Iron–light interactions during the CROZet natural iron bloom and EXport experiment (CROZEX) I: Phytoplankton growth and photophysiology
Iron–light interactions during the CROZet natural iron bloom and EXport experiment (CROZEX) I: Phytoplankton growth and photophysiology
The CROZet natural iron bloom and EXport experiment (CROZEX) investigated phytoplankton blooms in the vicinity of the Crozet Plateau in the polar frontal zone (PFZ) of the Southern Ocean. Peak chlorophyll concentrations reached during an intense bloom within naturally iron (Fe)-fertilised regions north of the plateau were an order of magnitude higher than those observed in deeper mixed layers and low-Fe waters to the south. To establish the factors influencing phytoplankton dynamics, a suite of in situ phytoplankton physiological measurements and shipboard Fe–light perturbation experiments was performed. Addition of Fe in experiments performed during bloom decline north of the plateau resulted in increased accumulation of phytoplankton biomass and changes in a number of phytoplankton physiological characteristics. In particular photosystem II (PSII) photochemical efficiencies (Fv/Fm) measured by fast repetition rate fluorometry increased above in situ values within 24 h of Fe amendment, suggesting that Fe stress had contributed to bloom termination. In contrast, responses to Fe amendment were minor within an experiment initiated in low-silicic acid, post-bloom waters south of the Plateau. Within the intense bloom in the north, light limitation due to self-shading may have constrained the peak phytoplankton standing stock. However, in the absence of Fe amendment, incubation at higher than in situ irradiance levels had little influence on phytoplankton biomass accumulation for declining bloom populations. Instead reduced Fv/Fm, reflecting increased photoinhibitory damage to PSII, was observed in high-light incubations and was also apparent in situ. Interactions between Fe and light availability thus influenced phytoplankton physiology and growth and potentially contributed to bloom longevity during CROZEX.
Phytoplankton, Iron limitation, Light, Southern Ocean
2045-2065
Moore, C.M.
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Seeyave, S.
8099548d-0140-44b7-9a54-2c5ef473c821
Hickman, A.E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
Lucas, M.I.
1d860b0b-ec20-428d-afaa-0f5ca576e369
Planquette, H.
cf8631d8-c16a-4ee4-8713-736766936d24
Pollard, R.T.
0c78b909-8a95-4bd2-82fd-9b11022888fd
Poulton, A.J.
14bf64a7-d617-4913-b882-e8495543e717
2007
Moore, C.M.
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Seeyave, S.
8099548d-0140-44b7-9a54-2c5ef473c821
Hickman, A.E.
a99786c6-65e6-48c8-8b58-0d3b5608be92
Allen, J.T.
b251a62b-f443-4591-b695-9aa8c4d73741
Lucas, M.I.
1d860b0b-ec20-428d-afaa-0f5ca576e369
Planquette, H.
cf8631d8-c16a-4ee4-8713-736766936d24
Pollard, R.T.
0c78b909-8a95-4bd2-82fd-9b11022888fd
Poulton, A.J.
14bf64a7-d617-4913-b882-e8495543e717
Moore, C.M., Seeyave, S., Hickman, A.E., Allen, J.T., Lucas, M.I., Planquette, H., Pollard, R.T. and Poulton, A.J.
(2007)
Iron–light interactions during the CROZet natural iron bloom and EXport experiment (CROZEX) I: Phytoplankton growth and photophysiology.
Deep Sea Research Part II: Topical Studies in Oceanography, 54 (18-20), .
(doi:10.1016/j.dsr2.2007.06.011).
Abstract
The CROZet natural iron bloom and EXport experiment (CROZEX) investigated phytoplankton blooms in the vicinity of the Crozet Plateau in the polar frontal zone (PFZ) of the Southern Ocean. Peak chlorophyll concentrations reached during an intense bloom within naturally iron (Fe)-fertilised regions north of the plateau were an order of magnitude higher than those observed in deeper mixed layers and low-Fe waters to the south. To establish the factors influencing phytoplankton dynamics, a suite of in situ phytoplankton physiological measurements and shipboard Fe–light perturbation experiments was performed. Addition of Fe in experiments performed during bloom decline north of the plateau resulted in increased accumulation of phytoplankton biomass and changes in a number of phytoplankton physiological characteristics. In particular photosystem II (PSII) photochemical efficiencies (Fv/Fm) measured by fast repetition rate fluorometry increased above in situ values within 24 h of Fe amendment, suggesting that Fe stress had contributed to bloom termination. In contrast, responses to Fe amendment were minor within an experiment initiated in low-silicic acid, post-bloom waters south of the Plateau. Within the intense bloom in the north, light limitation due to self-shading may have constrained the peak phytoplankton standing stock. However, in the absence of Fe amendment, incubation at higher than in situ irradiance levels had little influence on phytoplankton biomass accumulation for declining bloom populations. Instead reduced Fv/Fm, reflecting increased photoinhibitory damage to PSII, was observed in high-light incubations and was also apparent in situ. Interactions between Fe and light availability thus influenced phytoplankton physiology and growth and potentially contributed to bloom longevity during CROZEX.
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Published date: 2007
Keywords:
Phytoplankton, Iron limitation, Light, Southern Ocean
Identifiers
Local EPrints ID: 49511
URI: http://eprints.soton.ac.uk/id/eprint/49511
ISSN: 0967-0645
PURE UUID: 7157dce5-6746-4fcc-8749-873e36452cf1
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Date deposited: 12 Nov 2007
Last modified: 16 Mar 2024 04:11
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Contributors
Author:
S. Seeyave
Author:
J.T. Allen
Author:
M.I. Lucas
Author:
H. Planquette
Author:
R.T. Pollard
Author:
A.J. Poulton
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