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1. Multi-campaign ship and aircraft observations of marine cloud condensation nuclei and droplet concentrations.

Author

Sanchez, Kevin, Painemal, David, Brown, Matthew, Crosbie, Ewan, Gallo, Francesca, Hair, Johnathan, Hostetler, Chris, Jordan, Carolyn, Robinson, Claire, Scarino, Amy, Shingler, Taylor, Shook, Michael, Thornhill, Kenneth, Wiggins, Elizabeth, Winstead, Edward, Ziemba, Luke, Chambers, Scott, Williams, Alastair, Humphries, Ruhi, Keywood, Melita, Ward, Jason, Cravigan, Luke, McRobert, Ian, Flynn, Connor, Kulkarni, Gourihar, Roberts, Gregory, McFarquhar, Greg, Nenes, Athanasios, Woods, Sarah, Reid, Jeffery, Small-Griswold, Jennifer, Brooks, Sarah, Kirschler, Simon, Voigt, Christianne, Wang, Jian, Delene, David, Quinn, Patricia, Moore, Richard, and Russell, Lynn

Abstract

In-situ marine cloud droplet number concentrations (CDNCs), cloud condensation nuclei (CCN), and CCN proxies, based on particle sizes and optical properties, are accumulated from seven field campaigns: ACTIVATE; NAAMES; CAMP2EX; ORACLES; SOCRATES; MARCUS; and CAPRICORN2. Each campaign involves aircraft measurements, ship-based measurements, or both. Measurements collected over the North and Central Atlantic, Indo-Pacific, and Southern Oceans, represent a range of clean to polluted conditions in various climate regimes. With the extensive range of environmental conditions sampled, this data collection is ideal for testing satellite remote detection methods of CDNC and CCN in marine environments. Remote measurement methods are vital to expanding the available data in these difficult-to-reach regions of the Earth and improving our understanding of aerosol-cloud interactions. The data collection includes particle composition and continental tracers to identify potential contributing CCN sources. Several of these campaigns include High Spectral Resolution Lidar (HSRL) and polarimetric imaging measurements and retrievals that will be the basis for the next generation of space-based remote sensors and, thus, can be utilized as satellite surrogates.

Published
2023

2. Large-eddy simulations of marine boundary-layer clouds associated with cold air outbreak during the ACTIVATE campaign. Part II: aerosol-meteorology-cloud interaction

Author

Li, Xiang-Yu, Wang, Hailong, Chen, Jingyi, Endo, Satoshi, Kirschler, Simon, Voigt, Christiane, Crosbie, Ewan, Ziemba, Luke D, Painemal, David, Cairns, Brian, Hair, Johnathan W, Corral, Andrea F., Robinson, Claire, Dadashazar, Hossein, Sorooshian, Armin, Chen, Gao, Ferrare, Richard Anthony, Kleb, Mary M, Liu, Hongyu, Moore, Richard, Scarino, Amy Jo, Shook, Michael A., Shingler, Taylor J, Thornhill, Kenneth Lee, Tornow, Florian, Xiao, Heng, and Zeng, Xubin

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Aerosol effects on micro-/macro-physical properties of marine stratocumulus clouds over the Western North Atlantic Ocean (WNAO) are investigated using in-situ measurements and large-eddy simulations (LES) for two cold air outbreak (CAO) cases (February 28 and March 1, 2020) during the Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE). The LES is able to reproduce the vertical profiles of liquid water content (LWC), effective radius r_eff and the cloud droplet number concentration Nc from fast cloud droplet probe (FCDP) in-situ measurements for both cases. Furthermore, we show that aerosols affect cloud properties (Nc, r_eff, and LWC) via the prescribed bulk hygroscopicity of aerosols and aerosol size distributions characteristics. Nc, r_eff, and liquid water path (LWP) are positively correlated to the bulk hygroscopicity of aerosols and aerosol number concentration (Na) while cloud fractional cover (CFC) is insensitive to the bulk hygroscopicity of aerosols and aerosol size distributions for the two cases. The changes to aerosol size distribution (number concentration, width, and the geometrical diameter) allow us to disentangle aerosol effects on cloud properties from the meteorological effects. We also use the LES results to evaluate cloud properties from two reanalysis products, ERA5 and MERRA-2. Comparing to LES, the ERA5 reanalysis is able to capture the time evolution of LWP and total cloud coverage within the study domain during both CAO cases while MERRA-2 underestimates them.

Published
2021

4. Large-eddy simulations of marine boundary-layer clouds associated with cold air outbreaks during the ACTIVATE campaign-part 1: Case setup and sensitivities to large-scale forcings

Author

Li, Xiang-Yu, Wang, Hailong, Chen, Jingyi, Endo, Satoshi, George, Geet, Cairns, Brian, Chellappan, Seethala, Zeng, Xubin, Kirschler, Simon, Voigt, Christiane, Sorooshian, Armin, Crosbie, Ewan, Chen, Gao, Ferrare, Richard Anthony, Gustafson, William I., Hair, Johnathan W, Kleb, Mary M, Liu, Hongyu, Moore, Richard, Painemal, David, Robinson, Claire, Scarino, Amy Jo, Shook, Michael, Shingler, Taylor J, Thornhill, Kenneth Lee, Tornow, Florian, Xiao, Heng, Ziemba, Luke D, and Zuidema, Paquita

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Large-eddy simulation (LES) is able to capture key boundary-layer (BL) turbulence and cloud processes. Yet, large-scale forcing and surface turbulent fluxes of sensible and latent heat are often poorly prescribed for LES simulations. We derive these quantities from measurements and reanalysis obtained for two cold air outbreak (CAO) events during Phase I of the Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE) in February-March 2020. We study the two contrasting CAO cases by performing LES and test the sensitivity of BL structure and clouds to large-scale forcings and turbulent heat fluxes. Profiles of atmospheric state and large-scale divergence and surface turbulent heat fluxes obtained from the reanalysis data ERA5 agree reasonably well with those derived from ACTIVATE field measurements for both cases at the sampling time and location. Therefore, we adopt the time evolving heat fluxes, wind and advective tendencies profiles from ERA5 reanalysis data to drive the LES. We find that large-scale thermodynamic advective tendencies and wind relaxations are important for the LES to capture the evolving observed BL meteorological states characterized by the hourly ERA5 reanalysis data and validated by the observations. We show that the divergence (or vertical velocity) is important in regulating the BL growth driven by surface heat fluxes in LES simulations. The evolution of liquid water path is largely affected by the evolution of surface heat fluxes. The liquid water path simulated in LES agrees reasonably well with the ACTIVATE measurements.This study paves the path to investigate aerosol-cloud-meteorology interactions using LES informed and evaluated by ACTIVATE field measurements., Comment: Accepted for publication in Journal of the Atmospheric Sciences

Published
2021
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5. North Atlantic Ocean SST-gradient-driven variations in aerosol and cloud evolution along Lagrangian cold-air outbreak trajectories

Author

Sanchez, Kevin J, Zhang, Bo, Liu, Hongyu, Brown, Matthew D, Crosbie, Ewan C, Gallo, Francesca, Hair, Johnathan W, Hostetler, Chris A, Jordan, Carolyn E, Robinson, Claire E, Scarino, Amy Jo, Shingler, Taylor J, Shook, Michael A, Thornhill, Kenneth L, Wiggins, Elizabeth B, Winstead, Edward L, Ziemba, Luke D, Saliba, Georges, Lewis, Savannah L, Russell, Lynn M, Quinn, Patricia K, Bates, Timothy S, Porter, Jack, Bell, Thomas G, Gaube, Peter, Saltzman, Eric S, Behrenfeld, Michael J, and Moore, Richard H

Subjects
Earth Sciences, Oceanography, Atmospheric Sciences, Climate Action, Life Below Water, Astronomical and Space Sciences, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

