IGOR
WAVES/D	StartDateTime	Duration	LAT	LONGT	subMass	supMass
BEGIN
	3109437720	72180	37.008	-73.93	4.324	15.400
	3109544280	25920	40.19	-73.239	5.929	6.290
	3109582080	18600	40.492	-73.875	19.291	8.051
	3109604940	19680	40.495	-73.876	40.209	14.353
	3109662420	18300	40.211	-73.404	15.493	5.553
	3109687140	13620	40.317	-73.825	9.588	4.889
	3109711080	33780	40.38	-71.842	6.843	4.750
	3109748100	18360	40.423	-69.594	5.764	2.843
	3109770300	21600	41.437	-69.387	7.412	6.770
	3109795200	30540	42.442	-70.874	15.145	7.350
	3109834380	11520	42.332	-70.713	22.584	9.705
	3109848420	12420	42.354	-70.801	34.998	12.342
	3109863240	21360	42.434	-70.822	34.777	8.444
	3109889280	25920	42.359	-70.807	32.424	21.720
	3110004420	14160	42.947	-70.724	12.018	5.279
	3110021520	16380	42.956	-70.716	10.968	3.440
	3110092560	20460	42.935	-70.53	11.853	6.510
	3110116680	20580	42.906	-70.647	16.019	13.608
	3110146080	38520	42.877	-70.661	8.497	10.844
	3110190960	32280	42.822	-70.629	32.197	11.601
	3110233800	38520	42.869	-70.401	24.132	12.977
	3110275680	23340	42.813	-70.717	50.042	11.275
	3110351700	52560	43.791	-69.349	3.642	2.854
	3110441580	36960	42.991	-70.479	7.008	3.536
	3110832420	43500	42.522	-70.681	15.236	3.242
	3110880300	10080	42.25	-70.364	41.425	5.047
	3110894520	14520	42.304	-70.692	15.211	6.011
	3110912580	43740	42.418	-70.664	9.319	3.098
	3110958780	18840	42.506	-70.703	13.931	4.382
	3110982540	14820	42.32	-70.789	19.662	2.873
	3111044700	17940	42.995	-70.655	14.076	5.940
	3111066780	15900	42.983	-70.688	11.444	6.740
	3111087360	71160	42.84	-70.492	6.625	7.671
	3111175020	40260	42.884	-70.548	7.467	5.023
	3111217680	20400	42.95	-70.719	15.571	5.851
	3111241320	25440	42.947	-70.589	20.318	5.482
	3111272160	27540	42.656	-69.859	25.517	3.987
	3111304260	30000	42.923	-70.676	25.066	7.333
	3111342360	45480	42.844	-70.725	25.129	8.340
	3111390600	28800	42.814	-70.64	47.802	8.375
	3111424200	22320	42.809	-70.663	40.367	7.491
	3111536880	30300	40.048	-69.868	2.460	15.654
	3111569940	25200	39.336	-72.087	2.920	8.188
END
X SetScale/P x 0,1,"", StartDateTime; SetScale y 0,0,"dat", StartDateTime
X Note StartDateTime, "ACF_PROJECT:NEAQS2002;ACF_PLATFORM:RONALD_H_BROWN;ACF_DATA_TYPE:TIMESERIES-1D;ACF_VERSION:1;ACF_SUBMIT_DATE:05-JUN-2003;ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov"
X SetScale/P x 0,1,"", Duration; SetScale y 0,0,"seconds", Duration
X Note Duration, "ACF_PROJECT:NEAQS2002;ACF_PLATFORM:RONALD_H_BROWN;ACF_DATA_TYPE:TIMESERIES-1D;ACF_VERSION:1;ACF_SUBMIT_DATE:05-JUN-2003;ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov"
X SetScale/P x 0,1,"", LAT; SetScale y 0,0,"Deg", LAT
X Note/NOCR LAT, "ACF_PROJECT:NEAQS2002;"
X Note/NOCR LAT, "ACF_PLATFORM:RONALD_H_BROWN;"
X Note/NOCR LAT, "ACF_DATA_TYPE:TIMESERIES-1D;"
X Note/NOCR LAT, "ACF_VERSION:1;"
X Note/NOCR LAT, "ACF_SUBMIT_DATE:05-JUN-2003;"
X Note/NOCR LAT, "ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov;"
X Note/NOCR LAT, "ACF_LEGAL_MIN:-90;"
X Note/NOCR LAT, "ACF_LEGAL_MAX:90;"
X Note/NOCR LAT, "ACF_UNITS:Deg;"
X Note/NOCR LAT, "ACF_INSTRUMENT:GPS;"
X Note/NOCR LAT, "ACF_REMARK: NOAA PMEL Gravimetrically-determined Mass - collected with 2 stage impactors Contact person:  Trish Quinn, quinn@pmel.noaa.gov Two-stage multi-jet cascade impactors (Berner et al., 1979) sampling air at 55 +/- 5% RH were used to determine sub- and supermicron aerosol mass concentrations. The RH of the sampled air stream was measured a few inches upstream from the impactor. The 50% aerodynamic cutoff diameters, D50,aero, were 1.1 and 10 um.  Submicron refers to particles with Daero < 1.1 um at 55% RH and supermicron refers to particles with 1.1 um < Daero < 10 um at 55% RH. The impaction stage at the inlet of the impactor was coated with silicone grease to prevent the bounce of larger particles onto the downstream stages.  