A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization

Philip W. Boyd; Andrew J. Watson; Cliff S. Law; Edward R. Abraham; Thomas Trull; Rob Murdoch; Dorothee C.E. Bakker; Andrew R. Bowie; K. O. Buesseler; Hoe Chang; Matthew Charette; Peter Croot; Ken Downing; Russell Frew; Mark Gall; Mark Hadfield; Julie Hall; Mike Harvey; Greg Jameson; Julie LaRoche; Malcolm Liddicoat; Roger Ling; Maria T. Maldonado; R. Michael McKay; Scott Nodder; Stu Pickmere; Rick Pridmore; Steve Rintoul; Karl Safi; Philip Sutton; Robert Strzepek; Kim Tanneberger; Suzanne Turner; Anya Waite; John Zeldis

doi:10.1038/35037500

A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization

Philip W. Boyd, Andrew J. Watson, Cliff S. Law, Edward R. Abraham, Thomas Trull, Rob Murdoch, Dorothee C.E. Bakker, Andrew R. Bowie, K. O. Buesseler, Hoe Chang, Matthew Charette, Peter Croot, Ken Downing, Russell Frew, Mark Gall, Mark Hadfield, Julie Hall, Mike Harvey, Greg Jameson, Julie LaRocheMalcolm Liddicoat, Roger Ling, Maria T. Maldonado, R. Michael McKay, Scott Nodder, Stu Pickmere, Rick Pridmore, Steve Rintoul, Karl Safi, Philip Sutton, Robert Strzepek, Kim Tanneberger, Suzanne Turner, Anya Waite, John Zeldis

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Résumé

Changes in iron supply to oceanic plankton are thought to have a significant effect on concentrations of atmospheric carbon dioxide by altering rates of carbon sequestration, a theory known as the 'iron hypothesis'. For this reason, it is important to understand the response of pelagic biota to increased iron supply. Here we report the results of a mesoscale iron fertilization experiment in the polar Southern Ocean, where the potential to sequester iron-elevated algal carbon is probably greatest. Increased iron supply led to elevated phytoplankton biomass and rates of photosynthesis in surface waters, causing a large drawdown of carbon dioxide and macronutrients, and elevated dimethyl sulphide levels after 13 days. This drawdown was mostly due to the proliferation of diatom stocks. But downward export of biogenic carbon was not increased. Moreover, satellite observations of this massive bloom 30 days later, suggest that a sufficient proportion of the added iron was retained in surface waters. Our findings demonstrate that iron supply controls phytoplankton growth and community composition during summer in these polar Southern Ocean waters, but the fate of algal carbon remains unknown and depends on the interplay between the processes controlling export, remineralisation and timescales of water mass subduction.

Langue d'origine	English
Pages (de-à)	695-702
Nombre de pages	8
Journal	Nature
Volume	407
Numéro de publication	6805
DOI	https://doi.org/10.1038/35037500
Statut de publication	Published - oct. 12 2000
Publié à l'externe	Oui

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10.1038/35037500

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Boyd, P. W., Watson, A. J., Law, C. S., Abraham, E. R., Trull, T., Murdoch, R., Bakker, D. C. E., Bowie, A. R., Buesseler, K. O., Chang, H., Charette, M., Croot, P., Downing, K., Frew, R., Gall, M., Hadfield, M., Hall, J., Harvey, M., Jameson, G., ... Zeldis, J. (2000). A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization. Nature, 407(6805), 695-702. https://doi.org/10.1038/35037500

Boyd, PW, Watson, AJ, Law, CS, Abraham, ER, Trull, T, Murdoch, R, Bakker, DCE, Bowie, AR, Buesseler, KO, Chang, H, Charette, M, Croot, P, Downing, K, Frew, R, Gall, M, Hadfield, M, Hall, J, Harvey, M, Jameson, G, LaRoche, J, Liddicoat, M, Ling, R, Maldonado, MT, McKay, RM, Nodder, S, Pickmere, S, Pridmore, R, Rintoul, S, Safi, K, Sutton, P, Strzepek, R, Tanneberger, K, Turner, S, Waite, A & Zeldis, J 2000, 'A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization', Nature, vol. 407, n° 6805, pp. 695-702. https://doi.org/10.1038/35037500

