Publications

CARBOCHANGE Publications – Fast access

CARBOCHANGE peer-reviewed publications 2015, 2014, 2013, 2012, 2011, CARBOCHANGE book chapters,
CARBOCHANGE theses, Further information (open access, how to cite)

 
 

CARBOCHANGE Publications (peer-reviewed)

 

~ 2015 ~

 

  1. Bendtsen J, Hilligsøe KM, Hansen JLS & Richardson K (2015) Analysis of remineralisation, lability, temperature sensitivity and structural composition of organic matter from the upper ocean. Progress in Oceanography 130: 125-145. doi: 10.1016/j.pocean.2014.10.009.
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  3. Brown PJ, Jullion L, Landschützer P, Bakker DCE, Naveira Garabato AC, Meredith MP, Torres-Valdés S, Watson AJ, Hoppema M, Loose B, Jones EM, Telszewski M, Jones SD & Wanninkhof R (2015) Carbon dynamics of the Weddell Gyre, Southern Ocean. Global Biogeochemical Cycles 29: 288-306. doi: 10.1002/2014GB005006.
  4.  

  5. Carracedo Segade LI, Gil Coto M, Mercier H & Pérez FF (2015) Quasi-synoptic transport, budgets and water mass transformation in the Azores–Gibraltar Strait region during summer 2009. Progress in Oceanography 130: 47-64. doi: 10.1016/j.pocean.2014.09.006.
  6.  

  7. Fajar NM, Guallart EF, Steinfeldt R, Ríos AF, Pelegrí JL, Pelejero C, Calvo E & Pérez FF (2015) Anthropogenic CO2 changes in the Equatorial Atlantic Ocean. Progress in Oceanography. doi: 10.1016/j.pocean.2015.02.004.
  8.  

  9. Frischknecht M, Münnich M & Gruber N (2015) Remote versus local influence of ENSO on the California Current System. Journal of Geophysical Research: Oceans 120: 1353-1374. doi: 10.1002/2014JC010531.
  10.  

  11. Guallart EF, Fajar NM, Padín XA, Vázquez-Rodríguez M, Calvo E, Ríos AF, Hernández-Guerra A, Pelejero C & Pérez FF (2015) Ocean acidification along the 24.5°N section in the subtropical North Atlantic. Geophysical Research Letters 42: 450-458. doi: 10.1002/2014GL062971.
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  13. Guallart EF, Schuster U, Fajar NM, Legge O, Brown P, Pelejero C, Messias M-J, Calvo E, Watson A, Ríos AF & Pérez FF (2014) Trends in anthropogenic CO2 in water masses of the Subtropical North Atlantic Ocean. Progress in Oceanography 131: 21-32. doi: 10.1016/j.pocean.2014.11.006.
  14.  

  15. Hartman SE, Jiang ZP, Turk D, Lampitt RS, Frigstad H, Ostle C & Schuster U (2015) Biogeochemical variations at the Porcupine Abyssal Plain sustained Observatory in the northeast Atlantic Ocean, from weekly to inter-annual timescales. Biogeosciences 12: 845-853. doi: 10.5194/bg-12-845-2015.
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  17. Hauck J & Völker C (2015) Rising atmospheric CO2 leads to large impact of biology on Southern Ocean CO2 uptake via changes of the Revelle factor. Geophysical Research Letters 42: 1459–1464. doi: 10.1002/2015GL063070.
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  19. Jeansson E, Bellerby RGJ, Skjelvan I, Frigstad H, Ólafsdóttir SR & Olafsson J (2015) Fluxes of carbon and nutrients to the Iceland Sea surface layer and inferred primary productivity and stoichiometry. Biogeosciences 12: 875-885. doi: 10.5194/bg-12-875-2015.
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  21. Keller KM, Joos F, Lehner F & Raible CC (2015) Detecting changes in marine responses to ENSO from 850 to 2100 C.E.: Insights from the ocean carbon cycle. Geophysical Research Letters 42: 518-525. doi: 10.1002/2014GL062398.
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  23. Lauvset SK, Gruber N, Landschützer P, Olsen A & Tjiputra J (2015) Trends and drivers in global surface ocean pH over the past 3 decades. Biogeosciences 12: 1285-1298. doi: 10.5194/bg-12-1285-2015.
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  25. Orr JC & Epitalon JM (2015) Improved routines to model the ocean carbonate system: mocsy 2.0. Geoscientific Model Development 8: 485-499. doi: 10.5194/gmd-8-485-2015.
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  27. Orr JC, Epitalon JM & Gattuso JP (2015) Comparison of ten packages that compute ocean carbonate chemistry. Biogeosciences 12: 1483-1510. doi: 10.5194/bg-12-1483-2015.
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  29. Ostle C, Johnson M, Landschützer P, Schuster U, Hartman S, Hull T & Robinson C (2015) Net community production in the North Atlantic Ocean derived from Volunteer Observing Ship data. Global Biogeochemical Cycles 29: 80-95. doi: 10.1002/2014GB004868.
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  31. Resplandy L, Séférian R & Bopp L (2015) Natural variability of CO2 and O2 fluxes: What can we learn from centuries-long climate models simulations? Journal of Geophysical Research: Oceans 120: 384-404. doi: 10.1002/2014JC010463.
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  33. Rhein M, Kieke D & Steinfeldt R (2015) Advection of North Atlantic Deep Water from the Labrador Sea to the southern hemisphere. Journal of Geophysical Research: Oceans. doi: 10.1002/2014JC010605.
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  35. Salt LA, van Heuven SMAC, Claus ME, Jones EM & de Baar HJW (2015) Rapid acidification of mode and intermediate waters in the southwestern Atlantic Ocean. Biogeosciences 12: 1387-1401. doi: 10.5194/bg-12-1387-2015.
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  37. Sitch S, Friedlingstein P, Gruber N, Jones SD, Murray-Tortarolo G, Ahlström A, Doney SC, Graven H, Heinze C, Huntingford C, Levis S, Levy PE, Lomas M, Poulter B, Viovy N, Zaehle S, Zeng N, Arneth A, Bonan G, Bopp L, Canadell JG, Chevallier F, Ciais P, Ellis R, Gloor M, Peylin P, Piao SL, Le Quéré C, Smith B, Zhu Z & Myneni R (2015) Recent trends and drivers of regional sources and sinks of carbon dioxide. Biogeosciences 12: 653-679. doi: 10.5194/bg-12-653-2015.
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  39. Su B, Pahlow M, Wagner H & Oschlies A (2015) What prevents nitrogen depletion in the oxygen minimum zone of the eastern tropical South Pacific? Biogeosciences 12: 1113-1130. doi: 10.5194/bg-12-1113-2015.
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~ 2014 ~

 