Atmospheric marine particle concentrations impact cloud properties, which strongly impact the amount of solar radiation reflected back into space or absorbed by the ocean surface. While satellites can provide a snapshot of current conditions at the overpass time, models are necessary to simulate temporal variations in both particle and cloud properties. However, poor model accuracy limits the reliability with which these tools can be used to predict future climate. Here, we leverage the comprehensive ocean ecosystem and atmospheric aerosol–cloud dataset obtained during the third deployment of the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES3). Airborne and ship-based measurements were collected in and around a cold-air outbreak during a 3 d (where d stands for day) intensive operations period from 17–19 September 2017. Cold-air outbreaks are of keen interest for model validation because they are challenging to accurately simulate, which is due, in part, to the numerous feedbacks and sub-grid-scale processes that influence aerosol and cloud evolution. The NAAMES observations are particularly valuable because the flight plans were tailored to lie along Lagrangian trajectories, making it possible to spatiotemporally connect upwind and downwind measurements with the state-of-the-art FLEXible PARTicle (FLEXPART) Lagrangian particle dispersion model and then calculate a rate of change in particle properties. Initial aerosol conditions spanning an east–west, closed-cell-to-clear-air transition region of the cold-air outbreak indicate similar particle concentrations and properties. However, despite the similarities in the aerosol fields, the cloud properties downwind of each region evolved quite differently. One trajectory carried particles through a cold-air outbreak, resulting in a decrease in accumulation mode particle concentration (−42 %) and cloud droplet concentrations, while the other remained outside of the cold-air outbreak and experienced an increase in accumulation mode particle concentrations (+62 %). The variable meteorological conditions between these two adjacent trajectories result from differences in the local sea surface temperature in the Labrador Current and surrounding waters, altering the stability of the marine atmospheric boundary layer. Further comparisons of historical satellite observations indicate that the observed pattern occurs annually in the region, making it an ideal location for future airborne Lagrangian studies tracking the evolution of aerosols and clouds over time under cold-air outbreak conditions.

Published
2022

6. Linking marine phytoplankton emissions, meteorological processes and downwind particle properties with FLEXPART

Author

Sanchez, Kevin J, Zhang, Bo, Liu, Hongyu, Saliba, Georges, Chen, Chia-Li, Lewis, Savannah L, Russell, Lynn M, Shook, Michael A, Crosbie, Ewan C, Ziemba, Luke D, Brown, Matthew D, Shingler, Taylor J, Robinson, Claire E, Wiggins, Elizabeth B, Thornhill, Kenneth L, Winstead, Edward L, Jordan, Carolyn, Quinn, Patricia K, Bates, Timothy S, Porter, Jack, Bell, Thomas G, Saltzman, Eric S, Behrenfeld, Michael J, and Moore, Richard H

Subjects
Climate Action, Astronomical and Space Sciences, Atmospheric Sciences, Meteorology & Atmospheric Sciences
Abstract

Marine biogenic particle contributions to atmospheric aerosol concentrations are not well understood though they are important for determining cloud optical and cloud-nucleating properties. Here we examine the relationship between marine aerosol measurements (with satellites and model fields of ocean biology) and meteorological variables during the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES). NAAMES consisted of four field campaigns between November 2015 and April 2018 that aligned with the four major phases of the annual phytoplankton bloom cycle. The FLEXible PARTicle (FLEXPART) Lagrangian particle dispersion model is used to spatiotemporally connect these variables to ship-based aerosol and dimethyl sulfide (DMS) observations. We find that correlations between some aerosol measurements with satellitemeasured and modeled variables increase with increasing trajectory length, indicating that biological and meteorological processes over the air mass history are influential for measured particle properties and that using only spatially coincident data would miss correlative connections that are lagged in time. In particular, the marine non-refractory organic aerosol mass correlates with modeled marine net primary production when weighted by 5 d air mass trajectory residence time (r = 0:62). This result indicates that nonrefractory organic aerosol mass is influenced by biogenic volatile organic compound (VOC) emissions that are typically produced through bacterial degradation of dissolved organic matter, zooplankton grazing on marine phytoplankton, and as a by-product of photosynthesis by phytoplankton stocks during advection into the region. This is further supported by the correlation of non-refractory organic mass with 2 d residence-time-weighted chlorophyll a (r = 0:39), a proxy for phytoplankton abundance, and 5 d residencetime-weighted downward shortwave forcing (r = 0:58), a requirement for photosynthesis. In contrast, DMS (formed through biological processes in the seawater) and primary marine aerosol (PMA) concentrations showed better correlations with explanatory biological and meteorological variables weighted with shorter air mass residence times, which reflects their localized origin as primary emissions. Aerosol submicron number and mass negatively correlate with sea surface wind speed. The negative correlation is attributed to enhanced PMA concentrations under higher wind speed conditions. We hypothesized that the elevated total particle surface area associated with high PMA concentrations leads to enhanced rates of condensation of VOC oxidation products onto PMA. Given the high deposition velocity of PMA relative to submicron aerosol, PMA can limit the accumulation of secondary aerosol mass. This study provides observational evidence for connections between marine aerosols and underlying ocean biology through complex secondary formation processes, emphasizing the need to consider air mass history in future analyses.

Published
2021

7. Aerosol-Cloud-Meteorology Interaction Airborne Field Investigations: Using Lessons Learned from the US West Coast in the Design of ACTIVATE off the US East Coast Aerosol-Cloud-Meteorology Interaction Airborne Field Investigations: Using Lessons Learned from the US West Coast in the Design of ACTIVATE off the US East Coast

Author

Sorooshian, Armin, Anderson, Bruce, Bauer, Susanne E, Braun, Rachel A, Cairns, Brian, Crosbie, Ewan, Dadashazar, Hossein, Diskin, Glenn, Ferrare, Richard, Flagan, Richard C, Hair, Johnathan, Hostetler, Chris, Jonsson, Haflidi H, Kleb, Mary M, Liu, Hongyu, MacDonald, Alexander B, McComiskey, Allison, Moore, Richard, Painemal, David, Russell, Lynn M, Seinfeld, John H, Shook, Michael, Smith, William L, Thornhill, Kenneth, Tselioudis, George, Wang, Hailong, Zeng, Xubin, Zhang, Bo, Ziemba, Luke, and Zuidema, Paquita

Subjects
Astronomical and Space Sciences, Atmospheric Sciences, Physical Geography and Environmental Geoscience, Meteorology & Atmospheric Sciences
Abstract

Abstract: We report on a multiyear set of airborne field campaigns (2005–16) off the California coast to examine aerosols, clouds, and meteorology, and how lessons learned tie into the upcoming NASA Earth Venture Suborbital (EVS-3) campaign: Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE; 2019–23). The largest uncertainty in estimating global anthropogenic radiative forcing is associated with the interactions of aerosol particles with clouds, which stems from the variability of cloud systems and the multiple feedbacks that affect and hamper efforts to ascribe changes in cloud properties to aerosol perturbations. While past campaigns have been limited in flight hours and the ability to fly in and around clouds, efforts sponsored by the Office of Naval Research have resulted in 113 single aircraft flights (>500 flight hours) in a fixed region with warm marine boundary layer clouds. All flights used nearly the same payload of instruments on a Twin Otter to fly below, in, and above clouds, producing an unprecedented dataset. We provide here i) an overview of statistics of aerosol, cloud, and meteorological conditions encountered in those campaigns and ii) quantification of model-relevant metrics associated with aerosol–cloud interactions leveraging the high data volume and statistics. Based on lessons learned from those flights, we describe the pragmatic innovation in sampling strategy (dual-aircraft approach with combined in situ and remote sensing) that will be used in ACTIVATE to generate a dataset that can advance scientific understanding and improve physical parameterizations for Earth system and weather forecasting models, and for assessing next-generation remote sensing retrieval algorithms.

