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Measurements of Urban, Marine and Biogenic Air (MUMBA): characterisation of trace gases and aerosol at the urban, marine and biogenic interface in summer in Wollongong, Australia (2017)

Guérette, Elise-Andrée ; Paton-Walsh, Clare ; Kubistin, Dagmar ; [et al.]

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In: Supplement to: Paton-Walsh, Clare; Guérette, Elise-Andrée; Kubistin, Dagmar; Humphries, Ruhi S; Wilson, Stephen R; Dominick, Doreena; Galbally, Ian; Buchholz, Rebecca R; Bhujel, Mahendra; Chambers, Scott D; Cheng, Min; Cope, Martin; Davy, Perry; Emmerson, Kathryn M; Griffith, David W T; Griffiths, Alan D; Keywood, Melita D; Lawson, Sarah; Molloy, Suzie; Rea, Geraldine; Selleck, Paul; Shi, Xue; Simmons, Jack B; Velazco, Voltaire (2017): The MUMBA Campaign: Measurements of Urban, Marine and Biogenic Air. Earth System Science Data, 9(1), 349-362, https://doi.org/10.5194/essd-9-349-2017

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Publication Date: 2023-01-13

Description: The Measurements of Urban, Marine and Biogenic Air (MUMBA) campaign took place in Wollongong, New South Wales (a small coastal city approximately 80 km south of Sydney, Australia), from 21st December 2012 to 15th February 2013. Instruments were deployed during MUMBA to measure the gaseous and aerosol composition of the atmosphere with the aim of providing a detailed characterisation of the complex environment of the ocean/forest/urban interface that could be used to test the skill of atmospheric models. Gases measured included ozone, oxides of nitrogen, carbon monoxide, carbon dioxide, methane and many of the most abundant volatile organic compounds. Aerosol characterisation included total particle counts above 3 nm, total cloud condensation nuclei counts; mass concentration of PM2.5, number concentration size distribution, aerosol chemical analyses and elemental analysis. Meteorological measurements and LIDAR measurements were also performed. The campaign captured varied meteorological conditions, including two extreme heat events, providing a potentially valuable test for models of future air quality in a warmer climate. There was also an episode when the site sampled clean marine air for many hours, providing a useful additional measure of background concentrations of these trace gases within this poorly sampled region of the globe. Here we present the observations recorded at the MUMBA site during the campaign, as well as radon and air quality data from nearby sites. These records can be used for testing chemical transport models.

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Format: application/zip, 17 datasets

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Total number concentration of condensation nuclei 〉3 nm at time series station Wollongong, 2013-01-16 to 2013-02-15 (2017)

Humphries, Ruhi S ; Keywood, Melita D

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Publication Date: 2023-01-13

Keywords: Australia; Condensation nuclei; DATE/TIME; HEIGHT above ground; Monitoring station; MONS; see further details; Wollongong_MUMBA

Type: Dataset

Format: text/tab-separated-values, 516 data points

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Elemental carbon and organic carbon content of PM2.5 aerosol size fraction at time series station Wollongong, 2012-12-22 to 2013-02-15 (2017)

Keywood, Melita D ; Humphries, Ruhi S

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Publication Date: 2023-01-13

Keywords: Australia; Carbon, elemental; Carbon, organic; Carbon, total; Date/time end; Date/time start; HEIGHT above ground; Monitoring station; MONS; see further details; Wollongong_MUMBA

Type: Dataset

Format: text/tab-separated-values, 235 data points

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Total number concentration of cloud condensation nuclei (CCN) at time series station Wollongong, 2013-01-15 to 2013-02-15 (2017)

Humphries, Ruhi S ; Keywood, Melita D

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Publication Date: 2023-01-13

Keywords: Australia; Cloud condensation nuclei; Cloud condensation nuclei, standard deviation; DATE/TIME; HEIGHT above ground; Monitoring station; MONS; see further details; Wollongong_MUMBA

Type: Dataset

Format: text/tab-separated-values, 1301 data points

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Particulate matter mass concentration 〈 2.5 µm (PM2.5) at time series station Wollongong, 2013-01-24 to 2013-02-15 (2017)

Keywood, Melita D ; Humphries, Ruhi S

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Publication Date: 2023-01-13

Keywords: Australia; DATE/TIME; HEIGHT above ground; Monitoring station; MONS; Particulate matter, 〈 2.5 µm; see further details; Wollongong_MUMBA

Type: Dataset

Format: text/tab-separated-values, 456 data points

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Particle number size distribution (~14 nm to ~660 nm) at time series station Wollongong, 2013-01-16 to 2013-02-18 (2017)

Humphries, Ruhi S ; Keywood, Melita D

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Publication Date: 2023-07-12