  1. Bakker DCE, Pfeil B, Smith K, Hankin S, Olsen A, Alin SR, Cosca C, Harasawa S, Kozyr A, Nojiri Y, O’Brien KM, Schuster U, Telszewski M, Tilbrook B, Wada C, Akl J, Barbero L, Bates NR, Boutin J, Bozec Y, Cai WJ, Castle RD, Chavez FP, Chen L, Chierici M, Currie K, de Baar HJW, Evans W, Feely RA, Fransson A, Gao Z, Hales B, Hardman-Mountford NJ, Hoppema M, Huang WJ, Hunt CW, Huss B, Ichikawa T, Johannessen T, Jones EM, Jones SD, Jutterström S, Kitidis V, Körtzinger A, Landschützer P, Lauvset SK, Lefèvre N, Manke AB, Mathis JT, Merlivat L, Metzl N, Murata A, Newberger T, Omar AM, Ono T, Park GH, Paterson K, Pierrot D, Ríos AF, Sabine CL, Saito S, Salisbury J, Sarma VVSS, Schlitzer R, Sieger R, Skjelvan I, Steinhoff T, Sullivan KF, Sun H, Sutton AJ, Suzuki T, Sweeney C, Takahashi T, Tjiputra J, Tsurushima N, van Heuven SMAC, Vandemark D, Vlahos P, Wallace DWR, Wanninkhof R & Watson AJ (2014) An update to the Surface Ocean CO2 Atlas (SOCAT version 2). Earth System Science Data 6: 69-90. doi: 10.5194/essd-6-69-2014.
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  3. Borrione I, Aumont O, Nielsdóttir MC & Schlitzer R (2014) Sedimentary and atmospheric sources of iron around South Georgia, Southern Ocean: a modelling perspective. Biogeosciences 11: 1981-2001. doi: 10.5194/bg-11-1981-2014.
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  5. Desbruyères DG, McDonagh EL, King BA, Garry FK, Blaker AT, Moat B & Mercier H (2014) Full-depth temperature trends in the Northeastern Atlantic through the early 21st century. Geophysical Research Letters 41: 7971–7979. doi: 10.1002/2014GL061844.
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  7. Ericson Y, Ulfsbo A, van Heuven S, Kattner G & Anderson LG (2014) Increasing carbon inventory of the intermediate layers of the Arctic Ocean. Journal of Geophysical Research: Oceans 119: 2312-2326. doi: 10.1002/2013JC009514.
  8.  

  9. Gehlen M, Séférian R, Jones DOB, Roy T, Roth R, Barry J, Bopp L, Doney SC, Dunne JP, Heinze C, Joos F, Orr JC, Resplandy L, Segschneider J & Tjiputra J (2014) Projected pH reductions by 2100 might put deep North Atlantic biodiversity at risk. Biogeosciences 11: 6955-6967. doi: 10.5194/bg-11-6955-2014.
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  11. Ishii M, Feely RA, Rodgers KB, Park G-H, Wanninkhof R, Sasano D, Sugimoto H, Cosca CE, Nakaoka S, Telszewski M, Nojiri Y, Mikaloff Fletcher SE, Niwa Y, Patra PK, Valsala V, Nakano H, Lima I, Doney SC, Buitenhuis ET, Aumont O, Dunne JP, Lenton A & Takahashi T (2014) Air-sea CO2 flux in the Pacific Ocean for the period 1990–2009. Biogeosciences 11: 709-734. doi: 10.5194/bg-11-709-2014.
  12.  

  13. Keller KM, Joos F & Raible CC (2014) Time of emergence of trends in ocean biogeochemistry. Biogeosciences 11: 3647-3659. doi: 10.5194/bg-11-3647-2014.
  14.  

  15. Koeve W, Duteil O, Oschlies A, Kähler P & Segschneider J (2014) Methods to evaluate CaCO3 cycle modules in coupled global biogeochemical ocean models. Geoscientific Model Development 7: 2393-2408. doi: 10.5194/gmd-7-2393-2014.
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  17. Landschützer P, Gruber N, Bakker DCE & Schuster U (2014) Recent variability of the global ocean carbon sink. Global Biogeochemical Cycles 28: 927–949. doi: 10.1002/2014GB004853. Further information can be found here.
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  19. Landwehr S, Miller SD, Smith MJ, Saltzman ES & Ward B (2014) Analysis of the PKT correction for direct CO2 flux measurements over the ocean. Atmospheric Chemistry and Physics 14: 3361-3372. doi: 10.5194/acp-14-3361-2014.
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  21. Lauvset SK & Gruber N (2014) Long-term trends in surface ocean pH in the North Atlantic. Marine Chemistry 162: 71-76. doi: 10.1016/j.marchem.2014.03.009.
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  23. Le Quéré C, Peters GP, Andres RJ, Andrew RM, Boden TA, Ciais P, Friedlingstein P, Houghton RA, Marland G, Moriarty R, Sitch S, Tans P, Arneth A, Arvanitis A, Bakker DCE, Bopp L, Canadell JG, Chini LP, Doney SC, Harper A, Harris I, House JI, Jain AK, Jones SD, Kato E, Keeling RF, Klein Goldewijk K, Körtzinger A, Koven C, Lefèvre N, Maignan F, Omar A, Ono T, Park GH, Pfeil B, Poulter B, Raupach MR, Regnier P, Rödenbeck C, Saito S, Schwinger J, Segschneider J, Stocker BD, Takahashi T, Tilbrook B, van Heuven S, Viovy N, Wanninkhof R, Wiltshire A & Zaehle S (2014) Global carbon budget 2013. Earth System Science Data 6: 235-263. doi: 10.5194/essd-6-235-2014.
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  25. Lefèvre N, Urbano DF, Gallois F & Diverrès D (2014) Impact of physical processes on the seasonal distribution of the fugacity of CO2 in the western tropical Atlantic. Journal of Geophysical Research: Oceans 119: 646-663. doi: 10.1002/2013JC009248.
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  27. Merlivat L, Boutin J & Antoine D (2014) Roles of biological and physical processes in driving seasonal air-sea CO2 flux in the Southern Ocean: New insights from CARIOCA pCO2. Journal of Marine Systems. doi: 10.1016/j.jmarsys.2014.04.015.
  28.  

