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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>
52  M. Manizza, M. Follows, S. Dutkiewicz, D. Menemenlis, J. McClelland,  M. Manizza, M. Follows, S. Dutkiewicz, D. Menemenlis, J. McClelland,
53  C. Hill, B. Peterson, R. Key, 2011:  C. Hill, B. Peterson, R. Key, 2011:
54  A model of the Arctic Ocean carbon cycle.  <a href="http://ecco2.org/manuscripts/2011/Manizza2011.pdf">
55  J. Geophys. Res., submitted.  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>
# Line 56  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>
87  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:  S. Tank, M. Manizza, R. Holmes, J. McClelland, and B. Peterson, 2011:
88  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo10.pdf">  <a href="http://ecco2.org/manuscripts/2011/Tank2011.pdf">
89  Scales, growth rates and spectral fluxes of baroclinic instability in  The processing and impact of dissolved riverine nitrogen in the Arctic
90  the ocean.</a> J. Phys. Oceanogr., in press.  Ocean.</a> Estuaries and Coasts, doi:10.1007/s12237-011-9417-3.
91  </li></ul>  </li></ul>
92    
93  <ul><li>  <ul><li>
94  C. Ubelmann and L. Fu, 2011:  R. Tulloch, C. Hill, and O. Jahn, 2011:
95  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011.pdf">  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etalagu11.pdf">
96  Vorticity structures in the tropical Pacific from a numerical simulation.</a>  Possible spreadings of buoyant plumes and local coastline
97  J. Phys. Oceanogr., submitted.  sensitivities using flow syntheses from 1992 to 2007.</a> Geophysical
98    Monograph Series, 195, 245-255.
99  </li></ul>  </li></ul>
100    
101  <ul><li>  <ul><li>
102  N. Vinogradova, R. Ponte, and P. Heimbach, 2011: Dynamics and forcing of sea  R. Tulloch, J. Marshall, C. Hill, and K. Smith, 2011:
103  surface temperature variability on climate time scales. J. Clim., submitted.  <a href="http://ocean.mit.edu/~tulloch/Publications/tulloch_etaljpo11.pdf">
104    Scales, growth rates and spectral fluxes of baroclinic instability in
105    the ocean.</a> J. Phys. Oceanogr., 41, 1057-1076.
106  </li></ul>  </li></ul>
107    
108  <ul><li>  <ul><li>
109  D. Volkov and L. Fu, 2011: Mechanism for the interannual variability of the  C. Ubelmann and L. Fu, 2011:
110  Azores Current eddy energy. Geophys. Res. Lett., submitted.  <a href="http://ecco2.org/manuscripts/2011/UbelmannFu2011a.pdf">
111    Vorticity structures in the Tropical Pacific from a numerical simulation.</a>
112    J. Phys. Oceanogr., 41, 1455.
113  </li></ul>  </li></ul>
114    
115    <ul><li>
116    C. Ubelmann and L. Fu, 2011:
117    <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>
121    
122  <ul><li>  <ul><li>
123  Wunsch, C., 2011: Covariances and linear predictability of the North Atlantic Ocean. submitted.  D. Volkov and L. Fu, 2011:
124    <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:  Wunsch, C., 2011:
131  The decadal mean circulation and Sverdrup balance.  The decadal mean circulation and Sverdrup balance.
132  J. Marine Res., in press.  J. Marine Res., 69, 417-434.
133  </li></ul>  </li></ul>
134    
135  <ul><li>  <ul><li>
136  Y. Xu and L. Fu, 2011: Global variability of the wavenumber spectrum of  Y. Xu and L. Fu, 2011:
137  oceanic mesoscale turbulence. J. Phys. Oceanogr., in press,  <a href="http://ecco2.org/manuscripts/2011/XuFu2011.pdf">
138  doi:10.1175/2010JPO4558.1.  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  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal  Y. Xu, L. Fu, and R. Tulloch, 2011: The global characteristics of the
144  excitation of interannual Atlantic meridional overturning circulation  wavenumber spectrum of ocean surface wind. J. Phys. Oceanogr., 41,
145  variability. J. Climate, in press, doi:10.1175/2010JCLI3610.1.  1576-1582.
146  </li></ul>  </li></ul>
147    
148  <ul><li>  <ul><li>
149  L. Zanna, P. Heimbach, A. Moore and E. Tziperman, 2011. Analysis of the  L. Zanna, P. Heimbach, A. Moore, and E. Tziperman, 2011: Optimal
150  predictability and variability of the Atlantic ocean in response to optimal  excitation of interannual Atlantic meridional overturning circulation
151  surface excitation.  Quart. J. Roy. Met. Soc., submitted.  variability. J. Climate, 24(2), 413-423, doi:10.1175/2010JCLI3610.1.
152  </li></ul>  </li></ul>
153    
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