Your search keyword '"Barnard, James C"' showing total 21 results

1. Shortwave Array Spectroradiometer-Hemispheric (SAS-He): design and evaluation.

Author

Kassianov, Evgueni, Flynn, Connor J., Barnard, James C., Ermold, Brian D., and Comstock, Jennifer M.

Subjects

ATMOSPHERIC radiation measurement, STANDARD deviations, AEROSOLS

Abstract

​​​​​​​A novel ground-based radiometer, referred to as the Shortwave Array Spectroradiometer-Hemispheric (SAS-He), is introduced. This radiometer uses the shadow-band technique to report total irradiance and its direct and diffuse components frequently (every 30 s) with continuous spectral coverage (350–1700 nm) and moderate spectral (∼ 2.5 nm ultraviolet–visible and ∼ 6 nm shortwave-infrared) resolution. The SAS-He's performance is evaluated using integrated datasets collected over coastal regions during three field campaigns supported by the US Department of Energy's Atmospheric Radiation Measurement (ARM) program, namely the (1) Two-Column Aerosol Project (TCAP; Cape Cod, Massachusetts), (2) Tracking Aerosol Convection Interactions Experiment (TRACER; in and around Houston, Texas), and (3) Eastern Pacific Cloud Aerosol Precipitation Experiment (EPCAPE; La Jolla, California). We compare (i) aerosol optical depth (AOD) and total optical depth (TOD) derived from the direct irradiance, as well as (ii) the diffuse irradiance and direct-to-diffuse ratio (DDR) calculated from two components of the total irradiance. As part of the evaluation, both AOD and TOD derived from the SAS-He direct irradiance are compared to those provided by a collocated Cimel sunphotometer (CSPHOT) at five (380, 440, 500, 675, 870 nm) and two (1020, 1640 nm) wavelengths, respectively. Additionally, the SAS-He diffuse irradiance and DDR are contrasted with their counterparts offered by a collocated multifilter rotating shadowband radiometer (MFRSR) at six (415, 500, 615, 675, 870, 1625 nm) wavelengths. Overall, reasonable agreement is demonstrated between the compared products despite the challenging observational conditions associated with varying aerosol loadings and diverse types of aerosols and clouds. For example, the AOD- and TOD-related values of root mean square error remain within 0.021 at 380, 440, 500, 675, 870, 1020, and 1640 nm wavelengths during the three field campaigns. [ABSTRACT FROM AUTHOR]

Published

2024

2. Toward understanding atmospheric physics impacting the relationship between columnar aerosol optical depth and near-surface PM2.5 mass concentrations in Nevada and California, U.S.A., during 2013

Author

Loría-Salazar, S. Marcela, Panorska, Anna, Arnott, W. Patrick, Barnard, James C., Boehmler, Jayne M., and Holmes, Heather A.

Published

2017

3. Evaluation of MODIS columnar aerosol retrievals using AERONET in semi-arid Nevada and California, U.S.A., during the summer of 2012

Author

Loría-Salazar, S. Marcela, Holmes, Heather A., Patrick Arnott, W., Barnard, James C., and Moosmüller, Hans

Published

2016

4. A Simple Empirical Equation to Calculate Cloud Optical Thickness Using Shortwave Broadband Measurements

Author

Barnard, James C. and Long, Charles N.

Published

2004

5. The Two-Column Aerosol Project: Phase I - Overview and Impact of Elevated Aerosol Layers on Aerosol Optical Depth

Author

Berg, Larry K, Fast, Jerome D, Barnard, James C, Burton, Sharon P, Cairns, Brian, Chand, Duli, Comstock, Jennifer M, Dunagan, Stephen, Ferrare, Richard A, Flynn, Connor J, Hair, Johnathan W, Hostetler, Chris A, Hubbe, John, Jefferson, Anne, Johnson, Roy, Kassianov, Evgueni I, Kluzek, Celine D, Kollias, Pavlos, Lamer, Katia, Lantz, Kathleen, Mei, Fan, Miller, Mark A, Michalsky, Joseph, Ortega, Ivan, Pekour, Mikhail, Rogers, Ray R, Russell, Philip B, Redemann, Jens, Sedlacek, Arthur J., III, Segal-Rozenhaimer, Michal, Schmid, Beat, Shilling, John E, Shinozuka, Yohei, Springston, Stephen R, Tomlinson, Jason M, Tyrrell, Megan, Wilson, Jacqueline M, Volkamer, Rainer, Zelenyuk, Alla, and Berkowitz, Carl M

