{"id":37,"date":"2018-01-20T22:45:47","date_gmt":"2018-01-20T22:45:47","guid":{"rendered":"http:\/\/faculty.washington.edu\/luanne\/wordpress\/?page_id=37"},"modified":"2021-10-05T22:25:50","modified_gmt":"2021-10-05T22:25:50","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.washington.edu\/luanne\/?page_id=37","title":{"rendered":"Publications"},"content":{"rendered":"

ResearchGate Profile<\/a><\/p>\n

Bold indicates student lead papers<\/strong><\/p>\n

OCEAN CLIMATE VARIABILITY:\u00a0 SEA SURFACE HEIGHT, CIRCULATION, SEA SURFACE TEMPERATURE AND SALINITY, AND SEA ICE.<\/strong><\/p>\n

Oldenberg, D., <\/strong> Wills, K. Armour, and L. Thompson, Mechanisms of low-frequency variability in North Atlantic Overturning<\/a>, J. Climate<\/em>, 2021, 32(12), 4733-4755.<\/p>\n

Deppenmeier, A.-L., F. O. Bryan, W. Kessler, and L. Thompson. Modulation of Cross-isothermal velocity with ENSO in the tropical Pacific cold tongue<\/a>, 2021, Physical Oceanography, 51(5), 1559-1574 <\/em>.<\/p>\n

Abdalla, S. and 390 co-authors, 2021, Altimetry for the future: Building on 25 years of Progress, International Altimetry Team,<\/a> Advances in Space Research<\/em>, Volume 68, Issue 2, 15 July 2021, Pages 319-363<\/p>\n

Hirschi, J., B., Barnier, C. Boning, A. Biastoch, A. T. Baker, A. Coward, S. Danilove, S. Drifhout, K. Getzlaff, S. M. Griffies, H. Hasumi, H. Hewitt, D. Iiovino, T. Kwasaki, A. E. Kiss, Al Marzocchi, B. Moat, J-M. Molines, P. G. Myers, T. Penduff, M. Roberst, A.-M. Treguier, D. V. Sein, D. Sidorenko, J. Small, P. Spence, L. Thompson, W. Wieijer, X. Xu, The Atlantic Meridional Overturning Circulation in High-Resolution Models, 2020, Journal of Geophysical Research: Oceans. 125, <\/em>e2019JC015522, https:\/\/doi.org\/10.1029\/2019JC015522<\/a><\/p>\n

Todd, R. E., P. Chavez, S. Clayton, S. E. Cravatte, M. Goes, M. I. Graco, X. Lin, J. Sprintall, N. V. Zilberman, M. Archer, J. Ar\u00edstegui, M. A. Balmaseda, J. M. Bane, M. O. Baringer, J. A. Barth, L. M. Beal, P. B., P.H.R. Calil, E. Campos, L. R Centurioni, M. P. Chidichimo, M. Cirano, M. F. Cronin, E. N. Curchitser, R. E. Davis, M. Dengler, B. DeYoung, S. Dong, R. Escribano, A. J. Fassbender, S. E. Fawcett, M. Feng, G. J. Goni, A. R. Gray, D. Guti\u00e9rrez, D. Hebert, R. Hummels, S-I Ito, M. Krug, F. Lacan, Lucas Laurindo, A. Lazar, C. M. Lee, M. Lengaigne, N. Levine, J. Middleton, I. Montes, M. Muglia, T. Nagai, H. I. Palevsky, J. B. Palter, H. E. Phillips, A. R. Piola, A. J Plueddemann, B. Qiu, R. R. Rodrigues, T. Rossby, M. Roughan, D. L. Rudnick, Ryan R. Rykaczewski, M. Seraceno, H. Seim, A. Sen Gupta, L. Shannon, B. M. Sloyan, Adrienne J Sutton, L. Thompson, A. K. van der Plas, D. Volkov, J. Wilkin, D. Zhang, and L. Zhang (2019) Global perspectives on Observing Ocean Boundary Current<\/a>, Front. Mar. Sci<\/em>., 6, p.423.<\/p>\n

Wills, R. C. J, D. S. Battisti, C. Proistosecu, L. Thompson, D. L. Hartmann, K. C. Armour, 2019, Ocean Circulation Signatures of North Pacific Decadal Variability<\/a>, Geophysical Research Letters.<\/em><\/p>\n

Meehl, G. A., J. M. Arblaster, C. T. Y. Chung, M. M. Holland, A. DuVivier, L. Thompon, D. Yang, and C. M. Bitz (2019), Sustained ocean changes Contributed to sudden Antarctic sea ice retreat in late 2016<\/a>.\u00a0 Nature Communications., 10.<\/p>\n

