source: NEMO/trunk/tests/test_cases.bib @ 10240

Last change on this file since 10240 was 10240, checked in by mathiot, 22 months ago

include README in README.rst + del README + update .bib + add .bib management in README.rst

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1@book{HAIDVOGEL1999,
2   author = {D. B. Haidvogel and A. Beckmann},
3   publisher = {Imperial College Press, London},
4   year = {1999},
5   title = {Numerical ocean circulation modeling}
6}
7
8@book{BURCHARD2002,
9   title={GETM: A General Estuarine Transport Model; Scientific Documentation},
10   author={Burchard, Hans and Bolding, Karsten},
11   year={2002},
12   publisher={European Commission, Joint Research Centre, Institute for Environment and Sustainability}
13}
14
15@article{ILICAK2012,
16   title = "Spurious dianeutral mixing and the role of momentum closure",
17   journal = "Ocean Modelling",
18   volume = "45-46",
19   pages = "37 - 58",
20   year = "2012",
21   issn = "1463-5003",
22   doi = "10.1016/j.ocemod.2011.10.003",
23   author = "Mehmet Ilicak and Alistair J. Adcroft and Stephen M. Griffies and Robert W. Hallberg",
24   keywords = "Spurious dianeutral transport, Cabbeling, Overflows, Exchange-flow, Ocean models, Momentum transport, Tracer advection, Reference potential energy"
25}
26
27@article{DEBREU2012,
28   title = "Two-way nesting in split-explicit ocean models: Algorithms, implementation and validation",
29   journal = "Ocean Modelling",
30   volume = "49-50",
31   pages = "1 - 21",
32   year = "2012",
33   issn = "1463-5003",
34   doi = "10.1016/j.ocemod.2012.03.003",
35   author = "Laurent Debreu and Patrick Marchesiello and Pierrick Penven and Gildas Cambon",
36   keywords = "Two-way nesting, Finite difference method, Modeling, Boundary conditions, Coastal upwelling"
37}
38
39@article{PENVEN2006,
40   title = "Evaluation and application of the ROMS 1-way embedding procedure to the central california upwelling system",
41   journal = "Ocean Modelling",
42   volume = "12",
43   number = "1",
44   pages = "157 - 187",
45   year = "2006",
46   issn = "1463-5003",
47   doi = "10.1016/j.ocemod.2005.05.002",
48   author = "Pierrick Penven and Laurent Debreu and Patrick Marchesiello and James C. McWilliams",
49   keywords = "Ocean models, Boundary conditions, Embedding, Coastal upwelling, Mesoscale eddies, Eddy kinetic energy, North America, West Coast, Central upwelling system, Monterey Bay, 35–41°N, 128–121°W"
50}
51
52@article{SPALL1991,
53   author = {Spall, M. A. and Holland, W. R.},
54   title = {A Nested Primitive Equation Model for Oceanic Applications},
55   journal = {Journal of Physical Oceanography},
56   volume = {21},
57   number = {2},
58   pages = {205-220},
59   year = {1991},
60   doi = {10.1175/1520-0485(1991)021<0205:ANPEMF>2.0.CO;2},
61}
62
63@article{MATHIOT2017,
64   author = {Mathiot, P. and Jenkins, A. and Harris, C. and Madec, G.},
65   title = {Explicit representation and parametrised impacts of under ice shelf seas in the ${z}^{\ast}$ coordinate ocean model NEMO 3.6},
66   journal = {Geoscientific Model Development},
67   volume = {10},
68   year = {2017},
69   number = {7},
70   pages = {2849--2874},
71   url = {https://www.geosci-model-dev.net/10/2849/2017/},
72   doi = {10.5194/gmd-10-2849-2017}
73}
74
75@article{LOSCH2008,
76   author = {Losch, M.},
77   title = {Modeling ice shelf cavities in a z coordinate ocean general circulation model},
78   journal = {Journal of Geophysical Research: Oceans},
79   volume = {113},
80   year = {2008},
81   number = {C8},
82   pages = {},
83   keywords = {Ice shelf cavities, numerical ocean modeling, z coordinates},
84   doi = {10.1029/2007JC004368},
85   url = {https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2007JC004368},
86   eprint = {https://agupubs.onlinelibrary.wiley.com/doi/pdf/10.1029/2007JC004368},
87   abstract = {Processes at the ice shelf-ocean interface and in particular in ice shelf cavities around Antarctica have an observable effect on the solutions of basin scale to global coupled ice-ocean models. Despite this, these processes are not routinely represented in global ocean and climate models. It is shown that a new ice shelf cavity model for z coordinate models can reproduce results from an intercomparison project of earlier approaches with vertical ?~C or isopycnic coordinates. As a proof of concept, ice shelves are incorporated in a 100-year global integration of a z coordinate model. In this simulation, glacial meltwater can be traced as far as north as 15??S. The observed effects of processes in the ice shelf cavities agree with previous results from a ?~C coordinate model, notably the increase in sea ice thickness. However, melt rates are overestimated probably because the parameterization of basal melting does not suit the low resolution of this configuration.}
88}
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