Tedlar films were used as the collection substrate in the impaction stage and a Millipore Fluoropore filter (1.0-um pore size) was used for the backup filter.  Films were cleaned in an ultrasonic bath in 10% H2O2 for 30 min, rinsed in distilled, deionized water, and dried in an NH3- and SO2-free glove box. Films and filters were weighed at PMEL with a Cahn Model 29 and Mettler UMT2 microbalance, respectively.  The balances are housed in a glove box kept at a humidity of 33 +/- 2%. The resulting mass concentrations from the gravimetric analysis include the water mass that is associated with the aerosol at 33% RH. The glove box was continually purged with room air that had passed through a scrubber of activated charcoal, potassium carbonate, and citric acid to remove gas phase organics, acids, and ammonia. Static charging, which can result in balance instabilities, was minimized by coating the walls of the glove box with a static dissipative polymer (Tech Spray, Inc.), placing an anti-static mat on the glove box floor, using anti-static gloves while handling the substrates, and exposing the substrates to a 210Po source to dissipate any charge that had built up on the substrates. Before and after sample collection, substrates were stored double-bagged with the outer bag containing citric acid to prevent absorption of gas phase ammonia.  More details of the weighing procedure can be found in Quinn and Coffman [1998]. Concentrations are reported as ug/m3 at STP (25C and 1 atm). Berner et al., Sci. Total Environ., 13,  245 - 261, 1979. Quinn et al., J. Geophys. Res., 105, 6785 - 6805, 2000."
X SetScale/P x 0,1,"", LONGT; SetScale y 0,0,"Deg", LONGT
X Note/NOCR LONGT, "ACF_PROJECT:NEAQS2002;"
X Note/NOCR LONGT, "ACF_PLATFORM:RONALD_H_BROWN;"
X Note/NOCR LONGT, "ACF_DATA_TYPE:TIMESERIES-1D;"
X Note/NOCR LONGT, "ACF_VERSION:1;"
X Note/NOCR LONGT, "ACF_SUBMIT_DATE:05-JUN-2003;"
X Note/NOCR LONGT, "ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov;"
X Note/NOCR LONGT, "ACF_LEGAL_MIN:-180;"
X Note/NOCR LONGT, "ACF_LEGAL_MAX:360;"
X Note/NOCR LONGT, "ACF_UNITS:Deg;"
X Note/NOCR LONGT, "ACF_INSTRUMENT:GPS;"
X Note/NOCR LONGT, "ACF_REMARK: NOAA PMEL Gravimetrically-determined Mass - collected with 2 stage impactors Contact person:  Trish Quinn, quinn@pmel.noaa.gov Two-stage multi-jet cascade impactors (Berner et al., 1979) sampling air at 55 +/- 5% RH were used to determine sub- and supermicron aerosol mass concentrations. The RH of the sampled air stream was measured a few inches upstream from the impactor. The 50% aerodynamic cutoff diameters, D50,aero, were 1.1 and 10 um.  Submicron refers to particles with Daero < 1.1 um at 55% RH and supermicron refers to particles with 1.1 um < Daero < 10 um at 55% RH. The impaction stage at the inlet of the impactor was coated with silicone grease to prevent the bounce of larger particles onto the downstream stages.  Tedlar films were used as the collection substrate in the impaction stage and a Millipore Fluoropore filter (1.0-um pore size) was used for the backup filter.  Films were cleaned in an ultrasonic bath in 10% H2O2 for 30 min, rinsed in distilled, deionized water, and dried in an NH3- and SO2-free glove box. Films and filters were weighed at PMEL with a Cahn Model 29 and Mettler UMT2 microbalance, respectively.  