANNEL_09_CORRECTED_1_8; Conc. Channel 9 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
127 CHANNEL_09_CORRECTED_2_6; Conc. Channel 9 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
128 CHANNEL_10_CONC_STP; Concentration Channel 10 from the OPC (800-1849 nm according to the calibration, median at 1290 nm); [cm-3]; AMETYST_OPC; V05;
129 CHANNEL_10_CORRECTED_1_8; Conc. Channel 10 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
130 CHANNEL_10_CORRECTED_2_6; Conc. Channel 10 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
131 CHANNEL_11_CONC_STP; Concentration Channel 11 from the OPC (896-2107 nm according to the calibration, median at 1473 nm); [cm-3]; AMETYST_OPC; V05;
132 CHANNEL_11_CORRECTED_1_8; Conc. Channel 11 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
133 CHANNEL_11_CORRECTED_2_6; Conc. Channel 11 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
134 CHANNEL_12_CONC_STP; Concentration Channel 12 from the OPC (987-2361 nm according to the calibration, median at 1676 nm); [cm-3]; AMETYST_OPC; V05;
135 CHANNEL_12_CORRECTED_1_8; Conc. Channel 12 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
136 CHANNEL_12_CORRECTED_2_6; Conc. Channel 12 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
137 CHANNEL_13_CONC_STP; Concentration Channel 13 from the OPC (1086-2710 nm according to the calibration, median at 1932 nm); [cm-3]; AMETYST_OPC; V05;
138 CHANNEL_13_CORRECTED_1_8; Conc. Channel 13 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
139 CHANNEL_13_CORRECTED_2_6; Conc. Channel 13 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
140 CHANNEL_14_CONC_STP; Concentration Channel 14 from the OPC (1240-3195 nm according to the calibration, median at 2314 nm); [cm-3]; AMETYST_OPC; V05;
141 CHANNEL_14_CORRECTED_1_8; Conc. Channel 14 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
142 CHANNEL_14_CORRECTED_2_6; Conc. Channel 14 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
143 CHANNEL_15_CONC_STP; Concentration Channel 15 from the OPC (1628-4070 nm according to the calibration, median at 2953 nm); [cm-3]; AMETYST_OPC; V05;
144 CHANNEL_15_CORRECTED_1_8; Conc. Channel 15 corrected for particle loss inside the pipes, assumed aerosol density 1.8 g/cm^3; [cm-3]; AMETYST_OPC; V05;
145 CHANNEL_15_CORRECTED_2_6; Conc. Channel 15 corrected for particle loss inside the pipes, assumed aerosol density 2.6 g/cm^3; [cm-3]; AMETYST_OPC; V05;
146 Chl; Chloride aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
147 Chl_DL; Detection limit of Chl; [ug m-3]; C_ToF_AMS; V04; unit in STD
148 Chl_prec; Standard deviation of chloride aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
149 CI_HAIDI3; Colorindex (counts at 330nm / counts at 390nm, corrected for CCD detector non-linearity); []; HAIDI3; V02;
150 CO; CO, volume mixing ratio; [ppbV]; AMTEX_CO; V02;
151 CO2; mole_fraction_of_carbon_dioxide_in_air; [ppmV]; PICARRO; V02;
152 CO2_unc; mole_fraction_of_carbon_dioxide_in_air, uncertainty, see normal comments for calculation; [ppmV]; PICARRO; V02;
153 CPC3_CONC_CM3_AMB; Ambient Particle Number Concentration from CPC3 (Total Aerosol Concentration); [cm-3]; AMETYST_CPC; V02;
154 CPC3_CONC_CM3_STP; STP Particle Number Concentration from CPC3 (p_stp=1013.25 hPa,T_stp=273.15 K); [cm-3]; AMETYST_CPC; V02;