Published
2019

8. The North Atlantic Aerosol and Marine Ecosystem Study (NAAMES): Science Motive and Mission Overview

Author

Behrenfeld, Michael J, Moore, Richard H, Hostetler, Chris A, Graff, Jason, Gaube, Peter, Russell, Lynn M, Chen, Gao, Doney, Scott C, Giovannoni, Stephen, Liu, Hongyu, Proctor, Christopher, Bolaños, Luis M, Baetge, Nicholas, Davie-Martin, Cleo, Westberry, Toby K, Bates, Timothy S, Bell, Thomas G, Bidle, Kay D, Boss, Emmanuel S, Brooks, Sarah D, Cairns, Brian, Carlson, Craig, Halsey, Kimberly, Harvey, Elizabeth L, Hu, Chuanmin, Karp-Boss, Lee, Kleb, Mary, Menden-Deuer, Susanne, Morison, Françoise, Quinn, Patricia K, Scarino, Amy Jo, Anderson, Bruce, Chowdhary, Jacek, Crosbie, Ewan, Ferrare, Richard, Hair, Johnathan W, Hu, Yongxiang, Janz, Scott, Redemann, Jens, Saltzman, Eric, Shook, Michael, Siegel, David A, Wisthaler, Armin, Martin, Melissa Yang, and Ziemba, Luke

Subjects
Life Below Water, North Atlantic Aerosols and Marine Ecosystems Study, plankton blooms and annual cycle, marine aerosols, clouds, field campaigns, Oceanography, Ecology
Abstract

The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) is an interdisciplinary investigation to improve understanding of Earth's ocean ecosystem-aerosol-cloud system. Specific overarching science objectives for NAAMES are to (1) characterize plankton ecosystem properties during primary phases of the annual cycle and their dependence on environmental forcings, (2) determine how these phases interact to recreate each year the conditions for an annual plankton bloom, and (3) resolve how remote marine aerosols and boundary layer clouds are influenced by plankton ecosystems. Four NAAMES field campaigns were conducted in the western subarctic Atlantic between November 2015 and April 2018, with each campaign targeting specific seasonal events in the annual plankton cycle. A broad diversity of measurements were collected during each campaign, including ship, aircraft, autonomous float and drifter, and satellite observations. Here, we present an overview of NAAMES science motives, experimental design, and measurements. We then briefly describe conditions and accomplishments during each of the four field campaigns and provide information on how to access NAAMES data. The intent of this manuscript is to familiarize the broad scientific community with NAAMES and to provide a common reference overview of the project for upcoming publications.

Published
2019

9. Aircraft engine particulate matter emissions from sustainable aviation fuels: Results from ground-based measurements during the NASA/DLR campaign ECLIF2/ND-MAX

Author

Schripp, Tobias, Anderson, Bruce E., Bauder, Uwe, Rauch, Bastian, Corbin, Joel C., Smallwood, Greg J., Lobo, Prem, Crosbie, Ewan C., Shook, Michael A., Miake-Lye, Richard C., Yu, Zhenhong, Freedman, Andrew, Whitefield, Philip D., Robinson, Claire E., Achterberg, Steven L., Köhler, Markus, Oßwald, Patrick, Grein, Tobias, Sauer, Daniel, Voigt, Christiane, Schlager, Hans, and LeClercq, Patrick

Published
2022
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10. Bridging gas and aerosol properties between the northeastern US and Bermuda: analysis of eight transit flights.

Author

Soloff, Cassidy, Ajayi, Taiwo, Choi, Yonghoon, Crosbie, Ewan C., DiGangi, Joshua P., Diskin, Glenn S., Fenn, Marta A., Ferrare, Richard A., Gallo, Francesca, Hair, Johnathan W., Hilario, Miguel Ricardo A., Kirschler, Simon, Moore, Richard H., Shingler, Taylor J., Shook, Michael A., Thornhill, Kenneth L., Voigt, Christiane, Winstead, Edward L., Ziemba, Luke D., and Sorooshian, Armin

Subjects
ATMOSPHERIC aerosols, SMOKE plumes, BOUNDARY layer (Aerodynamics), CROWDSOURCING, AIR masses
Abstract

The western North Atlantic Ocean is strongly influenced by continental outflow, making it an ideal region to study the atmospheric transition from a polluted coastline to the marine environment. Utilizing eight transit flights between the NASA Langley Research Center (LaRC) in Hampton, Virginia, and the remote island of Bermuda from NASA's Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE), we examine the evolution of trace gas and aerosol properties off the US East Coast. The first pair of flights flew along the wind trajectory of continental outflow, while the other flights captured a mix of marine and continental air mass sources. For measurements within the boundary layer (BL), there was an offshore decline in particle N<100nm , N>100nm , CH 4 , CO, and CO 2 concentrations, all leveling off around ∼900 km offshore from the LaRC. These trends are strongest for the first pair of flights. In the BL, offshore declines in organic mass fraction and increases in sulfate mass fraction coincide with increasing hygroscopicity based on f (RH) measurements. Free troposphere measurements show a decline in N<100nm , but other measured parameters are more variable when compared to the prominent offshore gradients seen in the BL. Pollution layers exist in the free troposphere, such as smoke plumes, that can potentially entrain into the BL. This work provides detailed case studies with a broad set of high-resolution measurements to further our understanding of the transition between continental and marine environments. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Supplementary material to "Tropospheric aerosols over the western North Atlantic Ocean during the winter and summer campaigns of ACTIVATE 2020: Life cycle, transport, and distribution"

Author

Liu, Hongyu, primary, Zhang, Bo, additional, Moore, Richard H., additional, Ziemba, Luke D., additional, Ferrare, Richard A., additional, Choi, Hyundeok, additional, Sorooshian, Armin, additional, Painemal, David, additional, Wang, Hailong, additional, Shook, Michael A., additional, Scarino, Amy Jo, additional, Hair, Johnathan W., additional, Crosbie, Ewan C., additional, Fenn, Marta A., additional, Shingler, Taylor J., additional, Hostetler, Chris A., additional, Chen, Gao, additional, Kleb, Mary M., additional, Luo, Gan, additional, Yu, Fangqun, additional, Tackett, Jason L., additional, Vaughan, Mark A., additional, Hu, Yongxiang, additional, Diskin, Glenn S., additional, Nowak, John B., additional, DiGangi, Joshua P., additional, Choi, Yonghoon, additional, Keller, Christoph A., additional, and Johnson, Matthew S., additional

Published
2024
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12. Tropospheric aerosols over the western North Atlantic Ocean during the winter and summer campaigns of ACTIVATE 2020: Life cycle, transport, and distribution

Author

Liu, Hongyu, primary, Zhang, Bo, additional, Moore, Richard H., additional, Ziemba, Luke D., additional, Ferrare, Richard A., additional, Choi, Hyundeok, additional, Sorooshian, Armin, additional, Painemal, David, additional, Wang, Hailong, additional, Shook, Michael A., additional, Scarino, Amy Jo, additional, Hair, Johnathan W., additional, Crosbie, Ewan C., additional, Fenn, Marta A., additional, Shingler, Taylor J., additional, Hostetler, Chris A., additional, Chen, Gao, additional, Kleb, Mary M., additional, Luo, Gan, additional, Yu, Fangqun, additional, Tackett, Jason L., additional, Vaughan, Mark A., additional, Hu, Yongxiang, additional, Diskin, Glenn S., additional, Nowak, John B., additional, DiGangi, Joshua P., additional, Choi, Yonghoon, additional, Keller, Christoph A., additional, and Johnson, Matthew S., additional

Published
2024
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13. Bridging Gas and Aerosol Properties between Northeast U.S. and Bermuda: Analysis of Eight Transit Flights

Author

Soloff, Cassidy, primary, Ajayi, Taiwo, additional, Choi, Yonghoon, additional, Crosbie, Ewan C., additional, DiGangi, Joshua P., additional, Diskin, Glenn S., additional, Fenn, Marta A., additional, Ferrare, Richard A., additional, Gallo, Francesca, additional, Hair, Johnathan W., additional, Hilario, Miguel Ricardo A., additional, Kirschler, Simon, additional, Moore, Richard H., additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Thornhill, Kenneth L., additional, Voigt, Christiane, additional, Winstead, Edward L., additional, Ziemba, Luke D., additional, and Sorooshian, Armin, additional

Published
2024
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14. Supplementary material to "Bridging Gas and Aerosol Properties between Northeast U.S. and Bermuda: Analysis of Eight Transit Flights"

Author

Soloff, Cassidy, primary, Ajayi, Taiwo, additional, Choi, Yonghoon, additional, Crosbie, Ewan C., additional, DiGangi, Joshua P., additional, Diskin, Glenn S., additional, Fenn, Marta A., additional, Ferrare, Richard A., additional, Gallo, Francesca, additional, Hair, Johnathan W., additional, Hilario, Miguel Ricardo A., additional, Kirschler, Simon, additional, Moore, Richard H., additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Thornhill, Kenneth L., additional, Voigt, Christiane, additional, Winstead, Edward L., additional, Ziemba, Luke D., additional, and Sorooshian, Armin, additional

Published
2024
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15. Process Modeling of Aerosol‐Cloud Interaction in Summertime Precipitating Shallow Cumulus Over the Western North Atlantic