Oldengburg, D<\/strong>., K. Armour, L.Thompson and C. Bitz (2018) Distinct mechanisms of ocean heat transport into the Arctic under internal variability and climate change<\/a>, Geophys. Res. Lett., 45.<\/p>\n

Kelly, K. A.,\u00a0K. Drushka,\u00a0L. Thompson,\u00a0D. Le Bars, and\u00a0E. L. McDonagh\u00a0(2016), Impact of slowdown of Atlantic overturning circulation on heat and freshwater transports<\/a>, Geophys. Res. Lett.,\u00a043,\u00a07625- 7631.<\/p>\n

Zhang<\/strong>, <\/strong>J<\/strong>.,<\/strong> K. A. Kelly, and L. Thompson, 2016, The Role of Heating, Winds and Topography on Sea Level Changes in the North Atlantic<\/a>, J. Geophys. Res. Oceans<\/em>, 212, 2887-2900.<\/em><\/p>\n

Umbert, M.,\u00a0S. <\/strong>Guimbard,\u00a0G. Lagerloef,\u00a0L. Thompson,\u00a0M. Portabella,\u00a0J. Ballabrera-Poy, and\u00a0A. Turiel, 2015,\u00a0Detecting the surface salinity signature of Gulf Stream cold-core rings in Aquarius synergistic products<\/a>,\u00a0J. Geophys. Res. Oceans<\/em>,\u00a0120,\u00a0859\u2013874.<\/p>\n

Shao<\/strong>, <\/strong>A<\/strong>. <\/strong>E<\/strong>., Gille, S. T., Mecking, S., & Thompson, L. (2015). Properties of the Subantarctic Front and Polar Front from the skewness of sea level anomaly.<\/a> J. Geophys. Res. Oceans<\/em>, 120<\/em>(7), 5179\u20135193.\u00a0<\/span><\/p>\n

Kelly, K. A., L. Thompson and J. Lyman, 2014, The Coherence of Meridional Heat Transport in the Atlantic Ocean Inferred from Observations<\/a>, J<\/em>. <\/em>Climate<\/em>, 27, <\/em>1469-1487<\/p>\n

Thompson, L., G. Danabasoglu,\u00a0and M.\u00a0Patterson, 2015,\u00a0Observing and modeling the Atlantic Meridional Overturning Circulation<\/a>,\u00a0Eos<\/em>, 96,<\/em>\u00a0doi:10.1029\/2015EO026371. Published on 19 March 2015.<\/p>\n

Armour<\/strong> K<\/strong>.<\/strong>C<\/strong>.<\/strong>, CM Bitz, L Thompson and EC Hunke, 2011, Controls on Arctic sea ice from first-year and multi-year ice survivability<\/a>,\u00a0\u00a0Journal<\/em> of<\/em> Climate<\/em>, 24<\/strong>, 2378\u20132390. doi.org\/10.1175\/2010JCLI3823.1<\/p>\n

Jiang<\/strong>, <\/strong>C<\/strong>,<\/strong> L. Thompson, K. A. Kelly, and M. F. Cronin, 2009, The roles of intra-seasonal Kelvin waves and tropical instability waves in SST variability along equatorial Pacific in an isopycnal ocean model<\/a>, J<\/em>. <\/em>Climate<\/em>, 22, 3470-3487.<\/p>\n

Jiang<\/strong>, <\/strong>C<\/strong>,<\/strong> L. Thompson and K. A. Kelly, 2008, Influence of QuikSCAT winds in an isopycnal ocean model compared to NCEP2 winds<\/a>, Ocean<\/em> Modeling<\/em>, <\/em>24<\/strong>, <\/em>65-71.<\/p>\n

Dawe<\/strong>, <\/strong>J<\/strong>. <\/strong>T<\/strong>. and L. Thompson, 2007, PDO-related heat and temperature budget changes in a model of the North Pacific<\/a>. J<\/em>. <\/em>Climate<\/em>, 20, 2092-2108.<\/p>\n

Dawe<\/strong>, <\/strong>J<\/strong>. <\/strong>T<\/strong>. and L. Thompson, 2006, The effect of ocean surface currents on wind stress, heat flux, and wind power input<\/a>.\u00a0 Geophys<\/em>. <\/em>Res<\/em>. <\/em>Let<\/em>. 33, L09604.<\/p>\n

Jiang<\/strong>, <\/strong>C<\/strong>, M. Cronin, K, Kelly and L Thompson, 2005, Evaluation of a hybrid Satellite NWP based turbulent heat flux product using TAO buoys<\/a>.\u00a0 J<\/em>. <\/em>Geophys<\/em>. <\/em>Res<\/em>. 110(C9) C09007,<\/p>\n

