Submicron organic and elemental aerosol composition at Utgiagvik (Barrow), Alaska, from March 2008 to February 2010
FTIR Group Plot
File Size |
|
File Format |
|
Description | Summary plot of FTIR organic functional group concentrations |
XRF Plot
File Size |
|
File Format |
|
Description | Summary plot of XRF elemental concentrations |
FTIR Spectra Plot
File Size |
|
File Format |
|
Description | Summary plot of FTIR spectra |
FTIR OM Data (ICARTT)
File Size |
|
File Format |
|
Description | Data file (ICARTT format) of FTIR organic functional group concentrations |
XRF Data (ICARTT)
File Size |
|
File Format |
|
Description | Data file (ICARTT format) of XRF elemental concentrations |
FTIR Baselined Spectra (ICARTT)
File Size |
|
File Format |
|
Description | Data file (ICARTT format) of FTIR spectra |
- Collection
- Cite This Work
-
Frossard, Amanda A.; Hawkins, Lelia N.; Russell, Lynn M.; Quinn, Patricia K.; Upchurch, Lucia; Andrews, Elisabeth (2020). Submicron organic and elemental aerosol composition at Utgiagvik (Barrow), Alaska, from March 2008 to February 2010. In Atmospheric Aerosol Submicron Particle Composition including Organic Functional Group Concentrations at Arctic Locations. UC San Diego Library Digital Collections. https://doi.org/10.6075/J01N7ZN2
- Date Collected
- 2008-03-02 to 2010-02-20
- Date Issued
- 2020
- Principal Investigator
- Researchers
- Methods
-
Automated measurements were maintained by NOAA ESRL staff at their laboratory in Utgiagvik (Barrow), Alaska, using an 8‐sample rotating filter holder (described by Quinn et al. [2002]), modified to replace materials that outgas volatile organic compounds with metal or Delrin components [Shaw et al. 2010]. The filter holder exposes 8 different 47 mm diameter Teflon filters to ambient air pulled through a warmed inlet at 30 L min−1. Filters were exposed for 24‐hr in winter and spring and up to 96‐hr in summer when aerosol concentrations are low. Filters were sealed and frozen during transport and storage. To avoid contamination from the town of Barrow, sector control was used to collect samples only when wind speed was above 0.5 m s−1 and direction was between 0° and 130° (60% of sampling time). Fourier transform infrared (FTIR) spectra were collected for each filter in a temperature and humidity controlled clean room to measure the absorption of organic functional groups and convert to mass [Maria et al., 2002; Gilardoni et al., 2007] using an automated algorithm [Russell et al., 2009]. The baselined spectra are provided for each sample including filter number, start and stop times, wavenumber, and absorption. We quantified saturated aliphatic CCH (alkane group), carboxylic COH with associated C=O in an acid group COOH, non‐ acidic hydroxyl COH (alcohol group), and primary amine CNH2 groups [Russell et al., 2009]. Non‐acidic carbonyl C=O, aromatic and unsaturated aliphatic (alkene) functional groups are omitted because they were below detection for the majority of the study. Cumulative air flow for each filter was recorded for each filter by ESRL staff, and these measured volumes were used to calculate ambient concentrations from the measured mass on each filter. Results of PMF analysis of aerosol sources from FTIR spectra are also included. A select number of filters collected were sent to Chester laboratories for X‐ray fluorescence (XRF) spectroscopy [Maria et al., 2002] to quantify S, Na, Cl, Si, Al, Fe, Ti, Ca, Mg, K, V, Zn, and Br (additional measured elements were below detection for a majority of samples). Ion chromatography was used to quantify ionic composition of simultaneous filters [Quinn et al., 2002].
- Funding
-
This study was funded by the National Science Foundation (ARC‐0714052) for the International Polar Year.
- Geographic
- Topics
- Cartographics
Point: 71.3, -156.8
Formats
View formats within this collection
- Language
- No linguistic content; Not applicable
- Identifier
-
Identifier: Lynn M. Russell: https://orcid.org/0000-0002-6108-2375
- Related Resources
- Lynn M. Russell, Amanda Frossard, Lelia Hawkins, Elizabeth Andrews, Lucia Upchurch, et al. 2020. Arctic Aerosol Chemistry: Submicron Organic and Elemental Aerosol Composition at Utgiagvik (Barrow), Alaska, from March 2008 to February 2010. Arctic Data Center. https://doi.org/10.18739/A22Z12P9Z
- Dan Lubin, Damao Zhang, Israel Silber, Ryan C. Scott, Petros Kalogeras, Alessandro Battaglia, David H. Bromwich, Maria Cadeddu, Edwin Eloranta, Ann Fridlind, Amanda Frossard, Keith Hines, Stefan Kneifel, W. Richard Leaitch, Wuyin Lin, Julien Nicolas, Heath Powers, Patricia K. Quinn, Penny Rowe, Lynn M. Russell, Sangeeta Sharma, Johannes Verlinde, and Andrew M. Vogelmann (2020), The Atmospheric Radiation Measurement Program West Antarctic Radiation Experiment, Bulletin of the American Meteorological Society. https://doi.org/10.1175/BAMS-D-18-0278.1
- Frossard AA, Shaw PM, Russell LM, Kroll JH, Canagaratna MR, Worsnop DR, Quinn PK, Bates TS. 2011. Springtime Arctic haze contributions of submicron organic particles from European and Asian combustion sources. Journal of Geophysical Research-Atmospheres. 116. https://doi.org/10.1029/2010jd015178
- Russell LM, Hawkins LN, Frossard AA, Quinn PK, Bates TS. 2010. Carbohydrate-like composition of submicron atmospheric particles and their production from ocean bubble bursting. Proceedings of the National Academy of Sciences of the United States of America. 107:6652-6657. https://doi.org/10.1073/pnas.0908905107
- Shaw PM, Russell LM, Jefferson A, Quinn PK. 2010. Arctic organic aerosol measurements show particles from mixed combustion in spring haze and from frost flowers in winter. Geophysical Research Letters. 37. https://doi.org/10.1029/2010gl042831
Identical version
Reference
- License
-
Creative Commons Attribution 4.0 International Public License
- Rights Holder
- UC Regents
- Copyright
-
Under copyright (US)
Use: This work is available from the UC San Diego Library. This digital copy of the work is intended to support research, teaching, and private study.
Constraint(s) on Use: This work is protected by the U.S. Copyright Law (Title 17, U.S.C.). Use of this work beyond that allowed by "fair use" or any license applied to this work requires written permission of the copyright holder(s). Responsibility for obtaining permissions and any use and distribution of this work rests exclusively with the user and not the UC San Diego Library. Inquiries can be made to the UC San Diego Library program having custody of the work.
- Digital Object Made Available By
-
Research Data Curation Program, UC San Diego, La Jolla, 92093-0175 (https://lib.ucsd.edu/rdcp)
- Last Modified
2022-10-07