155 cwc; specific cloud water content from FLEXTRA; [g kg-1]; SCALTRA; V02; Sum of cloud liquid water content and cloud ice water content
156 CYLINDER; CYLINDER; [-]; MIRAH; V01;
157 dtlcPBL; time of trajectory in PBL since last contact to PBL; [s]; SCALTRA; V02;
158 dtlcTP; time of trajectory in tropopause since last contact to tropopause; [s]; SCALTRA; V02;
159 EEU; CO uptake Eastern Europe; [g]; Source_regions; V01; 14.3W-37.0W, 42.8N-54.5N
160 END_TIME; END_TIME; [s]; MIRAH; V01; sample end time ; s ; ; inst ; in-situ ; S_1 ; S_1
161 FAIRO_O3; Ozone, FAIRO, volume mixing ratio; [ppbV]; FAIRO_CI; V03;
162 FAIRO_O3_unc; Uncertainty of FAIRO_CI Ozone, see normal comments for calculation; [ppbV]; FAIRO_CI; V03;
163 Formicacid_butylester_D13C; D13C of Formicacid_butylester; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
164 Formicacid_butylester_D13C_ERROR; D13C_ERROR of Formicacid_butylester; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
165 Formicacid_butylester_FLAG; FLAG of Formicacid_butylester; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
166 Formicacid_butylester_IRMS_CONC; IRMS_CONC of Formicacid_butylester; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
167 Formicacid_butylester_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Formicacid_butylester; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
168 Formicacid_butylester_MSD_CONC; MSD_CONC of Formicacid_butylester; NA; MIRAH; V01;
169 Formicacid_butylester_MSD_CONC_ERROR; MSD_CONC_ERROR of Formicacid_butylester; NA; MIRAH; V01;
170 FW0003_BNR; BNR CO Tracer, age 00-03 h; [ppbV]; HYSPLIT; V01;
171 FW0003_LON; LON CO Tracer, age 00-03 h; [ppbV]; HYSPLIT; V01;
172 FW0003_MUN; MUN CO Tracer, age 00-03 h; [ppbV]; HYSPLIT; V01;
173 FW0003_PAR; PAR CO Tracer, age 00-03 h; [ppbV]; HYSPLIT; V01;
174 FW0306_BNR; BNR CO Tracer, age 03-06 h; [ppbV]; HYSPLIT; V01;
175 FW0306_LON; LON CO Tracer, age 03-06 h; [ppbV]; HYSPLIT; V01;
176 FW0306_MUN; MUN CO Tracer, age 03-06 h; [ppbV]; HYSPLIT; V01;
177 FW0306_PAR; PAR CO Tracer, age 03-06 h; [ppbV]; HYSPLIT; V01;
178 FW0612_BNR; BNR CO Tracer, age 06-12 h; [ppbV]; HYSPLIT; V01;
179 FW0612_LON; LON CO Tracer, age 06-12 h; [ppbV]; HYSPLIT; V01;
180 FW0612_MUN; MUN CO Tracer, age 06-12 h; [ppbV]; HYSPLIT; V01;
181 FW0612_PAR; PAR CO Tracer, age 06-12 h; [ppbV]; HYSPLIT; V01;
182 FW1224_BNR; BNR CO Tracer, age 12-24 h; [ppbV]; HYSPLIT; V01;
183 FW1224_LON; LON CO Tracer, age 12-24 h; [ppbV]; HYSPLIT; V01;
184 FW1224_MUN; MUN CO Tracer, age 12-24 h; [ppbV]; HYSPLIT; V01;
185 FW1224_PAR; PAR CO Tracer, age 12-24 h; [ppbV]; HYSPLIT; V01;
186 FW2448_BNR; BNR CO Tracer, age 24-48 h; [ppbV]; HYSPLIT; V01;
187 FW2448_LON; LON CO Tracer, age 24-48 h; [ppbV]; HYSPLIT; V01;
188 FW2448_MUN; MUN CO Tracer, age 24-48 h; [ppbV]; HYSPLIT; V01;
189 FW2448_PAR; PAR CO Tracer, age 24-48 h; [ppbV]; HYSPLIT; V01;
190 FW4872_BNR; BNR CO Tracer, age 48-72 h; [ppbV]; HYSPLIT; V01;
191 FW4872_LON; LON CO Tracer, age 48-72 h; [ppbV]; HYSPLIT; V01;
192 FW4872_MUN; MUN CO Tracer, age 48-72 h; [ppbV]; HYSPLIT; V01;
193 FW4872_PAR; PAR CO Tracer, age 48-72 h; [ppbV]; HYSPLIT; V01;
194 FW7296_BNR; BNR CO Tracer, age 72-96 h; [ppbV]; HYSPLIT; V01;
195 FW7296_LON; LON CO Tracer, age 72-96 h; [ppbV]; HYSPLIT; V01;
196 FW7296_MUN; MUN CO Tracer, age 72-96 h; [ppbV]; HYSPLIT; V01;
197 FW7296_PAR; PAR CO Tracer, age 72-96 h; [ppbV]; HYSPLIT; V01;
198 FW96144_BNR; BNR CO Tracer, age 96-144 h; [ppbV]; HYSPLIT; V01;
199 FW96144_LON; LON CO Tracer, age 96-144 h; [ppbV]; HYSPLIT; V01;
200 FW96144_MUN; MUN CO Tracer, age 96-144 h; [ppbV]; HYSPLIT; V01;
201 FW96144_PAR; PAR CO Tracer, age 96-144 h; [ppbV]; HYSPLIT; V01;
202 geoAMF_HAIDI3; Geometric airmass factor; []; HAIDI3; V02;
203 H; Height above Sea Level calculated from met. data (fast); [m]; BAHAMAS; V01;
204 HCHO; HCHO (Formaldehyde), volume mixing ratio; [pptV]; MINIDOAS_HCHO; V03;
205 HCHO_SCD_HAIDI3; HCHO slant column density; [molec cm-2]; HAIDI3; V02;
206 HCHO_SCD_unc_HAIDI3; HCHO slant column density fit error; [molec cm-2]; HAIDI3; V02;
207 HCHO_unc; HCHO (Formaldehyde), uncertainty; [pptV]; MINIDOAS_HCHO; V03;
208 Heptanal_D13C; D13C of Heptanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
209 Heptanal_D13C_ERROR; D13C_ERROR of Heptanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
210 Heptanal_FLAG; FLAG of Heptanal; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
211 Heptanal_IRMS_CONC; IRMS_CONC of Heptanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
212 Heptanal_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Heptanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
213 Heptanal_MSD_CONC; MSD_CONC of Heptanal; NA; MIRAH; V01;
214 Heptanal_MSD_CONC_ERROR; MSD_CONC_ERROR of Heptanal; NA; MIRAH; V01;
215 Heptane_3__chloromethyl___D13C; D13C of Heptane_3__chloromethyl__; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
216 Heptane_3__chloromethyl___D13C_ERROR; D13C_ERROR of Heptane_3__chloromethyl__; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
217 Heptane_3__chloromethyl___FLAG; FLAG of Heptane_3__chloromethyl___; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
218 Heptane_3__chloromethyl___IRMS_CONC; IRMS_CONC of Heptane_3__chloromethyl__; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
219 Heptane_3__chloromethyl___IRMS_CONC_ERROR; IRMS_CONC_ERROR of Heptane_3__chloromethyl__; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
220 Heptane_3__chloromethyl___MSD_CONC; MSD_CONC of Heptane_3__chloromethyl__; NA; MIRAH; V01;
221 Heptane_3__chloromethyl___MSD_CONC_ERROR; MSD_CONC_ERROR of Heptane_3__chloromethyl__; NA; MIRAH; V01;
222 Hexanal_2_ethyl__D13C; D13C of Hexanal_2_ethyl_; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
223 Hexanal_2_ethyl__D13C_ERROR; D13C_ERROR of Hexanal_2_ethyl_; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
224 Hexanal_2_ethyl__FLAG; FLAG of Hexanal_2_ethyl_; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
225 Hexanal_2_ethyl__IRMS_CONC; IRMS_CONC of Hexanal_2_ethyl_; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
226 Hexanal_2_ethyl__IRMS_CONC_ERROR; IRMS_CONC_ERROR of Hexanal_2_ethyl_; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
227 Hexanal_2_ethyl__MSD_CONC; MSD_CONC of Hexanal_2_ethyl_; NA; MIRAH; V01;
228 Hexanal_2_ethyl__MSD_CONC_ERROR; MSD_CONC_ERROR of Hexanal_2_ethyl_; NA; MIRAH; V01;
229 Hexanal_D13C; D13C of Hexanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
230 Hexanal_D13C_ERROR; D13C_ERROR of Hexanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
231 Hexanal_FLAG; FLAG of Hexanal; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
232 Hexanal_IRMS_CONC; IRMS_CONC of Hexanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
