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1 <ul><li>
2 M. Baringer, et al., 2013: Meridional Overturning Circulation and Heat
3 Transport Observations in the Atlantic Ocean. Bull. Amer. Met. Soc., Special
4 Supplement: State of the Climate in 2012, S65-S68.
5 </li></ul>
6
7 <ul><li>
8 A. Chaudhuri, R. Ponte, G. Forget, and P. Heimbach, 2013: A comparison of
9 atmospheric reanalysis surface products over the ocean and implications for
10 uncertainties in air-sea boundary forcing. J. Clim., 26, 153-170, doi:10.1175/JCLI-D-12-00090.1.
11 </li></ul>
12
13 <ul><li>
14 R. Chen, 2013: <a href="http://ecco2.org/manuscripts/2013/Chen2013.pdf">
15 Energy pathways and structures of oceanic eddies from the ECCO2 state
16 estimate and simplified models.</a> Ph.D. Thesis, MIT-WHOI Joint
17 Program, Cambridge, MA.
18 </li></ul>
19
20 <ul><li>
21 B. Dushaw, P. Worcester, M. Dzieciuch, and D. Menemenlis,
22 2013: <a href="http://ecco2.org/manuscripts/2013/Dushaw2013.pdf"> On
23 the time-mean state of ocean models and the properties of long-range
24 acoustic propagation.</a> J. Geophys. Res., 118, 4346-4362.
25 </li></ul>
26
27 <ul><li>
28 I. Fenty and P. Heimbach, 2013: Coupled sea ice-ocean state estimation
29 in the Labrador Sea and Baffin Bay. J. Phys. Oceanogr., 43(6), 884-904,
30 doi:10.1175/JPO-D-12-065.1.
31 </li></ul>
32
33 <ul><li>
34 I. Fenty and P. Heimbach, 2013: Hydrographic preconditioning for seasonal sea
35 ice anomalies in the Labrador Sea. J. Phys. Oceanogr., 43(6), 863-883,
36 doi:10.1175/JPO-D-12-064.1.
37 </li></ul>
38
39 <ul><li>
40 D. Goldberg and P. Heimbach, 2013: Parameter and state estimation with
41 a time-dependent adjoint marine ice sheet model. The Cryosphere, 7,
42 1659-1678.
43 </li></ul>
44
45 <ul><li>
46 A. Kalmikov, 2013: Uncertainty quantification in ocean state estimation.
47 Ph.D. Thesis, MIT-WHOI Joint Program, Cambridge, MA.
48 </li></ul>
49
50 <ul><li>
51 A. Khazendar, M. Schodlok, I. Fenty, S. Ligtenberg, E. Rignot, and
52 M. van den Broeke, 2013:
53 <a href="http://ecco2.org/manuscripts/2013/Khazendar2013.pdf">
54 Observed thinning of Totten Glacier is linked to coastal polynya
55 variability.</a> Nat. Commun., 4, 2857.
56 </li></ul>
57
58 <ul><li>
59 M. Manizza, M. Follows, S. Dutkiewicz, D. Menemenlis, C. Hill, R. Key, 2013:
60 <a href="http://ecco2.org/manuscripts/2013/Manizza2013.pdf">
61 Changes in the Arctic Ocean CO2 sink (1996-2007): A regional model
62 analysis.</a> Global Biogeochem. Cycles, 27, 1108-1118.
63 </li></ul>
64
65 <ul><li>
66 M. Mazloff, R. Ferrari, and T. Schneider, 2013: The force balance of
67 the Southern Ocean meridional overturning circulation.
68 J. Phys. Oceanogr., 43, 1193-1208.
69 </li></ul>
70
71 <ul><li>
72 M. Morlighem, E. Rignot, J. Mouginot, X. Wu, H. Seroussi, E. Larour,
73 and J. Paden, 2013: High-resolution bed topography mapping of Russell
74 Glacier, Greenland, inferred from Operation IceBridge data.
75 J. Glaciol., 59, 1016-1023.
76 </li></ul>
77
78 <ul><li>
79 M. Morlighem, H. Seroussi, E. Larour and E. Rignot, 2013: Inversion of
80 basal friction in Antarctica using exact and incomplete adjoints of a
81 higher-order model, J. Geophys. Res., 118, 1746-1753.
82 </li></ul>
83
84 <ul><li>
85 C. Piecuch and R. Ponte, 2013. Buoyancy-driven interannual sea level
86 changes in the tropical South Atlantic, Journal of Physical
87 Oceanography, 43, 533-547.
88 </li></ul>
89
90 <ul><li>
91 R. Reynolds, D. Chelton, J. Roberts, M. Martin, D. Menemenlis, and C. Merchant,
92 2013: <a href="http://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-12-00787.1">
93 Objective determination of feature resolution in two sea surface temperature
94 analyses.</a> J. Clim., 26, 2514-2533.
95 </li></ul>
96
97 <ul><li>
98 F. Roquet, C. Wunsch, G. Forget, P. Heimbach, et al., 2014: Estimates of the Southern Ocean General Circulation Improved by Animal-Borne Instruments. Geophys. Res. Lett., 40, 6176-6180, doi:10.1002/2013GL058304.
