Ocean acidification affects iron speciation during a coastal seawater mesocosm experiment

E. Breitbarth; R. J. Bellerby; C. C. Neill; M. V. Ardelan; M. Meyerhöfer; E. Zöllner; P. L. Croot; U. Riebesell

doi:10.5194/bg-7-1065-2010

Ocean acidification affects iron speciation during a coastal seawater mesocosm experiment

E. Breitbarth
, R. J. Bellerby
, C. C. Neill
, M. V. Ardelan
, M. Meyerhöfer
, E. Zöllner
, P. L. Croot
, U. Riebesell

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

64 Citations (Scopus)

Abstract

Rising atmospheric CO₂ is acidifying the surface ocean, a process which is expected to greatly influence the chemistry and biology of the future ocean. Following the development of iron-replete phytoplankton blooms in a coastal mesocosm experiment at 350, 700, and 1050 ìatm pCO₂, we observed significant increases in dissolved iron concentrations, Fe(II) concentrations, and Fe(II) half-life times during and after the peak of blooms in response to CO₂ enrichment and concomitant lowering of pH, suggesting increased iron bioavailability. If applicable to the open ocean this may provide a negative feedback mechanism to the rising atmospheric CO ₂ by stimulating marine primary production.

Original language	English
Pages (from-to)	1065-1073
Number of pages	9
Journal	Biogeosciences
Volume	7
Issue number	3
DOIs	https://doi.org/10.5194/bg-7-1065-2010
Publication status	Published - 2010
Externally published	Yes

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10.5194/bg-7-1065-2010

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title = "Ocean acidification affects iron speciation during a coastal seawater mesocosm experiment",

abstract = "Rising atmospheric CO2 is acidifying the surface ocean, a process which is expected to greatly influence the chemistry and biology of the future ocean. Following the development of iron-replete phytoplankton blooms in a coastal mesocosm experiment at 350, 700, and 1050 {\`i}atm pCO2, we observed significant increases in dissolved iron concentrations, Fe(II) concentrations, and Fe(II) half-life times during and after the peak of blooms in response to CO2 enrichment and concomitant lowering of pH, suggesting increased iron bioavailability. If applicable to the open ocean this may provide a negative feedback mechanism to the rising atmospheric CO 2 by stimulating marine primary production.",

author = "E. Breitbarth and Bellerby, \{R. J.\} and Neill, \{C. C.\} and Ardelan, \{M. V.\} and M. Meyerh{\"o}fer and E. Z{\"o}llner and Croot, \{P. L.\} and U. Riebesell",

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doi = "10.5194/bg-7-1065-2010",

language = "English",

volume = "7",

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T1 - Ocean acidification affects iron speciation during a coastal seawater mesocosm experiment

AU - Breitbarth, E.

AU - Bellerby, R. J.

AU - Neill, C. C.

AU - Ardelan, M. V.

AU - Meyerhöfer, M.

AU - Zöllner, E.

AU - Croot, P. L.

AU - Riebesell, U.

PY - 2010

Y1 - 2010

N2 - Rising atmospheric CO2 is acidifying the surface ocean, a process which is expected to greatly influence the chemistry and biology of the future ocean. Following the development of iron-replete phytoplankton blooms in a coastal mesocosm experiment at 350, 700, and 1050 ìatm pCO2, we observed significant increases in dissolved iron concentrations, Fe(II) concentrations, and Fe(II) half-life times during and after the peak of blooms in response to CO2 enrichment and concomitant lowering of pH, suggesting increased iron bioavailability. If applicable to the open ocean this may provide a negative feedback mechanism to the rising atmospheric CO 2 by stimulating marine primary production.

AB - Rising atmospheric CO2 is acidifying the surface ocean, a process which is expected to greatly influence the chemistry and biology of the future ocean. Following the development of iron-replete phytoplankton blooms in a coastal mesocosm experiment at 350, 700, and 1050 ìatm pCO2, we observed significant increases in dissolved iron concentrations, Fe(II) concentrations, and Fe(II) half-life times during and after the peak of blooms in response to CO2 enrichment and concomitant lowering of pH, suggesting increased iron bioavailability. If applicable to the open ocean this may provide a negative feedback mechanism to the rising atmospheric CO 2 by stimulating marine primary production.

UR - https://www.scopus.com/pages/publications/77950105075

U2 - 10.5194/bg-7-1065-2010

DO - 10.5194/bg-7-1065-2010

M3 - Article

SN - 1726-4170

VL - 7

SP - 1065

EP - 1073

JO - Biogeosciences

JF - Biogeosciences

IS - 3

ER -

Ocean acidification affects iron speciation during a coastal seawater mesocosm experiment

Abstract

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