Kelly, K. A., S. Dickinson, C. L. Jiang, G. C. Johnson, and L. A. Thompson, 2004, Impact of ocean currents on scatterometer winds in the Tropical Pacific Ocean, International Geoscience and Remote Sensing Symposium<\/a>, IGARSS ’04, IEEE, vol. 2, 799.<\/p>\n

Thompson, L, and C. Ladd, 2004. The Response of the North Pacific Ocean to Decadal Variability in Atmospheric Forcing: Wind Versus Buoyancy Forcing<\/a>, 34<\/strong>, J<\/em>. <\/em>Phys<\/em>. <\/em>Oceanogr<\/em>. 1373-1389.<\/p>\n

Thompson, L. K. A. Kelly, D. Darr and R. Hallberg, 2003.\u00a0 Buoyancy and mixed-layer effects on\u00a0 the Sea Surface Height Response in an isopycnal model of the North Pacific<\/a>. J<\/em>. <\/em>Phys<\/em>. <\/em>Oceanogr<\/em>.<\/em> 32, <\/strong>3657\u20133670.<\/strong><\/p>\n

Vivier, F., K. A. Kelly and L. Thompson, 2002.\u00a0 Heat budget in the Kuroshio Extension region: 1993-199<\/a>9.\u00a0 J<\/em>. <\/em>Phys<\/em>. <\/em>Oceanogr<\/em>., <\/em>32, <\/em>3436-3454.<\/p>\n

Kelly, K. A. and L. Thompson, 2002, Scatterometer Winds Explain Damped Rossby Waves<\/a>.\u00a0 Geophys<\/em>. <\/em>Res<\/em>. <\/em>Let<\/em>.<\/em>, 29, <\/strong>52-1.<\/p>\n

Kelly, K., F. Vivier and L. Thompson, 1999, Heat content Changes in the Pacific Ocean<\/a>. Science<\/em>, 284<\/strong>(5421), 1735.<\/p>\n

Vivier, F., K. A.\u00a0 Kelly, L. Thompson, 1999, The contribution of waves, wind forcing and surface heating to sea surface height observations of the North Pacific Ocean<\/a>, Journal<\/em> of<\/em> Geophysical<\/em> Research<\/em>, <\/em>104<\/strong>(C9)<\/strong>, <\/em>20767-20784.<\/em><\/p>\n

OCEAN CLIMATE MODEL EVALUATION<\/strong><\/p>\n

Kelly, K. A., and L. Thompson, 2016, An unexpected ocean model fix<\/a>, News and Views\u00a0Nature<\/em> Geoscience<\/em>, 535, 497-498, Nature<\/em> Geoscience<\/em>\u00a0doi.org\/10.1038\/535497a<\/p>\n

Thompson, L. and Y-O Kwon, 2010. An Enhancement of a Coupled Mode of Variability in CCSM3 in the North Pacific Owing to Ocean Model Biases<\/a>, J<\/em>. <\/em>Climate<\/em>,<\/em>23<\/strong>, 6221\u20136233.<\/p>\n

Thompson, L., and W. Cheng, 2008: Water Masses in the Pacific in CCSM3<\/a>, J<\/em>. <\/em>Climate<\/em>, 21, 4514-4528<\/p>\n

Thompson, L, and J. T. Dawe<\/strong>, 2007, Propagation of wind and buoyancy forced density anomalies in the North Pacific: dependence on ocean model resolution<\/a>. Ocean<\/em> Modeling<\/em>.\u00a0 16<\/strong>, 277-284.<\/p>\n

Dawe, J. T.<\/strong> and L. Thompson, 2005, Viscosity-dependent internal variability in a model of the North Pacific<\/a>, Journal of Physical Oceanography, 35, 747-756.<\/p>\n

Kelly, K. A., L. Thompson, W. Cheng, and E. J. Metzger, 2007, Evaluation of HYCOM in the Kuroshio Extension region using new metrics<\/a>, J<\/em>. <\/em>Geophys<\/em>. <\/em>Res<\/em>., 112, C01004.<\/p>\n

AIR-SEA INTERACTION AND MARINE HEATWAVES<\/b><\/p>\n

Scannell, H.A<\/strong>., G. C. Johnson, L. Thompson, J. M. Lyman, S. C. Riser, Subsurface Evolution and Persistence of Marine Heatwaves in the Northeast Pacific, 2020, Geophysical Research Letters<\/em>, 47, https:\/\/doi.org\/10.1029\/2020GL090548<\/a><\/p>\n

Geiss, A.<\/strong>, R. Marchand, and L. Thompson, The Influence of Sea Surface Temperature Reemergence on Marine Stratiform Cloud, 2020, Geophysical Research Letters<\/em>, 47, e2020GL086957<\/p>\n

Booth<\/strong>, <\/strong>J<\/strong>.,<\/strong> L. Thompson, J. Patoux, K. A. Kelly, 2012, Sensitivity of Midlatitude Storm Intensification to Perturbations in the Sea Surface Temperature Near the Gulf Stream Using the NCAR WRF Model<\/a>, Mon<\/em>. <\/em>Weather<\/em> Rev<\/em>., 140<\/strong>, 1241-1256.<\/p>\n

Booth<\/strong>, <\/strong>J<\/strong>. <\/strong>F<\/strong>., L. Thompson, J. Patoux, and K. A. Kelly, 2010. The Signature of the Midlatitude Tropospheric Stormtracks in the Surface Winds<\/a>, J<\/em>. <\/em>Climate<\/em>, 23<\/strong>, 1160-1174. <\/em>High Lighted in Nature Geoscience<\/a>, Nature<\/em> Geoscience<\/em> 3, 4 (2010) doi.org\/10.1038\/ngeo742<\/p>\n

Kwon, Y-O, M. A. Alexander, N. A. Bond, C. Frankignoul, H. Nakamura, B. Qiu, and L. Thompson, 2010, Role of Gulf Stream, Kuroshio-Oyashio and Their Extensions in Large-Scale Atmosphere-Ocean Interaction<\/a> : A Review, 2010. \u00a0J<\/em>. <\/em>Climate<\/em>, <\/em>23,<\/strong> 3249-3281.<\/p>\n

Cronin, M. F., N. Bond, J. Booth, H. Ichikawa, T. M. Joyce, K. Kelly, M. Kubota, B. Qiu, C. Reason, M. Rouault, C. Sabine, T. Saino, J. Small, T. Suga, L. D. Talley, L. Thompson, R. A. Weller, “Monitoring ocean-atmosphere interactions in western boundary current extensions<\/a>“, in Proceedings of the “OceanObs’09: Sustained Ocean Observations and Information for Society” Conference (Vol. 2), Venice, Italy, 21-25 September 2009, Hall, J., Harrison D.E. and Stammer, D., Eds, ESA Publication WPP-306, 2010.<\/p>\n

OCEAN PHYSICS AND BIOGEOCHEMISTRY\u00a0<\/b><\/p>\n

Leung, S<\/strong>., L. Thompson, M. McPhaden, and K. A. S. Mislan, 2019: ENSO drives near-surface O2 variability and vertical habitat space in the tropical Pacific<\/a>, 14(6), Environmental Research Letters. June<\/em><\/p>\n

Clayton, S., H. Palevsky, L. Thompson, and P. Quay. Synoptic mesoscale to basin scale variability in biological productivity and chlorophyll in the Kuroshio Extension region, accepted, JGR Oceans. <\/em><\/p>\n

Shao<\/strong>, A., S. Mecking, L. Thompson and R. Sonnerup, 2016. Shao, A. E.,\u00a0S. Mecking,\u00a0L.A. Thompson, and\u00a0R. E. Sonnerup,\u00a0Evaluating the use of 1-D transit time distributions to infer the mean state and variability of oceanic ventilation<\/a>,\u00a0J. Geophys. Res. Oceans,\u00a0121,\u00a06650\u20136670.<\/p>\n

Zhang<\/strong>, <\/strong>Y<\/strong>.<\/strong>,\u00a0<\/strong>L. Jaegl\u00e9,\u00a0L. A. Thompson, and\u00a0D. G. Streets, 2015. Six centuries of changing oceanic mercury<\/a>,\u00a0Global Biogeochem. Cycles,\u00a028, 1251-1261.<\/p>\n

Zhang<\/strong>, <\/strong>Y<\/strong>.,\u00a0L. Jaegl\u00e9, and\u00a0L. A. Thompson\u00a0(2014),\u00a0Natural biogeochemical cycle of mercury in a global three-dimensional ocean tracer model<\/a>,\u00a0Global Biogeochem. Cycles,\u00a028,\u00a0553\u2013570, doi:10.1002\/2014GB004814<\/a>.
\nHighlighted in EOS.\u00a0Humans greatly increase mercury levels in the ocean<\/a>,\u00a0Eos<\/em>, 96<\/em>.<\/p>\n

Trossman<\/strong>, <\/strong>D<\/strong>. <\/strong>S<\/strong>., L. Thompson, S. Mecking, M. J. Warner, F. O. Bryan, S. Peacock, 2014, Evaluation Of Oceanic Transport Parameters and Erosion Time Scales Using Transient Tracers From Observations and Model Output<\/a>, Ocean Modelling, 74, 1-21.<\/p>\n

Shao<\/strong>, <\/strong>A<\/strong>. <\/strong>E<\/strong>., S. Mecking, L. Thompson, R. E. Sonnerup, 2013, Mixed layer saturations of CFC-11, CFC-12 and SF6 in a global isopycnal model<\/a>, J<\/em>. <\/em>Geophys<\/em>. <\/em>Res<\/em>. <\/em>Oceans<\/em>,\u00a0118. \\<\/p>\n

Deutsch, C., H. Brix, T. Ito, H. Frenzel, and L. Thompson, 2011, Climate forced variability of ocean hypoxia<\/a>, Science<\/em>, <\/em>333<\/strong>, <\/em>336-339.<\/p>\n

Deutsch, Curtis; Emerson, Steven; Thompson, LuAnne 2006, Physical-biological interactions in North Pacific oxygen variability<\/a>, <\/em>J<\/em>. <\/em>Geophys<\/em>. <\/em>Res<\/em>., Vol. 111, No. C9, C09S90<\/p>\n

Deutsch, C. ; Emerson, S,; Thompson, L., 2005, Fingerprints of climate change in North Pacific oxygen<\/a> Geophys<\/em>. <\/em>Res<\/em>. <\/em>Let<\/em>., Vol. 32, No. 16, L16604 doi:10.1029\/2005GL023190.<\/p>\n

Ladd<\/strong>, <\/strong>C<\/strong>. and L. Thompson, 1998. The influence of eddies on tracer transport in the abyssal ocean<\/a>, J. Phys. Oceanogr.<\/em>,<\/em> 28<\/strong>, <\/em>1717-1738.<\/p>\n

WATER MASS FORMATION AND VENTILATION OF THE OCEAN INTERIOR<\/strong><\/p>\n

Old, P.<\/strong>, S. Hautala and L. Thompson, 2019, Differences in eastern North Pacific stratification and their potential impact on the depth of winter mixing in CMIP5 models<\/a>, Geophysical Research Letters, <\/em>46(21):12136-45.<\/p>\n

Trossman<\/strong>,<\/strong> D. S., L. Thompson, S. Mecking, M. J. Warner, 2012:\u00a0On the Formation, Ventilation, and Erosion of Mode Waters in the North Atlantic and Southern Oceans<\/a>.\u00a0J.<\/em>\u00a0Geophys.\u00a0<\/em>Research<\/em>–<\/em>Oceans<\/em>,\u00a0117<\/strong>, C09026.<\/p>\n

Trossman<\/strong>, <\/strong>D<\/strong>.<\/strong>, L. Thompson, K. A. Kelly, and Y. O. Kwon, 2009, Estimates of North Atlantic Ventilaton and Mode Water Formation for Winter 2002-2006<\/a>. <\/span>J<\/em>. <\/em>Phys<\/em>. <\/em>Oceanogr<\/em>.\u00a0 39, 2600-2617.<\/span><\/p>\n

Ladd, C., and L. Thompson, 2002: Decadal Variability of North Pacific Central Mode Water<\/a>. J<\/em>. <\/em>Phys<\/em>. <\/em>Oceanogr<\/em>., 32, 2870-2881.<\/p>\n

Ladd<\/strong>, <\/strong>C<\/strong>. and L. Thompson, 2001, Water Mass Formation in an Isopycnal Model of the North Pacific<\/a>, J<\/em>. <\/em>of<\/em> Phys<\/em>. <\/em>Oceanogr<\/em>,<\/em> 31<\/strong>, 1517-1537.<\/p>\n

Ladd<\/strong>, <\/strong>C<\/strong>. <\/strong>and L. Thompson.\u00a0\u00a0 2000.\u00a0 Formation mechanisms for North Pacific Central and Eastern Subtropical mode waters<\/a>. J<\/em>. <\/em>of<\/em> Physical<\/em> Oceanography<\/em> 30<\/strong>, 868-887.<\/p>\n

OCEAN GEOPHYSICAL FLUID DYNAMICS<\/strong><\/p>\n

Jimenez-Urias, M. A<\/strong>., and L. Thompson, 2018, Idealized Study on the Impacts of Bottom Topography on the Seasonality of the Stability of the Iceland-F\u00e6r\u00e6 Front<\/a>. Journal of Physical Oceanography, 48, 2089-3008.<\/p>\n

Holmes<\/strong>, <\/strong>R<\/strong>. <\/strong>H<\/strong>.,<\/strong> L.\u00a0 Thomas, L. Thompson, and D. Darr, 2014 Potential Vorticity Dynamics of Tropical Instability Vortices<\/a>, Journal of Physical Oceanography, 44, 995-1011.<\/p>\n

Thompson, L, 2000, Ekman layers and two-dimensional frontogenesis in the upper ocean<\/a>, J<\/em>. <\/em>Geophys<\/em>. <\/em>Res<\/em>.<\/em>,105 <\/strong>(C3), 6437-6451.<\/p>\n

