Data from: Contrasting Local and Long-Range-Transported Warm Ice-Nucleating Particles During an Atmospheric River in Coastal California, USA
Laboratory analysis data and visualization code
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Scope And Content | This component contains .mat data files with the freezing spectra derived from the AIS in vector form. The AIS temperature vector is also provided. Finally, a matlab script to plot spectra as was done in the manuscript is provided. |
FLEXPART model, results, and analysis codes
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Scope And Content | This component contains the FLEXPART source code, simulation control scripts, output data, and FLEXPART result visualization scripts used for the FLEXPART modelling analysis. An additional script is provided to ingest CFS files and plot the meteorological map images. Note, CFS files must be downloaded separately from NCAR as described in the text. |
Radar data, statistical analyses and visualization codes
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Scope And Content | This component includes the script used to read NEXRAD raw data (.pro), the resulting level 2 hydrometeor class and reflectivity data from the period of analysis (.txt), and ncl scripts used to create statistical analyses and visualizations presented in the manuscript. |
Other meteorological data and visualization codes
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Scope And Content | This component contains all other meteorological data (e.g. rawinsondes in subfolder, ARO observations in .nc files) and scripts to create meteorological analyses other than the radar and FLEXPART analyses. |
- Collection
- Cite This Work
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Martin, Andrew C.; Cornwell, Gavin; Beall, Charlotte M.; Cannon, Forest; Reilly, Sean; Schaap, Bas; Lucero, Dolan; Creamean, Jessie; Ralph, F. Martin; Mix, Hari T.; Prather, Kimberly A. (2019). Data from: Contrasting Local and Long-Range-Transported Warm Ice-Nucleating Particles During an Atmospheric River in Coastal California, USA. UC San Diego Library Digital Collections. https://doi.org/10.6075/J05X274R
- Description
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Abstract: Ice nucleating particles (INP) have been found to influence the amount, phase, and efficiency of precipitation from winter storms, including atmospheric rivers. Warm INP, those that initiate freezing at temperatures warmer than -10 C, are thought to be particularly impactful because the can create primary ice in mixed-phase clouds, enhancing precipitation efficiiency. The dominant sources of warm INP during atmospheric rivers, the role of meteorology in modulating transport and injection of warm INP into atmospheric river clouds, and the impact of warm INP on mixed-phase cloud properties are not well-understood. Time-resolved precipitation samples were collected during an atmospheric river in Northern California, USA during winter 2016. Precipitation was collected at two sites, one coastal and one inland, that are separated by less than 35 km. The sites are sufficiently close that airmass sources during this storm were almost identical, but the inland site was exposed to terrestrial sources of warm INP while the coastal site was not. Warm INP were more numerous in precipitation at the inland site by an order of magnitude. Using FLEXPART dispersion modelling and radar-derived cloud vertical structure, we detected influence from terrestrial INP sources at the inland site, but did not find clear evidence of marine warm INP at either site. We episodically detected warm INP from long-range transported sources at both sites. By extending the FLEXPART modelling using a meteorological reanalysis, we demonstrate that long-range transported warm INP are observed only when the upper tropospheric jet provided transport to cloud tops. Using radar-derived hydrometeor classifications, we demonstrate that hydrometeors over the terrestrially-influenced inland site were more likely to be in the ice phase for cloud temperatures between 0 C and -10 C. We thus conclude that terrestrial and long-range transported aerosol were important sources of warm INP during this atmospheric river. Meteorological details such as transport mechanism and cloud strucutre were important in determining warm INP source strength and injection temperature, and ultimately the impact of wam INP on mixed phase cloud properties.
- Scope And Content
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This data set contains laboratory analyses, modeling, meteorological and radar analyses presented in the publication.
- Creation Date
- 2016-03-05 to 2018-05-01
- Date Issued
- 2019
- Principal Investigators
- Co Principal Investigators
- Contributors
- Funding
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NSF award AGS-145147, NSF award AGS-1632913, USACE award W912HZ-15-2-0019
- Topics
Format
View formats within this collection
- Identifier
- Related Resource
- Martin, A. C., Cornwell, G., Beall, C. M., Cannon, F., Reilly, S., Schaap, B., Lucero, D., Creamean, J., Ralph, F. M., Mix, H. T., and Prather, K.: Contrasting local and long-range-transported warm ice-nucleating particles during an atmospheric river in coastal California, USA, Atmos. Chem. Phys., 19, 4193-4210. 2019. https://doi.org/10.5194/acp-19-4193-2019
Primary associated publication
- License
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Creative Commons Attribution 4.0 International Public License
- Rights Holder
- UC Regents
- Copyright
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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
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Research Data Curation Program, UC San Diego, La Jolla, 92093-0175 (https://lib.ucsd.edu/rdcp)
- Last Modified
2023-06-06