  29. Parard G, Boutin J, Cuypers Y, Bouruet-Aubertot P & Caniaux G (2014) On the physical and biogeochemical processes driving the high-frequency variability of CO2 fugacity at 6°S, 10°W: Potential role of the internal waves. Journal of Geophysical Research: Oceans 119: 8357–8374. doi: 10.1002/2014JC009965.
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  31. Pardo PC, Pérez FF, Khatiwala S & Ríos AF (2014) Anthropogenic CO2 estimates in the Southern Ocean: Storage partitioning in the different water masses. Progress in Oceanography 120: 230-242. doi: 10.1016/j.pocean.2013.09.005.
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  33. Racapé V, Metzl N, Pierre C, Reverdin G, Quay PD & Olafsdottir SR (2014) The seasonal cycle of δ13CDIC in the North Atlantic subpolar gyre. Biogeosciences 11: 1683-1692. doi: 10.5194/bg-11-1683-2014.
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  35. Raupach MR, Gloor M, Sarmiento JL, Canadell JG, Frölicher TL, Gasser T, Houghton RA, Le Quéré C & Trudinger CM (2014) The declining uptake rate of atmospheric CO2 by land and ocean sinks. Biogeosciences 11: 3453-3475. doi: 10.5194/bg-11-3453-2014.
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  37. Resplandy L, Boutin J & Merlivat L (2014) Observed small spatial scale and seasonal variability of the CO2 system in the Southern Ocean. Biogeosciences 11: 75-90. doi: 10.5194/bg-11-75-2014.
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  39. Roth R, Ritz SP & Joos F (2014) Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation. Earth System Dynamics 5: 321-343. doi: 10.5194/esd-5-321-2014.
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  41. Rödenbeck C, Bakker DCE, Metzl N, Olsen A, Sabine C, Cassar N, Reum F, Keeling RF & Heimann M (2014) Interannual sea–air CO2 flux variability from an observation-driven ocean mixed-layer scheme. Biogeosciences 11: 4599-4613. doi: 10.5194/bg-11-4599-2014.
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  43. Saurer M, Spahni R, Frank DC, Joos F, Leuenberger M, Loader NJ, McCarroll D, Gagen M, Poulter B, Siegwolf RTW, Andreu-Hayles L, Boettger T, Dorado Liñán I, Fairchild IJ, Friedrich M, Gutierrez E, Haupt M, Hilasvuori E, Heinrich I, Helle G, Grudd H, Jalkanen R, Levanič T, Linderholm HW, Robertson I, Sonninen E, Treydte K, Waterhouse JS, Woodley EJ, Wynn PM & Young GHF (2014) Spatial variability and temporal trends in water-use efficiency of European forests. Global Change Biology 20: 3700-3712. doi: 10.1111/gcb.12717.
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  45. Schourup-Kristensen V, Sidorenko D, Wolf-Gladrow DA & Völker C (2014) A skill assessment of the biogeochemical model REcoM2 coupled to the Finite Element Sea Ice–Ocean Model (FESOM 1.3). Geoscientific Model Development 7: 2769-2802. doi: 10.5194/gmd-7-2769-2014.
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  47. Schuster U, Watson AJ, Bakker DCE, de Boer AM, Jones EM, Lee GA, Legge O, Louwerse A, Riley J & Scally S (2014) Measurements of total alkalinity and inorganic dissolved carbon in the Atlantic Ocean and adjacent Southern Ocean between 2008 and 2010. Earth System Science Data 6: 175-183. doi: 10.5194/essd-6-175-2014.
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  49. Schwinger J, Tjiputra JF, Heinze C, Bopp L, Christian JR, Gehlen M, Ilyina T, Jones CD, Salas-Mélia D, Segschneider J, Séférian R & Totterdell I (2014) Non-linearity of ocean carbon cycle feedbacks in CMIP5 earth system models. Journal of Climate 27: 3869–3888. doi: 10.1175/JCLI-D-13-00452.1.
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  51. Séférian R, Ribes A & Bopp L (2014) Detecting the anthropogenic influences on recent changes in ocean carbon uptake. Geophysical Research Letters 41: 5968–5977. doi: 10.1002/2014GL061223.
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  53. Sutherland G, Christensen KH & Ward B (2014) Evaluating Langmuir turbulence parameterizations in the ocean surface boundary layer. Journal of Geophysical Research: Oceans 119: 1899-1910. doi: 10.1002/2013JC009537.
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  55. Tjiputra JF, Olsen A, Bopp L, Lenton A, Pfeil B, Roy T, Segschneider J, Totterdell I & Heinze C (2014) Long-term surface pCO2 trends from observations and models. Tellus Series B: Chemical and Physical Meteorology 66: 23083. doi: 10.3402/tellusb.v66.23083.
  56.  

  57. Turi G, Lachkar Z & Gruber N (2014) Spatiotemporal variability and drivers of pCO2 and air–sea CO2 fluxes in the California Current System: an eddy-resolving modeling study. Biogeosciences 11: 671-690. doi: 10.5194/bg-11-671-2014.
  58.  

  59. Ulfsbo A, Cassar N, Korhonen M, van Heuven S, Hoppema M, Kattner G & Anderson LG (2014) Late summer net community production in the central Arctic Ocean using multiple approaches. Global Biogeochemical Cycles 28: 1129-1148. doi: 10.1002/2014GB004833.
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  61. van Heuven SMAC, Hoppema M, Jones EM & de Baar HJW (2014) Rapid invasion of anthropogenic CO2 into the deep circulation of the Weddell Gyre. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 372: 20130056. doi: 10.1098/rsta.2013.0056.
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  63. Zunino P, Garcia-Ibañez MI, Lherminier P, Mercier H, Rios AF & Pérez FF (2014) Variability of the transport of anthropogenic CO2 at the Greenland–Portugal OVIDE section: controlling mechanisms. Biogeosciences 11: 2375-2389. doi: 10.5194/bg-11-2375-2014.
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~ 2013 ~

 

  1. Anderson LG, Andersson PS, Björk G, Jones EP, Jutterström S & Wåhlström I (2013) Source and formation of the upper halocline of the Arctic Ocean. Journal of Geophysical Research: Oceans 118: 410-421. doi: 10.1029/2012JC008291.
  2.  

  3. Andrews OD, Bindoff NL, Halloran PR, Ilyina T & Le Quéré C (2013) Detecting an external influence on recent changes in oceanic oxygen using an optimal fingerprinting method. Biogeosciences 10: 1799-1813. doi: 10.5194/bg-10-1799-2013.
  4.  

  5. Bopp L, Resplandy L, Orr JC, Doney SC, Dunne JP, Gehlen M, Halloran P, Heinze C, Ilyina T, Séférian R, Tjiputra J & Vichi M (2013) Multiple stressors of ocean ecosystems in the 21st century: projections with CMIP5 models. Biogeosciences 10: 6225-6245. doi: 10.5194/bg-10-6225-2013.
  6.  

  7. Borrione I & Schlitzer R (2013) Distribution and recurrence of phytoplankton blooms around South Georgia, Southern Ocean. Biogeosciences 10: 217-231. doi: 10.5194/bg-10-217-2013.
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  9. Cobo-Viveros AM, Padin XA, Otero P, de la Paz M, Ruiz-Villarreal M, Ríos AF & Pérez FF (2013) Short-term variability of surface carbon dioxide and sea-air CO2 fluxes in the shelf waters of the Galician coastal upwelling system. Scientia Marina 77: 37-48. doi: 10.3989/scimar.03733.27C.
  10.  

  11. Cocco V, Joos F, Steinacher M, Frölicher TL, Bopp L, Dunne J, Gehlen M, Heinze C, Orr J, Oschlies A, Schneider B, Segschneider J & Tjiputra J (2013) Oxygen and indicators of stress for marine life in multi-model global warming projections. Biogeosciences 10: 1849-1868. doi: 10.5194/bg-10-1849-2013.
  12.  

  13. Dufour CO, Le Sommer J, Gehlen M, Orr JC, Molines J-M, Simeon J & Barnier B (2013) Eddy compensation and controls of the enhanced sea-to-air CO2 flux during positive phases of the southern annular mode. Global Biogeochemical Cycles 27: 950-961. doi: 10.1002/gbc.20090.
  14.  

  15. Frölicher TL, Joos F, Raible CC & Sarmiento JL (2013) Atmospheric CO2 response to volcanic eruptions: The role of ENSO, season, and variability. Global Biogeochemical Cycles 27: 239-251. doi: 10.1002/gbc.20028.
  16.  

  17. Gerber M & Joos F (2013) An Ensemble Kalman Filter multi-tracer assimilation: Determining uncertain ocean model parameters for improved climate-carbon cycle projections. Ocean Modelling 64: 29-45. doi: 10.1016/j.ocemod.2012.12.012.
  18.  

  19. Hauck J, Völker C, Wang T, Hoppema M, Losch M & Wolf-Gladrow DA (2013) Seasonally different carbon flux changes in the Southern Ocean in response to the Southern Annular Mode. Global Biogeochemical Cycles 27: 1236-1245. doi: 10.1002/2013GB004600.
  20.  

  21. Huhn O, Rhein M, Hoppema M & van Heuven S (2013) Decline of deep and bottom water ventilation and slowing down of anthropogenic carbon storage in the Weddell Sea, 1984–2011. Deep Sea Research Part I: Oceanographic Research Papers 76: 66-84. doi: 10.1016/j.dsr.2013.01.005.
  22.  

  23. Ilyina T, Six KD, Segschneider J, Maier-Reimer E, Li H & Núñez-Riboni I (2013) Global ocean biogeochemistry model HAMOCC: Model architecture and performance as component of the MPI-Earth system model in different CMIP5 experimental realizations. Journal of Advances in Modeling Earth Systems 5: 287-315. doi: 10.1029/2012MS000178.
  24.  

  25. Ilyina T, Wolf-Gladrow D, Munhoven G & Heinze C (2013) Assessing the potential of calcium-based artificial ocean alkalinization to mitigate rising atmospheric CO2 and ocean acidification. Geophysical Research Letters 40: 5909-5914. doi: 10.1002/2013GL057981.
  26.  

  27. Jiang Z-P, Hydes DJ, Tyrrell T, Hartman SE, Hartman MC, Dumousseaud C, Padin XA, Skjelvan I & González-Pola C (2013) Key controls on the seasonal and interannual variations of the carbonate system and air-sea CO2 flux in the Northeast Atlantic (Bay of Biscay). Journal of Geophysical Research: Oceans 118: 785-800. doi: 10.1002/jgrc.20087.
  28.  

  29. Jones C, Robertson E, Arora V, Friedlingstein P, Shevliakova E, Bopp L, Brovkin V, Hajima T, Kato E, Kawamiya M, Liddicoat S, Lindsay K, Reick CH, Roelandt C, Segschneider J & Tjiputra J (2013) Twenty-first-century compatible CO2 emissions and airborne fraction simulated by CMIP5 Earth System Models under four representative concentration pathways. Journal of Climate 26: 4398-4413. doi: 10.1175/JCLI-D-12-00554.1.
  30.  

  31. Joos F, Roth R, Fuglestvedt JS, Peters GP, Enting IG, Bloh Wv, Brovkin V, Burke EJ, Eby M, Edwards NR, Friedrich T, Frölicher TL, Halloran PR, Holden PB, Jones C, Kleinen T, Mackenzie FT, Matsumoto K, Meinshausen M, Plattner G-K, Reisinger A, Segschneider J, Shaffer G, Steinacher M, Strassmann K, Tanaka K, Timmermann A & Weaver AJ (2013) Carbon dioxide and climate impulse response functions for the computation of greenhouse gas metrics: a multi-model analysis. Atmospheric Chemistry and Physics 13: 2793-2825. doi: 10.5194/acp-13-2793-2013.
  32.  

  33. Kaminski T, Knorr W, Schürmann G, Scholze M, Rayner PJ, Zaehle S, Blessing S, Dorigo W, Gayler V, Giering R, Gobron N, Grant JP, Heimann M, Hooker-Stroud A, Houweling S, Kato T, Kattge J, Kelley D, Kemp S, Koffi EN, Köstler C, Mathieu PP, Pinty B, Reick CH, Rödenbeck C, Schnur R, Scipal K, Sebald C, Stacke T, van Scheltinga AT, Vossbeck M, Widmann H & Ziehn T (2013) The BETHY/JSBACH carbon cycle data assimilation system: experiences and challenges. Journal of Geophysical Research: Biogeosciences 118: 1414-1426. doi: 10.1002/jgrg.20118.
  34.  

  35. Khatiwala S, Tanhua T, Fletcher SM, Gerber M, Doney SC, Graven HD, Gruber N, McKinley GA, Murata A, Ríos AF & Sabine CL (2013) Global ocean storage of anthropogenic carbon. Biogeosciences 10: 2169-2191. doi: 10.5194/bg-10-2169-2013.
  36.  

  37. Kriest I & Oschlies A (2013) Swept under the carpet: organic matter burial decreases global ocean biogeochemical model sensitivity to remineralization length scale. Biogeosciences 10: 8401-8422. doi: 10.5194/bg-10-8401-2013.
  38.  

  39. Lachkar Z & Gruber N (2013) Response of biological production and air–sea CO2 fluxes to upwelling intensification in the California and Canary Current Systems. Journal of Marine Systems 109–110: 149-160. doi: 10.1016/j.jmarsys.2012.04.003.
  40.  

  41. Landschützer P, Gruber N, Bakker DCE, Schuster U, Nakaoka S, Payne MR, Sasse T & Zeng J (2013) A neural network-based estimate of the seasonal to inter-annual variability of the Atlantic Ocean carbon sink. Biogeosciences 10: 7793-7815. doi: 10.5194/bg-10-7793-2013.
  42.  

  43. Le Quéré C, Andres RJ, Boden T, Conway T, Houghton RA, House JI, Marland G, Peters GP, Werf GRvd, Ahlström A, Andrew RM, Bopp L, Canadell JG, Ciais P, Doney SC, Enright C, Friedlingstein P, Huntingford C, Jain AK, Jourdain C, Kato E, Keeling RF, Goldewijk KK, Levis S, Levy P, Lomas M, Poulter B, Raupach MR, Schwinger J, Sitch S, Stocker BD, Viovy N, Zaehle S & Zeng N (2013) The global carbon budget 1959–2011. Earth System Science Data 5: 165-185. doi: 10.5194/essd-5-165-2013.
  44.  

  45. Lefèvre N, Caniaux G, Janicot S & Gueye AK (2013) Increased CO2 outgassing in February-May 2010 in the tropical Atlantic following the 2009 Pacific El Niño. Journal of Geophysical Research: Oceans 118: 1645-1657. doi: 10.1002/jgrc.20107.
  46.  

  47. Lenton A, Tilbrook B, Law RM, Bakker D, Doney SC, Gruber N, Ishii M, Hoppema M, Lovenduski NS, Matear RJ, McNeil BI, Metzl N, Fletcher SEM, Monteiro PMS, Rödenbeck C, Sweeney C & Takahashi T (2013) Sea–air CO2 fluxes in the Southern Ocean for the period 1990–2009. Biogeosciences 10: 4037-4054. doi: 10.5194/bg-10-4037-2013.
  48.  

  49. Levy M, Bopp L, Karleskind P, Resplandy L, Ethe C & Pinsard F (2013) Physical pathways for carbon transfers between the surface mixed-layer and the ocean interior. Global Biogeochemical Cycles 27: 1001-1012. doi: 10.1002/gbc.20092.
  50.  

  51. Linders J & Björk G (2013) The melt-freeze cycle of the Arctic Ocean ice cover and its dependence on ocean stratification. Journal of Geophysical Research: Oceans 118: 5963–5976. doi: 10.1002/jgrc.20409.
  52.  