Keywords: Australia; DATE/TIME; HEIGHT above ground; Log-normal particle size distribution, normalized concentration at particle diameter 101.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 105.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 109.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 113.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 117.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 121.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 126.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 131 nm; Log-normal particle size distribution, normalized concentration at particle diameter 135.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 14.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 140.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 145.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 15.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 15.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 151.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 156.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 16.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 16.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 162.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 168.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 17.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 174.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 18.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 18.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 181.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 187.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 19.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 194.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 20.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 20.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 201.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 209.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 21.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 216.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 22.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 224.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 23.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 232.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 24.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 241.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 250.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 259.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25 nm; Log-normal particle size distribution, normalized concentration at particle diameter 26.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 269 nm; Log-normal particle size distribution, normalized concentration at particle diameter 27.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 278.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 28.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 289 nm; Log-normal particle size distribution, normalized concentration at particle diameter 299.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 30 nm; Log-normal particle size distribution, normalized concentration at particle diameter 31.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 310.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 32.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 322 nm; Log-normal particle size distribution, normalized concentration at particle diameter 33.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 333.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 34.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 346 nm; Log-normal particle size distribution, normalized concentration at particle diameter 35.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 358.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 37.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 371.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 38.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 385.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 399.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 40 nm; Log-normal particle size distribution, normalized concentration at particle diameter 41.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 414.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 42.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 429.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 44.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 445.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 46.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 461.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 47.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 478.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 49.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 495.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 51.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 514 nm; Log-normal particle size distribution, normalized concentration at particle diameter 53.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 532.8 nm; Log-normal particle size

Type: Dataset

Format: text/tab-separated-values, 81641 data points

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Aerosol size distribution measurements at Cataract Scout Park, Australia, taken during the COALA-2020 campaign (2021)

Humphries, Ruhi S ; Keywood, Melita D ; Paton-Walsh, Clare ; [et al.]

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Publication Date: 2023-07-11

Description: Measurements of aerosol size distribution between 14 and 661 nm diameter were measured using a TSI Scanning Mobility Particle Sizer (consisting of 3080 DMA, 3772 CPC and x-ray aerosol neutraliser, TSI Incorporated, Shoreview, MN, USA). Measurements were taken at Cataract Scout Park, Appin, N.S.W. (34°14'42.29"S 150°49'24.97"E) from an inlet 5.13 m above ground level as part of the Characterising Organics and Aerosol Loading over Australia (COALA-2020) campaign. Zero and flow checks logged have been removed from the published measurements, presented at 1-minute temporal resolution. 1-minute data are spline interpolations of the 5-minute scan measurements output by the instrument. Measurements span from January 29 2020 until March 15 2020. Please note that the instrument was run with leaky impactor until February 18 2020. Measurements in this period should be treated with caution. Measurements made during February 18-20 were disrupted due to impactor testing and have been removed. Following February 20, measurements were made without an impactor. Measurements were not made between February 25 and February 29.

Keywords: aerosol; Aerosol size distribution; Appin, Australia; biomass burning; Cataract_scout_park; Characterizing Organics and Aerosol Loading over Australia; COALA; COALA-2020; DATE/TIME; HEIGHT above ground; Log-normal particle size distribution, normalized concentration at particle diameter 101.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 105.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 109.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 113.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 117.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 121.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 126.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 131 nm; Log-normal particle size distribution, normalized concentration at particle diameter 135.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 14.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 140.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 145.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 15.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 15.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 151.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 156.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 16.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 16.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 162.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 168.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 17.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 174.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 18.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 18.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 181.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 187.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 19.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 194.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 20.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 20.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 201.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 209.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 21.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 216.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 22.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 224.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 23.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 232.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 24.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 241.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 250.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 259.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 25 nm; Log-normal particle size distribution, normalized concentration at particle diameter 26.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 269 nm; Log-normal particle size distribution, normalized concentration at particle diameter 27.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 278.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 28.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 289 nm; Log-normal particle size distribution, normalized concentration at particle diameter 299.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 30 nm; Log-normal particle size distribution, normalized concentration at particle diameter 31.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 310.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 32.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 322 nm; Log-normal particle size distribution, normalized concentration at particle diameter 33.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 333.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 34.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 346 nm; Log-normal particle size distribution, normalized concentration at particle diameter 35.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 358.7 nm; Log-normal particle size distribution, normalized concentration at particle diameter 37.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 371.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 38.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 385.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 40 nm; Log-normal particle size distribution, normalized concentration at particle diameter 41.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 414.2 nm; Log-normal particle size distribution, normalized concentration at particle diameter 42.9 nm; Log-normal particle size distribution, normalized concentration at particle diameter 429.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 44.5 nm; Log-normal particle size distribution, normalized concentration at particle diameter 445.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 46.1 nm; Log-normal particle size distribution, normalized concentration at particle diameter 461.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 47.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 478.3 nm; Log-normal particle size distribution, normalized concentration at particle diameter 49.6 nm; Log-normal particle size distribution, normalized concentration at particle diameter 495.8 nm; Log-normal particle size distribution, normalized concentration at particle diameter 51.4 nm; Log-normal particle size distribution, normalized concentration at particle diameter 514 nm; Log-normal particle size distribution, normalized concentration at particle diameter 53.3 nm; Log-normal particle size distribution, normalized

Type: Dataset

Format: text/tab-separated-values, 5717224 data points

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Black carbon aerosol measurements at Cataract Scout Park, Australia, taken during the COALA-2020 campaign (2021)

Keywood, Melita D ; Humphries, Ruhi S ; Paton-Walsh, Clare ; [et al.]

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Publication Date: 2023-07-11

Description: Measurements of black carbon aerosol were collected using a multi-angle absorption photometer (MAAP 5012, Thermo Fisher Scientific, Waltham, MA, USA). Measurements were taken at Cataract Scout Park, Appin, N.S.W. (34°14'42.29"S 150°49'24.97"E) from an inlet 4.8 m above ground level as part of the Characterizing Organics and Aerosol Loading over Australia (COALA-2020) campaign. The instrument was operated using a sample flow rate of 1000 L/hr (16.67 LPM). The inlet was not heated. It was fitted with a PM10 cap, restricting the measured aerosol to diameters less than 10 µm. Measurements are taken at 1-minute time resolution, as reported here. Flagged measurements have been removed, except for the "Temperature error" flag. This flag was persistent throughout the campaign and relates to the use of a non-heated inlet. Measurements below 0.0005 ug/cm3 have been removed as this is below the detection limit of the instrument. Instrumental details and calculation of aerosol absorption coefficient can be found in Petzold et al. (2002).

Keywords: aerosol; Aerosol absorption coefficient; Appin, Australia; biomass burning; black carbon; Black carbon, aerosol; Cataract_scout_park; Characterizing Organics and Aerosol Loading over Australia; COALA; COALA-2020; DATE/TIME; HEIGHT above ground; MAAP 5012; MULT; Multi-angle absorption photometer 5012, Thermo Fisher Scientific; Multiple investigations

Type: Dataset

Format: text/tab-separated-values, 125260 data points

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Cloud condensation nuclei (CCN) measurements at Cataract Scout Park, Australia, taken during the COALA-2020 campaign (2021)

Humphries, Ruhi S ; Keywood, Melita D ; Paton-Walsh, Clare ; [et al.]

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Publication Date: 2023-07-11

Description: Cloud condensation number concentration was measured using a Cloud Condensation Nuclei Counter (CCN100, Droplet Measurement Technologies, Longmont, Colorado, USA). Measurements were taken at Cataract Scout Park, Appin, N.S.W. (34°14'42.29"S 150°49'24.97"E) from an inlet 5.13 m above ground level as part of the Characterizing Organics and Aerosol Loading over Australia (COALA-2020) campaign. The instrument was operated for the majority of the campaign at either 0.2% supersaturation or 0.5% supersaturation, with occasional measurements made at 1.0% supersaturation. Periods when zero and flow checks were carried out have been removed from the published measurements, presented at 1-hour temporal resolution. Data presented are hourly averages of the 1 Hz measurements output by the instrument. Hourly standard deviations are also reported generated from time-averaging of the measurements, and data at finer temporal resolution are available on request.

Keywords: aerosol; Appin, Australia; biomass burning; Cataract_scout_park; ccn; Characterizing Organics and Aerosol Loading over Australia; cloud condensation nuclei; Cloud condensation nuclei; Cloud condensation nuclei, standard deviation; COALA; COALA-2020; DATE/TIME; HEIGHT above ground; MULT; Multiple investigations; SMPS, TSI; Supersaturation; TSI Scanning Mobility Particle Sizer

Type: Dataset

Format: text/tab-separated-values, 9361 data points

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Condensation nuclei 〉3 nm (CN3) measurements at Cataract Scout Park, Australia, taken during the COALA-2020 campaign (2020)

Keywood, Melita D ; Humphries, Ruhi S ; Paton-Walsh, Clare ; [et al.]

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Publication Date: 2024-03-11

Description: Measurements of condensation nuclei greater than 3 nm diameter (CN3) were collected using an ultrafine condensation particle counter (TSI Ultrafine Condensation Particle Counter 3776, TSI Incorporated, Shoreview, MN, USA). Measurements were taken at Cataract Scout Park, Appin, N.S.W. (34°14'42.29"S 150°49'24.97"E) from an inlet 5.13 m above ground level as part of the Characterizing Organics and Aerosol Loading over Australia (COALA-2020) campaign. The instrument was operated a using a sample flow rate of 300mL/min until 2020-02-18 23:30 UTC. Following this date, a sample flow rate of 1500mL/min was used to ensure consistency between comparable campaign measurements. No effect on measurements was evident. Logged zero and flow checks have been removed from the published measurements, presented are 1-minute temporal resolution means and standard deviations of native 1-second measurements output by the instrument.

Keywords: aerosol; Appin, Australia; biomass burning; Cataract_scout_park; Characterizing Organics and Aerosol Loading over Australia; CN3; COALA; COALA-2020; Condensation nuclei 〉 3 nm; Condensation nuclei 〉 3 nm, standard deviation; Condensation Particle Counter (CPC), 3776; DATE/TIME; Gas, flux; HEIGHT above ground; MULT; Multiple investigations; new particle formation

Type: Dataset

Format: text/tab-separated-values, 212101 data points

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