This is a bibliography of papers published using BGC Argo Mission float data.

A complete list of all Argo publications is also maintained on this site.

To learn how to properly cite Argo data, click here.

Please send citations for Argo articles to keep this part of the bibliography updated.

Updated July 20, 2023

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2018 (45)

Arteaga, L., N. Haëntjens, E. Boss, K. S. Johnson, and J. L. Sarmiento (2018), Assessment of Export Efficiency Equations in the Southern Ocean Applied to Satellite-Based Net Primary Production, Journal of Geophysical Research: Oceans, 123(4), 2945-2964, doi:

Barbieux, M., et al. (2018), Assessing the Variability in the Relationship Between the Particulate Backscattering Coefficient and the Chlorophyll a Concentration From a Global Biogeochemical‐Argo Database, Journal of Geophysical Research: Oceans, 123(2), 1229-1250, doi:

Barbot, S., A. Petrenko, and C. Maes (2018), Intermediate water flows in the western South Pacific: as revealed by individual Argo floats trajectories and a model re-analysis, Biogeosciences, 15(13), 4103-4124, doi:

Bittig, H. C., A. Körtzinger, C. Neill, E. van Ooijen, J. N. Plant, J. Hahn, K. S. Johnson, B. Yang, and S. R. Emerson (2018), Oxygen Optode Sensors: Principle, Characterization, Calibration, and Application in the Ocean, Frontiers in Marine Science, 4(429), doi:

Bittig, H. C., T. Steinhoff, H. Claustre, B. Fiedler, N. L. Williams, R. Sauzède, A. Körtzinger, and J.-P. Gattuso (2018), An Alternative to Static Climatologies: Robust Estimation of Open Ocean CO2 Variables and Nutrient Concentrations From T, S, and O2 Data Using Bayesian Neural Networks, Frontiers in Marine Science, 5(328), doi:

Briggs, E. M., T. R. Martz, L. D. Talley, M. R. Mazloff, and K. S. Johnson (2018), Physical and Biological Drivers of Biogeochemical Tracers Within the Seasonal Sea Ice Zone of the Southern Ocean From Profiling Floats, Journal of Geophysical Research: Oceans, 123(2), 746-758, doi:

Burt, W. J., and P. D. Tortell (2018), Observations of Zooplankton Diel Vertical Migration From High-Resolution Surface Ocean Optical Measurements, Geophys. Res. Lett., 45(24), 13,396-313,404, doi:

Burt, W. J., T. K. Westberry, M. J. Behrenfeld, C. Zeng, R. W. Izett, and P. D. Tortell (2018), Carbon: Chlorophyll Ratios and Net Primary Productivity of Subarctic Pacific Surface Waters Derived From Autonomous Shipboard Sensors, Glob. Biogeochem. Cycle, 32(2), 267-288, doi:

Bushinsky, S. M., and S. R. Emerson (2018), Biological and physical controls on the oxygen cycle in the Kuroshio Extension from an array of profiling floats, Deep Sea Research Part I: Oceanographic Research Papers, 141, 51-70, doi:

Carranza, M. M., S. T. Gille, P. J. S. Franks, K. S. Johnson, R. Pinkel, and J. B. Girton (2018), When Mixed Layers Are Not Mixed. Storm-Driven Mixing and Bio-optical Vertical Gradients in Mixed Layers of the Southern Ocean, Journal of Geophysical Research: Oceans, 123(10), 7264-7289, doi:

Chakraborty, K., V. Valsala, G. V. M. Gupta, and V. V. S. S. Sarma (2018), Dominant Biological Control Over Upwelling on pCO2 in Sea East of Sri Lanka, Journal of Geophysical Research: Biogeosciences, 123(10), 3250-3261, doi:

Conan, P., P. Testor, C. Estournel, F. D’Ortenzio, M. Pujo-Pay, and X. Durrieu de Madron (2018), Preface to the Special Section: Dense Water Formations in the Northwestern Mediterranean: From the Physical Forcings to the Biogeochemical Consequences, Journal of Geophysical Research: Oceans, 123(10), 6983-6995, doi:

Czeschel, R., F. Schütte, R. A. Weller, and L. Stramma (2018), Transport, properties, and life cycles of mesoscale eddies in the eastern tropical South Pacific, Ocean Sci., 14(4), 731-750, doi:

Damien, P., O. Pasqueron de Fommervault, J. Sheinbaum, J. Jouanno, V. F. Camacho-Ibar, and O. Duteil (2018), Partitioning of the Open Waters of the Gulf of Mexico Based on the Seasonal and Interannual Variability of Chlorophyll Concentration, Journal of Geophysical Research: Oceans, 123(4), 2592-2614, doi:

de Souza, A. G. Q., R. Kerr, and J. L. L. d. Azevedo (2018), On the influence of Subtropical Mode Water on the South Atlantic Ocean, J. Mar. Syst., 185, 13-24, doi:

Fawcett, S. E., K. S. Johnson, S. C. Riser, N. Van Oostende, and D. M. Sigman (2018), Low-nutrient organic matter in the Sargasso Sea thermocline: A hypothesis for its role, identity, and carbon cycle implications, Marine Chemistry, 207, 108-123, doi:

Fay, A. R., N. S. Lovenduski, G. A. McKinley, D. R. Munro, C. Sweeney, A. R. Gray, P. Landschützer, B. B. Stephens, T. Takahashi, and N. Williams (2018), Utilizing the Drake Passage Time-series to understand variability and change in subpolar Southern Ocean pCO2, Biogeosciences, 15(12), 3841-3855, doi:

Giglio, D., V. Lyubchich, and M. R. Mazloff (2018), Estimating Oxygen in the Southern Ocean Using Argo Temperature and Salinity, Journal of Geophysical Research: Oceans, 123(6), 4280-4297, doi:

Gray, A. R., K. S. Johnson, S. M. Bushinsky, S. C. Riser, J. L. Russell, L. D. Talley, R. Wanninkhof, N. L. Williams, and J. L. Sarmiento (2018), Autonomous Biogeochemical Floats Detect Significant Carbon Dioxide Outgassing in the High-Latitude Southern Ocean, Geophys. Res. Lett., 45(17), 9049-9057, doi:

Hu, Q., K. Qu, H. Gao, Z. Cui, Y. Gao, and X. Yao (2018), Large Increases in Primary Trimethylaminium and Secondary Dimethylaminium in Atmospheric Particles Associated With Cyclonic Eddies in the Northwest Pacific Ocean, Journal of Geophysical Research: Atmospheres, 123(21), 12,133-112,146, doi:

Lauvset, S. K., A. Brakstad, K. Våge, A. Olsen, E. Jeansson, and K. A. Mork (2018), Continued warming, salinification and oxygenation of the Greenland Sea gyre, Tellus A: Dynamic Meteorology and Oceanography, 70(1), 1-9, doi:

Leymarie, E., C. Penkerc’h, V. Vellucci, C. Lerebourg, D. Antoine, E. Boss, M. R. Lewis, F. D’Ortenzio, and H. Claustre (2018), ProVal: A New Autonomous Profiling Float for High Quality Radiometric Measurements, Frontiers in Marine Science, 5(437), doi:

Liang, Y.-C., M. R. Mazloff, I. Rosso, S.-W. Fang, and J.-Y. Yu (2018), A Multivariate Empirical Orthogonal Function Method to Construct Nitrate Maps in the Southern Ocean, J. Atmos. Ocean. Technol., 35(7), 1505-1519, doi:

Llort, J., C. Langlais, R. Matear, S. Moreau, A. Lenton, and P. G. Strutton (2018), Evaluating Southern Ocean Carbon Eddy‐Pump From Biogeochemical‐Argo Floats, Journal of Geophysical Research: Oceans, 123(2), 971-984, doi:

Lotliker, A. A., S. K. Baliarsingh, V. L. Trainer, M. L. Wells, C. Wilson, T. V. S. Udaya Bhaskar, A. Samanta, and S. R. Shahimol (2018), Characterization of oceanic Noctiluca blooms not associated with hypoxia in the Northeastern Arabian Sea, Harmful Algae, 74, 46-57, doi:

Mayot, N., P. Matrai, I. H. Ellingsen, M. Steele, K. Johnson, S. C. Riser, and D. Swift (2018), Assessing Phytoplankton Activities in the Seasonal Ice Zone of the Greenland Sea Over an Annual Cycle, Journal of Geophysical Research: Oceans, 123(11), 8004-8025, doi:

Mazloff, M. R., B. D. Cornuelle, S. T. Gille, and A. Verdy (2018), Correlation Lengths for Estimating the Large‐Scale Carbon and Heat Content of the Southern Ocean, Journal of Geophysical Research: Oceans, 123(2), 883-901, doi:

Mignot, A., R. Ferrari, and H. Claustre (2018), Floats with bio-optical sensors reveal what processes trigger the North Atlantic bloom, Nature Communications, 9(1), 190, doi:

Nencioli, F., G. Dall’Olmo, and G. D. Quartly (2018), Agulhas Ring Transport Efficiency From Combined Satellite Altimetry and Argo Profiles, Journal of Geophysical Research: Oceans, 123(8), 5874-5888, doi:

Petihakis, G., et al. (2018), An integrated open-coastal biogeochemistry, ecosystem and biodiversity observatory of the eastern Mediterranean – the Cretan Sea component of the POSEIDON system, Ocean Sci., 14(5), 1223-1245, doi:

Riser, S. C., D. Swift, and R. Drucker (2018), Profiling Floats in SOCCOM: Technical Capabilities for Studying the Southern Ocean, Journal of Geophysical Research: Oceans, 123(6), 4055-4073, doi:

Russell, J. L., et al. (2018), Metrics for the Evaluation of the Southern Ocean in Coupled Climate Models and Earth System Models, Journal of Geophysical Research: Oceans, 123(5), 3120-3143, doi:

Sammartino, M., S. Marullo, R. Santoleri, and M. Scardi (2018), Modelling the Vertical Distribution of Phytoplankton Biomass in the Mediterranean Sea from Satellite Data: A Neural Network Approach, Remote Sensing, 10(10), 1666, doi:

Sarma, V. V. S. S., and T. V. S. Udaya Bhaskar (2018), Ventilation of Oxygen to Oxygen Minimum Zone Due to Anticyclonic Eddies in the Bay of Bengal, Journal of Geophysical Research: Biogeosciences, 123(7), 2145-2153, doi:

Stanev, E. V., P. M. Poulain, S. Grayek, K. S. Johnson, H. Claustre, and J. W. Murray (2018), Understanding the Dynamics of the Oxic‐Anoxic Interface in the Black Sea, Geophys. Res. Lett., 45(2), 864-871, doi:

Swart, S., K. Johnson, M. R. Mazloff, A. Meijers, M. P. Meredith, L. Newman, and J. B. Sallee (2018), Antarctica: Southern Ocean in State of the Climate in 2017, Bull. Am. Meteorol. Soc., 99(8), S185 – S188, doi:

Taillandier, V., et al. (2018), Hydrography and biogeochemistry dedicated to the Mediterranean BGC-Argo network during a cruise with RV Tethys 2 in May 2015, Earth Syst. Sci. Data, 10(1), 627-641, doi:

Takeshita, Y., K. S. Johnson, T. R. Martz, J. N. Plant, and J. L. Sarmiento (2018), Assessment of Autonomous pH Measurements for Determining Surface Seawater Partial Pressure of CO2, Journal of Geophysical Research: Oceans, 123(6), 4003-4013, doi:

Vidya, P. J., and S. Kurian (2018), Impact of 2015–2016 ENSO on the winter bloom and associated phytoplankton community shift in the northeastern Arabian Sea, J. Mar. Syst., 186, 96-104, doi:

Williams, N. L., L. W. Juranek, R. A. Feely, J. L. Russell, K. S. Johnson, and B. Hales (2018), Assessment of the Carbonate Chemistry Seasonal Cycles in the Southern Ocean From Persistent Observational Platforms, Journal of Geophysical Research: Oceans, 123(7), 4833-4852, doi:

Wojtasiewicz, B., N. J. Hardman-Mountford, D. Antoine, F. Dufois, D. Slawinski, and T. W. Trull (2018), Use of bio-optical profiling float data in validation of ocean colour satellite products in a remote ocean region, Remote Sens. Environ., 209, 275-290, doi:

Wojtasiewicz, B., I. D. Walsh, D. Antoine, D. Slawinski, and N. J. Hardman-Mountford (2018), Inferring and Removing a Spurious Response in the Optical Backscattering Signal from an Autonomous Profiling Float, J. Atmos. Ocean. Technol., 35(11), 2137-2146, doi:

Wolf, M. K., R. C. Hamme, D. Gilbert, I. Yashayaev, and V. Thierry (2018), Oxygen Saturation Surrounding Deep Water Formation Events in the Labrador Sea From Argo-O2 Data, Glob. Biogeochem. Cycle, 32(4), 635-653, doi:

Xing, X., N. Briggs, E. Boss, and H. Claustre (2018), Improved correction for non-photochemical quenching of in situ chlorophyll fluorescence based on a synchronous irradiance profile, Opt. Express, 26(19), 24734-24751, doi:

Xing, X.-G., H. Claustre, E. Boss, and F. Chai (2018), Toward deeper development of Biogeochemical-Argo floats, Atmospheric and Oceanic Science Letters, 11(3), 287-290, doi:

2017 (35)

Arrigo, K. R., G. L. van Dijken, R. M. Castelao, H. Luo, Å. K. Rennermalm, M. Tedesco, T. L. Mote, H. Oliver, and P. L. Yager (2017), Melting glaciers stimulate large summer phytoplankton blooms in southwest Greenland waters, Geophys. Res. Lett., 44(12), 6278-6285, doi:

Bushinsky, S. M., A. R. Gray, K. S. Johnson, and J. L. Sarmiento (2017), Oxygen in the Southern Ocean From Argo Floats: Determination of Processes Driving Air-Sea Fluxes, Journal of Geophysical Research: Oceans, 122(11), 8661-8682, doi:

Chacko, N. (2017), Chlorophyll bloom in response to tropical cyclone Hudhud in the Bay of Bengal: Bio-Argo subsurface observations, Deep Sea Research Part I: Oceanographic Research Papers, 124, 66-72, doi:

Chakraborty, K., N. Kumar, and G. V. M. Gupta (2017), Getting the right wind-forcing for an ecosystem model: A case study from the eastern Arabian Sea, J. Oper. Oceanogr., 10(2), 176-190, doi:

Coppola, L., L. Prieur, I. Taupier-Letage, C. Estournel, P. Testor, D. Lefevre, S. Belamari, S. LeReste, and V. Taillandier (2017), Observation of oxygen ventilation into deep waters through targeted deployment of multiple Argo-O2 floats in the north-western Mediterranean Sea in 2013, Journal of Geophysical Research: Oceans, 122(8), 6325-6341, doi:

Dufois, F., N. J. Hardman-Mountford, M. Fernandes, B. Wojtasiewicz, D. Shenoy, D. Slawinski, M. Gauns, J. Greenwood, and R. Toresen (2017), Observational insights into chlorophyll distributions of subtropical South Indian Ocean eddies, Geophys. Res. Lett., 44(7), 3255-3264, doi:

Haëntjens, N., E. Boss, and L. D. Talley (2017), Revisiting Ocean Color algorithms for chlorophyll a and particulate organic carbon in the Southern Ocean using biogeochemical floats, Journal of Geophysical Research: Oceans, 122(8), 6583-6593, doi:

Johnson, K. S. (2017), Developing chemical sensors to observe the health of the global ocean, paper presented at 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 18-22 June 2017.

Johnson, K. S., et al. (2017), Biogeochemical sensor performance in the SOCCOM profiling float array, Journal of Geophysical Research: Oceans, 122(8), 6416-6436, doi:

Johnson, K. S., J. N. Plant, J. P. Dunne, L. D. Talley, and J. L. Sarmiento (2017), Annual nitrate drawdown observed by SOCCOM profiling floats and the relationship to annual net community production, Journal of Geophysical Research: Oceans, 122(8), 6668-6683, doi:

Kamenkovich, I., A. Haza, A. R. Gray, C. O. Dufour, and Z. Garraffo (2017), Observing System Simulation Experiments for an array of autonomous biogeochemical profiling floats in the Southern Ocean, Journal of Geophysical Research: Oceans, 122(9), 7595-7611, doi:

Karstensen, J., et al. (2017), Upwelling and isolation in oxygen-depleted anticyclonic modewater eddies and implications for nitrate cycling, Biogeosciences, 14(8), 2167-2181, doi:

Keerthi, M. G., et al. (2017), Physical control of interannual variations of the winter chlorophyll bloom in the northern Arabian Sea, Biogeosciences, 14(15), 3615-3632, doi:

Kessouri, F., et al. (2017), Nitrogen and Phosphorus Budgets in the Northwestern Mediterranean Deep Convection Region, Journal of Geophysical Research: Oceans, 122(12), 9429-9454, doi:

Koelling, J., D. W. R. Wallace, U. Send, and J. Karstensen (2017), Intense oceanic uptake of oxygen during 2014–2015 winter convection in the Labrador Sea, Geophys. Res. Lett., 44(15), 7855-7864, doi:

Lacour, L., M. Ardyna, K. F. Stec, H. Claustre, L. Prieur, A. Poteau, M. R. D’Alcala, and D. Iudicone (2017), Unexpected winter phytoplankton blooms in the North Atlantic subpolar gyre, Nat. Geosci., 10, 836, doi:

Lu, W. (2017), Physical Modulation to the Biological Production in the South China Sea: A Physical-Biological Coupled Model Approach, University of Delaware

Mayot, N., F. D’Ortenzio, V. Taillandier, L. Prieur, O. P. de Fommervault, H. Claustre, A. Bosse, P. Testor, and P. Conan (2017), Physical and Biogeochemical Controls of the Phytoplankton Blooms in North Western Mediterranean Sea: A Multiplatform Approach Over a Complete Annual Cycle (2012–2013 DEWEX Experiment), Journal of Geophysical Research: Oceans, 122(12), 9999-10019, doi:

Mayot, N., F. D’Ortenzio, J. Uitz, B. Gentili, J. Ras, V. Vellucci, M. Golbol, D. Antoine, and H. Claustre (2017), Influence of the Phytoplankton Community Structure on the Spring and Annual Primary Production in the Northwestern Mediterranean Sea, Journal of Geophysical Research: Oceans, 122(12), 9918-9936, doi:

Olita, A., A. Capet, M. Claret, A. Mahadevan, P. M. Poulain, A. Ribotti, S. Ruiz, J. Tintoré, A. Tovar-Sánchez, and A. Pascual (2017), Frontal dynamics boost primary production in the summer stratified Mediterranean sea, Ocean Dyn., 67(6), 767-782, doi:

Olsen, A. (2017), Autonomous observing platform CO2 data shed new light on the Southern Ocean carbon cycle, Glob. Biogeochem. Cycle, 31(6), 1032-1035, doi:

Organelli, E., et al. (2017), Two databases derived from BGC-Argo float measurements for marine biogeochemical and bio-optical applications, Earth Syst. Sci. Data, 9(2), 861-880, doi:

Organelli, E., H. Claustre, A. Bricaud, M. Barbieux, J. Uitz, F. D’Ortenzio, and G. Dall’Olmo (2017), Bio-optical anomalies in the world’s oceans: An investigation on the diffuse attenuation coefficients for downward irradiance derived from Biogeochemical Argo float measurements, Journal of Geophysical Research: Oceans, 122(5), 3543-3564, doi:

Poteau, A., E. Boss, and H. Claustre (2017), Particulate concentration and seasonal dynamics in the mesopelagic ocean based on the backscattering coefficient measured with Biogeochemical-Argo floats, Geophys. Res. Lett., 44(13), 6933-6939, doi:

Rembauville, M., N. Briggs, M. Ardyna, J. Uitz, P. Catala, C. Penkerc’h, A. Poteau, H. Claustre, and S. Blain (2017), Plankton Assemblage Estimated with BGC-Argo Floats in the Southern Ocean: Implications for Seasonal Successions and Particle Export, Journal of Geophysical Research: Oceans, 122(10), 8278-8292, doi:

Roesler, C., et al. (2017), Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors, Limnology and Oceanography: Methods, 15(6), 572-585, doi:

Rosso, I., M. R. Mazloff, A. Verdy, and L. D. Talley (2017), Space and time variability of the Southern Ocean carbon budget, Journal of Geophysical Research: Oceans, 122(9), 7407-7432, doi:

Sauzède, R., H. C. Bittig, H. Claustre, O. Pasqueron de Fommervault, J.-P. Gattuso, L. Legendre, and K. S. Johnson (2017), Estimates of Water-Column Nutrient Concentrations and Carbonate System Parameters in the Global Ocean: A Novel Approach Based on Neural Networks, Frontiers in Marine Science, 4(128), doi:

Stanev, E. V., S. Grayek, H. Claustre, C. Schmechtig, and A. Poteau (2017), Water intrusions and particle signatures in the Black Sea: a Biogeochemical-Argo float investigation, Ocean Dyn., 67(9), 119-1136, doi:

Stukel, M. R., and H. W. Ducklow (2017), Stirring Up the Biological Pump: Vertical Mixing and Carbon Export in the Southern Ocean, Glob. Biogeochem. Cycle, 31(9), 1420-1434, doi:

Sun, D., T. Ito, and A. Bracco (2017), Oceanic Uptake of Oxygen During Deep Convection Events Through Diffusive and Bubble-Mediated Gas Exchange, Glob. Biogeochem. Cycle, 31(10), 1579-1591, doi:

Verdy, A., and M. R. Mazloff (2017), A data assimilating model for estimating Southern Ocean biogeochemistry, Journal of Geophysical Research: Oceans, 122(9), 6968-6988, doi:

Williams, N. L., et al. (2017), Calculating surface ocean pCO2 from biogeochemical Argo floats equipped with pH: An uncertainty analysis, Glob. Biogeochem. Cycle, 31(3), 591-604, doi:

Xing, X., H. Claustre, E. Boss, C. Roesler, E. Organelli, A. Poteau, M. Barbieux, and F. D’Ortenzio (2017), Correction of profiles of in-situ chlorophyll fluorometry for the contribution of fluorescence originating from non-algal matter, Limnology and Oceanography: Methods, 15(1), 80-93, doi:

Yang, B., S. R. Emerson, and S. M. Bushinsky (2017), Annual net community production in the subtropical Pacific Ocean from in situ oxygen measurements on profiling floats, Glob. Biogeochem. Cycle, 31(4), 728-744, doi:

2016 (33)

Bender, M. L., B. Tilbrook, N. Cassar, B. Jonsson, A. Poisson, and T. W. Trull (2016), Ocean productivity south of Australia during spring and summer, Deep Sea Research Part I: Oceanographic Research Papers, 112, 68-78, doi:

Bhaskar, T. V. S. U., C. Jayaram, P. R. R. E, and K. H. Rao (2016), Spatio-temporal evolution of chlorophyll-a in the Bay of Bengal: a remote sensing and bio-argo perspective, paper presented at Proc. SPIE 9878, Remote Sensing of the Oceans and Inland Waters: Techniques, Applications, and Challenges.