  53. O’Sullivan N, Landwehr S & Ward B (2013) Mapping flow distortion on oceanographic platforms using computational fluid dynamics. Ocean Science 9: 855-866. doi: 10.5194/os-9-855-2013.
  54.  

  55. Otero P, Padin XA, Ruiz-Villarreal M, García-García LM, Ríos AF & Pérez FF (2013) Net sea–air CO2 flux uncertainties in the Bay of Biscay based on the choice of wind speed products and gas transfer parameterizations. Biogeosciences 10: 2993-3005. doi: 10.5194/bg-10-2993-2013.
  56.  

  57. Pérez FF, Mercier H, Vázquez-Rodríguez M, Lherminier P, Velo A, Pardo PC, Rosón G & Ríos AF (2013) Atlantic Ocean CO2 uptake reduced by weakening of the meridional overturning circulation. Nature Geoscience 6: 146-152. doi: 10.1038/NGEO1680.
  58.  

  59. Pfeil B, Olsen A, Bakker DCE, Hankin S, Koyuk H, Kozyr A, Malczyk J, Manke A, Metzl N, Sabine CL, Akl J, Alin SR, Bates N, Bellerby RGJ, Borges A, Boutin J, Brown PJ, Cai W-J, Chavez FP, Chen A, Cosca C, Fassbender AJ, Feely RA, González-Dávila M, Goyet C, Hales B, Hardman-Mountford N, Heinze C, Hood M, Hoppema M, Hunt CW, Hydes D, Ishii M, Johannessen T, Jones SD, Key RM, Körtzinger A, Landschützer P, Lauvset SK, Lefèvre N, Lenton A, Lourantou A, Merlivat L, Midorikawa T, Mintrop L, Miyazaki C, Murata A, Nakadate A, Nakano Y, Nakaoka S, Nojiri Y, Omar AM, Padin XA, Park G-H, Paterson K, Perez FF, Pierrot D, Poisson A, Ríos AF, Santana-Casiano JM, Salisbury J, Sarma VVSS, Schlitzer R, Schneider B, Schuster U, Sieger R, Skjelvan I, Steinhoff T, Suzuki T, Takahashi T, Tedesco K, Telszewski M, Thomas H, Tilbrook B, Tjiputra J, Vandemark D, Veness T, Wanninkhof R, Watson AJ, Weiss R, Wong CS & Yoshikawa-Inoue H (2013) A uniform, quality controlled Surface Ocean CO2 Atlas (SOCAT). Earth System Science Data 5: 125-143. doi: 10.5194/essd-5-125-2013.
  60.  

  61. Prieß M, Piwonski J, Koziel S, Oschlies A & Slawig T (2013) Accelerated parameter identification in a 3D marine biogeochemical model using surrogate-based optimization. Ocean Modelling 68: 22-36. doi: 10.1016/j.ocemod.2013.04.003.
  62.  

  63. Racapé V, Pierre C, Metzl N, Lo Monaco C, Reverdin G, Olsen A, Morin P, Vázquez-Rodríguez M, Ríos AF & Pérez FF (2013) Anthropogenic carbon changes in the Irminger Basin (1981–2006): Coupling δ13CDIC and DIC observations. Journal of Marine Systems 126: 24-32. doi: 10.1016/j.jmarsys.2012.12.005.
  64.  

  65. Resplandy L, Bopp L, Orr JC & Dunne JP (2013) Role of mode and intermediate waters in future ocean acidification: Analysis of CMIP5 models. Geophysical Research Letters 40: 3091-3095. doi: 10.1002/grl.50414.
  66.  

  67. Ricke K, Orr J, Schneider K & Caldeira K (2013) Risks to coral reefs from ocean carbonate chemistry changes in recent earth system model projections. Environmental Research Letters 8: 034003. doi: 10.1088/1748-9326/8/3/034003.
  68.  

  69. Rödenbeck C, Keeling RF, Bakker DCE, Metzl N, Olsen A, Sabine C & Heimann M (2013) Global surface-ocean pCO2 and sea–air CO2 flux variability from an observation-driven ocean mixed-layer scheme. Ocean Science 9: 193-216. doi: 10.5194/os-9-193-2013.
  70.  

  71. Roth R & Joos F (2013) A reconstruction of radiocarbon production and total solar irradiance from the Holocene 14C and CO2 records: implications of data and model uncertainties. Climate of the Past 9: 1879-1909. doi: 10.5194/cp-9-1879-2013.
  72.  

  73. Sabine CL, Hankin S, Koyuk H, Bakker DCE, Pfeil B, Olsen A, Metzl N, Kozyr A, Fassbender A, Manke A, Malczyk J, Akl J, Alin SR, Bellerby RGJ, Borges A, Boutin J, Brown PJ, Cai W-J, Chavez FP, Chen A, Cosca C, Feely RA, González-Dávila M, Goyet C, Hardman-Mountford N, Heinze C, Hoppema M, Hunt CW, Hydes D, Ishii M, Johannessen T, Key RM, Körtzinger A, Landschützer P, Lauvset SK, Lefèvre N, Lenton A, Lourantou A, Merlivat L, Midorikawa T, Mintrop L, Miyazaki C, Murata A, Nakadate A, Nakano Y, Nakaoka S, Nojiri Y, Omar AM, Padin XA, Park G-H, Paterson K, Perez FF, Pierrot D, Poisson A, Ríos AF, Salisbury J, Santana-Casiano JM, Sarma VVSS, Schlitzer R, Schneider B, Schuster U, Sieger R, Skjelvan I, Steinhoff T, Suzuki T, Takahashi T, Tedesco K, Telszewski M, Thomas H, Tilbrook B, Vandemark D, Veness T, Watson AJ, Weiss R, Wong CS & Yoshikawa-Inoue H (2013) Surface Ocean CO2 Atlas (SOCAT) gridded data products. Earth System Science Data 5: 145-153. doi: 10.5194/essd-5-145-2013.
  74.  

  75. Sallée JB, Shuckburgh E, Bruneau N, Meijers AJS, Bracegirdle TJ, Wang Z & Roy T (2013) Assessment of Southern Ocean water mass circulation and characteristics in CMIP5 models: Historical bias and forcing response. Journal of Geophysical Research: Oceans 118: 1830-1844. doi: 10.1002/jgrc.20135.
  76.  

  77. Santana-Casiano JM, González-Dávila M, Fraile-Nuez E, de Armas D, González AG, Dominguez-Yanes JF & Escánez J (2013) The natural ocean acidification and fertilization event caused by the submarine eruption of El Hierro. Scientific Reports 3: 1140. doi: 10.1038/srep01140.
  78.  

  79. Sarma VVSS, Lenton A, Law RM, Metzl N, Patra PK, Doney S, Lima ID, Dlugokencky E, Ramonet M & Valsala V (2013) Sea–air CO2 fluxes in the Indian Ocean between 1990 and 2009. Biogeosciences 10: 7035-7052. doi: 10.5194/bg-10-7035-2013.
  80.  

  81. Scanlon B, Wick GA & Ward B(2013) Near-surface diurnal warming simulations: validation with high resolution profile measurements. Ocean Science 9: 977-986. doi: 10.5194/os-9-977-2013.
  82.  

