Articles | Volume 15, issue 8
https://doi.org/10.5194/amt-15-2345-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/amt-15-2345-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Research article
| 
20 Apr 2022
Research article |
| 20 Apr 2022
| 20 Apr 2022
The Aerosol Research Observation Station (AEROS)
Karin Ardon-Dryer
CORRESPONDING AUTHOR
Department of Geosciences, Atmospheric Science Group, Texas Tech
University, Lubbock, TX, USA
Mary C. Kelley
Department of Geosciences, Atmospheric Science Group, Texas Tech
University, Lubbock, TX, USA
Xia Xueting
Department of Geosciences, Atmospheric Science Group, Texas Tech
University, Lubbock, TX, USA
now at: Department of Statistics, Ohio State University, Columbus, OH, USA
Yuval Dryer
Department of Geosciences, Atmospheric Science Group, Texas Tech
University, Lubbock, TX, USA
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Cited
17 citations as recorded by crossref.
- Identification of dust events in the greater Phoenix area T. Sandhu et al.
- Spatial, temporal, and meteorological impact of the 26 February 2023 dust storm: increase in particulate matter concentrations across New Mexico and West Texas M. Robinson et al.
- Comparison of aerosol spectrometers : accounting for evaporation and sampling losses X. Lefebvre et al.
- Aeolian sediment in El Paso, Texas: Elevated desert sand deposition rates and dust concentrations, enhanced by drought and urban sources T. Gill et al.
- High-resolution observation of aerosol particle size distribution and chemical evolution during two consecutive dust events in Xi’an S. Wang et al.
- Particle size distribution and particulate matter concentrations during synoptic and convective dust events in West Texas K. Ardon-Dryer & M. Kelley
- Separating the Twomey effect and the semi-direct effect in absorbing aerosol environments through the cloud-aerosol mixing ratio P. Lin et al.
- AirQo sensor kit: A particulate matter air quality sensing kit custom designed for low-resource settings E. Bainomugisha et al.
- Calibration of Sensor Network for Outdoor Measurement of PM2.5 on High Wood-Heating Smoke in Temuco City C. Muñoz et al.
- Dust Under the Radar: Rethinking How to Evaluate the Impacts of Dust Events on Air Quality in the United States K. Ardon‐Dryer et al.
- Aerosol physical characterization: A review on the current state of aerosol documentary standards and calibration strategies K. Vasilatou et al.
- Coincidence effect of a low-cost particulate matter sensor: Observations from environmental chamber tests at diverse particle concentrations K. Kim et al.
- Minute-scale convective dust events are overlooked in urban air quality monitoring K. Ardon-Dryer
- Indoor air quality and its determinants in underground shopping malls in Korea J. Kim et al.
- Associations between dust exposure and hospitalizations in a dust-prone city, Lubbock, TX, USA E. Herrera-Molina et al.
- Effects of dust events on primary hospital admissions in Amarillo, Texas, USA E. Herrera-Molina et al.
- Characterization of 21 years of dust events across four West Texas regions M. Robinson & K. Ardon-Dryer
17 citations as recorded by crossref.
- Identification of dust events in the greater Phoenix area T. Sandhu et al.
- Spatial, temporal, and meteorological impact of the 26 February 2023 dust storm: increase in particulate matter concentrations across New Mexico and West Texas M. Robinson et al.
- Comparison of aerosol spectrometers : accounting for evaporation and sampling losses X. Lefebvre et al.
- Aeolian sediment in El Paso, Texas: Elevated desert sand deposition rates and dust concentrations, enhanced by drought and urban sources T. Gill et al.
- High-resolution observation of aerosol particle size distribution and chemical evolution during two consecutive dust events in Xi’an S. Wang et al.
- Particle size distribution and particulate matter concentrations during synoptic and convective dust events in West Texas K. Ardon-Dryer & M. Kelley
- Separating the Twomey effect and the semi-direct effect in absorbing aerosol environments through the cloud-aerosol mixing ratio P. Lin et al.
- AirQo sensor kit: A particulate matter air quality sensing kit custom designed for low-resource settings E. Bainomugisha et al.
- Calibration of Sensor Network for Outdoor Measurement of PM2.5 on High Wood-Heating Smoke in Temuco City C. Muñoz et al.
- Dust Under the Radar: Rethinking How to Evaluate the Impacts of Dust Events on Air Quality in the United States K. Ardon‐Dryer et al.
- Aerosol physical characterization: A review on the current state of aerosol documentary standards and calibration strategies K. Vasilatou et al.
- Coincidence effect of a low-cost particulate matter sensor: Observations from environmental chamber tests at diverse particle concentrations K. Kim et al.
- Minute-scale convective dust events are overlooked in urban air quality monitoring K. Ardon-Dryer
- Indoor air quality and its determinants in underground shopping malls in Korea J. Kim et al.
- Associations between dust exposure and hospitalizations in a dust-prone city, Lubbock, TX, USA E. Herrera-Molina et al.
- Effects of dust events on primary hospital admissions in Amarillo, Texas, USA E. Herrera-Molina et al.
- Characterization of 21 years of dust events across four West Texas regions M. Robinson & K. Ardon-Dryer
Saved (final revised paper)
Latest update: 06 May 2026
Short summary
The Aerosol Research Observation Station (AEROS) located in West Texas was designed to continuously measure atmospheric particles, including different particulate matter sizes, total particle number concentration, and size distribution. This article provides a description of AEROS as well as an intercomparison of the different instruments using laboratory and atmospheric particles, showing similar concentration as well to distinguish between various pollution events (natural vs. anthropogenic).
The Aerosol Research Observation Station (AEROS) located in West Texas was designed to...
