%--------------------------------------------%
% Definitions of abbreviations for journals  % 
%--------------------------------------------%

@string{ advgeo =  {\it Advances in Geophysics}}
@string{ anngeo =  {\it Ann.\ Geophysicae}}
@string{ annrevflm =  {\it Ann.\ Rev.\ Fluid Mech.}}
@string{ asl =  {\it Atmos.\ Sci.\ Letters}}
@string{ atmenv =  {\it Atmospheric Environment}}
@string{ atmocphys =  {\it Atmos.\ Ocean.\ Phys.}}
@string{ atmoce =  {\it Atmosphere-Ocean}}
@string{ atmres =  {\it Atmospheric Research}}
@string{ bams =  {\it Bull.\ Am.\ Meteorol.\ Soc.}}
@string{ blmet =  {\it Boundary Layer Meteorology}}
@string{ cdyn =  {\it Climate Dyn.}}
@string{ chaos =  {\it Chaos}}
@string{ climdyn =  {\it Climate Dynamics}}
@string{ climchange =  {\it Climatic Change}}
@string{ climres =  {\it Climatic Research}}
@string{ contr =  {\it Contr.\ Atmos.\ Phys.}}
@string{ dynao =  {\it Dynamics of Atmospheres and Oceans}}
@string{ grl =  {\it Geophys.\ Res.\ Lett.}}
@string{ ijclim =  {\it Int.\ J. Climatol.}}
@string{ jam =  {\it J.~Appl.\ Met.}}
@string{ jaot =  {\it J.~Atmos.\ Ocean.\ Technol.}}
@string{ jas =  {\it J.~Atmos.\ Sci.}}
@string{ jappmet =  {\it J.~Applied Met.}}
@string{ jatterrphys =  {\it J.~Atmos.\ Terr.\ Phys.}}
@string{ jclim =  {\it J.\ Climate}}
@string{ jcompphys =  {\it J.\ Comput. Phys.}}
@string{ jfm =  {\it  J.~Fluid~Mech.}}
@string{ jgr =  {\it J.~Geophys.\ Res.}}
@string{ jhyd =  {\it J.~Hydrology}}
@string{ jhydromet =  {\it J.~Hydromet.}}
@string{ jmet =  {\it J.~Meteor.}}
@string{ jmsj =  {\it J.~Meteor.\ Soc.\ Japan.}}
@string{ jpo =  {\it J.~Phys.\ Oceanogr.}}
@string{ lamet =  {\it La M\'et\'eorologie}}
@string{ map =  {\it Meteorol.\ Atmos.\ Phys.}}
@string{ metapp =  {\it Meteorol.\ Appl.}}
@string{ metmag =  {\it Met.\ Magazine}}
@string{ metru =  {\it Meteorol.\ Rundsch.}}
@string{ metz =  {\it Meteorol.\ ZeitschriftN.F. }}
@string{ mwr =  {\it Mon.\ Wea.\ Rev.}}
@string{ nat =  {\it Nature}}
@string{ ocedyn =  {\it Ocean Dynamics}}
@string{ pageo =  {\it Pure Appl.\ Geophys.}}
@string{ physletta =  {\it Physics Letters A}}
@string{ physrevlett =  {\it Phys.\ Rev.\ Letters}}
@string{ physreve =  {\it Phys.\ Rev.\ E}}
@string{ phystod =  {\it Physics Today}}
@string{ physfl =  {\it Phys.\ Fluids}}
@string{ qjhms =  {\it Quart.\ J.~Hungarian Met.\ Service}}
@string{ qjrms =  {\it Quart.\ J.~Roy.\ Met.\ Soc.}}
@string{ revgeo =  {\it Rev.\ Geophys.}}
@string{ revmodphys =  {\it Reviews of Modern Physics}}
@string{ revacacolomb =  {\it Revista de la Academia Colombiana de Ciencieas}}
@string{ taclim =  {\it Theor.\ Appl.\ Climatol.}}
@string{ tel =  {\it Tellus}}
@string{ sci =  {\it Science}}
@string{ wrr =  {\it Water Resour.\ Res.}}
@string{ weather =  {\it Weather}}
@string{ zmet =  {\it Z.\ Meteorol.}}
@string{ revgeospace =  {\it Rev.\ Geophys.\ Space Phys.}}
@string{ pss =  {\it Planet.\ Space Sci.}}

%==========================================================================

@book{batchelor1967,
   author    = {G. K. Batchelor},
   title     = {An Introduction to Fluid Dynamics},
   year      = {1967},
   publisher = {Cambridge University Press, 615 pp}
}

@article{braccoandmcwilliams2010,
   author    = {A. Bracco and  J. C. McWilliams},
   title     = {Reynolds-number dependency in homogeneous, stationary
                two-dimensional turbulence},
   journal   = jfm,
   year      = {2010},
   volume    = {646},
   pages     = {517--526}
}

@book{canutoetal1988,
  author =       {C. Canuto and M.Y. Hussaini and A. Quarteroni and
                  T.A. Zhang},
  title =        {Spectral {M}ethods in {F}luid {D}ynamics},
  series =       {Spinger Series in Computational Physics},
  publisher =    {Spinger},
  year =         {1988},
  address =      {Spinger-Verlag Berlin Heidelberg}
}

@article{danilovandgurarie2000,
  author =       {S. Danilov and D. Gurarie},
  title =        {Quasi-two-dimensional turbulence},
  journal =      {Physics-Uspekhi},
  year =         {2000},
  volume =       {43},
  pages =        {863-900}
}

@article{danilovandgurarie2001,
  author =       {S. Danilov and D. Gurarie},
  title =        {Forced two-dimensional turbulence in spectral and physical
                  space},
  journal =      physreve,
  year =         {2001},
  volume =       {63},
  pages =        {061208}
}

@article{fornberg1987,
  author =       {B. Fornberg},
  title =        {The pseudospectral method: {C}omparison with finite
                  differences for the elastic wave equation},
  journal =      {\it Geophysics},
  year =         {1987},
  volume =       {52},
  pages =        {483--501}
}

@article{vanheist1994,
   author    = {G.J.F. Van Heijst},
   title     = {{T}opography {E}ffects on {V}ortices in a {R}otating {F}luid},
   journal   = {\it Meccanica},
   year      = {1994},
   volume    = {29},
   pages     = {431--451},
}

@article{johnstonandliu2004,
  author =       {H. Johnston and J.-G. Liu},
  title =        {Accurate, stable and efficient {N}avier-{S}tokes
                  solvers based on explicit treatment of the pressure term},
  journal =      jcompphys ,
  year =         {2004},
  volume =       {199},
  pages =        {221--259}
}

@article{kreissandoliger1972,
   author    = {H.-O. Kreiss and J. Oliger},
   title     = {Comparison of accurate methods for the integration
                of hyperbolic equations},
   journal   = tel,
   pages     = {199--215},
   year      = {1972},
   volume    = {24}
}

@article{orszag1972,
  author =       {S. Orszag},
  title =        {Comparison of pseudospectral and spectral approximation},
  journal =      {\it Stud. Appl. Math.},
  year =         {1972},
  volume =       {51},
  pages =        {253--259}
}