  83. Schmittner A, Gruber N, Mix AC, Key RM, Tagliabue A & Westberry TK (2013) Biology and air–sea gas exchange controls on the distribution of carbon isotope ratios (δ13C) in the ocean. Biogeosciences 10: 5793-5816. doi: 10.5194/bg-10-5793-2013.
  84.  

  85. Schuster U, McKinley GA, Bates N, Chevallier F, Doney SC, Fay AR, González-Dávila M, Gruber N, Jones S, Krijnen J, Landschützer P, Lefèvre N, Manizza M, Mathis J, Metzl N, Olsen A, Rios AF, Rödenbeck C, Santana-Casiano JM, Takahashi T, Wanninkhof R & Watson AJ (2013) An assessment of the Atlantic and Arctic sea–air CO2 fluxes, 1990–2009. Biogeosciences 10: 607-627. doi: 10.5194/bg-10-607-2013.
  86.  

  87. Séférian R, Bopp L, Swingedouw D & Servonnat J (2013) Dynamical and biogeochemical control on the decadal variability of ocean carbon fluxes. Earth System Dynamics 4: 109-127. doi: 10.5194/esd-4-109-2013.
  88.  

  89. Séférian R, Bopp L, Gehlen M, Orr J, Ethé C, Cadule P, Aumont O, Salas y Mélia D, Voldoire A & Madec G (2013) Skill assessment of three earth system models with common marine biogeochemistry. Climate Dynamics 40: 2549-2573. doi: 10.1007/s00382-012-1362-8.
  90.  

  91. Segschneider J & Bendtsen J (2013) Temperature-dependent remineralization in a warming ocean increases surface pCO2 through changes in marine ecosystem composition. Global Biogeochemical Cycles 27: 1214-1225. doi: 10.1002/2013GB004684.
  92.  

  93. Spahni R, Joos F, Stocker BD, Steinacher M & Yu ZC (2013) Transient simulations of the carbon and nitrogen dynamics in northern peatlands: from the Last Glacial Maximum to the 21st century. Climate of the Past 9: 1287-1308. doi: 10.5194/cp-9-1287-2013.
  94.  

  95. Steinacher M, Joos F & Stocker TF (2013) Allowable carbon emissions lowered by multiple climate targets. Nature 499: 197-201.doi: 10.1038/nature12269.
  96.  

  97. Tjiputra JF, Roelandt C, Bentsen M, Lawrence DM, Lorentzen T, Schwinger J, Seland Ø & Heinze C (2013) Evaluation of the carbon cycle components in the Norwegian Earth System Model (NorESM). Geoscientific Model Development 6: 301-325. doi: 10.5194/gmd-6-301-2013.
  98.  

  99. Velo A, Pérez FF, Tanhua T, Gilcoto M, Ríos AF & Key RM (2013) Total alkalinity estimation using MLR and neural network techniques. Journal of Marine Systems 111–112: 11-18. doi: 10.1016/j.jmarsys.2012.09.002.
  100.  

  101. Völker C & Köhler P (2013) Responses of ocean circulation and carbon cycle to changes in the position of the Southern Hemisphere westerlies at Last Glacial Maximum. Paleoceanography 28: 726-739. doi: 10.1002/2013PA002556.
  102.  

  103. Wanninkhof R, Park G-H, Takahashi T, Sweeney C, Feely R, Nojiri Y, Gruber N, Doney SC, McKinley GA, Lenton A, Le Quéré C, Heinze C, Schwinger J, Graven H & Khatiwala S (2013) Global ocean carbon uptake: magnitude, variability and trends. Biogeosciences 10: 1983-2000. doi: 10.5194/bg-10-1983-2013.
  104.  

  105. Wåhlström I, Omstedt A, Björk G & Anderson LG (2013) Modeling the CO2 dynamics in the Laptev Sea, Arctic Ocean: Part II. Sensitivity of fluxes to changes in the forcing. Journal of Marine Systems 111–112: 1-10. doi: 10.1016/j.jmarsys.2012.09.001.
  106.  

  107. Yao X & Schlitzer R (2013) Assimilating water column and satellite data for marine export production estimation. Geoscientific Model Development 6: 1575-1590. doi: 10.5194/gmd-6-1575-2013.
  108.  

  109. Zickfeld K, Eby M, Weaver AJ, Alexander K, Crespin E, Edwards NR, Eliseev AV, Feulner G, Fichefet T, Forest CE, Friedlingstein P, Goosse H, Holden PB, Joos F, Kawamiya M, Kicklighter D, Kienert H, Matsumoto K, Mokhov II, Monier E, Olsen SM, Pedersen JOP, Perrette M, Philippon-Berthier G, Ridgwell A, Schlosser A, Schneider Von Deimling T, Shaffer G, Sokolov A, Spahni R, Steinacher M, Tachiiri K, Tokos KS, Yoshimori M, Zeng N & Zhao F (2013) Long-term climate change commitment and reversibility: An EMIC intercomparison. Journal of Climate 26: 5782-5809. doi: 10.1175/JCLI-D-12-00584.1.
  110.  

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~ 2012 ~

 

  1. Buitenhuis ET, Li WKW, Vaulot D, Lomas MW, Landry M, Partensky F, Karl DM, Ulloa O, Campbell L, Jacquet S, Lantoine F, Chavez F, Macias D, Gosselin M & McManus GB (2012) Picophytoplankton biomass distribution in the global ocean. Earth System Science Data 4: 37-46. doi: 10.5194/essd-4-37-2012.
  2.  

  3. Duteil O, Koeve W, Oschlies A, Aumont O, Bianchi D, Bopp L, Galbraith E, Matear R, Moore JK, Sarmiento JL & Segschneider J (2012) Preformed and regenerated phosphate in ocean general circulation models: can right total concentrations be wrong? Biogeosciences 9: 1797-1807. doi: 10.5194/bg-9-1797-2012.
  4.  

  5. Flecha S, Pérez FF, Navarro G, Ruiz J, Olivé I, Rodríguez-Gálvez S, Costas E & Huertas IE (2012) Anthropogenic carbon inventory in the Gulf of Cádiz. Journal of Marine Systems 92: 67-75. doi: 10.1016/j.jmarsys.2011.10.010.
  6.  

  7. Fraile-Nuez E, González-Dávila M, Santana-Casiano JM, Arístegui J, Alonso-González IJ, Hernández-León S, Blanco MJ, Rodríguez-Santana A, Hernández-Guerra A, Gelado-Caballero MD, Eugenio F, Marcello J, de Armas D, Domínguez-Yanes JF, Montero MF, Laetsch DR, Vélez-Belchí P, Ramos A, Ariza AV, Comas-Rodríguez I & Benítez-Barrios VM (2012) The submarine volcano eruption at the island of El Hierro: physical-chemical perturbation and biological response. Scientific Reports 2: 486. doi: 10.1038/srep00486.
  8.  

  9. Huertas IE, Ríos AF, García-Lafuente J, Navarro G, Makaoui A, Sánchez-Román A, Rodriguez-Galvez S, Orbi A, Ruíz J & Pérez FF (2012) Atlantic forcing of the Mediterranean oligotrophy. Global Biogeochemical Cycles 26: GB2022. doi: 10.1029/2011GB004167.
  10.  

