Dick Moritz Affiliate - Senior Principal Oceanographer dickm@apl.washington.edu |
Biosketch
Richard Moritz's primary areas of expertise are the physics of climate, and the interactions among ocean, sea ice, and atmosphere. He is actively engaged in climate modeling research, including the development and application of the Community Climate System Model at the National Center for Atmospheric Research.
Dr. Moritz joined the Polar Science Center at APL-UW in 1980 and since 1999 has served as its chair. He earned B.A. and M.A. degrees in geography, as well as M.S. and Ph.D. degrees in geology and geophysics, both from Yale University.
Department Affiliation
Polar Science Center |
Education
B.A. Geography, University of Colorado, 1974
M.A. Geography & Climatology, University of Colorado, 1978
M.S./M.Ph. Geology & Geophysics, Yale University, 1979
Ph.D. Geology & Geophysics, Yale University, 1988
Projects
North Pole Environmental Observatory The observatory is staffed by an international research team that establishes a camp at the North Pole each spring to take the pulse of the Arctic Ocean and learn how the world's northernmost sea helps regulate global climate. |
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Study of Environmental Arctic Change SEARCH is an interagency effort to understand the nature, extent, and future development of the system-scale change presently seen in the Arctic. These changes are occuring across terrestrial, oceanic, atmospheric, and human systems. |
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Surface Heat Budget of the Arctic Ocean (SHEBA) |
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Publications |
2000-present and while at APL-UW |
Multiyear volume, liquid freshwater, and sea ice transports through Davis Strait, 200410 Curry, B., C.M. Lee, B. Petrie, R.E. Moritz, and R. Kwok, "Multiyear volume, liquid freshwater, and sea ice transports through Davis Strait, 200410," J. Phys. Oceanogr., 44, 1244-1266, doi:10.1175/JPO-D-13-0177.1, 2014. |
More Info |
1 Apr 2014 |
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Davis Strait is a primary gateway for freshwater exchange between the Arctic and North Atlantic Oceans including freshwater contributions from west Greenland and Canadian Arctic Archipelago glacial melt. Data from six years (200410) of continuous measurements collected by a full-strait moored array and concurrent high-resolution Seaglider surveys are used to estimate volume and liquid freshwater transports through Davis Strait, with respective annual averages of 1.6 ± 0.5 Sverdrups (Sv; 1 Sv = 106 m3 s-1) and 93 ± 6 mSv (negative sign indicates southward transport). Sea ice export contributes an additional 10 ± 1 mSv of freshwater transport, estimated using satellite ice area transport and moored upward-looking sonar ice thickness measurements. Interannual and annual variability of the net transports are large, with average annual volume and liquid freshwater transport standard deviations of 0.7 Sv and 17 mSv and with interannual standard deviations of 0.3 Sv and 15 mSv. Moreover, there are no clear trends in the net transports over the 6-yr period. However, salinity in the upper 250 m between Baffin Island and midstrait decreases starting in September 2009 and remains below average through August 2010, but appears to return to normal by the end of 2010. This freshening event, likely caused by changes in arctic freshwater storage, is not apparent in the liquid freshwater transport time series due to a reduction in southward volume transport in 200910. Reanalysis of Davis Strait mooring data from the period 198790, compared to the 200410 measurements, reveals less arctic outflow and warmer, more saline North Atlantic inflow during the most recent period. |
Retrieving sea-ice thickness from ULS echoes: Methods and data analysis Moritz, R., and A. Ivakin, "Retrieving sea-ice thickness from ULS echoes: Methods and data analysis," Proceedings, 11th European Conference on Underwater Acoustics, 2-6 July, Edinburgh, 1535-1542 (Institute of Acoustics, 2012). |
2 Jul 2012 |
Sea ice response to atmospheric and oceanic forcing in the Bering Sea Zhang, J., R. Woodgate, and R. Moritz, "Sea ice response to atmospheric and oceanic forcing in the Bering Sea," J. Phys. Oceanogr., 40, 1729-1747, doi:10.1175/2010JPO4323.1, 2010. |
More Info |
1 Aug 2010 |
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A coupled sea iceocean model is developed to quantify the sea ice response to changes in atmospheric and oceanic forcing in the Bering Sea over the period 19702008. The model captures much of the observed spatiotemporal variability of sea ice and sea surface temperature (SST) and the basic features of the upper-ocean circulation in the Bering Sea. Model results suggest that tides affect the spatial redistribution of ice mass by up to 0.1 m or 15% in the central-eastern Bering Sea by modifying ice motion and deformation and ocean flows. |
In The News
Seaglider Monitors Climate-Related Ocean Circulation in the Arctic U.S. News & World Report An intelligent, ocean-going glider has spent six months on a record-breaking deployment to sample the icy waters off western Greenland. |
10 Jun 2009
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