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1  <ul><li>  <ul><li>
2  R. Abernathey, D. Ferreira, and A. Klocker, 2014: Diagnostics of eddy  M. Azaneu, R. Kerr, and M. Mata,
3  mixing in a circumpolar channel. Ocean Modelling, submitted.  2014: <a href="http://www.ocean-sci.net/10/923/2014/os-10-923-2014.html">
4  </li></ul>  Assessment of the representation of Antarctic Bottom Water properties in the
5    ECCO2 reanalysis.</a> Ocean Sci., 10, 923-946.
 <ul><li>  
 H. Brix, D. Menemenlis, C. Hill, S. Dutkiewicz, O. Jahn, D. Wang, K. Bowman,  
 and H. Zhang, 2014: Using Green's Functions to initialize and adjust a global,  
 eddying ocean biogeochemistry general circulation model. Ocean Modelling,  
 submitted.  
6  </li></ul>  </li></ul>
7    
8  <ul><li>  <ul><li>
9  M. Buckley, R. Ponte, G. Forget, and P. Heimbach, 2014:  M. Buckley, R. Ponte, G. Forget, and P. Heimbach, 2014:
10  Low-frequency SST and upper-ocean heat content variability in the North  Low-frequency SST and upper-ocean heat content variability in the North
11  Atlantic. J. Clim., in revision.  Atlantic. J. Clim., 27, 4996-5018.
12  </li></ul>  </li></ul>
13    
14  <ul><li>  <ul><li>
15  A. Chaudhuri, R. Ponte, and A. Nguyen, 2014: A comparison of  A. Chaudhuri, R. Ponte, and A. Nguyen, 2014: A comparison of
16  atmospheric reanalysis products for the Arctic Ocean and implications  atmospheric reanalysis products for the Arctic Ocean and implications
17  for uncertainties in air-sea fluxes, Journal of Climate, in revision.  for uncertainties in air-sea fluxes, J. Clim., 27, 5411-5421.
18    </li></ul>
19    
20    <ul><li>
21    R. Chen, G. Flerl, and C. Wunsch, 2014:
22    <a href="http://ecco2.org/manuscripts/2014/Chen2014.pdf"> A
23    description of local and nonlocal eddy-mean flow interaction in a
24    global eddy-permitting state estimate. </a> J. Phys. Oceanogr., 44,
25    2336-2352.
26    </li></ul>
27    
28    <ul><li>
29    K. Childers, 2014:
30    <a href="http://ecco2.org/manuscripts/2015/Childers2014.pdf">
31    Circulation and Transport Across the Iceland Faroes Shetland Ridge.</a>
32    Ph.D. Thesis, Marine and Atmospheric Science, Stony Brook University, NY.
33  </li></ul>  </li></ul>
34    
35  <ul><li>  <ul><li>
36  G. Danabasoglu, et al., 2014: North Atlantic simulations in  H. Dail and C. Wunsch, 2014: Dynamical Reconstruction of Upper-Ocean
37  Coordinated Ocean-ice Reference Experiments, phase II (CORE-II): Part  Conditions in the Last Glacial Maximum Atlantic.  J. Clim., 27, 807–823.
38  I: Mean states. Ocean Modelling, 73, 76-107.  </ul></li>
39    
40    <ul><li>
41    G. Danabasoglu, et al., 2014: North Atlantic simulations in Coordinated
42    Ocean-ice Reference Experiments, phase II (CORE-II): Part I: Mean
43    states. Ocean Modelling, 73, 76-107.
44    </li></ul>
45    
46    <ul><li>
47    G. Danabasoglu, R. Curry, P. Heimbach, Y. Kushnir, C. Meinen, R. Msadek,
48    M. Patterson, L. Thompson, S. Yeager, and R. Zhang, 2014: 2013 US AMOC Science
49    Team Annual Report on Progress and Priorities. 162 pp. <a
50    href="https://usclivar.org/sites/default/files/amoc/2014/USAMOC_2013AnnualReport_final.pdf">
51    US CLIVAR Report 2014-4</a>, US CLIVAR Project Office, Washington D.C., 20006.
52    </ul></li>
53    
54    <ul><li>
55    V. Dansereau, P. Heimbach, and M. Losch, 2014: Simulation of sub-ice shelf
56    melt rates in a general circulation model: velocity-dependent transfer and the
57    role of friction.  J. Geophys. Res., 119, 1765-1790.