Author

Li, Xiang‐Yu, primary, Wang, Hailong, additional, Christensen, Matthew W., additional, Chen, Jingyi, additional, Tang, Shuaiqi, additional, Kirschler, Simon, additional, Crosbie, Ewan, additional, Ziemba, Luke D., additional, Painemal, David, additional, Corral, Andrea F., additional, McCauley, Kayla Ann, additional, Dmitrovic, Sanja, additional, Sorooshian, Armin, additional, Fenn, Marta, additional, Schlosser, Joseph S., additional, Stamnes, Snorre, additional, Hair, Johnathan W., additional, Cairns, Brian, additional, Moore, Richard, additional, Ferrare, Richard Anthony, additional, Shook, Michael A., additional, Choi, Yonghoon, additional, Diskin, Glenn S., additional, DiGangi, Joshua, additional, Nowak, John B., additional, Robinson, Claire, additional, Shingler, Taylor J., additional, Lee Thornhill, Kenneth, additional, and Voigt, Christiane, additional

Published
2024
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17. New insights into the column CH2O/NO2 ratio as an indicator of near‐surface ozone sensitivity

Author

Schroeder, Jason R, Crawford, James H, Fried, Alan, Walega, James, Weinheimer, Andrew, Wisthaler, Armin, Müller, Markus, Mikoviny, Tomas, Chen, Gao, Shook, Michael, Blake, Donald R, and Tonnesen, Gail S

Subjects
Atmospheric Sciences, Physical Geography and Environmental Geoscience
Abstract

Satellite-based measurements of the column CH2O/NO2 ratio have previously been used to estimate near-surface ozone (O3) sensitivity (i.e., NOx or VOC limited), and the forthcoming launch of air quality-focused geostationary satellites provides a catalyst for reevaluating the ability of satellite-measured CH2O/NO2 to be used in this manner. In this study, we use a 0-D photochemical box model to evaluate O3 sensitivity and find that the relative rate of radical termination from radical-radical interactions to radical-NOx interactions (referred to as LROx/LNOx) provides a good indicator of maximum O3 production along NOx ridgelines. Using airborne measurements from NASA's Deriving Information on Surface Conditions from Column and Vertically Resolved Observations Relative to Air Quality (DISCOVER-AQ) deployments in Colorado, Maryland, and Houston, we show that in situ measurements of CH2O/NO2 can be used to indicate O3 sensitivity, but there is an important “transition/ambiguous” range whereby CH2O/NO2 fails to categorize O3 sensitivity, and the range and span of this transition/ambiguous range varies regionally. Then, we apply these findings to aircraft-derived column density measurements from DISCOVER-AQ and find that inhomogeneities in vertical mixing in the lower troposphere further degrades the ability of column CH2O/NO2 to indicate near-surface O3 sensitivity (i.e., the transition/ambiguous range is much larger than indicated by in situ data alone), and we hypothesize that the global transition/ambiguous range is sufficiently large to make the column CH2O/NO2 ratio unuseful for classifying near-surface O3 sensitivity. Lastly, we present a case study from DISCOVER-AQ-Houston that suggests that O3 sensitivity on exceedance days may be substantially different than on nonexceedance days (which may be observable from space) and explore the diurnal evolution of O3 sensitivity, O3 production, and the column CH2O/NO2 ratio. The results of these studies suggest that although satellite measurements of CH2O/NO2 alone may not be sufficient for accurately classifying near-surface O3 sensitivity, new techniques offered by geostationary platforms may nonetheless provide methods for using space-based measurements to develop O3 mitigation strategies.

Published
2017

18. Vertical variability of aerosol properties and trace gases over a remote marine region: a case study over Bermuda.

Author

Ajayi, Taiwo, Choi, Yonghoon, Crosbie, Ewan C., DiGangi, Joshua P., Diskin, Glenn S., Fenn, Marta A., Ferrare, Richard A., Hair, Johnathan W., Hilario, Miguel Ricardo A., Hostetler, Chris A., Kirschler, Simon, Moore, Richard H., Shingler, Taylor J., Shook, Michael A., Soloff, Cassidy, Thornhill, Kenneth L., Voigt, Christiane, Winstead, Edward L., Ziemba, Luke D., and Sorooshian, Armin

Subjects
ATMOSPHERIC aerosols, TRACE gases, AIR masses, SURFACE of the earth, MASS spectrometers, DUST, MARINE pollution
Abstract

Remote marine regions comprise a high fraction of Earth's surface, but in situ vertically resolved measurements over these locations remain scarce. Here we use airborne data during 15 vertical spiral soundings (0.15–8.5 km) over Bermuda during the NASA Aerosol Cloud meTeorology Interactions over the western ATlantic Experiment (ACTIVATE) to investigate the impact of different source regions on the vertical structure of trace gases, aerosol particles, and meteorological variables over 1000 km offshore of the US East Coast. Results reveal significant differences in vertical profiles of variables between three different air mass source categories (North America, Ocean, Caribbean/North Africa) identified using the Hybrid Single-Particle Lagrangian Integrated Trajectory (HYSPLIT) model: (i) the strongest pollution signature is from air masses from the North America category, while the weakest one is from the Ocean category; (ii) North America air has the highest levels of CO, CH 4 , submicron particle number concentration, aerosol mass spectrometer (AMS) mass, and organic mass fraction along with smoke layers in the free troposphere (FT); (iii) Ocean air has the highest relative amount of nitrate, non-sea-salt sulfate, and oxalate, which are key acidic species participating in chloride depletion; (iv) air masses from the Caribbean/North Africa showed a pronounced coarse aerosol signature in the FT and reduced aerosol hygroscopicity, which is associated with dust transport; and (v) there is considerable vertical heterogeneity for almost all variables examined, including higher O 3 and submicron particle concentrations with altitude, suggesting that the FT is a potential contributor of both constituents in the marine boundary layer. This study highlights the importance of considering air mass source origin and vertical resolution to capture aerosol and trace gas properties over remote marine areas. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Maximizing the Volume of Collocated Data from Two Coordinated Suborbital Platforms

Author

Schlosser, Joseph S., primary, Bennett, Ryan, additional, Cairns, Brian, additional, Chen, Gao, additional, Collister, Brian L., additional, Hair, Johnathan W., additional, Jones, Michael, additional, Shook, Michael A., additional, Sorooshian, Armin, additional, Thornhill, Kenneth L., additional, Ziemba, Luke D., additional, and Stamnes, Snorre, additional

Published
2024
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21. Formaldehyde column density measurements as a suitable pathway to estimate near‐surface ozone tendencies from space

Author

Schroeder, Jason R, Crawford, James H, Fried, Alan, Walega, James, Weinheimer, Andrew, Wisthaler, Armin, Müller, Markus, Mikoviny, Tomas, Chen, Gao, Shook, Michael, Blake, Donald R, Diskin, Glenn, Estes, Mark, Thompson, Anne M, Lefer, Barry L, Long, Russell, and Mattson, Eric

Subjects
Atmospheric Sciences, Physical Geography and Environmental Geoscience
Abstract

In support of future satellite missions that aim to address the current shortcomings in measuring air quality from space, NASA's Deriving Information on Surface Conditions from Column and Vertically Resolved Observations Relevant to Air Quality (DISCOVER-AQ) field campaign was designed to enable exploration of relationships between column measurements of trace species relevant to air quality at high spatial and temporal resolution. In the DISCOVER-AQ data set, a modest correlation (r 2 = 0.45) between ozone (O3) and formaldehyde (CH2O) column densities was observed. Further analysis revealed regional variability in the O3-CH2O relationship, with Maryland having a strong relationship when data were viewed temporally and Houston having a strong relationship when data were viewed spatially. These differences in regional behavior are attributed to differences in volatile organic compound (VOC) emissions. In Maryland, biogenic VOCs were responsible for ~28% of CH2O formation within the boundary layer column, causing CH2O to, in general, increase monotonically throughout the day. In Houston, persistent anthropogenic emissions dominated the local hydrocarbon environment, and no discernable diurnal trend in CH2O was observed. Box model simulations suggested that ambient CH2O mixing ratios have a weak diurnal trend (±20% throughout the day) due to photochemical effects, and that larger diurnal trends are associated with changes in hydrocarbon precursors. Finally, mathematical relationships were developed from first principles and were able to replicate the different behaviors seen in Maryland and Houston. While studies would be necessary to validate these results and determine the regional applicability of the O3-CH2O relationship, the results presented here provide compelling insight into the ability of future satellite missions to aid in monitoring near-surface air quality.