233 Hexanal_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Hexanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
234 Hexanal_MSD_CONC; MSD_CONC of Hexanal; NA; MIRAH; V01;
235 Hexanal_MSD_CONC_ERROR; MSD_CONC_ERROR of Hexanal; NA; MIRAH; V01;
236 HONO; HONO (Nitrous Acid), volume mixing ratio; [pptV]; MINIDOAS_HONO; V03;
237 HONO_unc; HONO (Nitrous Acid), uncertainty; [pptV]; MINIDOAS_HONO; V03;
238 hopbl; height over PBL; [m]; SCALTRA; V02;
239 hopbl_1; mean height over PBL between release point and last 1h; [m]; SCALTRA; V02;
240 hopbl_2; mean height over PBL between release point and last 2h; [m]; SCALTRA; V02;
241 hopbl_3; mean height over PBL between release point and last 3h; [m]; SCALTRA; V02;
242 HP; Pressure Altitude; [m]; BAHAMAS; V01;
243 IBE; CO uptake Iberian Peninsula; [g]; Source_regions; V01; 10.5W-3.4E, 37.1N-42.8N
244 IGI_RMSX; IGI RMS value for position x; [m]; BAHAMAS; V01;
245 IGI_RMSY; IGI RMS value for position y; [m]; BAHAMAS; V01;
246 IGI_RMSZ; IGI RMS value for position z; [m]; BAHAMAS; V01;
247 IRE; CO uptake Ireland; [g]; Source_regions; V01; 5.4W-10.5W, 50.6N-55.4N
248 IRS_ALT; IGI height above WGS84 ellipsoid; [m]; BAHAMAS; V01;
249 IRS_ATA; IGI actual track angle; [deg+]; BAHAMAS; V01;
250 IRS_AXB; IGI body x-axis acceleration; [m s-2]; BAHAMAS; V01;
251 IRS_AYB; IGI body y-axis acceleration; [m s-2]; BAHAMAS; V01;
252 IRS_AZB; IGI body z-axis acceleration; [m s-2]; BAHAMAS; V01;
253 IRS_AZG; IGI vertical acceleration; [m s-2]; BAHAMAS; V01;
254 IRS_EWV; IGI east west velocity; [m s-1]; BAHAMAS; V01;
255 IRS_GS; IGI ground speed; [m s-1]; BAHAMAS; V01;
256 IRS_HDG; IGI true heading; [deg+]; BAHAMAS; V01;
257 IRS_LAT; IGI latitude position above WGS84; [deg]; BAHAMAS; V01;
258 IRS_LON; IGI longitude position above WGS84; [deg]; BAHAMAS; V01;
259 IRS_NSV; IGI north south velocity; [m s-1]; BAHAMAS; V01;
260 IRS_P; IGI body roll rate; [deg s-1]; BAHAMAS; V01;
261 IRS_PHI; IGI roll angle; [deg]; BAHAMAS; V01;
262 IRS_Q; IGI body pitch rate; [deg s-1]; BAHAMAS; V01;
263 IRS_R; IGI body yaw rate; [deg s-1]; BAHAMAS; V01;
264 IRS_THE; IGI pitch angle; [deg]; BAHAMAS; V01;
265 IRS_VV; IGI vertical velocity; [m s-1]; BAHAMAS; V01;
266 jCH3CHO_1; Acetaldehyde photolysis frequencies, with products ->CH3+CHO; [1/s]; HALO_SR_A; V02;
267 jCH3CHO_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
268 jCH3COCH3_1; Acetone photolysis frequencies 1, with products ->CH3CO+CH3; [1/s]; HALO_SR_A; V02;
269 jCH3COCH3_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
270 jCH3COCH3_2; Acetone photolysis frequencies 2, with products ->CH3+CH3+CO; [1/s]; HALO_SR_A; V02;
271 jCH3COCH3_2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
272 jCH3COCHO_1; Methylglyoxal photolysis frequencies, with products ->CH3CO+CHO; [1/s]; HALO_SR_A; V02;
273 jCH3COCHO_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
274 jCH3COO2NO2_1; PAN photolysis frequencies 1, with products ->CH3COO2+NO2; [1/s]; HALO_SR_A; V02;
275 jCH3COO2NO2_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
276 jCH3COO2NO2_2; PAN photolysis frequencies 2, with products ->CH3COO+NO3; [1/s]; HALO_SR_A; V02;
277 jCH3COO2NO2_2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
278 jCH3OOH; Acetic acid photolysis frequencies, with products ->OH+CH3O; [1/s]; HALO_SR_A; V02;
279 jCH3OOH_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