Subjects

Earth Resources And Remote Sensing

Abstract

The Two-Column Aerosol Project (TCAP), conducted from June 2012 through June 2013, was a unique study designed to provide a comprehensive data set that can be used to investigate a number of important climate science questions, including those related to aerosol mixing state and aerosol radiative forcing. The study was designed to sample the atmosphere be tween and within two atmospheric columns; one fixed near the coast of North America (over Cape Cod, MA) and a second moveable column over the Atlantic Ocean several hundred kilometers from the coast. The U.S. Department of Energy (DOE) Atmospheric Radiation Measurement (ARM) Mobile Facility (AMF) was deployed at the base of the Cape Cod column, and the ARM Aerial Facility was utilized for the summer and winter intensive observation periods. One important finding from TCAP is that four of six nearly cloud-free flight days had aerosol layers aloft in both the Cape Cod and maritime columns that were detected using the nadir pointing second-generation NASA high-spectral resolution lidar (HSRL-2).These layer s contributed up to 60 of the total observed aerosol optical depth (AOD). Many of these layers were also intercepted by the aircraft configured for in situ sampling, and the aerosol in the layers was found to have increased amounts of biomass burning material and nitrate compared to aerosol found near the surface. In addition, while there was a great deal of spatial and day-to-day variability in the aerosol chemical composition and optical properties, no systematic differences between the two columns were observed.

Published

2015

6. Theoretical Uncertainty Analysis of Satellite Retrieved Aerosol Optical Depth Associated with Surface Albedo and Aerosol Optical Properties

Author

Huang, Jingting, primary, Arnott, William Patrick, additional, Barnard, James C., additional, and Holmes, Heather A., additional

Published

2021

7. Remote Sensing of Cloud Properties using Ground-based Measurements of Zenith Radiance

Author

Chiu, J. Christine, Marshak, Alexander, Knyazikhin, Yuri, Wiscombe, Warren J, Barker, Howard W, Barnard, James C, and Luo, Yi

Subjects

Earth Resources And Remote Sensing

Abstract

An extensive verification of cloud property retrievals has been conducted for two algorithms using zenith radiances measured by the Atmospheric Radiation Measurement (ARM) Program ground-based passive two-channel (673 and 870 nm) Narrow Field-Of-View Radiometer. The underlying principle of these algorithms is that clouds have nearly identical optical properties at these wavelengths, but corresponding spectral surface reflectances (for vegetated surfaces) differ significantly. The first algorithm, the RED vs. NIR, works for a fully three-dimensional cloud situation. It retrieves not only cloud optical depth, but also an effective radiative cloud fraction. Importantly, due to one-second time resolution of radiance measurements, we are able, for the first time, to capture detailed changes in cloud structure at the natural time scale of cloud evolution. The cloud optical depths tau retrieved by this algorithm are comparable to those inferred from both downward fluxes in overcast situations and microwave brightness temperatures for broken clouds. Moreover, it can retrieve tau for thin patchy clouds, where flux and microwave observations fail to detect them. The second algorithm, referred to as COUPLED, couples zenith radiances with simultaneous fluxes to infer 2. In general, the COUPLED and RED vs. NIR algorithms retrieve consistent values of tau. However, the COUPLED algorithm is more sensitive to the accuracies of measured radiance, flux, and surface reflectance than the RED vs. NIR algorithm. This is especially true for thick overcast clouds where it may substantially overestimate z.