Published
2016

22. Cleaner burning aviation fuels can reduce contrail cloudiness

Author

Voigt, Christiane, Kleine, Jonas, Sauer, Daniel, Moore, Richard H., Bräuer, Tiziana, Le Clercq, Patrick, Kaufmann, Stefan, Scheibe, Monika, Jurkat-Witschas, Tina, Aigner, Manfred, Bauder, Uwe, Boose, Yvonne, Borrmann, Stephan, Crosbie, Ewan, Diskin, Glenn S., DiGangi, Joshua, Hahn, Valerian, Heckl, Christopher, Huber, Felix, Nowak, John B., Rapp, Markus, Rauch, Bastian, Robinson, Claire, Schripp, Tobias, Shook, Michael, Winstead, Edward, Ziemba, Luke, Schlager, Hans, and Anderson, Bruce E.

Published
2021
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23. Brief reports: Lysosomal cross-correction by hematopoietic stem cell-derived macrophages via tunneling nanotubes.

Author

Naphade, Swati, Sharma, Jay, Gaide Chevronnay, Héloïse P, Shook, Michael A, Yeagy, Brian A, Rocca, Celine J, Ur, Sarah N, Lau, Athena J, Courtoy, Pierre J, and Cherqui, Stephanie

Subjects
Hematopoietic Stem Cells, Lysosomes, Fibroblasts, Macrophages, Animals, Mice, Inbred C57BL, Mice, Transgenic, Humans, Mice, Cystinosis, Hematopoietic Stem Cell Transplantation, Nanotubes, Hematopoietic stem cells, Lysosomal cross-correction, Tubular basement membrane, Tunneling nanotubes, Immunology, Biological Sciences, Technology, Medical and Health Sciences
Abstract

Despite controversies on the potential of hematopoietic stem cells (HSCs) to promote tissue repair, we previously showed that HSC transplantation could correct cystinosis, a multisystemic lysosomal storage disease, caused by a defective lysosomal membrane cystine transporter, cystinosin (CTNS gene). Addressing the cellular mechanisms, we here report vesicular cross-correction after HSC differentiation into macrophages. Upon coculture with cystinotic fibroblasts, macrophages produced tunneling nanotubes (TNTs) allowing transfer of cystinosin-bearing lysosomes into Ctns-deficient cells, which exploited the same route to retrogradely transfer cystine-loaded lysosomes to macrophages, providing a bidirectional correction mechanism. TNT formation was enhanced by contact with diseased cells. In vivo, HSCs grafted to cystinotic kidneys also generated nanotubular extensions resembling invadopodia that crossed the dense basement membranes and delivered cystinosin into diseased proximal tubular cells. This is the first report of correction of a genetic lysosomal defect by bidirectional vesicular exchange via TNTs and suggests broader potential for HSC transplantation for other disorders due to defective vesicular proteins.

Published
2015

24. Measurement report: Cloud and environmental properties associated with aggregated shallow marine cumulus and cumulus congestus.

Author

Crosbie, Ewan, Ziemba, Luke D., Shook, Michael A., Shingler, Taylor, Hair, Johnathan W., Sorooshian, Armin, Ferrare, Richard A., Cairns, Brian, Choi, Yonghoon, DiGangi, Joshua, Diskin, Glenn S., Hostetler, Chris, Kirschler, Simon, Moore, Richard H., Painemal, David, Robinson, Claire, Seaman, Shane T., Thornhill, K. Lee, Voigt, Christiane, and Winstead, Edward

Subjects
ATMOSPHERIC aerosols, ENVIRONMENTAL reporting, CUMULUS clouds, TRACE gases, CONVECTIVE clouds, REMOTE sensing, MICROPHYSICS
Abstract

Mesoscale organization of marine convective clouds into linear or clustered states is prevalent across the tropical and subtropical oceans, and its investigation served as a guiding focus for a series of process study flights conducted as part of the Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE) during summer 2020, 2021, and 2022. These select ACTIVATE flights involved a novel strategy for coordinating two aircraft, with respective remote sensing and in situ sampling payloads, to probe regions of organized shallow convection for several hours. The main purpose of this measurement report is to summarize the aircraft sampling approach, describe the characteristics and evolution of the cases, and provide an overview of the datasets that can serve as a starting point for more detailed modeling and analysis studies. Six flights are described, involving a total of 80 dropsonde profiles that capture the environment surrounding clustered shallow convection. The flights include detailed observations of the vertical structure of cloud systems, comprising up to 20 in situ sampling levels. Four cases involved deepening convection rooted in the marine boundary layer that developed vertically to 2–5 km with varying precipitation amounts, while two cases captured more complex and developed cumulus congestus systems extending above 5 km. In addition to the thermodynamic and dynamic characterization afforded by dropsonde and in situ measurements, the datasets include cloud and aerosol microphysics, trace gas concentrations, aerosol and droplet composition, and cloud and aerosol remote sensing from high-spectral-resolution lidar and polarimetry. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Tropospheric aerosols over the western North Atlantic Ocean during the winter and summer campaigns of ACTIVATE 2020: Life cycle, transport, and distribution.

Author

Hongyu Liu, Bo Zhang, Moore, Richard H., Ziemba, Luke D., Ferrare, Richard A., Hyundeok Choi, Sorooshian, Armin, Painemal, David, Hailong Wang, Shook, Michael A., Scarino, Amy Jo, Hair, Johnathan W., Crosbie, Ewan C., Fenn, Marta A., Shingler, Taylor J., Hostetler, Chris A., Gao Chen, Kleb, Mary M., Gan Luo, and Fangqun Yu

Abstract

The Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE) is a six-year (2019-2024) NASA Earth-Venture Suborbital-3 (EVS-3) mission to robustly characterize aerosol-cloud-meteorology interactions over the western North Atlantic Ocean (WNAO) during winter and summer seasons, with a focus on marine boundary layer clouds. This characterization requires understanding the aerosol life cycle (sources and sinks), composition, transport pathways, and distribution in the WNAO region. We use the GEOS-Chem chemical transport model driven by the MERRA-2 reanalysis to simulate tropospheric aerosols that are evaluated against in situ and remote sensing measurements from Falcon and King Air aircraft, respectively, as well as ground-based and satellite observations over the WNAO during the winter (Feb. 14 - Mar. 12) and summer (Aug. 13 - Sep. 30) field deployments of ACTIVATE 2020. Transport of pollution in the boundary layer behind cold fronts is a major mechanism for the North American continental outflow to the WNAO during Feb.-Mar. 2020. While large-scale frontal lifting is a dominant mechanism in winter, convective lifting significantly increases the vertical extent of major continental outflow aerosols in summer. Turbulent mixing is found to be the dominant process responsible for the vertical transport of sea salt within and ventilation out of the boundary layer in winter. The simulated boundary layer aerosol composition and optical depth (AOD) in the ACTIVATE flight domain are dominated by sea salt, followed by organic aerosol and sulfate. Compared to winter, boundary layer sea salt concentrations increased in summer over the WNAO, especially from the ACTIVATE flight areas to Bermuda, because of enhanced surface winds and emissions. Dust concentrations also significantly increased in summer because of long-range transport from North Africa. Comparisons of model and aircraft submicron non-refractory aerosol species (measured by an HR-ToF-AMS) vertical profiles show that intensive measurements of sulfate, nitrate, ammonium, and organic aerosols in the lower troposphere over the WNAO in winter provide useful constraints on model aerosol wet removal by precipitation scavenging. Comparisons of model aerosol extinction (at 550 nm) with the King Air High Spectral Resolution Lidar-2 (HSRL-2) measurements (at 532 nm) and CALIOP/CALIPSO satellite retrievals (at 532 nm) indicate that the model generally captures the continental outflow of aerosols, the land-ocean aerosol extinction gradient, and the mixing of anthropogenic aerosols with sea salt. Large enhancements of aerosol extinction at ~1.5-6.0 km altitudes from long-range transport of the western U.S. fire smoke were observed by HSRL-2 and CALIOP during Aug.-Sep. 2020. Model simulations with biomass burning (BB) emissions injected up to the mid-troposphere (vs. within the BL) better reproduce these remote-sensing observations, Falcon aircraft organic aerosol vertical profiles, as well as AERONET AOD measurements over eastern U.S. coast and Tudor Hill, Bermuda. High aerosol (mostly coarse-mode sea salt) extinction near the top (~1.5-2.0 km) of the marine BL along with high relative humidity and cloud extinction were typically seen over the WNAO (< 35°N) in the CALIOP aerosol extinction profiles and GEOS-Chem simulations, suggesting strong hygroscopic growth of sea salt particles and sea salt seeding of marine boundary layer clouds. Contributions of different emission types (anthropogenic, BB, biogenic, marine, and dust) to the total AOD over the WNAO in the model are also quantified. Future modeling efforts should focus on improving parameterizations for aerosol wet scavenging and sea salt emissions, implementing realistic BB emission injection height, and applying high-resolution models that better resolve vertical transport. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Bridging Gas and Aerosol Properties between Northeast U.S. and Bermuda: Analysis of Eight Transit Flights.