  11. Keller KM, Joos F, Raible CC, Cocco V, Frölicher TL, Dunne JP, Gehlen M, Bopp L, Orr JC, Tjiputra J, Heinze C, Segschneider J, Roy T & Metzl N (2012) Variability of the ocean carbon cycle in response to the North Atlantic Oscillation. Tellus Series B: Chemical and Physical Meteorology 64: 18738. doi: 10.3402/tellusb.v64i0.18738.
  12.  

  13. Lefèvre N & Merlivat L (2012) Carbon and oxygen net community production in the eastern tropical Atlantic estimated from a moored buoy. Global Biogeochemical Cycles 26: GB1009. doi: 10.1029/2010GB004018.
  14.  

  15. Lenton A, Metzl N, Takahashi T, Kuchinke M, Matear RJ, Roy T, Sutherland SC, Sweeney C & Tilbrook B (2012) The observed evolution of oceanic pCO2 and its drivers over the last two decades. Global Biogeochemical Cycles 26: GB2021. doi: 10.1029/2011GB004095.
  16.  

  17. Lévy M, Lengaigne M, Bopp L, Vincent EM, Madec G, Ethé C, Kumar D & Sarma VVSS (2012) Contribution of tropical cyclones to the air-sea CO2 flux: A global view. Global Biogeochemical Cycles 26: GB2001. doi: 10.1029/2011GB004145.
  18.  

  19. Maze G, Mercier H, Thierry V, Memery L, Morin P & Perez FF (2012) Mass, nutrient and oxygen budgets for the northeastern Atlantic Ocean. Biogeosciences 9: 4099-4113. doi: 10.5194/bg-9-4099-2012.
  20.  

  21. Menviel L & Joos F (2012) Toward explaining the Holocene carbon dioxide and carbon isotope records: Results from transient ocean carbon cycle-climate simulations. Paleoceanography 27: PA1207. doi: 10.1029/2011PA002224.
  22.  

  23. Menviel L, Joos F & Ritz SP (2012) Simulating atmospheric CO2, 13C and the marine carbon cycle during the last glacial–interglacial cycle: possible role for a deepening of the mean remineralization depth and an increase in the oceanic nutrient inventory. Quaternary Science Reviews 56: 46-68. doi: 10.1016/j.quascirev.2012.09.012.
  24.  

  25. Pardo PC, Pérez FF, Velo A & Gilcoto M (2012) Water masses distribution in the Southern Ocean: improvement of an extended OMP (eOMP) analysis. Progress in Oceanography 103: 92-105. doi: 10.1016/j.pocean.2012.06.002.
  26.  

  27. Rempfer J, Stocker TF, Joos F & Dutay J-C (2012) On the relationship between Nd isotopic composition and ocean overturning circulation in idealized freshwater discharge events. Paleoceanography 27: PA3211. doi: 10.1029/2012PA002312.
  28.  

  29. Resplandy L, Lévy M, Bopp L, Echevin V, Pous S, Sarma VVSS & Kumar D (2012) Controlling factors of the oxygen balance in the Arabian Sea’s OMZ. Biogeosciences 9: 5095-5109. doi: 10.5194/bg-9-5095-2012.
  30.  

  31. Ríos AF, Velo A, Pardo PC, Hoppema M & Pérez FF (2012) An update of anthropogenic CO2 storage rates in the western South Atlantic basin and the role of Antarctic Bottom Water. Journal of Marine Systems 94: 197-203. doi: 10.1016/j.jmarsys.2011.11.023.
  32.  

  33. Roth R & Joos F (2012) Model limits on the role of volcanic carbon emissions in regulating glacial–interglacial CO2 variations. Earth and Planetary Science Letters 329–330: 141-149. doi: 10.1016/j.epsl.2012.02.019.
  34.  

  35. Séférian R, Iudicone D, Bopp L, Roy T & Madec G (2012) Water mass analysis of effect of climate change on air–sea CO2 fluxes: The Southern Ocean. Journal of Climate 25: 3894-3908. doi: 10.1175/JCLI-D-11-00291.1.
  36.  

  37. Tanhua T & Keeling RF (2012) Changes in column inventories of carbon and oxygen in the Atlantic Ocean. Biogeosciences 9: 4819-4833. doi: 10.5194/bg-9-4819-2012.
  38.  

  39. Vázquez-Rodríguez M, Padin XA, Pardo PC, Ríos AF & Pérez FF (2012) The subsurface layer reference to calculate preformed alkalinity and air–sea CO2 disequilibrium in the Atlantic Ocean. Journal of Marine Systems 94: 52-63. doi: 10.1016/j.jmarsys.2011.10.008.
  40.  

  41. Vázquez-Rodríguez M, Pérez FF, Velo A, Ríos AF & Mercier H (2012) Observed acidification trends in North Atlantic water masses. Biogeosciences 9: 5217-5230. doi: 10.5194/bg-9-5217-2012.
  42.  

  43. Wåhlström I, Omstedt A, Björk G & Anderson LG (2012) Modelling the CO2 dynamics in the Laptev Sea, Arctic Ocean: Part I. Journal of Marine Systems 102–104: 29-38. doi: 10.1016/j.jmarsys.2012.05.001.
  44.  

  45. Yara Y, Vogt M, Fujii M, Yamano H, Hauri C, Steinacher M, Gruber N & Yamanaka Y (2012) Ocean acidification limits temperature-induced poleward expansion of coral habitats around Japan. Biogeosciences 9: 4955-4968. doi: 10.5194/bg-9-4955-2012.
  46.  

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 ~ 2011 ~

 

  1. Gruber N, Lachkar Z, Frenzel H, Marchesiello P, Munnich M, McWilliams JC, Nagai T & Plattner G-K (2011) Eddy-induced reduction of biological production in eastern boundary upwelling systems. Nature Geoscience 4: 787-792. doi: 10.1038/ngeo1273.
  2.  

  3. Jeansson E, Olsen A, Eldevik T, Skjelvan I, Omar AM, Lauvset SK, Nilsen JEØ, Bellerby RGJ, Johannessen T & Falck E (2011) The Nordic Seas carbon budget: Sources, sinks, and uncertainties. Global Biogeochemical Cycles 25: GB4010. doi: 10.1029/2010GB003961.
  4.  

  5. Tjiputra JF & Otterå OH (2011) Role of volcanic forcing on future global carbon cycle. Earth System Dynamics 2: 53-67. doi: 10.5194/esd-2-53-2011.
  6.  

  7. Tschumi T, Joos F, Gehlen M & Heinze aC (2011) Deep ocean ventilation, carbon isotopes, marine sedimentation and the deglacial CO2 rise. Climate of the Past 7: 771-800. doi: 10.5194/cp-7-771-2011.
  8.  

Additional information is available for 1 and 2.  

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CARBOCHANGE book chapters

 

~ 2013 ~

 

  1. Heinze C & Gehlen M (2013) Chapter 26: Modelling ocean biogeochemical processes and resulting tracer distributions. In: Siedler G, Griffies S, Gould J & Church J (eds). Ocean Circulation and Climate. 2nd edition. pp. 667-694. Academic Press.
  2.  