Published

2006

8. Comparison of Columnar Water-Vapor Measurements from Solar Transmittance Methods

Author

Schmid, Beat, Michalsky, J, Slater, Donald W, Barnard, James C, Halthore, Rangasayi N, Liljegren, James C, Holben, Brent N, Eck, Thomas F, Livingston, John M, and Russell, Philp B

Subjects

Meteorology And Climatology

Abstract

The Atmospheric Radiation Measurement program studied water vapor abundance measurement at its southern Great Plains site in the fall of 1997. The program used a large number of instruments, including four solar radiometers. By measuring solar transmittance in the 0.94 micrometer water apor absorption band, they were able to measure columnar water vapor (CWV). In the second round of comparison we used the same radiative transfer model, and the same line-by-line code (which includes recently corrected H2O spectroscopy) to retrieve CWV from all four solar radiometers, thus decreasing the mean CWV by 8 - 13 %. The model was not responsible for the 8 % spread in CWV which remained.

Published

2001

9. Dust Plume Modeling from Ranges and Maneuver Areas on Fort Bliss and the White Sands Missile Range: Final Report

Author

Chapman, Elaine G., primary, Barnard, James C., additional, Rutz, Frederick C., additional, Pekour, Mikhail S., additional, Rishel, Jeremy P., additional, and Shaw, William J., additional

Published

2009

10. Presentation of the 20th Century Atmospheric CO2 Record in Smithsonian Spectrographic Plates

Author

Stokes, Gerald M., Barnard, James C., Trabalka, John R., editor, and Reichle, David E., editor

Published

1986

11. Intermittent Turbulence in the Very Stable Ekman Layer

Author

Barnard, James C, primary

Published

2001

12. The Two‐Column Aerosol Project: Phase I—Overview and impact of elevated aerosol layers on aerosol optical depth

Author

Berg, Larry K., primary, Fast, Jerome D., additional, Barnard, James C., additional, Burton, Sharon P., additional, Cairns, Brian, additional, Chand, Duli, additional, Comstock, Jennifer M., additional, Dunagan, Stephen, additional, Ferrare, Richard A., additional, Flynn, Connor J., additional, Hair, Johnathan W., additional, Hostetler, Chris A., additional, Hubbe, John, additional, Jefferson, Anne, additional, Johnson, Roy, additional, Kassianov, Evgueni I., additional, Kluzek, Celine D., additional, Kollias, Pavlos, additional, Lamer, Katia, additional, Lantz, Kathleen, additional, Mei, Fan, additional, Miller, Mark A., additional, Michalsky, Joseph, additional, Ortega, Ivan, additional, Pekour, Mikhail, additional, Rogers, Ray R., additional, Russell, Philip B., additional, Redemann, Jens, additional, Sedlacek, Arthur J., additional, Segal‐Rosenheimer, Michal, additional, Schmid, Beat, additional, Shilling, John E., additional, Shinozuka, Yohei, additional, Springston, Stephen R., additional, Tomlinson, Jason M., additional, Tyrrell, Megan, additional, Wilson, Jacqueline M., additional, Volkamer, Rainer, additional, Zelenyuk, Alla, additional, and Berkowitz, Carl M., additional

Published

2016

13. Observations of the first aerosol indirect effect in shallow cumuli

Author

Berg, Larry K., primary, Berkowitz, Carl M., additional, Barnard, James C., additional, Senum, Gunnar, additional, and Springston, Stephen R., additional

Published

2011

14. Particle‐resolved simulation of aerosol size, composition, mixing state, and the associated optical and cloud condensation nuclei activation properties in an evolving urban plume

Author

Zaveri, Rahul A., primary, Barnard, James C., additional, Easter, Richard C., additional, Riemer, Nicole, additional, and West, Matthew, additional

Published

2010

15. Evolution of ozone, particulates, and aerosol direct radiative forcing in the vicinity of Houston using a fully coupled meteorology-chemistry-aerosol model

Author

Fast, Jerome D., primary, Gustafson, William I., additional, Easter, Richard C., additional, Zaveri, Rahul A., additional, Barnard, James C., additional, Chapman, Elaine G., additional, Grell, Georg A., additional, and Peckham, Steven E., additional

Published

2006

16. Remote sensing of cloud properties using ground‐based measurements of zenith radiance

Author

Chiu, J. Christine, primary, Marshak, Alexander, additional, Knyazikhin, Yuri, additional, Wiscombe, Warren J., additional, Barker, Howard W., additional, Barnard, James C., additional, and Luo, Yi, additional

Published

2006

17. Retrieval of aerosol microphysical properties using surface MultiFilter Rotating Shadowband Radiometer (MFRSR) data: Modeling and observations