Author

Soloff, Cassidy, Ajayi, Taiwo, Yonghoon Choi, Crosbie, Ewan C., DiGangi, Joshua P., Diskin, Glenn S., Fenn, Marta A., Ferrare, Richard A., Gallo, Francesca, Hair, Johnathan W., Hilario, Miguel Ricardo A., Kirschler, Simon, Moore, Richard H., Shingler, Taylor J., Shook, Michael A., Thornhill, Kenneth L., Voigt, Christiane, Winstead, Edward L., Ziemba, Luke D., and Sorooshian, Armin

Abstract

The western North Atlantic Ocean is strongly influenced by continental outflow, making it an ideal region to study the atmospheric transition from a polluted coastline to the marine environment. Utilizing eight transit flights between NASA Langley Research Center (LaRC) in Hampton, Virginia and the remote island of Bermuda from NASA's Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE), we examine the evolution of trace gas and aerosol properties off the U.S. East Coast. The first pair of flights flew along the wind trajectory of continental outflow, while the other flights captured a mix of marine and continental air mass sources. For measurements within the boundary layer (BL), there was an offshore decline in particle N<100 nm, N>100 nm, CH4, CO, and CO2 concentrations, all leveling off around ~900 km offshore from LaRC. These trends are strongest for the first pair of flights. In the BL, offshore declines in organic mass fraction and increases in sulfate mass fraction coincide with increasing hygroscopicity based on f(RH) measurements. Free troposphere measurements show a decline in N<100 nm but other measured parameters are more variable when compared to the prominent offshore gradients seen in the BL. Pollution layers exist in the free troposphere, such as smoke plumes, that can potentially entrain into the BL. This work provides detailed case studies with a broad set of high-resolution measurements to further our understanding of the transition between continental and marine environments. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Microphysical evolution in mixed-phase mid-latitude marine cold-air outbreaks

Author

Zuidema, Paquita, primary, Chellappan, Seethala, additional, Kirschler, Simon, additional, Voigt, Christiane, additional, Cairns, Brian, additional, Crosbie, Ewan, additional, Ferrare, Richard, additional, Hair, Johnathan, additional, Painemal, David, additional, Shingler, Taylor, additional, Shook, Michael, additional, Thornhill, Kenneth, additional, Tornow, Florian, additional, and Sorooshian, Armin, additional

Published
2023
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30. Large-Eddy Simulations of Marine Boundary Layer Clouds Associated with Cold-Air Outbreaks during the ACTIVATE Campaign. Part II: Aerosol–Meteorology–Cloud Interaction

Author

Li, Xiang-Yu, Wang, Hailong, Chen, Jingyi, Endoe, Satoshi, Kirschler, Simon, Voigt, Christiane, Crosbie, Ewan C., Ziemba, Luke D., Painemal, David, Cairns, Brian, Hair, Johnathan W., Corral, Andrea F., Robinson, Claire E., Dadashazar, Hossein, Sorooshian, Armin, Chen, Gao, Ferrare, Richard Anthony, Kleb, Mary M., Liu, Hongyu, Moore, Richard H., Scarino, Amy Jo, Shook, Michael A., Shingler, Taylor J., Thornhill, Kenneth Lee, Tornow, Florian, Xiao, Heng, and Zeng, Xubin

Subjects
Atmospheric Science, Cloud forcing, Cloud microphysics, Cloud radiative effects
Abstract

Aerosol effects on micro/macrophysical properties of marine stratocumulus clouds over the western North Atlantic Ocean (WNAO) are investigated using in situ measurements and large-eddy simulations (LES) for two cold-air outbreak (CAO) cases (28 February and 1 March 2020) during the Aerosol Cloud Meteorology Interactions over the Western Atlantic Experiment (ACTIVATE). The LES is able to reproduce the vertical profiles of liquid water content (LWC), effective radius reff and cloud droplet number concentration Nc from fast cloud droplet probe (FCDP) in situ measurements for both cases. Furthermore, we show that aerosols affect cloud properties (Nc, reff, and LWC) via the prescribed bulk hygroscopicity of aerosols () and aerosol size distribution characteristics. Nc, reff, and liquid water path (LWP) are positively correlated to and aerosol number concentration (Na) while cloud fractional cover (CFC) is insensitive to and aerosol size distributions for the two cases. The realistic changes to aerosol size distribution (number concentration, width, and the geometrical diameter) with the same meteorology state allow us to investigate aerosol effects on cloud properties without meteorological feedback. We also use the LES results to evaluate cloud properties from two reanalysis products, ERA5 and MERRA-2. Compared to LES, the ERA5 is able to capture the time evolution of LWP and total cloud coverage within the study domain during both CAO cases while MERRA-2 underestimates them.

Published
2023

32. Spatially coordinated airborne data and complementary products for aerosol, gas, cloud, and meteorological studies: the NASA ACTIVATE dataset

Author

Sorooshian, Armin, primary, Alexandrov, Mikhail D., additional, Bell, Adam D., additional, Bennett, Ryan, additional, Betito, Grace, additional, Burton, Sharon P., additional, Buzanowicz, Megan E., additional, Cairns, Brian, additional, Chemyakin, Eduard V., additional, Chen, Gao, additional, Choi, Yonghoon, additional, Collister, Brian L., additional, Cook, Anthony L., additional, Corral, Andrea F., additional, Crosbie, Ewan C., additional, van Diedenhoven, Bastiaan, additional, DiGangi, Joshua P., additional, Diskin, Glenn S., additional, Dmitrovic, Sanja, additional, Edwards, Eva-Lou, additional, Fenn, Marta A., additional, Ferrare, Richard A., additional, van Gilst, David, additional, Hair, Johnathan W., additional, Harper, David B., additional, Hilario, Miguel Ricardo A., additional, Hostetler, Chris A., additional, Jester, Nathan, additional, Jones, Michael, additional, Kirschler, Simon, additional, Kleb, Mary M., additional, Kusterer, John M., additional, Leavor, Sean, additional, Lee, Joseph W., additional, Liu, Hongyu, additional, McCauley, Kayla, additional, Moore, Richard H., additional, Nied, Joseph, additional, Notari, Anthony, additional, Nowak, John B., additional, Painemal, David, additional, Phillips, Kasey E., additional, Robinson, Claire E., additional, Scarino, Amy Jo, additional, Schlosser, Joseph S., additional, Seaman, Shane T., additional, Seethala, Chellappan, additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Sinclair, Kenneth A., additional, Smith Jr., William L., additional, Spangenberg, Douglas A., additional, Stamnes, Snorre A., additional, Thornhill, Kenneth L., additional, Voigt, Christiane, additional, Vömel, Holger, additional, Wasilewski, Andrzej P., additional, Wang, Hailong, additional, Winstead, Edward L., additional, Zeider, Kira, additional, Zeng, Xubin, additional, Zhang, Bo, additional, Ziemba, Luke D., additional, and Zuidema, Paquita, additional

Published
2023
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34. Assessing potential indicators of aerosol wet scavenging during long-range transport.

