Showing total 3 results

1. Enabling Reanalysis Research Using the Collaborative Reanalysis Technical Environment (CREATE).

Author

Potter, Gerald L., Carriere, Laura, Hertz, Judy, Bosilovich, Michael, Duffy, Daniel, Lee, Tsengdar, and Williams, Dean N.

Subjects

*DATA analysis, *CLIMATE change, *ATMOSPHERIC pressure, *DATA management, *OCEANOGRAPHY

Abstract

This paper describes the repackaging and consistent distribution of the world's major atmospheric and oceanic reanalyses. It also presents examples of the usefulness of examining multiple reanalyses. This service will make it much easier for anybody using reanalysis to access multiple datasets using an approach similar to that of phase 5 of the Coupled Model Intercomparison Project (CMIP5). Experienced users as well as students will find the standardized formatted data convenient to use. [ABSTRACT FROM AUTHOR]

Published

2018

2. THE ARCTIC SYSTEM REANALYSIS, VERSION 2.

Author

Bromwich, D. H., Wilson, A. B., Bai, L., Liu, Z., Barlage, M., Shih, C.-F., Maldonado, S., Hines, K. M., Wang, S.-H., Woollen, J., Kuo, B., Lin, H.-C., Wee, T.-K., Serreze, M. C., and Walsh, J. E.

Subjects

*CLIMATE change, *WEATHER forecasting, *CLIMATOLOGY, *ATMOSPHERIC circulation, *ATMOSPHERIC pressure

Abstract

The Arctic is a vital component of the global climate, and its rapid environmental evolution is an important element of climate change around the world. To detect and diagnose the changes occurring to the coupled Arctic climate system, a state-of-the-art synthesis for assessment and monitoring is imperative. This paper presents the Arctic System Reanalysis, version 2 (ASRv2), a multiagency, university-led retrospective analysis (reanalysis) of the greater Arctic region using blends of the polar-optimized version of the Weather Research and Forecasting (Polar WRF) Model and WRF three-dimensional variational data assimilated observations for a comprehensive integration of the regional climate of the Arctic for 2000-12. New features in ASRv2 compared to version 1 (ASRv1) include 1) higher-resolution depiction in space (15-km horizontal resolution), 2) updated model physics including subgrid-scale cloud fraction interaction with radiation, and 3) a dual outer-loop routine for more accurate data assimilation. ASRv2 surface and pressure-level products are available at 3-hourly and monthly mean time scales at the National Center for Atmospheric Research (NCAR). Analysis of ASRv2 reveals superior reproduction of near-surface and tropospheric variables. Broadscale analysis of forecast precipitation and site-specific comparisons of downward radiative fluxes demonstrate significant improvement over ASRv1. The high-resolution topography and land surface, including weekly updated vegetation and realistic sea ice fraction, sea ice thickness, and snow-cover depth on sea ice, resolve finescale processes such as topographically forced winds. Thus, ASRv2 permits a reconstruction of the rapid change in the Arctic since the beginning of the twenty-first century-complementing global reanalyses. ASRv2 products will be useful for environmental models, verification of regional processes, or siting of future observation networks. [ABSTRACT FROM AUTHOR]

Published

2018

3. THE GREENLAND FLOW DISTORTION EXPERIMENT.

Author

Renfrew, I. A., Moore, G. W. K., Kristjansson, J. E., Ólafsson, H., Gray, S. L., Petersen, G. N., Bovis, K., Brown, P. R. A., Fore, I., Haine, T., Hay, C., Irvine, E. A., Lawrence, A., Ohigashi, T., Outten, S., Pickart, R. S., Shapiro, M., Sproson, D., Swinbank, R., and Wooley, A.

Subjects

*ATMOSPHERIC research, *CLIMATE change, *ATMOSPHERIC pressure, *WEATHER control, *METEOROLOGY, *EXPERIMENTAL design

Abstract

The article focuses on the detailed analysis of the Greenland Flow Distortion Experiment (GFDex) and its aircraft-based observations, on the coastal seas of Greenland and Iceland. The study investigates both the local and remote flow distortion effects and the occurrence of strong winds and intense mesoscale weather systems around the coastal seas. The observations gathered for the experiment include a reverse tip jet, polar mesoscale cyclone, and, barrier winds. An overview of the aircraft-based observations and the logistics of GFDex is offered, along with the case study papers conducted by other researchers. Meanwhile, the researchers of the experiment predicts that GFDex will contribute to wider understanding in the areas of meteorology and the atmospheric and climate system. INSETS: THE FACILITY FOR AIRBORNE ATMOSPHERIC MEASUREMENTS;ICING.

Published

2008