280 jH2O2; Hydrogen peroxide photolysis frequencies, with products ->OH+OH; [1/s]; HALO_SR_A; V02;
281 jH2O2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
282 jHCHO_M; Formaldehyde M photolysis frequencies, with products ->H2+CO; [1/s]; HALO_SR_A; V02;
283 jHCHO_M_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
284 jHCHO_R; Formaldehyde R photolysis frequencies, with products ->H+HCO; [1/s]; HALO_SR_A; V02;
285 jHCHO_R_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
286 jHCOCHO_1; HCOCHO_1 photolysis frequencies, with products ->CHO+CHO; [1/s]; HALO_SR_A; V02;
287 jHCOCHO_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
288 jHCOCHO_2; HCOCHO_2 photolysis frequencies, with products ->H2+CO+CO; [1/s]; HALO_SR_A; V02;
289 jHCOCHO_2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
290 jHCOCHO_3; HCOCHO_3 photolysis frequencies, with products ->HCHO+CO; [1/s]; HALO_SR_A; V02;
291 jHCOCHO_3_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
292 jHNO2; Nitrous acid photolysis frequencies, with products ->OH+NO; [1/s]; HALO_SR_A; V02;
293 jHNO2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
294 jHNO3; Nitric acid photolysis frequencies, with products ->OH+NO2; [1/s]; HALO_SR_A; V02;
295 jHNO3_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
296 jHNO4_1; Peroxynitric acid 1 photolysis frequencies, with products ->OH+NO3; [1/s]; HALO_SR_A; V02;
297 jHNO4_1_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
298 jHNO4_2; Peroxynitric acid 2 photolysis frequencies, with products ->HO2+NO2; [1/s]; HALO_SR_A; V02;
299 jHNO4_2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
300 jN2O5; Dinitrogen pentoxide photolysis frequencies, with products ->NO2+NO3; [1/s]; HALO_SR_A; V02;
301 jN2O5_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
302 jNO2; Nitrogen dioxide photolysis frequencies, with products ->O3P+NO; [1/s]; HALO_SR_A; V02;
303 jNO2_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
304 jNO3_M; Nitrate M photolysis frequencies, with products ->NO+O2; [1/s]; HALO_SR_A; V02;
305 jNO3_M_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
306 jNO3_R; Nitrate R photolysis frequencies, with products ->O+NO2; [1/s]; HALO_SR_A; V02;
307 jNO3_R_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
308 jO1D; O1D photolysis frequencies, with products ->O3->O1D+O2; [1/s]; HALO_SR_A; V02;
309 jO1D_unc; Absolute radiometric uncertainty (additional relative uncertainties are not included, see comments); [1/s]; HALO_SR_A; V02;
310 lcPBL; last contact of trajectory to PBL; [s]; SCALTRA; V02;
311 lcTP; last contact of trajectory to tropopause; [s]; SCALTRA; V02;
312 LON; CO uptake London (MPC in SGB); [g]; Source_regions; V01; 2.0W-1.5W, 50.5N-52.0N
313 MAD; CO uptake Madrid (MPC in IBE); [g]; Source_regions; V01; 6.1W-3.0W, 39.5N-41.9N
314 MC; Machnumber; [MA]; BAHAMAS; V01;
315 MEAN_TIME; MEAN_TIME; [s]; MIRAH; V01; sample mean time ; s ; ; inst ; in-situ ; S_1 ; S_1
316 MIXRATIO; H2O Mass Mixing Ratio; [g kg-1]; BAHAMAS; V01;
317 MIXRATIOV; H2O Volume Mixing Ratio; [micromol mol-1]; BAHAMAS; V01;
318 MUN; CO uptake Munich (MPC in SGE); [g]; Source_regions; V01; 10.4E-12.0E, 47.9N-49.0N
319 mvdiff_1; mean vertical difference of trajectory to release point after 1h; [m]; SCALTRA; V02;
320 mvdiff_2; mean vertical difference of trajectory to release point after 2h; [m]; SCALTRA; V02;