  3. Slawig T, Prieß M & Kratzenstein C (2014) Surrogate-based and one-shot optimization methods for PDE-constrained problems with an application in climate models. In: Koziel S, Leifsson L & Yang X-S (eds). Solving Computationally Expensive Engineering Problems. pp. 1-24. Springer International Publishing.
  4.  

  5. Tanhua T, Bates NR & Körtzinger A (2013) Chapter 30: The marine carbon cycle and ocean carbon inventories. In: Siedler G, Griffies S, Gould J & Church J (eds). Ocean Circulation and Climate. 2nd edition. pp. 787-815. Academic Press.
  6.  

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CARBOCHANGE theses

 

~ 2014 ~

 

  1. Hauschildt J-O (2014) Impact of mesoscale variability on surface fCO2 measurements in the tropical northeast Atlantic. Bachelor thesis, Christian Albrecht University Kiel, Kiel, Germany.
  2.  

  3. Lacroix F (2014) The offshore transport of carbon in the California Current System. Master thesis, Eidgenössische Technische Hochschule Zürich.
  4.  

  5. Mongwe PN (2014) The seasonal cycle of CO2 fluxes in the Southern Ocean: A model spatial scale sensitivity analysis. Master thesis, University of Cape Town, South Africa.
  6.  

  7. Pringle N (2014) Exploring optimising strategies for sampling sea-air carbon dioxide fluxes in the Southern Ocean. Master thesis, University of Cape Town, South Africa.
  8.  

  9. Stolle C (2014) Analyse der Kapverde Front anhand von physikalischen und biogeochemischen Gleitermessungen. Bachelor thesis, Christian Albrecht University Kiel, Kiel, Germany.
  10.  

  11. Thoma R (2014) Effects of grid resolution on effective diffusivity in the Canary Current System. Master thesis, Eidgenössische Technische Hochschule Zürich.
  12.  

  13. Turi G (2014) Modeling recent trends and variability in the oceanic carbon cycle of the California Current System. Doctoral thesis, Eidgenössische Technische Hochschule Zürich.
  14.  

  15. Velo A (2014) Optimización de métodos numéricos en la determinación de la acidificación en los océanos. Doctoral thesis, University of Vigo.
  16.  

 

~ 2013 ~

 

  1. Battaglia G (2013) Re-evaluating and applying empirical approaches to estimate future marine net primary production and phytoplankton functional type structure. Master thesis, Eidgenössische Technische Hochschule, Zürich.
  2.  

  3. Bourquin Y (2013) Modelling marine sources of the greenhouse gas nitrous oxide. Master thesis, Climate and Environmental Physics, University of Bern.
  4.  

  5. Fiedler B (2013) CO2 and O2 dynamics and ocean-atmosphere fluxes in the Eastern Tropical North Atlantic. Doctoral thesis, Christian-Albrechts-Universität Kiel, Germany. http://oceanrep.geomar.de/20812/.
  6.  

  7. Frischknecht M (2013) A comparison of remote vs local influence of ENSO on the California Current System. Master thesis, Eidgenössische Technische Hochschule, Zürich.
  8.  

  9. Jones S (2013) Spatio-temporal variability in surface ocean pCO2 inferred from observations. Doctoral thesis, University of East Anglia. https://ueaeprints.uea.ac.uk/42328/.
  10.  

  11. Krijnen J (2013) Key mechanisms of surface water pCO2 variability in the North Atlantic Ocean. Doctoral thesis, University of East Anglia. https://ueaeprints.uea.ac.uk/47402/.
  12.  

  13. Pardo PC (2013) El CO2 Antrópico en el Océano Austral (Anthropogenic CO2 in the Southern Ocean). Doctoral thesis, University of Vigo (School of Marine Sciences). http://digital.csic.es/handle/10261/80409.
  14.  

  15. Pika P (2013) Understanding the impact of physical forcing on the Southern Ocean primary production. Master thesis, Eidgenössische Technische Hochschule, Zürich.
  16.  

  17. Racapé V (2013) Etude de la distribution du δ13CDIC dans l’océan et évaluation de la composante anthropique du CO2. Doctoral thesis, Université Pierre et Marie Curie, Paris.
  18.  

  19. Rieper C (2013) Quantifying the exchange between the shelf and open ocean along the Northwest African Coast. Master thesis, Eidgenössische Technische Hochschule, Zürich.
  20.  

  21. Roth R (2013) Modeling forcings and responses in the global carbon cycle-climate system: past, present and future. Doctoral thesis, Climate and Environmental Physics, University of Bern.
  22.  

 

~ 2012 ~

 

  1. Cocco V (2012) Oxygen and other biogeochemical variables in global warming projections. Doctoral thesis, Climate and Environmental Physics, University of Bern.
  2.  

  3. Weeber A (2012) Seasonal and interannual variability of the marine carbonate system at the ice shelf in the Eastern Weddell Gyre and its sensitivity to future ocean acidification. Thesis, University of Cape Town, South Africa.
    https://open.uct.ac.za/bitstream/item/10000/thesis_sci_2012_weeber_a.pdf?sequence=1.
  4.  

 

~ 2011 ~

 

  1. Dufour CO (2011) Rôle des tourbillons océaniques dans la variabilité récente des flux air-mer de CO2 dans l’océan Austral. Doctoral thesis, Université de Grenoble. http://hal.archives-ouvertes.fr/tel-00679918/.
  2.  

  3. Koffi KU (2011) Distribution des paramètres du carbone et du flux de CO2 à l’interface air-mer dans l’Est de l’Atlantique tropical. Doctoral thesis, Université Pierre et Marie Curie, Paris. http://tel.archives-ouvertes.fr/tel-00945786.
  4.  

  5. Parard G (2011) Etude de la variabilité de la fugacité de CO2 dans l’Atlantique tropical : de l’échelle diurne à saisonnière. Doctoral thesis, Université Pierre et Marie Curie, Paris. http://tel.archives-ouvertes.fr/tel-00673734.
  6.  

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Further information

Dear CARBOCHANGE project partners, please remember the information from the Grant Agreement (special clause 39): Beneficiaries are required to make their best efforts to ensure that an electronic copy of their published work becomes freely and electronically available to anyone through the publisher or an equivalent repository (latest 6 months after publication).
 
This means that there are two ways in which researchers can make their work available as open access: 1) Publish in an Open Access journal. 2) Self-archive your work, in addition to the journal publication, in an open access institutional or subject-based repository. Be aware that journal guidelines have to be carefully checked to find out what version of the manuscript can be deposited (final pdf, post-print, pre-print etc.). If you would like to learn more about this topic and how to best comply with the EC FP7 and ERC Guidelines, please have a look at the OpenAire website or contact the CARBOCHANGE project office.
 
Please remember to acknowledge CARBOCHANGE in your publications (paper, poster, talks etc.): ‘The research leading to these results was supported through the EU FP7 project CARBOCHANGE “Changes in carbon uptake and emissions by oceans in a changing climate”, which received funding from the European Commission’s Seventh Framework Programme under grant agreement no. 264879.’
 
For IMBER or SOLAS linked publications, please include the statement ‘This study is a contribution to the international IMBER / SOLAS projects’ in the acknowledgments section.

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