The integral role of iron in ocean biogeochemistry

[1]  M. Breitbart,et al.  The Ferrojan Horse Hypothesis: Iron-Virus Interactions in the Ocean , 2016, Front. Mar. Sci..

[2]  C. Langmuir,et al.  Hydrothermal iron flux variability following rapid sea level changes , 2016 .

[3]  E. Galbraith,et al.  Covariation of deep Southern Ocean oxygenation and atmospheric CO2 through the last ice age , 2016, Nature.

[4]  E. Galbraith,et al.  How well do global ocean biogeochemistry models simulate dissolved iron distributions? , 2016 .

[5]  K. Farley,et al.  Enhanced East Pacific Rise hydrothermal activity during the last two glacial terminations , 2016, Science.

[6]  M. Charette,et al.  Radium isotope distributions during the US GEOTRACES North Atlantic cruises , 2015 .

[7]  L. Gerringa,et al.  Organic complexation of iron in the West Atlantic Ocean , 2015 .

[8]  S. Vogt,et al.  Metal contents of phytoplankton and labile particulate material in the North Atlantic Ocean , 2015 .

[9]  L. Gallardo,et al.  Dust fluxes and iron fertilization in Holocene and Last Glacial Maximum climates , 2015 .

[10]  M. Saito,et al.  Divergent responses of Atlantic coastal and oceanic Synechococcus to iron limitation , 2015, Proceedings of the National Academy of Sciences.

[11]  P. Boyd,et al.  Using the L* concept to explore controls on the relationship between paired ligand and dissolved iron concentrations in the ocean , 2015 .

[12]  C. Völker,et al.  Modeling organic iron-binding ligands in a three-dimensional biogeochemical ocean model , 2015 .

[13]  P. Hatcher,et al.  Aerosol water soluble organic matter characteristics over the North Atlantic Ocean: Implications for iron-binding ligands and iron solubility , 2015 .

[14]  William J. Jenkins,et al.  Basin-scale transport of hydrothermal dissolved metals across the South Pacific Ocean , 2015, Nature.

[15]  P. Boyd,et al.  Why are biotic iron pools uniform across high‐ and low‐iron pelagic ecosystems? , 2015 .

[16]  E. Boyle,et al.  Water mass analysis for the U.S. GEOTRACES (GA03) North Atlantic sections , 2015 .

[17]  P. Sedwick,et al.  A zonal picture of the water column distribution of dissolved iron(II) during the U.S. GEOTRACES North Atlantic transect cruise (GEOTRACES GA03) , 2015 .

[18]  P. Sedwick,et al.  The organic complexation of dissolved iron along the U.S. GEOTRACES (GA03) North Atlantic Section , 2015 .

[19]  J. Sallée,et al.  Iron budgets for three distinct biogeochemical sites around the Kerguelen Archipelago (Southern Ocean) during the natural fertilisation study, KEOPS-2 , 2014 .

[20]  A. Bowie,et al.  The Biogeochemical Role of Baleen Whales and Krill in Southern Ocean Nutrient Cycling , 2014, PloS one.

[21]  F. Morel,et al.  Iron bioavailability to phytoplankton: an empirical approach , 2014, The ISME Journal.

[22]  E. Achterberg,et al.  A ventilation‐based framework to explain the regeneration‐scavenging balance of iron in the ocean , 2014 .

[23]  Giacomo R. DiTullio,et al.  Multiple nutrient stresses at intersecting Pacific Ocean biomes detected by protein biomarkers , 2014, Science.

[24]  S. John,et al.  Quantification of dissolved iron sources to the North Atlantic Ocean , 2014, Nature.

[25]  L. Gerringa,et al.  The Distribution of Dissolved Iron in the West Atlantic Ocean , 2014, PloS one.

[26]  Curtis Deutsch,et al.  Local versus basin-scale limitation of marine nitrogen fixation , 2014, Proceedings of the National Academy of Sciences.

[27]  S. Hogle,et al.  Heme in the marine environment: from cells to the iron cycle. , 2014, Metallomics : integrated biometal science.

[28]  E. W. Maas,et al.  Differential remineralization of major and trace elements in sinking diatoms , 2014 .

[29]  P. Boyd,et al.  Surface-water iron supplies in the Southern Ocean sustained by deep winter mixing , 2014 .

[30]  G. Haug,et al.  Iron Fertilization of the Subantarctic Ocean During the Last Ice Age , 2014, Science.

[31]  Olivier Aumont,et al.  The impact of different external sources of iron on the global carbon cycle , 2014 .

[32]  E. Achterberg,et al.  Seasonal ITCZ migration dynamically controls the location of the (sub)tropical Atlantic biogeochemical divide , 2013, Proceedings of the National Academy of Sciences.

[33]  A. Oschlies,et al.  A novel estimate of ocean oxygen utilisation points to a reduced rate of respiration in the ocean interior , 2013 .

[34]  Christoph Heinze,et al.  Multiple stressors of ocean ecosystems in the 21st century: projections with CMIP5 models , 2013 .

[35]  K. Arrigo,et al.  Processes and patterns of oceanic nutrient limitation , 2013 .

[36]  M. Saito,et al.  Slow-spreading submarine ridges in the South Atlantic as a significant oceanic iron source , 2013 .

[37]  Jasper A. Vrugt,et al.  Strong latitudinal patterns in the elemental ratios of marine plankton and organic matter , 2013 .

[38]  D. Waugh,et al.  Recent Changes in the Ventilation of the Southern Oceans , 2013, Science.

[39]  S. Baines,et al.  The trace metal composition of marine phytoplankton. , 2013, Annual review of marine science.

[40]  T. Tyliszczak,et al.  Chemically and Geographically Distinct Solid-Phase Iron Pools in the Southern Ocean , 2012, Science.

[41]  A. Baker,et al.  Iron organic speciation determination in rainwater using cathodic stripping voltammetry. , 2012, Analytica chimica acta.

[42]  P. Croot,et al.  Solubility of iron in the Southern Ocean , 2012 .

[43]  Stephanie Dutkiewicz,et al.  Interconnection of nitrogen fixers and iron in the Pacific Ocean: Theory and numerical simulations , 2012 .

[44]  K. Buck,et al.  The Organic Complexation of Iron in the Marine Environment: A Review , 2012, Front. Microbio..

[45]  P. Laan,et al.  Dissolved iron in the Arctic shelf seas and surface waters of the central Arctic Ocean : Impact of Arctic river water and ice-melt , 2012 .

[46]  P. Laan,et al.  Dissolved iron in the Southern Ocean (Atlantic sector) , 2011 .

[47]  P. Boyd,et al.  Adaptive strategies by Southern Ocean phytoplankton to lessen iron limitation: Uptake of organically complexed iron and reduced cellular iron requirements , 2011 .

[48]  I. Berman‐Frank,et al.  Dust- and mineral-iron utilization by the marine dinitrogen-fixer Trichodesmium , 2011 .

[49]  M. Saito,et al.  Nitrogen fixation in the South Atlantic Gyre and the Benguela Upwelling System , 2011 .

[50]  E. Achterberg,et al.  Production of siderophore type chelates in Atlantic Ocean waters enriched with different carbon and nitrogen sources , 2011 .

[51]  G. Haug,et al.  Carbon dioxide effects of Antarctic stratification, North Atlantic Intermediate Water formation, and subantarctic nutrient drawdown during the last ice age: Diagnosis and synthesis in a geochemical box model , 2010 .

[52]  C. Guieu,et al.  Effects of dust deposition on iron cycle in the surface Mediterranean Sea: results from a mesocosm seeding experiment. , 2010 .

[53]  P. Boyd,et al.  The biogeochemical cycle of iron in the ocean , 2010 .

[54]  J. Resing,et al.  Western Pacific coastal sources of iron, manganese, and aluminum to the Equatorial Undercurrent , 2010 .

[55]  G. Haug,et al.  The polar ocean and glacial cycles in atmospheric CO2 concentration , 2010, Nature.

[56]  M. Gehlen,et al.  Hydrothermal contribution to the oceanic dissolved iron inventory , 2010 .

[57]  Jean-Claude Dutay,et al.  Quantifying the roles of ocean circulation and biogeochemistry in governing ocean carbon-13 and atmospheric carbon dioxide at the last glacial maximum , 2009 .

[58]  E. Achterberg,et al.  Large-scale distribution of Atlantic nitrogen fixation controlled by iron availability , 2009 .

[59]  Richard S. Lampitt,et al.  Southern Ocean deep-water carbon export enhanced by natural iron fertilization , 2009, Nature.

[60]  James K. B. Bishop,et al.  The continental margin is a key source of iron to the HNLC North Pacific Ocean , 2008 .

[61]  A. Kustka,et al.  The role of unchelated Fe in the iron nutrition of phytoplankton , 2008 .

[62]  W. K. Johnson,et al.  Iron supply to the western subarctic Pacific: Importance of iron export from the Sea of Okhotsk , 2007 .

[63]  T. Goepfert,et al.  Reduced iron associated with secondary nitrite maxima in the Arabian Sea , 2007 .

[64]  B. Quéguiner,et al.  Effect of natural iron fertilization on carbon sequestration in the Southern Ocean , 2007, Nature.

[65]  S. J. Tanner,et al.  Developing standards for dissolved iron in seawater , 2007 .

[66]  E. Boyle,et al.  Mesoscale Iron Enrichment Experiments 1993-2005: Synthesis and Future Directions , 2007, Science.

[67]  K. Arrigo,et al.  Processes governing the supply of iron to phytoplankton in stratified seas , 2006 .

[68]  E. Achterberg,et al.  Iron limits primary productivity during spring bloom development in the central North Atlantic , 2006 .

[69]  Ulf Riebesell,et al.  Synthesis of iron fertilization experiments: From the iron age in the age of enlightenment , 2005 .

[70]  G. Henderson,et al.  PROGRAM UPDATE | GEOTRACES—A Global Study of the Marine Biogeochemical Cycles of Trace Elements and Their Isotopes , 2005 .

[71]  Michael J. Follows,et al.  Preformed phosphate, soft tissue pump and atmospheric CO 2 , 2005 .

[72]  Edward A. Boyle,et al.  Decoupling of iron and phosphate in the global ocean , 2005 .

[73]  F. Morel,et al.  A general kinetic model for iron acquisition by eukaryotic phytoplankton , 2005 .

[74]  N. Mahowald,et al.  Global Iron Connections Between Desert Dust, Ocean Biogeochemistry, and Climate , 2005, Science.

[75]  Stephanie Dutkiewicz,et al.  Interactions of the iron and phosphorus cycles: A three‐dimensional model study , 2005 .

[76]  Christoph Völker,et al.  Modeling the speciation and biogeochemistry of iron at the Bermuda Atlantic Time‐series Study site , 2005 .

[77]  K. Coale,et al.  The flux of iron from continental shelf sediments: A missing source for global budgets , 2004 .

[78]  Giacomo R. DiTullio,et al.  Phytoplankton iron limitation in the Humboldt Current and Peru Upwelling , 2002 .

[79]  P. Boyd,et al.  Retention of dissolved iron and Fe II in an iron induced Southern Ocean phytoplankton bloom , 2001 .

[80]  E. Boyle,et al.  Soluble and Colloidal Iron in the Oligotrophic North Atlantic and North Pacific , 2001, Science.

[81]  A. Watson,et al.  Effect of iron supply on Southern Ocean CO2 uptake and implications for glacial atmospheric CO2 , 2000, Nature.

[82]  Andrew J. Watson,et al.  A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization , 2000, Nature.

[83]  K. Johnson,et al.  A model of the iron cycle in the ocean , 2000 .

[84]  N. M. Price,et al.  Utilization of iron bound to strong organic ligands by plankton communities in the subarctic Pacific Ocean , 1999 .

[85]  D. Hutchins,et al.  An iron limitation mosaic in the California upwelling regime , 1998 .

[86]  W. Sunda,et al.  Interrelated influence of iron, light and cell size on marine phytoplankton growth , 1997, Nature.

[87]  Edward A. Boyle,et al.  What controls dissolved iron concentrations in the world ocean? — a comment , 1997 .

[88]  Paul G. Falkowski,et al.  Evolution of the nitrogen cycle and its influence on the biological sequestration of CO2 in the ocean , 1997, Nature.

[89]  Raphael Kudela,et al.  A massive phytoplankton bloom induced by an ecosystem-scale iron fertilization experiment in the equatorial Pacific Ocean , 1996, Nature.

[90]  P. Tortell,et al.  The role of heterotrophic bacteria in iron-limited ocean ecosystems , 1996, Nature.

[91]  K. Bruland,et al.  Complexation of iron(III) by natural organic ligands in the Central North Pacific as determined by a new competitive ligand equilibration/adsorptive cathodic stripping voltammetric method , 1995 .

[92]  A. J. Watson,et al.  Testing the iron hypothesis in ecosystems of the equatorial Pacific Ocean , 1994, Nature.

[93]  Martha Gledhill,et al.  Determination of complexation of iron(III) with natural organic complexing ligands in seawater using cathodic stripping voltammetry , 1994 .

[94]  J. Cullen Hypotheses to explain high-nutrient conditions in the open sea , 1991 .

[95]  U. Siegenthaler,et al.  Estimates of the effect of Southern Ocean iron fertilization on atmospheric CO2 concentrations , 1991, Nature.

[96]  F. Morel,et al.  lron transport in marine phytoplankton: Kinetics of cellular and medium coordination reactions , 1990 .

[97]  S. Fitzwater,et al.  Iron in Antarctic waters , 1990, Nature.

[98]  S. Fitzwater,et al.  Iron deficiency limits phytoplankton growth in Antarctic waters , 1990 .

[99]  John H. Martin glacial-interglacial Co2 change : the iron hypothesis , 1990 .

[100]  J. Raven The iron and molybdenum use efficiencies of plant growth with different energy, carbon and nitrogen sources , 1988 .

[101]  Taro Takahashi,et al.  Sources and flow patterns of deep-ocean waters as deduced from potential temperature, salinity, and initial phosphate concentration , 1985 .

[102]  R. Guillard,et al.  Limitation of marine phytoplankton reproductive rates by zinc, manganese, and iron1 , 1983 .

[103]  J. H. Martin,et al.  Iron in north-east Pacific waters , 1982, Nature.

[104]  F. Morel,et al.  The influence of aqueous iron chemistry on the uptake of iron by the coastal diatom Thalassiosira weissflogii1 , 1982 .

[105]  Robert J.P. Williams The Bakerian Lecture, 1981 Natural Selection of the Chemical elements , 1981, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[106]  C. Patterson,et al.  Lead in albacore: guide to lead pollution in Americans. , 1980, Science.

[107]  K. Bruland,et al.  Sampling and analytical methods for the determination of copper, cadmium, zinc, and nickel at the nanogram per liter level in sea water , 1979 .

[108]  Edward D. Goldberg,et al.  Marine Geochemistry 1. Chemical Scavengers of the Sea , 1954, The Journal of Geology.

[109]  L. Cooper Iron in the Sea and in Marine Plankton , 1935 .

[110]  H. W. Harvey On the rate of diatom growth , 1933 .

[111]  J. T. Ruud Nitrates and Phosphates in the Southern Seas , 1930 .

[112]  S. Sander,et al.  FeCycle: Attempting an iron biogeochemical budget from a mesoscale SF6 tracer experiment in unperturbed low iron waters , 2005 .

[113]  F. Millero,et al.  The solubility of iron in seawater , 2002 .

[114]  S. Doney,et al.  Iron cycling and nutrient-limitation patterns in surface waters of the World Ocean , 2001 .

[115]  K. Bruland,et al.  The contrasting biogeochemistry of iron and manganese in the Pacific Ocean , 1987 .

[116]  H. H. Gran On the conditions for the production of plankton in the sea. , 1931 .