321 mvdiff_3; mean vertical difference of trajectory to release point after 3h; [m]; SCALTRA; V02;
322 NAF; CO uptake Northern Africa; [g]; Source_regions; V01; 10.5W-23.9.0E, 25.0N-37.1N
323 NAT; CO uptake North Atlantic Ocean; [g]; Source_regions; V01; 55.0W-10.5W, 25.0N-71.0N
324 NEU; CO uptake Northern Europe; [g]; Source_regions; V01; 0.6E-37.0E,54.5N-71.0N
325 NFR; CO uptake Northern France; [g]; Source_regions; V01; 5.4W-8.0E, 46.8N-50.0N
326 NGB; CO uptake Northern Great Britain; [g]; Source_regions; V01; 5.4W-0.6E, 54.5N-60.0N
327 NGE; CO uptake Northern Germany; [g]; Source_regions; V01; 8.0E-14.3E, 50.0N-54.5N
328 NH4; Ammonium aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
329 NH4_DL; Detection limit of NH4; [ug m-3]; C_ToF_AMS; V04; unit in STD
330 NH4_prec; Standard deviation of ammonium aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
331 NIT; CO uptake Northern Italy; [g]; Source_regions; V01; 8.0E-14.3E, 42.8N-46.8N
332 NO; NO Volume mixing ratio; [ppbV]; AENEAS; V02;
333 NO2; NO2 (Nitrogen dioxide), volume mixing ratio; [pptV]; MINIDOAS_NO2; V01;
334 NO2_SCD_HAIDI1; NO2 slant column density; [molec cm-2]; HAIDI1; V01;
335 NO2_SCD_HAIDI2; NO2 slant column density; [molec cm-2]; HAIDI2; V01;
336 NO2_SCD_HAIDI3; NO2 slant column density; [molec cm-2]; HAIDI3; V02;
337 NO2_SCD_unc_HAIDI1; NO2 slant column density fit error; [molec cm-2]; HAIDI1; V01;
338 NO2_SCD_unc_HAIDI2; NO2 slant column density fit error; [molec cm-2]; HAIDI2; V01;
339 NO2_SCD_unc_HAIDI3; NO2 slant column density fit error; [molec cm-2]; HAIDI3; V02;
340 NO2_unc; NO2 (Nitrogen dioxide), uncertainty; [pptV]; MINIDOAS_NO2; V01;
341 NO3; Nitrate aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
342 NO3_DL; Detection limit of NO3; [ug m-3]; C_ToF_AMS; V04; unit in STD
343 NO3_prec; Standard deviation of nitrate aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
344 NOy; NOy Volume mixing ratio (ppbv); [pptV]; AENEAS; V02;
345 O4_SCD_HAIDI3; O4 slant column density; [molec cm-2]; HAIDI3; V02;
346 O4_SCD_unc_HAIDI3; O4 slant column density fit error; [molec cm-2]; HAIDI3; V02;
347 OPC_TOTAL_CONC_CM3_AMB; Ambient Particle Number Concentration from OPC (Aerosol Concentration > 250 nm); [cm-3]; AMETYST_OPC; V05;
348 OPC_TOTAL_CONC_CM3_STP; STP Particle Number Concentration from OPC (p_stp=1013.25 hPa,T_stp=273.15 K); [cm-3]; AMETYST_OPC; V05;
349 Org; Organic aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
350 Org_DL; Detection limit of Org; [ug m-3]; C_ToF_AMS; V04; unit in STD
351 Org_prec; Standard deviation of organic aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
352 PAR; CO uptake Paris (MPC in NFR); [g]; Source_regions; V01; 1.0E-3.5E, 48.0N-50.0N
353 Pentanal_D13C; D13C of Pentanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
354 Pentanal_D13C_ERROR; D13C_ERROR of Pentanal; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
355 Pentanal_FLAG; FLAG of Pentanal; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
356 Pentanal_IRMS_CONC; IRMS_CONC of Pentanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
357 Pentanal_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Pentanal; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
358 Pentanal_MSD_CONC; MSD_CONC of Pentanal; NA; MIRAH; V01;
359 Pentanal_MSD_CONC_ERROR; MSD_CONC_ERROR of Pentanal; NA; MIRAH; V01;