Boss<\/strong>, <\/strong>E<\/strong>.<\/strong> and L. Thompson, 1999. Lagrangian and tracer dynamics in the vicinity of an unstable jet<\/a>., \u00a0<\/em>Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, <\/em>29<\/strong>, 288-303.<\/p>\n

Boss<\/strong>, <\/strong>E<\/strong>.<\/strong> and L. Thompson, 1999. Mean flow Evolution of a Baroclinically Unstable Potential Vorticity Front<\/a>, Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>,<\/em> 29<\/strong>, 273-287.<\/p>\n

Thompson, L., and G. C. Johnson, 1996.\u00a0 Abyssal currents generated by diffusion and geothermal heating over rises<\/a>.\u00a0 Deep<\/em>–<\/em>Sea<\/em> Research<\/em> I, Vol 43, No. 2, 193-211<\/p>\n

Boss<\/strong>, <\/strong>E<\/strong>.,<\/strong> N. Paldor and L. Thompson, 1996.\u00a0 Stability of a potential vorticity front: from quasi-geostrophy to shallow-water<\/a>.\u00a0 Journal<\/em> of<\/em> Fluid<\/em> Mechanics<\/em>, <\/em>315<\/strong>, 65-84.<\/p>\n

Thompson, L.\u00a0 1995.\u00a0 The effect of continental rises on the wind-driven ocean<\/a>.\u00a0 Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, 25<\/strong>, 1296-1316.<\/p>\n

Boss<\/strong>, <\/strong>E<\/strong>.<\/strong> and L. Thompson.\u00a0 1995.\u00a0 Energetics of nonlinear geostrophic adjustment<\/a>.\u00a0 Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, 25<\/strong>, 1521-1529.<\/p>\n

Thompson, L. 1993.\u00a0 Frictional Taylor columns on the beta-plane.<\/a>\u00a0 Geophysical<\/em> and<\/em>\u00a0 <\/em>Astrophysical<\/em> Fluid<\/em> Dynamics<\/em>, 68<\/strong>, 37-57.<\/p>\n

Thompson, L. 1993.\u00a0 Two-layer quasi-geostrophic flow over finite isolated topography<\/a>.\u00a0 Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, 23<\/strong>, 1297-1314.<\/p>\n

Thompson, L., and G.R. Flierl. 1993.\u00a0 Barotropic flow over finite isolated topography: steady solutions on the beta-plane and the initial value problem<\/a>.\u00a0 Journal<\/em> of<\/em> Fluid<\/em> Mechanics<\/em>, 250<\/strong>, 553-586.<\/p>\n

Thompson, L., and M. Kawase.\u00a0 1993.\u00a0 The non-linear response of an equatorial ocean to oscillatory forcing<\/a>.\u00a0 Journal<\/em> of<\/em> Marine<\/em> Research<\/em>, 51<\/strong>, 467-496.<\/p>\n

Cessi, P. and L. Thompson. 1990.\u00a0 Geometrical control of the inertial recirculation<\/a>.\u00a0 Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, 20<\/strong>, 1867-1875.<\/p>\n

Thompson, L. and W.R. Young. 1989. An upper bound on the size of sub-mesoscale coherent vortices<\/a>. Journal<\/em> of<\/em> Physical<\/em> Oceanography<\/em>, 19<\/strong>, 233-237.<\/p>\n

DIVERSITY IN OCEANOGRAPHY<\/strong><\/p>\n

Barber, P. H., T. B. Hayes, T. L. Johnson, L Marquezz-Magana, 10,234 signatories, 2020, Systemic racism in higher education<\/a>, Science, 369:6510, 1440-1441. DOI: 10.1126\/science.abd7140<\/p>\n

Harris, L., C. Garza, Hatch, J. Parrish, J. Posselt, J. Alvarez, E. Davidson, G. Eckert, K. Grimes, J. Garcia, R. Haacker, M.C. Horner-Devine, A. Johnson, J. Lemus, S. Menezes, A. Prakash, L. Thompson, P. Vitousek, M.P. Martin, K. Reyes (2021). The Equitable Exchange: A new framework for diversity and inclusion in the geosciences, AGU Advances<\/em>, (2)2, https:\/\/doi.org\/10.1029\/2020AV000359<\/a><\/p>\n

Kappel, E. S., and L. Thompson, 2015, Invited Scientific Papers and Speakers and Fellow Awardees:\u00a0 Little Progress for Women Oceanographers in the Last Decade <\/a>2014,\u00a0Oceanography<\/em>\u00a027(4) supplement: 24\u201328<\/p>\n