58    </ul></li>
59    
60    <ul><li>
61    T. Dotto, R. Kerr, M. Mata, M. Azaneu, I. Wainer, E. Fahrbach, and G. Rohardt,
62    2014: <a href="http://www.ocean-sci.net/10/523/2014/os-10-523-2014.html">
63    Assessment of the structure and variability of Weddell Sea water masses in
64    distinct ocean reanalysis products.</a> Ocean Sci., 10, 523-546.
65  </li></ul>  </li></ul>
66    
67  <ul><li>  <ul><li>
# Line 44  Deep-Sea Res. I, 86, 1-20. Line 80  Deep-Sea Res. I, 86, 1-20.
80  </li></ul>  </li></ul>
81    
82  <ul><li>  <ul><li>
83    S. Gao, T. Qu, and X. Nie, 2014: Mixed layer salinity budget in the tropical
84    Pacific Ocean estimated by a global GCM. J. Geophys. Res., 119, 8255-8270.
85    </li></ul>
86    
87    <ul><li>
88    P. Heimbach, F. Straneo, O. Sergienko, and G. Hamilton, 2014:
89    International workshop on understanding the response of Greenlands
90    marine-terminating glaciers to oceanic and atmospheric forcing: Challenges to
91    improving observations, process understanding and modeling. June 4-7, 2013,
92    Beverly, MA, USA.
93    <a href="http://www.usclivar.org/sites/default/files/documents/2014/2013GRISOWorkshopReport_v2_0.pdf">US
94    CLIVAR Report 2014-1</a>, US CLIVAR Project Office, Washington DC, 20006.
95    </ul></li>
96    
97    <ul><li>
98  A. Kalmikov and P. Heimbach, 2014: A Hessian-based method for Uncertainty  A. Kalmikov and P. Heimbach, 2014: A Hessian-based method for Uncertainty
99  Quantification in Global Ocean State Estimation. SIAM J. Scientific Computing  Quantification in Global Ocean State Estimation. SIAM J. Scientific Computing
100  (Special Section on Planet Earth and Big Data), submitted.  (Special Section on Planet Earth and Big Data), 36, S267–S295.
101  </li></ul>  </li></ul>
102    
103  <ul><li>  <ul><li>
104  J. Liu, K. Bowman, M. Lee, D. Henze, N. Bousserez, H. Brix,  J. Liu, K. Bowman, M. Lee, D. Henze, N. Bousserez, H. Brix,
105  J. Collatz, D. Menemenlis, L. Ott, S. Pawson, D. Jones, and R. Nassar,  G. Collatz, D. Menemenlis, L. Ott, S. Pawson, D. Jones, and R. Nassar,
106  2014: <a href="http://www.tellusb.net/index.php/tellusb/article/view/22486">  2014: <a href="http://ecco2.org/manuscripts/2014/Liu2014.pdf">
107  Carbon monitoring system flux estimation and attribution: Impact of  Carbon monitoring system flux estimation and attribution: Impact of
108  ACOS-GOSAT XCO2 sampling on the inference of terrestrial biospheric  ACOS-GOSAT XCO2 sampling on the inference of terrestrial biospheric
109  sources and sinks.</a> Tellus B, 66, 22486.  sources and sinks.</a> Tellus B, 66, 22486.
# Line 67  model.</a> J. Mar. Syst., 129, 437-451. Line 118  model.</a> J. Mar. Syst., 129, 437-451.
118  </li></ul>  </li></ul>
119    
120  <ul><li>  <ul><li>
121    C. Piecuch, I. Fukumori, R. Ponte and O. Wang, 2014: Vertical Structure of
122    Ocean Pressure Variations with Application to Satellite-Gravimetric
123    Observations. Journal of Atmospheric and Oceanic Technology, 32, 603-613.
124    </li></ul>
125    
126    <ul><li>
127  C. Piecuch and R. Ponte, 2014: Mechanisms of global mean steric sea  C. Piecuch and R. Ponte, 2014: Mechanisms of global mean steric sea
128  level change.  J. Clim., in press.  level change.  J. Clim., 27, 824-834.
129  </li></ul>  </li></ul>
130    
131  <ul><li>  <ul><li>
132  M. Flexas, M. Schodlok, D. Menemenlis, L. Padman, and A. Orsi, 2014:  R. Ponte, and C. Piecuch, 2014: Interannual bottom pressure signals
133  Role of tides on the formation of the Antarctic Slope Front at the  in the Australian-Antarctic and Bellingshausen Basins. J. Phys. Oceanogr.,
134  Weddell-Scotia Confluence. in prep.  44, 1456-1465.
135  </li></ul>  </li></ul>
136    
137  <ul><li>  <ul><li>
138  G. Spreen, R. Kwok, D. Menemenlis, and A. Nguyen, 2014: Sea ice  R. Sciascia, C. Cenedese, D. Nicoli, P. Heimbach, and F. Straneo, 2014: Impact
139  deformation in a coupled ocean-sea ice model and in satellite remote  of periodic intermediary flows on submarine melting of a Greenland glacier.
140  sensing data. J. Geophys. Res., submitted.  J. Geophys. Res., 119, 7078-7098.
141    </ul></li>
142    
143    <ul><li>
144    H. Seroussi, M. Morlighem, E. Rignot, J. Mouginot, E. Larour,
145    M. Schodlok, and A. Khazendar,
146    2014: <a href="http://ecco2.org/manuscripts/2014/Seroussi2014.pdf">
147    Sensitivity of the dynamics of Pine Island Glacier, West Antarctica,
148    to climate forcing for the next 50 years.</a> The Cryosphere, 8,
149    1699-1710.
150  </li></ul>  </li></ul>
151    
152  <ul><li>  <ul><li>
153  C. Wortham and C. Wunsch, 2014: A multi-dimensional spectral description of  S. Tett, T. Sherwin, A. Shravat, and O. Browne, 2014: How Much Has the North
154  ocean variability, J. Phys. Oceanogr., 44, 944-966.  Atlantic Ocean Overturning Circulation Changed in the Last 50 Years? Journal
155    of Climate, 27, 6325-6342.
156    </ul></li>
157    
158    <ul><li>
159    N. Vinogradova,  R. Ponte, I. Fukumori, and O. Wang, 2014:
160    Estimating satellite salinity errors for assimilation of Aquarius and SMOS
161    data into climate models. J. Geophys. Res., 119, 4732-4744.
162  </li></ul>  </li></ul>
163    
164  <ul><li>  <ul><li>
165  C. Wunsch and P. Heimbach, 2014: Bidecadal Thermal Changes in the  B. Webber, A. Matthews, K. Heywood, J. Kaiser and S. Schmidtko, 2014:
166  Abyssal Ocean. J. Phys. Oceanogr., in press.  Seaglider observations of equatorial Indian Ocean Rossby waves associated with
167    the Madden-Julian Oscillation. J. Geophys. Res., 119, 3714-3731.
168  </li></ul>  </li></ul>
169    
170  <ul><li>  <ul><li>
171  S. Zedler, C. Jackson, F. Yao, P. Heimbach, A. Koehl, R. Scott, and  C. Wortham and C. Wunsch, 2014: A multi-dimensional spectral description of
172  I. Hoteit, 2013: Tests of the K-Profile Parameterization of turbulent  ocean variability, J. Phys. Oceanogr., 44, 944-966.
 vertical mixing using seasonally averaged observations from the  
 TOGA/TAO array from 2004 to 2007. Ocean Modelling., in revision.  
173  </li></ul>  </li></ul>
174    
175  <ul><li>  <ul><li>
176  V. Zemskova, B. White, and A. Scotti, 2014: Available potential energy  C. Wunsch and P. Heimbach, 2014: Bidecadal Thermal Changes in the
177  and the general circulation: Partitioning wind, buoyancy forcing, and  Abyssal Ocean. J. Phys. Oceanogr., 44, 2013-2030.
 irreversible mixing. J. Phys. Oceanogr., submitted.  
178  </li></ul>  </li></ul>
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