360 Pentanone_D13C; D13C of _2_Pentanone; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
361 Pentanone_D13C_ERROR; D13C_ERROR of _2_Pentanone; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
362 Pentanone_FLAG; FLAG of _2_Pentanone; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
363 Pentanone_IRMS_CONC; IRMS_CONC _2_Pentanone; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
364 Pentanone_IRMS_CONC_ERROR; IRMS_CONC_ERROR of _2_Pentanone; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
365 Pentanone_MSD_CONC; MSD_CONC of _2_Pentanone; NA; MIRAH; V01;
366 Pentanone_MSD_CONC_ERROR; MSD_CONC_ERROR of_2_Pentanone; NA; MIRAH; V01;
367 Pentene_2_4_4_trimethyl__D13C; D13C of _1_Pentene_2_4_4_trimethyl; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
368 Pentene_2_4_4_trimethyl__D13C_ERROR; D13C_ERROR of _1_Pentene_2_4_4_trimethyl; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
369 Pentene_2_4_4_trimethyl__FLAG; FLAG of _1_Pentene_2_4_4_trimethyl; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
370 Pentene_2_4_4_trimethyl__IRMS_CONC; IRMS_CONC _1_Pentene_2_4_4_trimethyl; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
371 Pentene_2_4_4_trimethyl__IRMS_CONC_ERROR; IRMS_CONC_ERROR of _1_Pentene_2_4_4_trimethyl; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
372 Pentene_2_4_4_trimethyl__MSD_CONC; MSD_CONC of _1_Pentene_2_4_4_trimethyl; NA; MIRAH; V01;
373 Pentene_2_4_4_trimethyl__MSD_CONC_ERROR; MSD_CONC_ERROR of_1_Pentene_2_4_4_trimethyl; NA; MIRAH; V01;
374 perpbl_1; percentage of trajectory in PBL since release, for last 1h; [%]; SCALTRA; V02;
375 perpbl_2; percentage of trajectory in PBL since release, for last 3h; [%]; SCALTRA; V02;
376 perpbl_3; percentage of trajectory in PBL since release, for last 3h; [%]; SCALTRA; V02;
377 plume; Enumerated concentration enhancement peaks of ACN and/or BEN and/or NOy within variable "structure"; [-]; PLUMES; V02;
378 POV; CO uptake Po Valley/ Milano (MPC in NIT); [g]; Source_regions; V01; 8.0E-13.0E, 44.0N-46.0N
379 PS; Static Pressure (from NB_PSIA); [hPa]; BAHAMAS; V01;
380 pv; potential vorticity from FLEXTRA; [1e-6 K m2 kg-1 s-1]; SCALTRA; V02;
381 QC; Dynamic Pressure; [hPa]; BAHAMAS; V01;
382 RELHUM; Relative Humidity with Respect to Water; [%]; BAHAMAS; V01;
383 RO2; peroxy radicals RO2*; [pptV]; PeRCEAS; V04; RO2* stands for HO2 + m RO2, where m is the measurement efficiency of RO2 which is dependent on the [NO] added at the inlet.
384 RO2_LOD_flag; Below detection limit flag; [-]; PeRCEAS; V04; Data points below detection limit are flagged by RO2_LOD_flag = 1
385 RO2_P_flag; Pressure instability flag; [-]; PeRCEAS; V04; Data points with standard deviation of the detector cell pressure > 2 mbar in 1 minute are flagged with RO2_P_flag = 1
386 RO2_prec; Precision given as standard deviation of peroxy radicals RO2*; [pptV]; PeRCEAS; V04;
387 ROM; CO uptake Rome (MPC in SIT); [g]; Source_regions; V01; 11.6E-13.7E, 41.2N-42.8N
388 SCn; STP-corrected Scattering (SC) number concentration; [cm-3]; SP2; V02;
389 SFR; CO uptake Southern France; [g]; Source_regions; V01; 5.4W-8.0E, 42.8N-46.8N
390 SGB; CO uptake Southern Great Britain; [g]; Source_regions; V01; 5.4W-2.2E, 50.0N-54.5N
391 SGE; CO uptake Southern Germany; [g]; Source_regions; V01; 8.0E-14.3E, 46.8N-50.0N
392 SIT; CO uptake Southern Italy; [g]; Source_regions; V01; 11.6E-18.0E, 37.1N-42.8N