Thompson, L.\u00a0 (2015) Short biographic Sketch<\/a>, Oceanography<\/em> 27(4) page 236.\u00a0\u00a0<\/em><\/p>\n

Thompson, L. Co-Editor for special issue on Women in Oceanography: A Decade later<\/a> in Oceanography<\/em> 27(4)<\/em>, 2015. With Ellen Kappel, Susan Lozier, Sonya Legg, Sarah Clem, Amelia Shevenell, Kristin Buck, Peggy Delaney, and Robin Bell<\/p>\n

Thompson, L, R. C. Perez, and A. E. Shevenell, 2011.\u00a0 Reply to \u201cNot just family matters<\/a>,\u201d Nature<\/em> Geoscience<\/em> 4<\/strong>, 346 (2011) ]<\/p>\n

Thompson, L., R. C. Perez, and A. E. Shevenell, 2011. Closed ranks in oceanography<\/a>. Nature<\/em> Geoscience<\/em>, 4<\/strong>, 211\u2013212, doi:10.1038\/ngeo1113.<\/p>\n

INTERDISCIPLINARY CLIMATE STUDIES<\/strong><\/p>\n

Bertram, M. A., L. Thompson, J. W. Murray, C. Bretherton, and C. Bitz (2019), Preparing graduate students for 21st century climate conversations ,\u00a0Eos, 100,<\/em>\u00a0https:\/\/doi.org\/10.1029\/2019EO115265<\/a>. Published on 07 February 2019.<\/p>\n

Spencer, B, J. Lawler, C. Lowe, L Thompson, T. Hinckley, S-H Kim, S Bolton, S. Meschke, J. D. Olden, J. Voss, 2017, Co-benefits approaches to climate change mitigation and adaptation<\/a>. Journal<\/em> of<\/em> Environmental<\/em> Planning<\/em> and<\/em> Management<\/em>. 60 (4)<\/p>\n

Fussell, E., S. Curran, M. Dunbar, M. Babb and L. Thompson, Weather-related hazards and population change in the U.S<\/a>., 1980-2010.\u00a0 2017, Annals<\/em> of<\/em> the<\/em> American<\/em> Academy<\/em> of<\/em> Political<\/em> and<\/em> Social<\/em> Science, 669, 146-167<\/em>.<\/p>\n

BOOK<\/strong> CHAPTERS<\/strong><\/p>\n

Flowers, N., Thompson, L., and Po-Chedley, 2020, ENSO (El Nino-Southern Oscillation) Investigation, Climate Science for the Classroom, Editors: M. Bertram and S. Biyani, University of Washington Press, https:\/\/uw.pressbooks.pub\/climate\/chapter\/enso-investigation\/<\/a><\/p>\n

Kelly, K. A, J. K. Willis, G. Reverdin, S. Dong, and L. Thompson, 2017, Monitoring and interpreting mid-latitude oceans by satellite altimetry, Chapter 6, Satellite Altimetry Over Oceans and Land Surfaces.\u00a0 Editors: Stammer, D., and A. Cazenave, CRC<\/em>\u00a0Taylor and Francis Group, ISBN 9781498743457<\/p>\n

Lawler, J. J., B. Spencer, J. D. Olden, S.-H. Kim, C. Lowe, S. Bolton, B. M. Beamon, L. Thompson, and J. G. Voss. 2013, Mitigation and Adaptation Strategies, Pages 315-335.\u00a0<\/em> R. Pielke, Sr., K.Suding, and\u00a0 T. Seastedt (eds.).\u00a0 Climate<\/em> Vulnerability<\/em>: <\/em>Understanding<\/em> and<\/em> Addressing<\/em> Threats<\/em> to<\/em> Essential<\/em> Resources<\/em>, <\/em>Volume<\/em> 5, <\/em>Ecosystem<\/em> Function<\/em>, <\/em>Elsevier, Inc., Academic Press.\u00a0 ISBN 9780123847034<\/p>\n

REPORTS<\/strong><\/p>\n

Pendergrass, A., J. Zelikova. Arnott, J., H. Bain, R. Barnes, J. Baron, K. Dutt, M. Gay-Antaki, R. Haacker, A. J. Laure, A. Morris, D. Morrison, A.-M. Nunez, , H. Steltzer., L. Thompson, 2019.\u00a0 Inclusive scientific meetings: Where to start<\/a>. And Nature News<\/a> interview with Angie Pendergrass.<\/p>\n

Thompson, L. and T. Penduff, 2018, Science (Part II): Large Scale Ocean Circulation Variability and Change in Report of the 2017 Ocean Surface Topography Science Team (OSTST) Meeting<\/em>, Edited by J. Willis, page 75, https:\/\/www.aviso.altimetry.fr\/en\/user-corner\/science-teams\/ostst-swt-science-team\/ostst-2017-miami.html<\/a><\/p>\n