99 </li></ul>
100
101 <ul><li>
102 R. Sciascia, F. Straneo, C. Cenedese, and P. Heimbach, 2013: Seasonal
103 variability of sub- marine melt rate and circulation in an east Greenland
104 fjord. J. Geophys. Res., 118, 2492-2506, doi:10.1002/jgrc.20142.
105 </li></ul>
106
107 <ul><li>
108 K. Speer and G. Forget, 2013: Global distribution and formation of mode waters
109 (accepted book chapter). In: G.Siedler, J.Church, J.Gould and S.Griffies,
110 eds.: Ocean circulation and climate: observing and modelling the global ocean,
111 2nd Ed., Elsevier.
112 </li></ul>
113
114 <ul><li>
115 F. Straneo and P. Heimbach, 2013: North Atlantic warming and the retreat of Greenland's outlet glaciers. Nature, 504, 36-43, doi:10.1038/nature12854.
116 </li></ul>
117
118 <ul><li>
119 F. Straneo, P. Heimbach, O. Sergienko, and 14 others, 2013: Challenges to Understanding the Dynamic Response of Greenlands Marine Terminating Glaciers to Oceanic and Atmospheric Forcing. Bull. Amer. Met. Soc., 94, 1131-1144.
120 </li></ul>
121
122 <ul><li>
123 R. Tenzer, N. Dayoub, and A. Abdalla, 2013: Analysis of a relative
124 offset between vertical datums at the North and South Islands of New
125 Zealand. Applied Geomatics,
126 <a href="http://link.springer.com/article/10.1007%2Fs12518-013-0106-8">
127 doi:10.1007/s12518-013-0106-8</a>.
128 </li></ul>
129
130 <ul><li>
131 N. Vinogradova and R. Ponte, 2013. Clarifying the link between surface salinity and freshwater fluxes on monthly to inter-annual timescales, J. Geophys. Res., 118, 3190-3201.
132 </li></ul>
133
134 <ul><li>
135 D. Volkov, F. Landerer, and S. Kirillov,
136 2013: <a href="http://ecco2.org/manuscripts/2013/VolkovCSR2013.pdf">
137 The genesis of sea level variability in the Barents Sea.</a>
138 Continental Shelf Reseach, 66, 92-104.
139 </li></ul>
140
141 <ul><li>
142 D. Volkov and F. Landerer, 2013:
143 <a href="http://ecco2.org/manuscripts/2013/VolkovJGR2013.pdf">
144 Non-seasonal fluctuations of the Arctic Ocean mass observed by the GRACE
145 satellites.</a> J. Geophys. Res., 118, 6451-6460.
146 </li></ul>
147
148 <ul><li>
149 C. Wortham, 2013: A multi-dimensional spectral description of ocean
150 variability with applications. Ph.D. Thesis, MIT-WHOI Joint Program,
151 Cambridge, MA.
152 </li></ul>
153
154 <ul><li>
155 C. Wunsch, 2013: Covariances and linear predictability of the Atlantic
156 Ocean. Deep-Sea Research Part II, 85, 228-243 doi:10.1016/j.dsr2.2012.07.015
157 </li></ul>
158
159 <ul><li>
160 C. Wunsch, 2013: Baroclinic motions and energetics as measured by altimeters.
161 J. Atmos. Ocean Tech., 20, 140-150, doi:10.1175/JTECH-D-12-00035.1.
162 </li></ul>
163
164 <ul><li>
165 C. Wunsch, R. Schmitt, and D. Baker, 2013:
166 Climate change as an intergen- erational problem.
167 Proceedings of the National Academy of Sciences,
168 110, 4435-4436, doi:10.1073/pnas.1302536110.
169 </li></ul>
170
171 <ul><li>
172 C. Wunsch and P. Heimbach, 2013: Two Decades of the Atlantic Meridional Overturning Circulation: Anatomy, Variations, Extremes, Prediction, and Overcoming Its Limitations. J. Clim., 26, 7167-7186, doi:10.1175/JCLI-D-12-00478.1.
173 </li></ul>
174
175 <ul><li>
176 C. Wunsch and P. Heimbach, 2013: Dynamically and kinematically consistent global ocean circulation and ice state estimates. In: G.Siedler, J.Church, J.Gould and S.Griffieses, eds.: Ocean Circulation and Climate: A 21st Century Perspective. Chapter 21, pp. 553-579, Elsevier, doi:10.1016/B978-0-12-391851-2.00021-0.
177 </li></ul>
178
179 <ul><li>
180 Y. Xu, E. Rignot, I. Fenty, D. Menemenlis, and M. Flexas,
181 2013: <a href="http://ecco2.org/manuscripts/2013/Xu2013.pdf">
182 Subaqueous melting of Store Glacier, West Greenland from
183 three-dimensional, high-resolution numerical modeling and ocean
184 observations.</a> Geophys. Res. Lett., 40, 4648-4653.
185 </li></ul>
186
187 <ul><li>
188 X. Zhai and C. Wunsch, 2013:
189 On the Variability of Wind Power Input to the Oceans with a Focus on the
190 Subpolar North Atlantic.
191 Journal of Climate, 26, 3892-3903.
192 </li></ul>

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