The balances are housed in a glove box kept at a humidity of 33 +/- 2%. The resulting mass concentrations from the gravimetric analysis include the water mass that is associated with the aerosol at 33% RH. The glove box was continually purged with room air that had passed through a scrubber of activated charcoal, potassium carbonate, and citric acid to remove gas phase organics, acids, and ammonia. Static charging, which can result in balance instabilities, was minimized by coating the walls of the glove box with a static dissipative polymer (Tech Spray, Inc.), placing an anti-static mat on the glove box floor, using anti-static gloves while handling the substrates, and exposing the substrates to a 210Po source to dissipate any charge that had built up on the substrates. Before and after sample collection, substrates were stored double-bagged with the outer bag containing citric acid to prevent absorption of gas phase ammonia.  More details of the weighing procedure can be found in Quinn and Coffman [1998]. Concentrations are reported as ug/m3 at STP (25C and 1 atm). Berner et al., Sci. Total Environ., 13,  245 - 261, 1979. Quinn et al., J. Geophys. Res., 105, 6785 - 6805, 2000."
X SetScale/P x 0,1,"", subMass; SetScale y 0,0,"ug/m3", subMass
X Note/NOCR subMass, "ACF_PROJECT:NEAQS2002;"
X Note/NOCR subMass, "ACF_PLATFORM:RONALD_H_BROWN;"
X Note/NOCR subMass, "ACF_DATA_TYPE:TIMESERIES-1D;"
X Note/NOCR subMass, "ACF_VERSION:1;"
X Note/NOCR subMass, "ACF_SUBMIT_DATE:05-JUN-2003;"
X Note/NOCR subMass, "ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov;"
X Note/NOCR subMass, "ACF_LEGAL_MIN:0;"
X Note/NOCR subMass, "ACF_LEGAL_MAX:250;"
X Note/NOCR subMass, "ACF_UNITS:ug/m3;"
X Note/NOCR subMass, "ACF_INSTRUMENT:2-stage impactor -- gravimetric analysis;"
X Note/NOCR subMass, "ACF_REMARK: NOAA PMEL Gravimetrically-determined Mass - collected with 2 stage impactors Contact person:  Trish Quinn, quinn@pmel.noaa.gov Two-stage multi-jet cascade impactors (Berner et al., 1979) sampling air at 55 +/- 5% RH were used to determine sub- and supermicron aerosol mass concentrations. The RH of the sampled air stream was measured a few inches upstream from the impactor. The 50% aerodynamic cutoff diameters, D50,aero, were 1.1 and 10 um.  Submicron refers to particles with Daero < 1.1 um at 55% RH and supermicron refers to particles with 1.1 um < Daero < 10 um at 55% RH. The impaction stage at the inlet of the impactor was coated with silicone grease to prevent the bounce of larger particles onto the downstream stages.  Tedlar films were used as the collection substrate in the impaction stage and a Millipore Fluoropore filter (1.0-um pore size) was used for the backup filter.  Films were cleaned in an ultrasonic bath in 10% H2O2 for 30 min, rinsed in distilled, deionized water, and dried in an NH3- and SO2-free glove box. Films and filters were weighed at PMEL with a Cahn Model 29 and Mettler UMT2 microbalance, respectively.  The balances are housed in a glove box kept at a humidity of 33 +/- 2%. The resulting mass concentrations from the gravimetric analysis include the water mass that is associated with the aerosol at 33% RH. The glove box was continually purged with room air that had passed through a scrubber of activated charcoal, potassium carbonate, and citric acid to remove gas phase organics, acids, and ammonia. Static charging, which can result in balance instabilities, was minimized by coating the walls of the glove box with a static dissipative polymer (Tech Spray, Inc.), placing an anti-static mat on the glove box floor, using anti-static gloves while handling the substrates, and exposing the substrates to a 210Po source to dissipate any charge that had built up on the substrates. Before and after sample collection, substrates were stored double-bagged with the outer bag containing citric acid to prevent absorption of gas phase ammonia.  More details of the weighing procedure can be found in Quinn and Coffman [1998]. Concentrations are reported as ug/m3 at STP (25C and 1 atm). Berner et al., Sci. Total Environ., 13,  245 - 261, 1979. Quinn et al., J. Geophys. Res., 105, 6785 - 6805, 2000."
