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1  <ul><li>  <ul><li>
2  J. Campin, C. Hill, H. Jones, and J. Marshall, 2011:  J. Campin, C. Hill, H. Jones, and J. Marshall, 2011:
3  <a href="http://www-paoc.mit.edu/paoc/papers/superparam.pdf">  <a href="http://www-paoc.mit.edu/paoc/papers/superparam.pdf">
4  Superparameterization in ocean modeling: application to deep  Super-parameterization in ocean modeling: Application to deep
5  convection.</a> Ocean Modeling, in press.  convection.</a> Ocean Modeling, 36, 90-101.
6  </li></ul>  </li></ul>
7    
8  <ul><li>  <ul><li>
# Line 14  Agassiz.</a> Geophys. Res. Lett., 38, L0 Line 14  Agassiz.</a> Geophys. Res. Lett., 38, L0
14    
15  <ul><li>  <ul><li>
16  X. Davis, L. Rothstein, W. Dewar, and D. Menemenlis, 2011:  X. Davis, L. Rothstein, W. Dewar, and D. Menemenlis, 2011:
17  <a href="http://ecco2.org/manuscripts/2010/DavisJcli10.pdf">  <a href="http://ecco2.org/manuscripts/2011/DavisJcli10.pdf">
18  Numerical investigations of seasonal and interannual variability of  Numerical investigations of seasonal and interannual variability of
19  North Pacific Subtropical Mode Water and its implications for Pacific  North Pacific Subtropical Mode Water and its implications for Pacific
20  climate variability.</a> J. Clim., in press.  climate variability.</a> J. Clim., 24, 2648-2665.
21    </li></ul>
22    
23    <ul><li>
24    S. Dutkiewicz, 2011:
25    <a href="http://ecco2.org/manuscripts/2011/dutkiewicz_variations.pdf">
26    Driving ecosystem and biogeochemical models with optimal state
27    estimates of the ocean circulation.</a> U.S. CLIVAR Variations, 9, 1.
28  </li></ul>  </li></ul>
29    
30  <ul><li>  <ul><li>
31  G. Forget, G. Maze, M. Buckley, and J. Marshall, 2011:  G. Forget, G. Maze, M. Buckley, and J. Marshall, 2011:
32  Estimated Seasonal Cycle of North Atlantic Eighteen Degree Water Volume.  Estimated Seasonal Cycle of North Atlantic Eighteen Degree Water Volume.
33  J. Phys. Oceanogr., in press.  J. Phys. Oceanogr., 41(2), 269-286, doi:10.1175/2010JPO4257.1
34    </li></ul>
35    
36    <ul><li>
37    H. Gennerich and H. Villinger, 2011:
38    <a href="http://ecco2.org/manuscripts/2011/Gennerich_2011.pdf">
39    Deciphering the ocean bottom pressure variation in the Logatchev
40    hydrothermal field at the eastern flank of the Mid-Atlantic Ridge.</a>
41    Geochemistry Geophysics Geosystems, 12, doi:10.1029/2010GC003441.
42  </li></ul>  </li></ul>
43    
44  <ul><li>  <ul><li>
45  P. Heimbach, C. Wunsch, R. Ponte, G. Forget, C. Hill, and J. Utke, 2011:  P. Heimbach, C. Wunsch, R. Ponte, G. Forget, C. Hill, and J. Utke, 2011:
46  Timescales and Regions of the Sensitivity of Atlantic Meridional Volume and  Timescales and Regions of the Sensitivity of Atlantic Meridional Volume and
47  Heat Transport Magnitudes: Toward Observing System Design. Deep Sea Res. II  Heat Transport Magnitudes: Toward Observing System Design. Deep Sea Res. II
48  (special issue on the AMOC), in press.  (Topical issue on "Climate and the AMOC"), 58(17-18), 1858-1879, doi:10.1016/j.dsr2.2010.10.065.
49  </li></ul>  </li></ul>
50    
51  <ul><li>  <ul><li>
52  E. Hill, D. Enderton, P. Heimbach, and C. Hill, 2011: SPGrid: A  M. Manizza, M. Follows, S. Dutkiewicz, D. Menemenlis, J. McClelland,
53  numerical grid generation program for domain decomposed geophysical  C. Hill, B. Peterson, R. Key, 2011:
54  fluid dynamics models. Unpublished manuscript.  <a href="http://ecco2.org/manuscripts/2011/Manizza2011.pdf">
55    A model of the Arctic Ocean carbon cycle.</a>
56    J. Geophys. Res., 116, C12020, doi:10.1029/2011JC006998.
57  </li></ul>  </li></ul>
58    
59  <ul><li>  <ul><li>
60  M. Manizza, M. Follows, S. Dutkiewicz, D. Menemenlis, J. McClelland,  A. Nguyen, D. Menemenlis, and R. Kwok, 2011:
61  C. Hill1, B. Peterson, R. Key, 2011:  <a href="http://ecco2.org/manuscripts/2011/NguyenJGR2011.pdf">
62  <a href="http://ecco2.org/manuscripts/2010/ManizzaJGR2010.pdf">  Arctic ice-ocean simulation with optimized model parameters: approach
63  Modeling the Arctic Ocean carbon cycle and its sensitivity to the  and assessment.</a>  J. Geophys. Res., 116, C04025,
64  influence of the riverine dissolved organic carbon.</a>  doi:10.1029/2010JC006573
 J. Geophys. Res., submitted.  
65  </li></ul>  </li></ul>
66    
67  <ul><li>  <ul><li>
68  G. Maze, G. Forget, M. Buckley and J. Marshall, 2011: Using  Piecuch, C. G., and R. M. Ponte, 2011: Mechanisms of interannual steric sea level variability, Geophys. Res. Lett., 38, L15605, doi:10.1029/2011GL048440.
 transformation and formation maps to study water mass transformation:  
 a case study of North Atlantic Eighteen Degree water. J. Phys.  
 Oceanogr, submitted.  
69  </li></ul>  </li></ul>
70    
71  <ul><li>  <ul><li>
72  A. Nguyen, D. Menemenlis, and R. Kwok, 2011:  Rampal, P., J. Weiss, C. Dubois & J.-M. Campin 2011: IPCC climate models do not capture Arctic sea ice drift acceleration: Consequences in terms of projected sea ice thinning and decline, J. Geophys. Res., vol. 116, C00D07, doi:10.1029/2011JC007110.
73  <a href="http://ecco2.org/manuscripts/2010/NguyenJGR10.pdf">  </li></ul>
74  Arctic ice-ocean simulation with optimized model parameters: approach  
75  and assessment.</a>  J. Geophys. Res., in press.  <ul><li>
76    Roquet, F., C. Wunsch, and G. Madec, 2011: On the patterns of wind-power input to the ocean circulation. J. Phys. Oceanogr., 41, 2328-2342, 10.1175/JPO-D-11-024.1.
77    </ul></li>
78    
79    <ul><li>
80    G. Spreen, R. Kwok, and D. Menemenlis, 2011:
81    <a href="http://ecco2.org/manuscripts/2011/Spreen2011.pdf">
82    Trends in Arctic sea ice drift and role of wind forcing:
83    1992-2009.</a>  Geophys. Res. Lett., 38, L19501.
84    </li></ul>
85    
86    <ul><li>
87    S. Tank, M. Manizza, R. Holmes, J. McClelland, and B. Peterson, 2011:
88    <a href="http://ecco2.org/manuscripts/2011/Tank2011.pdf">
89    The processing and impact of dissolved riverine nitrogen in the Arctic
90    Ocean.</a> Estuaries and Coasts, doi:10.1007/s12237-011-9417-3.
91  </li></ul>  </li></ul>
92    
93  <ul><li>  <ul><li>
94  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:
95  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo10.pdf">  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo10.pdf">
96  Scales, growth rates and spectral fluxes of baroclinic instability in  Scales, growth rates and spectral fluxes of baroclinic instability in
97  the ocean.</a> J. Phys. Oceanogr., in press.  the ocean.</a> J. Phys. Oceanogr., 41, 1057-1076.
98  </li></ul>  </li></ul>
99    
100  <ul><li>  <ul><li>
101  C. Ubelmann and L. Fu, 2011:  C. Ubelmann and L. Fu, 2011:
102  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011.pdf">  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011a.pdf">
103  Vorticity structures in the tropical Pacific from a numerical simulation.</a>  Vorticity structures in the Tropical Pacific from a numerical simulation.</a>
104  J. Phys. Oceanogr., submitted.  J. Phys. Oceanogr., 41, 1455.
105  </li></ul>  </li></ul>
106    
107  <ul><li>  <ul><li>
108  N. Vinogradova, R. Ponte, M. Tamisiea, J. Davis, and  C. Ubelmann and L. Fu, 2011:
109  E. Hill, 2011: Effects of self-attraction and loading on annual  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011b.pdf">
110  variations of ocean bottom pressure. J. Geophys. Res., submitted.  Cyclonic eddies formed at the Pacific tropical instability wave fronts.</a>
111    J. Geophys. Res., 116, C12021.
112  </li></ul>  </li></ul>
113    
114  <ul><li>  <ul><li>
115  N. Vinogradova, R. Ponte, and P. Heimbach, 2011: Dynamics and forcing of sea  D. Volkov and L. Fu, 2011:
116  surface temperature variability on climate time scales. J. Clim., submitted.  <a href="http://ecco2.org/manuscripts/2011/VolkovFu2011.pdf">
117    Interannual variability of the Azores Current strength and eddy energy
118    in relation to atmospheric forcing.</a> J. Geophys. Res., 116, C11011.
119  </li></ul>  </li></ul>
120    
121  <ul><li>  <ul><li>
122  D. Volkov and L. Fu, 2011: Mechanism for the interannual variability of the  Wunsch, C., 2011:
123  Azores Current eddy energy. Geophys. Res. Lett., submitted.  The decadal mean circulation and Sverdrup balance.
124    J. Marine Res., 69, 417-434.
125  </li></ul>  </li></ul>
126    
127  <ul><li>  <ul><li>
128  Y. Xu and L. Fu, 2011: Global variability of the wavenumber spectrum of  Y. Xu and L. Fu, 2011:
129  oceanic mesoscale turbulence. J. Phys. Oceanogr., in press,  <a href="http://ecco2.org/manuscripts/2011/XuFu2011.pdf">
130  doi:10.1175/2010JPO4558.1.  Global variability of the wavenumber spectrum of
131    oceanic mesoscale turbulence.</a> J. Phys. Oceanogr., 41, 802-809.
132  </li></ul>  </li></ul>
133    
134  <ul><li>  <ul><li>
135  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal
136  excitation of interannual Atlantic meridional overturning circulation  excitation of interannual Atlantic meridional overturning circulation
137  variability. J. Climate, in press, doi:10.1175/2010JCLI3610.1.  variability. J. Climate, 24(2), 413-423, doi:10.1175/2010JCLI3610.1.
138  </li></ul>  </li></ul>
139    
 <ul><li>  
 L. Zanna, P. Heimbach, A. Moore and E. Tziperman, 2011. Analysis of the  
 predictability and variability of the Atlantic ocean in response to optimal  
 surface excitation.  Quart. J. Roy. Met. Soc., submitted.  
 </li></ul>  
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