Author

Hilario, Miguel Ricardo A., Arellano, Avelino F., Behrangi, Ali, Crosbie, Ewan C., DiGangi, Joshua P., Diskin, Glenn S., Shook, Michael A., Ziemba, Luke D., and Sorooshian, Armin

Subjects
AEROSOLS, PRECIPITATION scavenging, AIR masses, GRID cells, NONLINEAR regression, CURVE fitting
Abstract

As one of the dominant sinks of aerosol particles, wet scavenging greatly influences aerosol lifetime and interactions with clouds, precipitation, and radiation. However, wet scavenging remains highly uncertain in models, hindering accurate predictions of aerosol spatiotemporal distributions and downstream interactions. In this study, we present a flexible, computationally inexpensive method to identify meteorological variables relevant for estimating wet scavenging using a combination of aircraft, satellite, and reanalysis data augmented by trajectory modeling to account for air mass history. We assess the capabilities of an array of meteorological variables to predict the transport efficiency of black carbon (TE BC) using a combination of nonlinear regression, curve fitting, and k -fold cross-validation. We find that accumulated precipitation along trajectories (APT) – treated as a wet scavenging indicator across multiple studies – does poorly when predicting TE BC. Among different precipitation characteristics (amount, frequency, intensity), precipitation intensity was the most effective at estimating TE BC but required longer trajectories (>48 h) and including only intensely precipitating grid cells. This points to the contribution of intense precipitation to aerosol scavenging and the importance of accounting for air mass history. Predictors that were most able to predict TE BC were related to the distribution of relative humidity (RH) or the frequency of humid conditions along trajectories, suggesting that RH is a more robust way to estimate TE BC than APT. We recommend the following alternatives to APT when estimating aerosol scavenging: (1) the 90th percentile of RH along trajectories, (2) the fraction of hours along trajectories with either water vapor mixing ratios >15 g kg -1 or RH >95 %, and (3) precipitation intensity along trajectories at least 48 h along and filtered for grid cells with precipitation >0.2 mm h -1. Future scavenging parameterizations should consider these meteorological variables along air mass histories. This method can be repeated for different regions to identify region-specific factors influencing wet scavenging. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Overview and statistical analysis of boundary layer clouds and precipitation over the western North-Atlantic Ocean

Author

Kirschler, Simon, primary, Voigt, Christiane, additional, Anderson, Bruce E., additional, Chen, Gao, additional, Crosbie, Ewan C., additional, Ferrare, Richard A., additional, Hahn, Valerian, additional, Hair, Johnathan W., additional, Kaufmann, Stefan, additional, Moore, Richard H., additional, Painemal, David, additional, Robinson, Claire E., additional, Sanchez, Kevin J., additional, Scarino, Amy J., additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Thornhill, Kenneth L., additional, Winstead, Edward L., additional, Ziemba, Luke D., additional, and Sorooshian, Armin, additional

Published
2023
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38. Sea salt reactivity over the northwest Atlantic: An in-depth look using the airborne ACTIVATE dataset.

Author

Edwards, Eva-Lou, Choi, Yonghoon, Crosbie, Ewan C., DiGangi, Joshua P., Diskin, Glenn S., Robinson, Claire E., Shook, Michael A., Winstead, Edward L., Ziemba, Luke D., and Sorooshian, Armin

Subjects
SEA salt, ATMOSPHERIC aerosols, SMOKE plumes, RADIATIVE forcing, GLOBAL radiation, DUST
Abstract

Chloride (Cl-) displacement from sea salt particles is an extensively studied phenomenon with implications on human health, visibility, and the global radiation budget. Past works have investigated Cl- depletion over the northwest Atlantic (NWA), yet an updated, multiseasonal, and geographically expanded account of sea salt reactivity over the region is needed. This study uses chemically resolved mass concentrations and meteorological data from the airborne Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE) to quantify seasonal, spatial, and meteorological trends in Cl- depletion and to explore the importance of quantifying (1) non-sea salt sources of Na+ and (2) mass concentrations of lost Cl- instead of relative amounts displaced. Lost Cl- mass concentrations are lowest in December–February and March, moderate around Bermuda in June, and highest in May (median losses of 0.04, 0.04, 0.66, and 1.76 µg m-3, respectively), with losses in May high enough to potentially accelerate tropospheric oxidation rates. Inorganic acidic species can account for all Cl- depletion in December–February, March, and June near Bermuda, yet none of the lost Cl- in May, suggesting organic acids may be of importance for Cl- displacement in certain months. Contributions of dust to Na+ are not important seasonally but may cause relevant overestimates of lost Cl- in smoke and dust plumes. Higher percentages of Cl- depletion often do not correspond to larger mass concentrations of lost Cl-, so it is highly recommended to quantify the latter to place depletion reactions in context with their role in atmospheric oxidation and radiative forcing. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Overview and statistical analysis of boundary layer clouds and precipitation over the western North Atlantic Ocean.

Author

Kirschler, Simon, Voigt, Christiane, Anderson, Bruce E., Chen, Gao, Crosbie, Ewan C., Ferrare, Richard A., Hahn, Valerian, Hair, Johnathan W., Kaufmann, Stefan, Moore, Richard H., Painemal, David, Robinson, Claire E., Sanchez, Kevin J., Scarino, Amy J., Shingler, Taylor J., Shook, Michael A., Thornhill, Kenneth L., Winstead, Edward L., Ziemba, Luke D., and Sorooshian, Armin

Subjects
CUMULUS clouds, ICE clouds, CLOUD condensation nuclei, CLIMATE change models, CLOUDINESS, ATMOSPHERIC models, ATMOSPHERIC aerosols
Abstract

Due to their fast evolution and large natural variability in macro- and microphysical properties, the accurate representation of boundary layer clouds in current climate models remains a challenge. One of the regions with large intermodel spread in the Coupled Model Intercomparison Project Phase 6 ensemble is the western North Atlantic Ocean. Here, statistically representative in situ measurements can help to develop and constrain the parameterization of clouds in global models. To this end, we performed comprehensive measurements of boundary layer clouds, aerosol, trace gases, and radiation in the western North Atlantic Ocean during the NASA Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment (ACTIVATE) mission. In total, 174 research flights with 574 flight hours for cloud and precipitation measurements were performed with the HU-25 Falcon during three winter (February–March 2020, January–April 2021, and November 2021–March 2022) and three summer seasons (August–September 2020, May–June 2021, and May–June 2022). Here we present a statistical evaluation of 16 140 individual cloud events probed by the fast cloud droplet probe and the two-dimensional stereo cloud probe during 155 research flights in a representative and repetitive flight strategy allowing for robust statistical data analyses. We show that the vertical profiles of distributions of the liquid water content and the cloud droplet effective diameter (ED) increase with altitude in the marine boundary layer. Due to higher updraft speeds, higher cloud droplet number concentrations (Nliquid) were measured in winter compared to summer despite lower cloud condensation nucleus abundance. Flight cloud cover derived from statistical analysis of in situ data is reduced in summer and shows large variability. This seasonal contrast in cloud coverage is consistent with a dominance of a synoptic pattern in winter that favors conditions for the formation of stratiform clouds at the western edge of cyclones (post-cyclonic). In contrast, a dominant summer anticyclone is concomitant with the occurrence of shallow cumulus clouds and lower cloud coverage. The evaluation of boundary layer clouds and precipitation in the Nliquid ED phase space sheds light on liquid, mixed-phase, and ice cloud properties and helps to categorize the cloud data. Ice and liquid precipitation, often masked in cloud statistics by a high abundance of liquid clouds, is often observed throughout the cloud. The ACTIVATE in situ cloud measurements provide a wealth of cloud information useful for assessing airborne and satellite remote-sensing products, for global climate and weather model evaluations, and for dedicated process studies that address precipitation and aerosol–cloud interactions. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Measurement report: Aerosol vertical profiles over the western North Atlantic Ocean during the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES)

Author

Gallo, Francesca, primary, Sanchez, Kevin J., additional, Anderson, Bruce E., additional, Bennett, Ryan, additional, Brown, Matthew D., additional, Crosbie, Ewan C., additional, Hostetler, Chris, additional, Jordan, Carolyn, additional, Yang Martin, Melissa, additional, Robinson, Claire E., additional, Russell, Lynn M., additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Thornhill, Kenneth L., additional, Wiggins, Elizabeth B., additional, Winstead, Edward L., additional, Wisthaler, Armin, additional, Ziemba, Luke D., additional, and Moore, Richard H., additional

Published
2023
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41. Correction: Relationships between supermicrometer particle concentrations and cloud water sea salt and dust concentrations: analysis of MONARC and ACTIVATE data

