Statistical Analysis of Forecasting Models across the North Slope of Alaska during the Mixed-Phase Arctic Clouds Experiment

Yannuzzi, V. T.; Clothiaux, Eugene E.; Harrington, Jerry Y.; Verlinde, Johannes

doi:10.1175/2009waf2222218.1

Cited by 2 publications

(2 citation statements)

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“…[10] A high-pressure system located over the ocean north of Barrow dominated the weather over the North Slope of Alaska during 4-8 October 2004 [Yannuzzi et al, 2009]. A weak midlevel low that originated over the eastern Brooks Range on 5 October first moved westward along the North Slope coastline and then backtracked eastward before dissipating in the general area of Deadhorse on 7 October.…”

Section: Atmospheric Conditionsmentioning

confidence: 99%

Arctic multilayered, mixed‐phase cloud processes revealed in millimeter‐wave cloud radar Doppler spectra

et al. 2013

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[1] Cloud radar Doppler velocity spectra, lidar backscattering coefficients and depolarization ratios, and aircraft in situ measurements are used to investigate microphysical processes occurring in a case of multilayered, mixed-phase clouds over the North Slope of Alaska. Some liquid-cloud layers were observed to exist in well-mixed atmospheric layers, but others were found in absolutely stable atmospheric layers. The observations suggest that strong cloud top cooling was necessary to produce the well-mixed cloud layers; clouds shielded from radiative cooling by overlaying clouds more frequently existed in absolutely stable layers. The in situ measurements revealed that most liquid layers contained drizzle, the production process of which was shown from the radar and lidar measurements to have been interrupted only during heavier ice-precipitation events. Different layers interacted with one another by changing the radiative heating profile and by precipitation which changed the growth paths available to cloud particles and even initiated new hydrometeor classes.

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Section: Atmospheric Conditionsmentioning

confidence: 99%

Arctic multilayered, mixed‐phase cloud processes revealed in millimeter‐wave cloud radar Doppler spectra

et al. 2013

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“…They have been evaluated against ARM-NSA observations of radiative fluxes and cloud products. (Yannuzzi et al 2009). …”

Section: Introductionmentioning

confidence: 99%

Radiative Fluxes at Barrow, Alaska: A Satellite View

Niu

Pinker

2011

Journal of Climate

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Satellite estimates of surface shortwave radiation (SWR) at high latitudes agree less with ground observations than at other locations; moreover, ground observations at such latitudes are scarce. The comprehensive observations of radiative fluxes made since 1977 by the Department of Energy Atmospheric Radiation Measurement (ARM) Program at the Barrow North Slope of Alaska (NSA) site are unique. They provide an opportunity to revisit accuracy estimates of remote sensing products at these latitudes, which are problematic because the melting of snow/ice and lower solar elevation make the satellite retrievals more difficult.A newly developed inference scheme for deriving SWR from the Moderate Resolution Imaging Spectroradiometer (MODIS; Terra and Aqua) that utilizes updated information on surface properties over snow and sea ice will be evaluated against these ground measurements and compared with other satellite and model products. Results show that the MODIS-based estimates are in good agreement with observations, with a bias of 25.3 W m 22 (24% of mean observations) for the downward SWR, a bias of 25.3 W m 22 (27%) for upward SWR, a bias of 1 (1%) for net SWR, and a bias of 20.001 (0%) for surface albedo. As such, the MODIS estimates of SWR can be useful for numerical model evaluations and for estimating the energy budgets at high latitudes.

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Statistical Analysis of Forecasting Models across the North Slope of Alaska during the Mixed-Phase Arctic Clouds Experiment

Cited by 2 publications

References 55 publications

Arctic multilayered, mixed‐phase cloud processes revealed in millimeter‐wave cloud radar Doppler spectra

Arctic multilayered, mixed‐phase cloud processes revealed in millimeter‐wave cloud radar Doppler spectra

Radiative Fluxes at Barrow, Alaska: A Satellite View

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