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title = "A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization",

abstract = "Changes in iron supply to oceanic plankton are thought to have a significant effect on concentrations of atmospheric carbon dioxide by altering rates of carbon sequestration, a theory known as the 'iron hypothesis'. For this reason, it is important to understand the response of pelagic biota to increased iron supply. Here we report the results of a mesoscale iron fertilization experiment in the polar Southern Ocean, where the potential to sequester iron-elevated algal carbon is probably greatest. Increased iron supply led to elevated phytoplankton biomass and rates of photosynthesis in surface waters, causing a large drawdown of carbon dioxide and macronutrients, and elevated dimethyl sulphide levels after 13 days. This drawdown was mostly due to the proliferation of diatom stocks. But downward export of biogenic carbon was not increased. Moreover, satellite observations of this massive bloom 30 days later, suggest that a sufficient proportion of the added iron was retained in surface waters. Our findings demonstrate that iron supply controls phytoplankton growth and community composition during summer in these polar Southern Ocean waters, but the fate of algal carbon remains unknown and depends on the interplay between the processes controlling export, remineralisation and timescales of water mass subduction.",

author = "Boyd, {Philip W.} and Watson, {Andrew J.} and Law, {Cliff S.} and Abraham, {Edward R.} and Thomas Trull and Rob Murdoch and Bakker, {Dorothee C.E.} and Bowie, {Andrew R.} and Buesseler, {K. O.} and Hoe Chang and Matthew Charette and Peter Croot and Ken Downing and Russell Frew and Mark Gall and Mark Hadfield and Julie Hall and Mike Harvey and Greg Jameson and Julie LaRoche and Malcolm Liddicoat and Roger Ling and Maldonado, {Maria T.} and McKay, {R. Michael} and Scott Nodder and Stu Pickmere and Rick Pridmore and Steve Rintoul and Karl Safi and Philip Sutton and Robert Strzepek and Kim Tanneberger and Suzanne Turner and Anya Waite and John Zeldis",

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AU - Trull, Thomas

AU - Murdoch, Rob

AU - Bakker, Dorothee C.E.

AU - Bowie, Andrew R.

AU - Buesseler, K. O.

AU - Chang, Hoe

AU - Charette, Matthew

AU - Croot, Peter

AU - Downing, Ken

AU - Frew, Russell

AU - Gall, Mark

AU - Hadfield, Mark

AU - Hall, Julie

AU - Harvey, Mike

AU - Jameson, Greg

AU - LaRoche, Julie

AU - Liddicoat, Malcolm

AU - Ling, Roger

AU - Maldonado, Maria T.

AU - McKay, R. Michael

AU - Nodder, Scott

AU - Pickmere, Stu

AU - Pridmore, Rick

AU - Rintoul, Steve

AU - Safi, Karl

AU - Sutton, Philip

AU - Strzepek, Robert

AU - Tanneberger, Kim

AU - Turner, Suzanne

AU - Waite, Anya

AU - Zeldis, John

PY - 2000/10/12

Y1 - 2000/10/12

N2 - Changes in iron supply to oceanic plankton are thought to have a significant effect on concentrations of atmospheric carbon dioxide by altering rates of carbon sequestration, a theory known as the 'iron hypothesis'. For this reason, it is important to understand the response of pelagic biota to increased iron supply. Here we report the results of a mesoscale iron fertilization experiment in the polar Southern Ocean, where the potential to sequester iron-elevated algal carbon is probably greatest. Increased iron supply led to elevated phytoplankton biomass and rates of photosynthesis in surface waters, causing a large drawdown of carbon dioxide and macronutrients, and elevated dimethyl sulphide levels after 13 days. This drawdown was mostly due to the proliferation of diatom stocks. But downward export of biogenic carbon was not increased. Moreover, satellite observations of this massive bloom 30 days later, suggest that a sufficient proportion of the added iron was retained in surface waters. Our findings demonstrate that iron supply controls phytoplankton growth and community composition during summer in these polar Southern Ocean waters, but the fate of algal carbon remains unknown and depends on the interplay between the processes controlling export, remineralisation and timescales of water mass subduction.

AB - Changes in iron supply to oceanic plankton are thought to have a significant effect on concentrations of atmospheric carbon dioxide by altering rates of carbon sequestration, a theory known as the 'iron hypothesis'. For this reason, it is important to understand the response of pelagic biota to increased iron supply. Here we report the results of a mesoscale iron fertilization experiment in the polar Southern Ocean, where the potential to sequester iron-elevated algal carbon is probably greatest. Increased iron supply led to elevated phytoplankton biomass and rates of photosynthesis in surface waters, causing a large drawdown of carbon dioxide and macronutrients, and elevated dimethyl sulphide levels after 13 days. This drawdown was mostly due to the proliferation of diatom stocks. But downward export of biogenic carbon was not increased. Moreover, satellite observations of this massive bloom 30 days later, suggest that a sufficient proportion of the added iron was retained in surface waters. Our findings demonstrate that iron supply controls phytoplankton growth and community composition during summer in these polar Southern Ocean waters, but the fate of algal carbon remains unknown and depends on the interplay between the processes controlling export, remineralisation and timescales of water mass subduction.

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A mesoscale phytoplankton bloom in the polar Southern Ocean stimulated by iron fertilization

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