Author

Kassianov, Evgueni I., primary, Barnard, James C., additional, and Ackerman, Thomas P., additional

Published

2005

18. Simultaneous retrievals of column ozone and aerosol optical properties from direct and diffuse solar irradiance measurements

Author

Goering, Christian D., primary, L'Ecuyer, Tristan S., additional, Stephens, Graeme L., additional, Slusser, James R., additional, Scott, Gwen, additional, Davis, John, additional, Barnard, James C., additional, and Madronich, Sasha, additional

Published

2005

19. A differential technique to retrieve column water vapor using sun radiometry

Author

Michalsky, Joseph J., primary, Min, Qilong, additional, Kiedron, Piotr W., additional, Slater, Donald W., additional, and Barnard, James C., additional

Published

2001

20. An evaluation of the FAST-J photolysis algorithm for predicting nitrogen dioxide photolysis rates under clear and cloudy sky conditions

Author

Barnard, James C., Chapman, Elaine G., Fast, Jerome D., Schmelzer, John R., Slusser, James R., and Shetter, Richard E.

Subjects

*PHOTOCHEMISTRY, *ALGORITHMS, *NITROGEN dioxide

Abstract

The FAST-J algorithm was developed to quickly and accurately calculate photolysis rates under both clear and cloudy sky conditions. In this paper, photolysis rates of nitrogen dioxide were calculated using FAST-J and compared with measurements taken at two sites in the United States: Phoenix, Arizona, and Houston, Texas. The measurements were derived from either an actinic flux filter radiometer (Phoenix) or a spectroradiometer (Houston). A sun photometer sited nearby these radiometers provided irradiance measurements from which aerosol and cloud optical thicknesses were obtained. Aerosol single scattering albedo was not known, but was taken to be either 0.79 or 0.94, representative of either soot- or sulfate-like aerosols, respectively. These optical properties served as input to the FAST-J algorithm, which in turn was used to calculate photolysis rates. For both clear and cloudy sky cases, the modeled and measured photolysis rates agree within the uncertainties of the measurements for a single scattering albedo of 0.94. For a single scattering albedo of 0.79, the agreement is again within the uncertainty limits except for the cloudy sky case in Houston. The results suggest that the FAST-J code may be a practical algorithm for use in atmospheric chemical transport models that make repeated calls to photolysis rate subroutines. [Copyright &y& Elsevier]

Published

2004

21. Development of a Multispectral Albedometer and Deployment on an Unmanned Aircraft for Evaluating Satellite Retrieved Surface Reflectance over Nevada's Black Rock Desert.

Author

Boehmler, Jayne M., Loría-Salazar, S. Marcela, Stevens, Chris, Long, James D., Watts, Adam C., Holmes, Heather A., Barnard, James C., and Arnott, W. Patrick

Subjects

REFLECTANCE, SOLAR radiation, RADIATIVE transfer, NATURAL satellites, ALBEDO, MULTISPECTRAL imaging, SATELLITE-based remote sensing

Abstract

Bright surfaces across the western U.S. lead to uncertainties in satellite derived aerosol optical depth (AOD) where AOD is typically overestimated. With this in mind, a compact and portable instrument was developed to measure surface albedo on an unmanned aircraft system (UAS). This spectral albedometer uses two Hamamatsu micro-spectrometers (range: 340–780 nm) for measuring incident and reflected solar radiation at the surface. The instrument was deployed on 5 October 2017 in Nevada's Black Rock Desert (BRD) to investigate a region of known high surface reflectance for comparison with albedo products from satellites. It was found that satellite retrievals underestimate surface reflectance compared to the UAS mounted albedometer. To highlight the importance of surface reflectance on the AOD from satellite retrieval algorithms, a 1-D radiative transfer model was used. The simple model was used to determine the sensitivity of AOD with respect to the change in albedo and indicates a large sensitivity of AOD retrievals to surface reflectance for certain combinations of surface albedo and aerosol optical properties. This demonstrates the need to increase the number of surface albedo measurements and an intensive evaluation of albedo satellite retrievals to improve satellite-derived AOD. The portable instrument is suitable for other applications as well. [ABSTRACT FROM AUTHOR]

Published

2018