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revision 1.13 by dimitri, Wed Jul 2 20:14:24 2014 UTC revision 1.17 by dimitri, Fri Nov 7 03:23:22 2014 UTC
# Line 4  mixing in a circumpolar channel. Ocean M Line 4  mixing in a circumpolar channel. Ocean M
4  </li></ul>  </li></ul>
5    
6  <ul><li>  <ul><li>
7  H. Brix, D. Menemenlis, C. Hill, S. Dutkiewicz, O. Jahn, D. Wang, K. Bowman,  M. Azaneu, R. Kerr, and M. Mata,
8  and H. Zhang, 2014: Using Green's Functions to initialize and adjust a global,  2014: <a href="http://ecco2.org/manuscripts/2014/Azaneu2014.pdf">
9  eddying ocean biogeochemistry general circulation model. Ocean Modelling,  Assessment of the ECCO2 reanalysis on the representation of Antarctic
10    Bottom Water properties.</a> Ocean Sci. Discuss., 11, 1023-1091.
11    </li></ul>
12    
13    <ul><li>
14    H. Brix, D. Menemenlis, C. Hill, S. Dutkiewicz, O. Jahn, D. Wang,
15    K. Bowman, and H. Zhang, 2014:
16    <a href="http://ecco2.org/manuscripts/2014/Brix2014.pdf"> Using
17    Green's Functions to initialize and adjust a global, eddying ocean
18    biogeochemistry general circulation model.</a> Ocean Modelling,
19  submitted.  submitted.
20  </li></ul>  </li></ul>
21    
# Line 44  Deep-Sea Res. I, 86, 1-20. Line 53  Deep-Sea Res. I, 86, 1-20.
53  </li></ul>  </li></ul>
54    
55  <ul><li>  <ul><li>
56    M. Flexas, M. Schodlok, L. Padman, D. Menemenlis, and A. Orsi, 2014:
57    <a href="http://ecco2.org/manuscripts/2014/Flexas2014.pdf">
58    Role of tides on the formation of the Antarctic Slope Front at the
59    Weddell-Scotia Confluence.</a> J. Geophys. Res., submitted.
60    </li></ul>
61    
62    <ul><li>
63    D. Halkides, D. Waliser, T. Lee, D. Menemenlis, and B. Guan, 2014:
64    Quantifying the processes controlling intraseasonal mixed-layer
65    temperature variability in the tropical Indian
66    Ocean. J. Geophys. Res., revised.
67    </li></ul>
68    
69    <ul><li>
70    D. Halpern, D. Menemenlis, and X. Wang,
71    2014: <a href="http://ecco2.org/manuscripts/2014/Halpern2014.pdf">
72    Impact of data assimilation on ECCO2 Equatorial Undercurrent and North
73    Equatorial Countercurrent in the Pacific Ocean.</a> J. Atmos. Ocean
74    Tech., in press.
75    </li></ul>
76    
77    <ul><li>
78  A. Kalmikov and P. Heimbach, 2014: A Hessian-based method for Uncertainty  A. Kalmikov and P. Heimbach, 2014: A Hessian-based method for Uncertainty
79  Quantification in Global Ocean State Estimation. SIAM J. Scientific Computing  Quantification in Global Ocean State Estimation. SIAM J. Scientific Computing
80  (Special Section on Planet Earth and Big Data), submitted.  (Special Section on Planet Earth and Big Data), submitted.
# Line 67  model.</a> J. Mar. Syst., 129, 437-451. Line 98  model.</a> J. Mar. Syst., 129, 437-451.
98  </li></ul>  </li></ul>
99    
100  <ul><li>  <ul><li>
101  C. Piecuch and R. Ponte, 2014: Mechanisms of global mean steric sea  L. Ott, S. Pawson, J. Collatz, W. Gregg, D. Menemenlis, H. Brix,
102  level change.  J. Clim., in press.  C. Rousseaux, K. Bowman, J. Liu, A. Eldering, M. Gunson, S. Kawa,
103    2014: Quantifying the observability of CO2 flux uncertainty in
104    atmospheric CO2 records using products from NASA's Carbon Monitoring
105    Flux Pilot Project. J. Geophys. Res., submitted.
106  </li></ul>  </li></ul>
107    
108  <ul><li>  <ul><li>
109  M. Flexas, M. Schodlok, D. Menemenlis, L. Padman, and A. Orsi, 2014:  C. Piecuch and R. Ponte, 2014: Mechanisms of global mean steric sea
110  Role of tides on the formation of the Antarctic Slope Front at the  level change.  J. Clim., in press.
 Weddell-Scotia Confluence. in prep.  
111  </li></ul>  </li></ul>
112    
113  <ul><li>  <ul><li>

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