Bishop, J. K. B., M. B. Fong, and T. J. Wood (2016), Robotic observations of high wintertime carbon export in California coastal waters, Biogeosciences, 13(10), 3109-3129, doi:

Bushinsky, S. M., S. R. Emerson, S. C. Riser, and D. D. Swift (2016), Accurate oxygen measurements on modified Argo floats using in situ air calibrations, Limnology and Oceanography: Methods, 491-505, doi:

Capet, A., E. V. Stanev, J. M. Beckers, J. W. Murray, and M. Grégoire (2016), Decline of the Black Sea oxygen inventory, Biogeosciences, 13(4), 1287-1297, doi:

Cyr, F., H. van Haren, F. Mienis, G. Duineveld, and D. Bourgault (2016), On the influence of cold-water coral mound size on flow hydrodynamics, and vice versa, Geophys. Res. Lett., 43(2), 775-783, doi:

Dall’Olmo, G., J. Dingle, L. Polimene, R. J. W. Brewin, and H. Claustre (2016), Substantial energy input to the mesopelagic ecosystem from the seasonal mixed-layer pump, Nat. Geosci., 9, 820-823, doi:

Drucker, R., and S. C. Riser (2016), In situ phase-domain calibration of oxygen Optodes on profiling floats, Methods in Oceanography, 17, 296-318, doi:

Fiedler, B., et al. (2016), Oxygen utilization and downward carbon flux in an oxygen-depleted eddy in the eastern tropical North Atlantic, Biogeosciences, 13(19), 5633-5647, doi:

Gao, W., P. Li, S.-P. Xie, L. Xu, and C. Liu (2016), Multicore structure of the North Pacific subtropical mode water from enhanced Argo observations, Geophys. Res. Lett., 43(3), 1249-1255, doi:

Hennon, T. D. (2016), Global Observations of Physical and Biogeochemical Processes in the Ocean, University of Washington

Hennon, T. D., S. C. Riser, and S. Mecking (2016), Profiling float-based observations of net respiration beneath the mixed layer, Glob. Biogeochem. Cycle, 30(6), 920-932, doi:

Inoue, R., V. Faure, and S. Kouketsu (2016), Float observations of an anticyclonic eddy off Hokkaido, Journal of Geophysical Research: Oceans, 121(8), 6103-6120, doi:

Inoue, R., M. Kitamura, and T. Fujiki (2016), Diel vertical migration of zooplankton at the S1 biogeochemical mooring revealed from acoustic backscattering strength, Journal of Geophysical Research: Oceans, 121(2), 1031-1050, doi:

Inoue, R., and S. Kouketsu (2016), Physical oceanographic conditions around the S1 mooring site, J. Oceanogr., 72(3), 453-464, doi:

Inoue, R., T. Suga, S. Kouketsu, T. Kita, S. Hosoda, Y. Kobayashi, K. Sato, H. Nakajima, and T. Kawano (2016), Western North Pacific Integrated Physical-Biogeochemical Ocean Observation Experiment (INBOX): Part 1. Specifications and chronology of the S1-INBOX floats, J. Mar. Res., 74(2), 43-69, doi:

Johnson, K. S., and H. Claustre (2016), Bringing Biogeochemistry into the Argo Age, Eos, 97, doi:

Johnson, K. S., H. W. Jannasch, L. J. Coletti, V. A. Elrod, T. R. Martz, Y. Takeshita, R. J. Carlson, and J. G. Connery (2016), Deep-Sea DuraFET: A Pressure Tolerant pH Sensor Designed for Global Sensor Networks, Analytical Chemistry, 88(6), 3249-3256, doi:

Kassis, D., E. Krasakopoulou, G. Korres, G. Petihakis, and G. S. Triantafyllou (2016), Hydrodynamic features of the South Aegean Sea as derived from Argo T/S and dissolved oxygen profiles in the area, Ocean Dyn., 66(11), 1449-1466, doi:

Kouketsu, S., R. Inoue, and T. Suga (2016), Western North Pacific Integrated Physical-Biogeochemical Ocean Observation Experiment (INBOX): Part 3. Mesoscale variability of dissolved oxygen concentrations observed by multiple floats during S1-INBOX, J. Mar. Res., 74(2), 101-131, doi:

Lacour, L. o. (2016), Dynamique des blooms phytoplanctoniques dans le gyre subpolaire de l’Atlantique Nord, Université Pierre et Marie Curie – Paris VI

Li, B., Y. W. Watanabe, and A. Yamaguchi (2016), Spatiotemporal distribution of seawater pH in the North Pacific subpolar region by using the parameterization technique, Journal of Geophysical Research: Oceans, 121(5), 3435-3449, doi:

Li, Z., and N. Cassar (2016), Satellite estimates of net community production based on O2/Ar observations and comparison to other estimates, Glob. Biogeochem. Cycle, 30(5), 735-752, doi:

Organelli, E., H. Claustre, A. Bricaud, C. Schmechtig, A. Poteau, X. Xing, L. Prieur, F. D’Ortenzio, G. Dall’Olmo, and V. Vellucci (2016), A Novel Near-Real-Time Quality-Control Procedure for Radiometric Profiles Measured by Bio-Argo Floats: Protocols and Performances, J. Atmos. Ocean. Technol., 33(5), 937-951, doi:

Plant, J. N., K. S. Johnson, C. M. Sakamoto, H. W. Jannasch, L. J. Coletti, S. C. Riser, and D. D. Swift (2016), Net community production at Ocean Station Papa observed with nitrate and oxygen sensors on profiling floats, Glob. Biogeochem. Cycle, 30(6), 859-879, doi:

Raes, E. J., L. Bodrossy, J. Van de Kamp, B. Holmes, N. J. Hardman-Mountford, P. A. Thompson, A. S. McInnes, and A. M. Waite (2016), Reduction of the Powerful Greenhouse Gas N2O in the South-Eastern Indian Ocean, PLoS ONE, 11(1), doi:

Rousselet, L., A. M. Doglioli, C. Maes, B. Blanke, and A. A. Petrenko (2016), Impacts of mesoscale activity on the water masses and circulation in the Coral Sea, Journal of Geophysical Research: Oceans, 121(10), 7277-7289, doi:

Sauzède, R., H. Claustre, J. Uitz, C. Jamet, G. Dall’Olmo, F. D’Ortenzio, B. Gentili, A. Poteau, and C. Schmechtig (2016), A neural network-based method for merging ocean color and Argo data to extend surface bio-optical properties to depth: Retrieval of the particulate backscattering coefficient, Journal of Geophysical Research: Oceans, 121(4), 2552-2571, doi:

Schütte, F., J. Karstensen, G. Krahmann, H. Hauss, B. Fiedler, P. Brandt, M. Visbeck, and A. Körtzinger (2016), Characterization of “dead-zone” eddies in the eastern tropical North Atlantic, Biogeosciences, 13(20), 5865-5881, doi:

Stramma, L., R. Czeschel, T. Tanhua, P. Brandt, M. Visbeck, and B. S. Giese (2016), The flow field of the upper hypoxic eastern tropical North Atlantic oxygen minimum zone, Ocean Sci., 12(1), 153-167, doi:

Visinelli, L., S. Masina, M. Vichi, A. Storto, and T. Lovato (2016), Impacts of data assimilation on the global ocean carbonate system, J. Mar. Syst., 158, 106-119, doi:

Westberry, T. K., P. Schultz, M. J. Behrenfeld, J. P. Dunne, M. R. Hiscock, S. Maritorena, J. L. Sarmiento, and D. A. Siegel (2016), Annual cycles of phytoplankton biomass in the subarctic Atlantic and Pacific Ocean, Glob. Biogeochem. Cycle, 30(2), 175-190, doi:

Williams, N. L., L. W. Juranek, K. S. Johnson, R. A. Feely, S. C. Riser, L. D. Talley, J. L. Russell, J. L. Sarmiento, and R. Wanninkhof (2016), Empirical algorithms to estimate water column pH in the Southern Ocean, Geophys. Res. Lett., 43(7), 3415-3422, doi:

2015 (13)

Bhaskar, T. V. S., N. S. Kumar, M. Ravichandran, and K. D. A. Kumar (2015), On the Possible Use of Satellite Fixed Positions for Argo Float Profiles in Case of Wrong Fixes by GPS, International Journal of Earth Science and Engineering, 8(2), 710-715, doi.

Bittig, H. C., and A. Körtzinger (2015), Tackling Oxygen Optode Drift: Near-Surface and In-Air Oxygen Optode Measurements on a Float Provide an Accurate in Situ Reference, J. Atmos. Ocean. Technol., 32(8), 1536-1543, doi:

Bushinsky, S. M., and S. Emerson (2015), Marine biological production from in situ oxygen measurements on a profiling float in the subarctic Pacific Ocean, Glob. Biogeochem. Cycle, 29(12), 2050-2060, doi:

Clarke, J. (2015), Characterisation of pH and pCO2 optodes towards high resolution in situ ocean deployment, University of Southampton\\:675195&q=%28argo%29%20AND%20pub_dt%3A%5B2005-01-01T00%3A00%3A00Z%20TO%202016-01-01T00%3A00%3A00Z%5D.

Fripiat, F., et al. (2015), Significant mixed layer nitrification in a natural iron-fertilized bloom of the Southern Ocean, Glob. Biogeochem. Cycle, 29(11), 1929-1943, doi:

Grenier, M., A. Della Penna, and T. W. Trull (2015), Autonomous profiling float observations of the high-biomass plume downstream of the Kerguelen Plateau in the Southern Ocean, Biogeosciences, 12(9), 2707-2735, doi:

Itoh, S., I. Yasuda, H. Saito, A. Tsuda, and K. Komatsu (2015), Mixed layer depth and chlorophyll a: Profiling float observations in the Kuroshio-Oyashio Extension region, J. Mar. Syst., 151, 1-14, doi:

Johnson, K. S., J. N. Plant, S. C. Riser, and D. Gilbert (2015), Air Oxygen Calibration of Oxygen Optodes on a Profiling Float Array, J. Atmos. Ocean. Technol., 32(11), 2160-2172, doi:

Karstensen, J., B. Fiedler, F. Schütte, P. Brandt, A. Körtzinger, G. Fischer, R. Zantopp, J. Hahn, M. Visbeck, and D. Wallace (2015), Open ocean dead zones in the tropical North Atlantic Ocean, Biogeosciences, 12(8), 2597-2605, doi:

Lavigne, H., F. D’Ortenzio, M. Ribera D’Alcalà, H. Claustre, R. Sauzède, and M. Gacic (2015), On the vertical distribution of the chlorophyll a concentration in the Mediterranean Sea: a basin-scale and seasonal approach, Biogeosciences, 12(16), 5021-5039, doi:

Ohde, T., B. Fiedler, and A. Körtzinger (2015), Spatio-temporal distribution and transport of particulate matter in the eastern tropical North Atlantic observed by Argo floats, Deep Sea Research Part I: Oceanographic Research Papers, 102, 26-42, doi:

Pasqueron de Fommervault, O., et al. (2015), Seasonal variability of nutrient concentrations in the Mediterranean Sea: Contribution of Bio-Argo floats, Journal of Geophysical Research: Oceans, 120(12), 8528-8550, doi:

Sauzède, R., H. Lavigne, H. Claustre, J. Uitz, C. Schmechtig, F. D’Ortenzio, C. Guinet, and S. Pesant (2015), Vertical distribution of chlorophyll a concentration and phytoplankton community composition from in situ fluorescence profiles: a first database for the global ocean, Earth System Science Data, 7(2), 261-273, doi:

2014 (9)

Bittig, H. C., B. Fiedler, R. Scholz, G. Krahmann, and A. Körtzinger (2014), Time response of oxygen optodes on profiling platforms and its dependence on flow speed and temperature, Limnology and Oceanography: Methods, 12(8), 617-636, doi:

Dall’Olmo, G., and K. A. Mork (2014), Carbon export by small particles in the Norwegian Sea, Geophys. Res. Lett., 41(8), 2921-2927, doi:

D’Ortenzio, F., et al. (2014), Observing mixed layer depth, nitrate and chlorophyll concentrations in the northwestern Mediterranean: A combined satellite and NO3 profiling floats experiment, Geophys. Res. Lett., 41(18), 2014GL061020, doi:

Emerson, S. R., and S. Bushinsky (2014), Oxygen Concentrations and Biological Fluxes in the Open Ocean, Oceanography, 27(1), 168-171, doi:

Green, R. E., A. S. Bower, and A. Lugo-Fernandez (2014), First Autonomous Bio-Optical Profiling Float in the Gulf of Mexico Reveals Dynamic Biogeochemistry in Deep Waters, Plos One, 9(7), 9, doi:

Mignot, A., H. Claustre, J. Uitz, A. Poteau, F. D’Ortenzio, and X. Xing (2014), Understanding the seasonal dynamics of phytoplankton biomass and the deep chlorophyll maximum in oligotrophic environments: A Bio-Argo float investigation, Glob. Biogeochem. Cycle, 28(8), 856-876, doi:

Takano, Y., T. Ito, C. Deutsch, and K. S. Johnson (2014), Interpreting intraseasonal variability of subsurface tracers observed by a profiling float, J. Geophys. Res.-Oceans, 119(1), 288-296, doi:

Xing, X., H. Claustre, J. Uitz, A. Mignot, A. Poteau, and H. Wang (2014), Seasonal variations of bio-optical properties and their interrelationships observed by Bio-Argo floats in the subpolar North Atlantic, Journal of Geophysical Research: Oceans, 119(10), 7372-7388, doi:

Xing, X., H. Claustre, H. Wang, A. Poteau, and F. D‘Ortenzio (2014), Seasonal dynamics in colored dissolved organic matter in the Mediterranean Sea: Patterns and drivers, Deep Sea Research Part I: Oceanographic Research Papers, 83(0), 93-101, doi:

2013 (8)

Estapa, M. L., K. Buesseler, E. Boss, and G. Gerbi (2013), Autonomous, high-resolution observations of particle flux in the oligotrophic ocean, Biogeosciences, 10(8), 5517-5531, doi: http://dx.doi10.5194/bg-10-5517-2013.

Fiedler, B., P. Fietzek, N. Vieira, P. Silva, H. C. Bittig, and A. Körtzinger (2013), In Situ CO2 and O2 Measurements on a Profiling Float, J. Atmos. Ocean. Technol., 30(1), 112-126, doi:

Johnson, K. S., L. J. Coletti, H. W. Jannasch, C. M. Sakamoto, D. D. Swift, and S. C. Riser (2013), Long-Term Nitrate Measurements in the Ocean Using the in situ Ultraviolet Spectrophotometer: Sensor Integration into the APEX Profiling Float, J. Atmos. Ocean. Technol., 30(8), 1854-1866, doi:

Lavigne, H., F. D’Ortenzio, C. Migon, H. Claustre, P. Testor, M. R. d’Alcalà, R. Lavezza, L. Houpert, and L. Prieur (2013), Enhancing the comprehension of mixed layer depth control on the Mediterranean phytoplankton phenology, Journal of Geophysical Research: Oceans, 118(7), 3416-3430, doi:

Omand, M. M., and A. Mahadevan (2013), Large-scale alignment of oceanic nitrate and density, J. Geophys. Res.-Oceans, 118(10), 5322-5332, doi:

Rehm, E., and C. D. Mobley (2013), Estimation of hyperspectral inherent optical properties from in-water radiometry: error analysis and application to in situ data, Applied Optics, 52(4), 795-817, doi:

Stanev, E. V., Y. He, S. Grayek, and A. Boetius (2013), Oxygen dynamics in the Black Sea as seen by Argo profiling floats, Geophys. Res. Lett., 40(12), 3085-3090, doi:

Takeshita, Y., T. R. Martz, K. S. Johnson, J. N. Plant, D. Gilbert, S. C. Riser, C. Neill, and B. Tilbrook (2013), A climatology-based quality control procedure for profiling float oxygen data, Journal of Geophysical Research: Oceans, 118(10), 5640-5650, doi:

2012 (8)

Alkire, M. B., et al. (2012), Estimates of net community production and export using high-resolution, Lagrangian measurements of O-2, NO3-, and POC through the evolution of a spring diatom bloom in the North Atlantic, Deep-Sea Res. Part I-Oceanogr. Res. Pap., 64, 157-174, doi:

Czeschel, R., L. Stramma, and G. C. Johnson (2012), Oxygen decreases and variability in the eastern equatorial Pacific, Journal of Geophysical Research: Oceans, 117(C11), C11019, doi:

Lavigne, H., F. D’Ortenzio, H. Claustre, and A. Poteau (2012), Towards a merged satellite and in situ fluorescence ocean chlorophyll product, Biogeosciences, 9(6), 2111-2125, doi:

Mahadevan, A., E. D’Asaro, C. Lee, and M. J. Perry (2012), Eddy-Driven Stratification Initiates North Atlantic Spring Phytoplankton Blooms, Science, 337(6090), 54-58, doi:

Prakash, S., T. M. B. Nair, T. V. S. U. Bhaskar, P. Prakash, and D. Gilbert (2012), Oxycline variability in the central Arabian Sea: An Argo-oxygen study, Journal of Sea Research, 71, 1-8, doi:

Ravichandran, M., M. S. Girishkumar, and S. Riser (2012), Observed variability of chlorophyll-a using Argo profiling floats in the southeastern Arabian Sea, Deep Sea Research Part I: Oceanographic Research Papers, 65, 15-25, doi:

Ulloa, O., D. E. Canfield, E. F. DeLong, R. M. Letelier, and F. J. Stewart (2012), Microbial oceanography of anoxic oxygen minimum zones, Proc. Natl. Acad. Sci. U. S. A., 109(40), 15996-16003, doi:

Xing, X., A. Morel, H. Claustre, F. D’Ortenzio, and A. Poteau (2012), Combined processing and mutual interpretation of radiometry and fluorometry from autonomous profiling Bio-Argo floats: 2. Colored dissolved organic matter absorption retrieval, Journal of Geophysical Research: Oceans, 117(C4), C04022, doi:

2011 (4)

Bagniewski, W., K. Fennel, M. J. Perry, and E. A. D’Asaro (2011), Optimizing models of the North Atlantic spring bloom using physical, chemical and bio-optical observations from a Lagrangian float, Biogeosciences, 8(5), 1291-1307, doi:

Juranek, L. W., R. A. Feely, D. Gilbert, H. Freeland, and L. A. Miller (2011), Real-time estimation of pH and aragonite saturation state from Argo profiling floats: Prospects for an autonomous carbon observing strategy, Geophys. Res. Lett., 38(17), L17603, doi:

Sukigara, C., T. Suga, T. Saino, K. Toyama, D. Yanagimoto, K. Hanawa, and N. Shikama (2011), Biogeochemical evidence of large diapycnal diffusivity associated with the subtropical mode water of the North Pacific, J. Oceanogr., 67(1), 77-85, doi:

Xing, X., A. Morel, H. Claustre, D. Antoine, F. D’Ortenzio, A. Poteau, A. Mignot, Z. Lee, S. Shang, and C. Hu (2011), Combined processing and mutual interpretation of radiometry and fluorimetry from autonomous profiling Bio Argo floats: Chlorophyll a retrieval, J. Geophys. Res, 116, C06020, doi:

2010 (9)

Boss, E., and M. Behrenfeld (2010), In situ evaluation of the initiation of the North Atlantic phytoplankton bloom, Geophys. Res. Lett., 37(18), L18603, doi:

Claustre, H., et al. (2010), Bio-Optical Profiling Floats as New Observational Tools for Biogeochemical and Ecosystem Studies: Potential Synergies with Ocean Color Remote Sensing, paper presented at Proceedings of OceanObs’09: Sustained Ocean Observations and Information for Society, ESA Publication, Venice, Italy.

Claustre, H., and co-authors (2010), Bio-optical Profiling Floats as New Observational Tools for Biogeochemical and Ecosystem Studies, in Proceedings of OceanObs’09: Sustained Ocean Observations and Information for Society, edited by J. Hall, D. E. Harrison and D. Stammer, ESA Publication, Venice, Italy, doi:

Gruber, N., S. Doney, S. R. Emerson, D. Gilbert, T. Kobayashi, A. Kortzinger, G. C. Johnson, K. Johnson, S. Riser, and O. Ulloa (2010), Addition Oxygen to Argo: Developing a Global In Situ Observatory for Ocean Deoxygenation and Biogeochemistry, paper presented at Proceedings of Oceanobs’09: Sustained Ocean Observations and Information for Society, ESA Publication, Venice, Italy.

Gruber, N., A. Körtzinger, A. Borges, H. Claustre, S. C. Doney, R. A. Feely, M. Hood, M. Ishii, A. Kozyr, and P. Monteiro (2010), Towards an integrated observing system for ocean carbon and biogeochemistry at a time of change, paper presented at Proceedings of the “OceanObs’09: Sustained Ocean Observations and Information for Society” Conference, Venice, Italy, 21-25 September 2009, ESA Publication WPP-306.

Johnson, K. S., S. C. Riser, and D. M. Karl (2010), Nitrate supply from deep to near-surface waters of the North Pacific subtropical gyre, Nature, 465(7301), 1062-1065, doi:

Kihm, C., and A. Kortzinger (2010), Air-sea gas transfer velocity for oxygen derived from float data, J. Geophys. Res., 115(C12), C12003, doi:

Venables, H., and C. M. Moore (2010), Phytoplankton and light limitation in the Southern Ocean: Learning from high-nutrient, high-chlorophyll areas, J. Geophys. Res., 115(C2), C02015, doi:

Whitmire, A. L., W. S. Pegau, L. Karp-Boss, E. Boss, and T. J. Cowles (2010), Spectral backscattering properties of marine phytoplankton cultures, Opt. Express, 18(14), 15073-15093, doi.

2009 (3)

Bishop, J. K. B. (2009), Autonomous Observations of the Ocean Biological Carbon Pump, Oceanography, 22(2), 182-193, doi:

Bishop, J. K. B., and T. J. Wood (2009), Year-round observations of carbon biomass and flux variability in the Southern Ocean, Glob. Biogeochem. Cycle, 23, doi:

Johnson, K. S., W. M. Berelson, E. S. Boss, Z. Chase, H. Claustre, S. R. Emerson, N. Gruber, A. Kortzinger, M. J. Perry, and S. C. Riser (2009), Observing Biogeochemical Cycles at Global Scales with Profiling Floats and Gliders Prospects for a Global Array, Oceanography, 22(3), 216-225, doi:

2008 (4)

Boss, E., M. J. Perry, D. Swift, P. Brickley, R. Zaneveld, and S. Riser (2008), Three Years of Ocean Data from a Bio-optical Profiling Float, EOS, 88(23), doi:

Boss, E., D. Swift, L. Taylor, P. Brickley, R. Zaneveld, S. Riser, M. J. Perry, and P. G. Strutton (2008), Observations of pigment and particle distributions in the western North Atlantic from an autonomous float and ocean color satellite, Limnol. Oceanogr., 53(5 part 2), 2112-2122, doi:

Martz, T. R., K. S. Johnson, and S. C. Riser (2008), Ocean metabolism observed with oxygen sensors on profiling floats in the South Pacific, Limnol. Oceanogr., 53(5), 2094-2111, doi:

Riser, S. C., and K. S. Johnson (2008), Net production of oxygen in the subtropical ocean, Nature, 451(7176), 323-325, doi:

2006 (1)

Tengberg, A., et al. (2006), Evaluation of a lifetime-based optode to measure oxygen in aquatic systems, Limnology and Oceanography: Methods, 4(2), 7-17, doi:

2005 (1)

Kortzinger, A., J. Schimanski, and U. Send (2005), High Quality Oxygen Measurements from Profiling Floats: A Promising New Technique, J. Atmos. Ocean. Technol., 22(3), 302-308, doi:

2004 (3)

Bishop, J. K. B., T. J. Wood, R. E. Davis, and J. T. Sherman (2004), Robotic observations of enhanced carbon biomass and export at 55 degrees S during SOFeX, Science, 304(5669), 417-420, doi:

Kortzinger, A., J. Schimanski, U. Send, and D. Wallace (2004), The ocean takes a deep breath, Science, 306(5700), 1337-1337, doi:

Lazarevich, P., T. Rossby, and C. McNeil (2004), Oxygen variability in the near-surface waters of the northern North Atlantic: Observations and a model, J. Mar. Res., 62(5), 663-683, doi:

2002 (1)

Bishop, J. K. B., R. E. Davis, and J. T. Sherman (2002), Robotic Observations of Dust Storm Enhancement of Carbon Biomass in the North Pacific, Science, 298(5594), 817-821, doi: