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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 34  J. Phys. Oceanogr., 41(2), 269-286, doi: Line 34  J. Phys. Oceanogr., 41(2), 269-286, doi:
34  </li></ul>  </li></ul>
35    
36  <ul><li>  <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>
43    
44    <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, doi:10.1016/j.dsr2.2010.10.065  (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>
# Line 45  M. Manizza, M. Follows, S. Dutkiewicz, D Line 53  M. Manizza, M. Follows, S. Dutkiewicz, D
53  C. Hill, B. Peterson, R. Key, 2011:  C. Hill, B. Peterson, R. Key, 2011:
54  <a href="http://ecco2.org/manuscripts/2011/Manizza2011.pdf">  <a href="http://ecco2.org/manuscripts/2011/Manizza2011.pdf">
55  A model of the Arctic Ocean carbon cycle.</a>  A model of the Arctic Ocean carbon cycle.</a>
56  J. Geophys. Res., submitted.  J. Geophys. Res., 116, C12020, doi:10.1029/2011JC006998.
57  </li></ul>  </li></ul>
58    
59  <ul><li>  <ul><li>
# Line 57  doi:10.1029/2010JC006573 Line 65  doi:10.1029/2010JC006573
65  </li></ul>  </li></ul>
66    
67  <ul><li>  <ul><li>
68    Piecuch, C. G., and R. M. Ponte, 2011: Mechanisms of interannual steric sea level variability, Geophys. Res. Lett., 38, L15605, doi:10.1029/2011GL048440.
69    </li></ul>
70    
71    <ul><li>
72    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    </li></ul>
74    
75    <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:  G. Spreen, R. Kwok, and D. Menemenlis, 2011:
81  <a href="http://ecco2.org/manuscripts/2011/Spreen2011.pdf">  <a href="http://ecco2.org/manuscripts/2011/Spreen2011.pdf">
82  Trends in Arctic sea ice drift and role of wind forcing:  Trends in Arctic sea ice drift and role of wind forcing:
83  1992-2009.</a>  Geophys. Res. Lett., in press.  1992-2009.</a>  Geophys. Res. Lett., 38, L19501.
84  </li></ul>  </li></ul>
85    
86  <ul><li>  <ul><li>
# Line 71  Ocean.</a> Estuaries and Coasts, doi:10. Line 91  Ocean.</a> Estuaries and Coasts, doi:10.
91  </li></ul>  </li></ul>
92    
93  <ul><li>  <ul><li>
94    R. Tulloch, C. Hill, and O. Jahn, 2011:
95    <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etalagu11.pdf">
96    Possible spreadings of buoyant plumes and local coastline
97    sensitivities using flow syntheses from 1992 to 2007.</a> Geophysical
98    Monograph Series, 195, 245-255.
99    </li></ul>
100    
101    <ul><li>
102  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:
103  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo10.pdf">  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo11.pdf">
104  Scales, growth rates and spectral fluxes of baroclinic instability in  Scales, growth rates and spectral fluxes of baroclinic instability in
105  the ocean.</a> J. Phys. Oceanogr., in press.  the ocean.</a> J. Phys. Oceanogr., 41, 1057-1076.
106  </li></ul>  </li></ul>
107    
108  <ul><li>  <ul><li>
109  C. Ubelmann and L. Fu, 2011:  C. Ubelmann and L. Fu, 2011:
110  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011.pdf">  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011a.pdf">
111  Vorticity structures in the tropical Pacific from a numerical simulation.</a>  Vorticity structures in the Tropical Pacific from a numerical simulation.</a>
112  J. Phys. Oceanogr., submitted.  J. Phys. Oceanogr., 41, 1455.
113  </li></ul>  </li></ul>
114    
115  <ul><li>  <ul><li>
116  N. Vinogradova, R. Ponte, and P. Heimbach, 2011: Dynamics and forcing of sea  C. Ubelmann and L. Fu, 2011:
117  surface temperature variability on climate time scales. J. Clim., submitted.  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011b.pdf">
118    Cyclonic eddies formed at the Pacific tropical instability wave fronts.</a>
119    J. Geophys. Res., 116, C12021.
120  </li></ul>  </li></ul>
121    
122  <ul><li>  <ul><li>
123  D. Volkov and L. Fu, 2011: Mechanism for the interannual variability of the  D. Volkov and L. Fu, 2011:
124  Azores Current eddy energy. Geophys. Res. Lett., submitted.  <a href="http://ecco2.org/manuscripts/2011/VolkovFu2011.pdf">
125    Interannual variability of the Azores Current strength and eddy energy
126    in relation to atmospheric forcing.</a> J. Geophys. Res., 116, C11011.
127  </li></ul>  </li></ul>
128    
   
129  <ul><li>  <ul><li>
130  Wunsch, C., 2011: Covariances and linear predictability of the North Atlantic Ocean. submitted.  Wunsch, C., 2011:
131    The decadal mean circulation and Sverdrup balance.
132    J. Marine Res., 69, 417-434.
133  </li></ul>  </li></ul>
134    
135  <ul><li>  <ul><li>
136  Wunsch, C., 2011:  Y. Xu and L. Fu, 2011:
137  The decadal mean circulation and Sverdrup balance.  <a href="http://ecco2.org/manuscripts/2011/XuFu2011.pdf">
138  J. Marine Res., in press.  Global variability of the wavenumber spectrum of
139    oceanic mesoscale turbulence.</a> J. Phys. Oceanogr., 41, 802-809.
140  </li></ul>  </li></ul>
141    
142  <ul><li>  <ul><li>
143  Y. Xu and L. Fu, 2011: Global variability of the wavenumber spectrum of  Y. Xu, L. Fu, and R. Tulloch, 2011: The global characteristics of the
144  oceanic mesoscale turbulence. J. Phys. Oceanogr., in press,  wavenumber spectrum of ocean surface wind. J. Phys. Oceanogr., 41,
145  doi:10.1175/2010JPO4558.1.  1576-1582.
146  </li></ul>  </li></ul>
147    
148  <ul><li>  <ul><li>
149  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal
150  excitation of interannual Atlantic meridional overturning circulation  excitation of interannual Atlantic meridional overturning circulation
151  variability. J. Climate, in press, doi:10.1175/2010JCLI3610.1.  variability. J. Climate, 24(2), 413-423, doi:10.1175/2010JCLI3610.1.
152  </li></ul>  </li></ul>
153    
 <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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