Transcript - CanSISE
CanSISE conference, Victoria Yara Mohajerani May 9, 2014 OBSERVED ROBUSTNESS OF INTERANNUAL VARIABILITY OF OCTOBER EURASIAN SNOWCOVER AND ITS CLIMATE LINKAGE Outline Background Eurasian October snow and wintertime climate Snow cover datasets Evaluation of snow cover datasets Climate linkage Conclusion Snow-Climate Connection Vast and highly variable snow cover Positive October snow anomaly negative AO phase in the following winter Effect of October snow on AO Cohen et al 2007, Figure 6, page 5342 Inconsistencies in snow data Known inconsistencies in snowcover data NOAA shows false positive trend NOAA widely used in climateconnection studies Snow Cover Extent Anomaly Brown and Derksen (2013) Figure 2, page 4 Project Overview 1. Validation and evaluation of satellite and reanalysis datasets against ground measurements (for ground station locations) 2. Need global coverage, but can only validate data with local observations Application of revised datasets to the issue of relationships between October Eurasian snow cover and northern hemisphere winter circulation (sea level pressure and free atmospheric geopotential) from 1980 to 2011. Snow Cover Fraction (SCF) datasets Measurement Type Name Monthly SCF Definition Reanalysis (based on ERAint temperature and precipitation) BROWN Reanalysis MERRA % of days in a month with ≥ 2cm snow depth % of days in a month with SWE ≥4mm PMW % of days in a month with SWE ≥7.5mm NOAA % of days in month that a cell has more than 50% snow covered Passive Microwave Satellite Measurements Visible Satellite Measurements Ground Measurements of snow RU depth over Russia % of days in a month with >=2 cm snow depth. Consistency Consistency (15%) S(t) time series Dataset SCF Change (%) MERRA -8.2 BROWN -11.4 NOAA 16.7 RU -7.5 Correlation of snow indices RU MERRA-RU BROWN-RU NOAA-RU PMW-RU MERRA-EU BROWN-EU NOAA-EU MERRA-RU 0.97 0.94 0.85 0.77 0.87 0.78 0.73 0.96 0.83 0.78 0.90 0.80 0.73 BROWN-RU 0.82 0.82 0.90 0.87 0.72 All correlations significant at the 0.05 confidence level. NOAA-RU 0.68 0.72 0.68 0.88 PMW-RU 0.71 0.70 0.72 MERRA-EU 0.93 0.70 Snow-Climate Connection Regression: 2-meter Temperature Regression: Sea Level Pressure Regression: Zonal mean geopotential [Z] Snowcover and AO index Snow climate connection discussion MERRA has weaker correlation than NOAA BROWN has very weak correlation Time frame matters: MERRA and NOAA more similar in JF than DJF Conclusions Internal inconsistencies in NOAA: false positive trend MERRA and BROWN have best agreement with insitu data (respectively) Dataset bias (NOAA) possible in previous climate linkage studies Relationship still evident between October Eurasian snow and wintertime circulation The extent of this relationship should be taken with caution due to inconsistencies in snowcover data Acknowledgements Professor Paul J. Kushner Dr. Chris Derksen Dr. Ross Brown Centre for Global Change Science, University of Toronto The Canadian Sea Ice and Snow Evolution (CanSISE) Department of Physics, University of Toronto References Watanabe, M., and T. Nitta (1998): Relative impacts of snow and sea surface temperature anomalies on an extreme phase in the winter atmospheric circulation. J. Climate, 11, 2837–2857. Cohen J., and D. Entekhabi (1999): Eurasian snow cover variability and Northern Hemisphere climate predictability. Geophys. Res. Lett., 26, 345–348. Cohen J. et al (2007) Stratosphere–Troposphere Coupling and Links with Eurasian Land Surface Variability. J. Climate, Volume 20, 5335-5343, 1 NOVEMBER 2007. Wallace, J. M., Hobbs, P. V. (2006): Atmospheric Science: An Introductory Survey. Second Edition, University of Washington. Copyright ©2006 Elsevier Inc. Reichler, T. et al (2005): The Coupled Stratosphere–Troposphere Response to Impulsive Forcing from the Troposphere. JOURNAL OF THE ATMOSPHERIC SCIENCES. 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