X SetScale/P x 0,1,"", supMass; SetScale y 0,0,"ug/m3", supMass
X Note/NOCR supMass, "ACF_PROJECT:NEAQS2002;"
X Note/NOCR supMass, "ACF_PLATFORM:RONALD_H_BROWN;"
X Note/NOCR supMass, "ACF_DATA_TYPE:TIMESERIES-1D;"
X Note/NOCR supMass, "ACF_VERSION:1;"
X Note/NOCR supMass, "ACF_SUBMIT_DATE:05-JUN-2003;"
X Note/NOCR supMass, "ACF_SOURCE:Trish Quinn, Patricia.K.Quinn@noaa.gov;"
X Note/NOCR supMass, "ACF_LEGAL_MIN:0;"
X Note/NOCR supMass, "ACF_LEGAL_MAX:250;"
X Note/NOCR supMass, "ACF_UNITS:ug/m3;"
X Note/NOCR supMass, "ACF_INSTRUMENT:2-stage impactor --  gravimetric analysis;"
X Note/NOCR supMass, "ACF_REMARK: NOAA PMEL Gravimetrically-determined Mass - collected with 2 stage impactors Contact person:  Trish Quinn, quinn@pmel.noaa.gov Two-stage multi-jet cascade impactors (Berner et al., 1979) sampling air at 55 +/- 5% RH were used to determine sub- and supermicron aerosol mass concentrations. The RH of the sampled air stream was measured a few inches upstream from the impactor. The 50% aerodynamic cutoff diameters, D50,aero, were 1.1 and 10 um.  Submicron refers to particles with Daero < 1.1 um at 55% RH and supermicron refers to particles with 1.1 um < Daero < 10 um at 55% RH. The impaction stage at the inlet of the impactor was coated with silicone grease to prevent the bounce of larger particles onto the downstream stages.  Tedlar films were used as the collection substrate in the impaction stage and a Millipore Fluoropore filter (1.0-um pore size) was used for the backup filter.  Films were cleaned in an ultrasonic bath in 10% H2O2 for 30 min, rinsed in distilled, deionized water, and dried in an NH3- and SO2-free glove box. Films and filters were weighed at PMEL with a Cahn Model 29 and Mettler UMT2 microbalance, respectively.  The balances are housed in a glove box kept at a humidity of 33 +/- 2%. The resulting mass concentrations from the gravimetric analysis include the water mass that is associated with the aerosol at 33% RH. The glove box was continually purged with room air that had passed through a scrubber of activated charcoal, potassium carbonate, and citric acid to remove gas phase organics, acids, and ammonia. Static charging, which can result in balance instabilities, was minimized by coating the walls of the glove box with a static dissipative polymer (Tech Spray, Inc.), placing an anti-static mat on the glove box floor, using anti-static gloves while handling the substrates, and exposing the substrates to a 210Po source to dissipate any charge that had built up on the substrates. Before and after sample collection, substrates were stored double-bagged with the outer bag containing citric acid to prevent absorption of gas phase ammonia.  More details of the weighing procedure can be found in Quinn and Coffman [1998]. Concentrations are reported as ug/m3 at STP (25C and 1 atm). Berner et al., Sci. Total Environ., 13,  245 - 261, 1979. Quinn et al., J. Geophys. Res., 105, 6785 - 6805, 2000."