393 SO2; SO2 Mixing Ratio; [pptV]; CI_ITMS; V04;
394 SO2_SCD_HAIDI3; SO2 slant column density; [molec cm-2]; HAIDI3; V02;
395 SO2_SCD_unc_HAIDI3; SO2 slant column density fit error; [molec cm-2]; HAIDI3; V02;
396 SO2_unc; Uncertainty of SO2, see normal comments for calculation (close to det. limit interpreted as <= det. limit); [pptV]; CI_ITMS; V04;
397 SO4; Sulfate aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
398 SO4_DL; Detection limit of SO4; [ug m-3]; C_ToF_AMS; V04; unit in STD
399 SO4_prec; Standard deviation of sulfate aerosol mass concentration; [ug m-3]; C_ToF_AMS; V04; unit in STD
400 SOURCE; Humidity Data Source (1:Vaisala/2:SHARC_longpath/3:SHARC_shortpath); [-]; BAHAMAS; V01;
401 structure; Letter labeled concentration enhancements of ACN and/or BEN and/or NOy over a longer time interval: enhancement structure; [-]; PLUMES; V02;
402 surfh; surface height below HALO from FLEXTRA; [m]; SCALTRA; V02;
403 TAS; Calculated True Airspeed; [m s-1]; BAHAMAS; V01;
404 TAT; Total Air Temperature (deicing corrected, from BDY-TTQ); [K]; BAHAMAS; V01;
405 TD; Dewpoint Temperature; [K]; BAHAMAS; V01;
406 THETA; Potential Temperature; [K]; BAHAMAS; V01;
407 THETA_V; Virtual Potential Temperature; [K]; BAHAMAS; V01;
408 thpbl; PBL thickness under HALO; [m]; SCALTRA; V02;
409 thpbl_1; mean PBL thickness between release point and last 1h; [m]; SCALTRA; V02;
410 thpbl_2; mean PBL thickness between release point and last 2h; [m]; SCALTRA; V02;
411 thpbl_3; mean PBL thickness between release point and last 3h; [m]; SCALTRA; V02;
412 Toluene_D13C; D13C of Toluene; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
413 Toluene_D13C_ERROR; D13C_ERROR of Toluene; [per mill]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
414 Toluene_FLAG; FLAG of Toluene; [-]; MIRAH; V01; ; ; anal ; f_X_s ; S_1 ; S_1
415 Toluene_IRMS_CONC; IRMS_CONC of Toluene; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
416 Toluene_IRMS_CONC_ERROR; IRMS_CONC_ERROR of Toluene; [pptV]; MIRAH; V01; ; ; anal ; user ; S_1 ; S_1
417 Toluene_MSD_CONC; MSD_CONC of Toluene; NA; MIRAH; V01;
418 Toluene_MSD_CONC_ERROR; MSD_CONC_ERROR of Toluene; NA; MIRAH; V01;
419 TS; Static Air Temperature (from BDY-TTQ); [K]; BAHAMAS; V01;
420 TV; Virtual Temperature; [K]; BAHAMAS; V01;
421 U; Wind Vector East Component; [m s-1]; BAHAMAS; V01;
422 UA; CO uptake of unspecified areas; [g]; Source_regions; V01; all areas not covered by the chosen source regions (for the respective EMeRGe part)
423 USA; CO uptake United States of America; [g]; Source_regions; V01; 134.0W-55.0W, 25.0N-47.0N
424 V; Wind Vector North Component; [m s-1]; BAHAMAS; V01;
425 W; Wind Vector Vertical Component; [m s-1]; BAHAMAS; V01;
426 WA; Horizontal Wind Direction; [deg+]; BAHAMAS; V01;
427 WS; Horizontal Windspeed; [m s-1]; BAHAMAS; V01;

To browse for the dependencies of the observed variables, please use this link.

Dataset Info

Name of dataset

Short:
#6876
Full:
#6876 | EM-EU-05-20170717-EMERGED-01s-V07.ames


Date last revised

2022-07-20

Time period of the primary data

Begin:
2017-05-22*
End:
2017-08-04*

* inherited from the metadata of the mission EMeRGe-EU


Data format

Data Origin

Genesis of the data (see glossary):

HALOEMERGED

Ongoing Subset (see glossary):

170717a

License

* inherited from the metadata of the mission EMeRGe-EU