Subramanian, A., A. Giannini, M. Holland, S. Legg, A. Mahadevan, J. Teixeira, C. Ummenhofer, D. Perovich, J. Small, and L. Thompson, 2016, Translating Process Understanding to Improve Climate Models<\/a>, A US CLIVAR White Paper, 52 pp.<\/p>\n

Danabasoglu, G., R. Curry, A. Karspeck, C. Meinen, R. Msadek, M. Patterson, R. Perez, A. Schmittner, L. Thompson, and S. Yeager, 2015: 2014 US AMOC Science Team Annual Report on Progress and Priorities<\/a>. Report 2015-1, US CLIVAR Project Office, 165 pp.\u00a0<\/strong><\/p>\n

Danabasoglu, G., R. Curry, P. Heimbach, Y. Kushnir, C. Meinen, R. Msadek, M. Patterson, L. Thompson, S. Yeager, and R. Zhang, 2014: 2013 US AMOC Science Team Annual Report on Progress and Priorities<\/a>. Report 2014-4, US CLIVAR Project Office, 162 pp.<\/p>\n

Lozier, M. S., A. Adcroft, L. Beal, A. Bower, D. Byrne, A Capotondi, V. Coles, K. Lavender, C. M. Lee, J. MacKinnon, K. Shearman, L. St. Laurent, L. Thompson, and D. Witter.\u00a0 2006.\u00a0 MPOWIR<\/em>: <\/em>Mentoring<\/em> physical<\/em> oceanography<\/em> to<\/em> increase<\/em> retention<\/em>.\u00a0 <\/em>Report<\/em> of<\/em> a<\/em> workshop<\/em> held<\/em> October<\/em> 9-12, 2005<\/em>.<\/a>\u00a0 32 pp.\u00a0 mpowir.org\/mpowir_FINAL5.30.06.pdf<\/p>\n

Bryan, F., R. Cohen, I. Fung, T. Gambosi, J. Kinter, B. Smyth, L Thompson, and J. Tromp (2005).\u00a0\u00a0 \u201c<\/em>Establishing<\/em> a<\/em> Petascale<\/em> Collaboratory<\/em> for<\/em> the<\/em> Geosciences<\/em>\u201d.\u00a0 <\/em>\u00a0A report to the Geosciences Community, 80 pages.<\/em><\/p>\n

Davis, R. E., W.S Kessler, R. Lukas, R.A. Weller, D.W. Behringer, D.R. Cayan, D.B. Chelton, C. Eriksen, S. Esbensen, R.A. Fine, I. Fukumori, G. Kiladis, M.C. Gregg, E. Harrison, G.C. Johnson, T. Lee, N.J. Mantua, J.P. McCreary, M.J. McPhaden, J.C. McWilliams, A.J. Miller, H. Mitsudera, P.P. Niiler, B. Qiu, D. Raymond, D. Roemmich, D.L. Rudnick, N. Schneider, P.S. Schopf, D. Stammer, L. Thompson, W.B. White, 2000, Implementing the Pacific Basin Extended Climate Study (PBECS), CLIVAR<\/a>.<\/p>\n

Thompson, L. 1991.\u00a0 Flow over finite isolated topography.<\/a>\u00a0 Ph.D. Thesis. MIT\/WHOI, WHOI-91-05.<\/p>\n

Thompson, L. 1989.\u00a0 Can Potential Vorticity Homogenize in Closed Gyres?\u00a0 Proceedings, Geophysical Fluid Dynamics Summer Program,<\/a> Woods Hole Oceanographic Institution Technical Report WHOI-89-54, 448-469. 10.1575\/1912\/2922<\/p>\n","protected":false},"excerpt":{"rendered":"

ResearchGate Profile Bold indicates student lead papers OCEAN CLIMATE VARIABILITY:\u00a0 SEA SURFACE HEIGHT, CIRCULATION, SEA SURFACE TEMPERATURE AND SALINITY, AND SEA ICE. Oldenberg, D., Wills, K. Armour, and L. Thompson, Mechanisms of low-frequency variability in North Atlantic Overturning, J. Climate, 2021, 32(12), 4733-4755. Deppenmeier, A.-L., F. O. Bryan, W. Kessler, and L. Thompson. Modulation of […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"page-templates\/full-width.php","meta":[],"_links":{"self":[{"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/pages\/37"}],"collection":[{"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=37"}],"version-history":[{"count":45,"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/pages\/37\/revisions"}],"predecessor-version":[{"id":207,"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=\/wp\/v2\/pages\/37\/revisions\/207"}],"wp:attachment":[{"href":"https:\/\/faculty.washington.edu\/luanne\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=37"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}