Author

Gonzalez, Marisa E., primary, Corral, Andrea F., additional, Crosbie, Ewan, additional, Dadashazar, Hossein, additional, Diskin, Glenn S., additional, Edwards, Eva-Lou, additional, Kirschler, Simon, additional, Moore, Richard H., additional, Robinson, Claire E., additional, Schlosser, Joseph S., additional, Shook, Michael, additional, Stahl, Connor, additional, Thornhill, Kenneth L., additional, Voigt, Christiane, additional, Winstead, Edward, additional, Ziemba, Luke D., additional, and Sorooshian, Armin, additional

Published
2023
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43. Efficient single-scattering look-up table for lidar and polarimeter water cloud studies

Author

Chemyakin, Eduard, primary, Stamnes, Snorre, additional, Hair, Johnathan, additional, Burton, Sharon P., additional, Bell, Adam, additional, Hostetler, Chris, additional, Ferrare, Richard, additional, Chowdhary, Jacek, additional, Moore, Richard, additional, Ziemba, Luke, additional, Crosbie, Ewan, additional, Robinson, Claire, additional, Shook, Michael, additional, Thornhill, Lee, additional, Winstead, Edward, additional, Hu, Yongxiang, additional, van Diedenhoven, Bastiaan, additional, and Cairns, Brian, additional

Published
2022
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45. Biofuel blending reduces particle emissions from aircraft engines at cruise conditions

Author

Moore, Richard H., Thornhill, Kenneth L., Weinzierl, Bernadett, Sauer, Daniel, DAscoli, Eugenio, Kim, Jin, Lichtenstern, Michael, Scheibe, Monika, Beaton, Brian, Beyersdorf, Andreas J., Barrick, John, Bulzan, Dan, Corr, Chelsea A., Crosbie, Ewan, Jurkat, Tina, Martin, Robert, Riddick, Dean, Shook, Michael, Slover, Gregory, Voigt, Christiane, White, Robert, Winstead, Edward, Yasky, Richard, Ziemba, Luke D., Brown, Anthony, Schlager, Hans, and Anderson, Bruce E.

Subjects
Aircraft exhaust emissions -- Chemical properties -- Environmental aspects, Biodiesel fuels -- Chemical properties -- Environmental aspects, Combustion -- Observations, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Richard H. Moore (corresponding author) [1]; Kenneth L. Thornhill [1, 2]; Bernadett Weinzierl [3, 4]; Daniel Sauer [3, 5]; Eugenio DAscoli [3, 5]; Jin Kim [3]; Michael Lichtenstern [3]; [...]

Published
2017
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46. Characteristics of In Situ Fine Fraction Aerosol Spectra from 300-700 nm Observed Around the Korean Peninsula During KORUS-OC

Author

Jordan, Carolyn E, Schuster, Gregory L, Stauffer, Ryan M, Lamb, Brian Thomas, Novak, Michael, Mannino, Antonio, Hudgins, Charles, Thornhill, Kenneth Lee, Crosbie, Ewan, Winstead, Edward, Anderson, Bruce, Martin, Robert, Shook, Michael, Ziemba, Luke D, Beyersdorf, Andreas Joel, and Corr, Chelsea

Subjects
Environment Pollution
Abstract

In situ aerosol extinction and absorption spectra covering the 300-700 nm range at ≤ 1 nm spectral resolution were measured aboard the R/V Onnuri during the Korea U.S. – Ocean Color (KORUS-OC) cruise around the Korean Peninsula from May 21 through June 3, 2016. Total absorption spectra were obtained from aerosols collected on glass fiber filters and subsequently placed in the center of an integrating sphere (Labsphere DRA-CA-30) attached to a dual beam spectrophotometer (Cary 100 Bio UV-Visible Spectrophotometer, 0.2 nm spectral resolution). Absorption spectra from methanol and deionized water extracts of aerosols collected on Teflon filters were measured in a liquid waveguide capillary cell (World Precision Instruments LWCC- 3100, ~0.4 nm spectral resolution). Extinction spectra were measured with a custom built instrument (SpEx, ~0.8 nm spectral resolution). The measurements were obtained at a height of ~10 m above the sea surface with an inlet that limited the measured aerosols to diameters ≤ 1.3 µm. All four sets of spectra exhibit curvature in log-log space with 2nd order polynomials providing a better fit to the measured spectra than power law fits. The deionized water extracts were also analyzed with an ion chromatograph (Dionex ICS-3000 Ion Chromatography System) and with an aerosol mass spectrometer (Aerodyne Research, Inc. HR-ToF High Resolution Aerosol Mass Spectrometer) to examine chemical composition. These data indicate the optical spectra are sensitive to differing chemical properties of the measured ambient aerosols and suggest differing sources and/or atmospheric processes influence the observed optical signatures. The measured suite of spectra are combined to examine the spectral characteristics of single scattering albedo, as well as to examine the contribution of soluble absorbing chromophores to the total absorption spectra. Additional measurements made during the affiliated Korea U.S. - Air Quality (KORUS-AQ) campaign will be used to provide further insight on the observed spectral characteristics.

Published
2018

47. Beyond the Ångström Exponent: Probing Additional Information in Spectral Curvature and Variability of In Situ Aerosol Hyperspectral (0.3–0.7 μm) Optical Properties

Author

Jordan, Carolyn E., primary, Anderson, Bruce E., additional, Barrick, John D., additional, Blum, Dani, additional, Brunke, Kathleen, additional, Chai, Jiajue, additional, Chen, Gao, additional, Crosbie, Ewan C., additional, Dibb, Jack E., additional, Dillner, Ann M., additional, Gargulinski, Emily, additional, Hudgins, Charles H., additional, Joyce, Emily, additional, Kaspari, Jackson, additional, Martin, Robert F., additional, Moore, Richard H., additional, O’Brien, Rachel, additional, Robinson, Claire E., additional, Schuster, Gregory L., additional, Shingler, Taylor J., additional, Shook, Michael A., additional, Soja, Amber J., additional, Thornhill, Kenneth L., additional, Weakley, Andrew T., additional, Wiggins, Elizabeth B., additional, Winstead, Edward L., additional, and Ziemba, Luke D., additional

Published
2022
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48. Organic enrichment in droplet residual particles relative to out of cloud over the northwestern Atlantic: analysis of airborne ACTIVATE data

Author

Dadashazar, Hossein, primary, Corral, Andrea F., additional, Crosbie, Ewan, additional, Dmitrovic, Sanja, additional, Kirschler, Simon, additional, McCauley, Kayla, additional, Moore, Richard, additional, Robinson, Claire, additional, Schlosser, Joseph S., additional, Shook, Michael, additional, Thornhill, K. Lee, additional, Voigt, Christiane, additional, Winstead, Edward, additional, Ziemba, Luke, additional, and Sorooshian, Armin, additional

Published
2022
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49. Measurement report: Closure analysis of aerosol–cloud composition in tropical maritime warm convection

Author

Crosbie, Ewan, primary, Ziemba, Luke D., additional, Shook, Michael A., additional, Robinson, Claire E., additional, Winstead, Edward L., additional, Thornhill, K. Lee, additional, Braun, Rachel A., additional, MacDonald, Alexander B., additional, Stahl, Connor, additional, Sorooshian, Armin, additional, van den Heever, Susan C., additional, DiGangi, Joshua P., additional, Diskin, Glenn S., additional, Woods, Sarah, additional, Bañaga, Paola, additional, Brown, Matthew D., additional, Gallo, Francesca, additional, Hilario, Miguel Ricardo A., additional, Jordan, Carolyn E., additional, Leung, Gabrielle R., additional, Moore, Richard H., additional, Sanchez, Kevin J., additional, Shingler, Taylor J., additional, and Wiggins, Elizabeth B., additional

Published
2022
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50. Assessment of NAAPS-RA performance in Maritime Southeast Asia during CAMP2Ex

Author

Edwards, Eva-Lou, primary, Reid, Jeffrey S., additional, Xian, Peng, additional, Burton, Sharon P., additional, Cook, Anthony L., additional, Crosbie, Ewan C., additional, Fenn, Marta A., additional, Ferrare, Richard A., additional, Freeman, Sean W., additional, Hair, John W., additional, Harper, David B., additional, Hostetler, Chris A., additional, Robinson, Claire E., additional, Scarino, Amy Jo, additional, Shook, Michael A., additional, Sokolowsky, G. Alexander, additional, van den Heever, Susan C., additional, Winstead, Edward L., additional, Woods, Sarah, additional, Ziemba, Luke D., additional, and Sorooshian, Armin, additional

Published
2022
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