Seasonal dynamics of the carbonate system in the Western English Channel
Seasonal dynamics of the carbonate system in the Western English Channel
We present over 900 carbonate system observations collected over four years (2007–2010) in the Western English Channel (WEC). We determined CO2 partial pressure (pCO2), Total Alkalinity (TA) and Dissolved Inorganic Carbon (DIC) along a series of 40 km transects, including two oceanographic stations (L4 and E1) within a sustained coastal observatory. Our data follow a seasonal pattern of CO2 undersaturation from January to August, followed by supersaturation in September–October and a return to near-equilibrium thereafter. This pattern is explained by the interplay of thermal and biological sinks in winter and spring–summer, respectively, followed by the breakdown of stratification and mixing with deeper, high-CO2 water in autumn. The drawdown of DIC and inorganic N between March and June with a C:N ratio of 8.7–9.5 was consistent with carbon over-consumption during phytoplankton growth. Monthly mean surface pCO2 was strongly correlated with depth integrated chlorophyll a highlighting the importance of subsurface chlorophyll a maxima in controlling C-fluxes in shelf seas. Mixing of seawater with riverine freshwater in near-shore samples caused a reduction in TA and the saturation state of calcite minerals, particularly in winter. Our data show that the L4 and E1 oceanographic stations were small, net sinks for atmospheric CO2 over an annual cycle (?0.52±0.66 mol C m?2 y?1 and ?0.62±0.49 mol C m?2 y?1, respectively).
Carbon cycle, carbon dioxide, pH, Ocean Acidification, Coastal zone, English channel
30-40
Kitidis, Vassilis
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Hardman-Mountford, Nicholas J.
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Litt, Emmer
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Brown, Ian
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Cummings, Denise
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Hartman, Sue
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Hydes, David
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Fishwick, James R.
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Harris, Carolyn
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Martinez-Vicente, Victor
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Woodward, E. Malcolm S.
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Smyth, Timothy J.
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1 July 2012
Kitidis, Vassilis
dcefa34f-4596-4bbf-b7f8-6b3c422e2df8
Hardman-Mountford, Nicholas J.
d342998f-2b8b-4f4f-b75c-79491301f9bd
Litt, Emmer
9b516a32-85de-4d30-87a3-b78be5c09380
Brown, Ian
42b64387-e5bb-4729-9b46-4bc79d749688
Cummings, Denise
61046bf9-1ee6-4376-afe8-851deb37ff92
Hartman, Sue
2f74a439-395a-4ee7-89a2-eff4cc8d9481
Hydes, David
ac7371d4-c2b9-4926-bb77-ce58480ecff7
Fishwick, James R.
2b0313f3-3c23-4b4b-8d6e-40692852086d
Harris, Carolyn
e7ab7f86-a0e8-4940-942c-5a0aeb9d882c
Martinez-Vicente, Victor
af805a71-5277-487a-b3dc-63d1289ef7ed
Woodward, E. Malcolm S.
3a11b7bf-b110-448a-b1ee-ae1ce7d0fef5
Smyth, Timothy J.
d7850910-0bd6-43dc-acd4-ab5e7aae0f88
Kitidis, Vassilis, Hardman-Mountford, Nicholas J., Litt, Emmer, Brown, Ian, Cummings, Denise, Hartman, Sue, Hydes, David, Fishwick, James R., Harris, Carolyn, Martinez-Vicente, Victor, Woodward, E. Malcolm S. and Smyth, Timothy J.
(2012)
Seasonal dynamics of the carbonate system in the Western English Channel.
Continental Shelf Research, 42, .
(doi:10.1016/j.csr.2012.04.012).
Abstract
We present over 900 carbonate system observations collected over four years (2007–2010) in the Western English Channel (WEC). We determined CO2 partial pressure (pCO2), Total Alkalinity (TA) and Dissolved Inorganic Carbon (DIC) along a series of 40 km transects, including two oceanographic stations (L4 and E1) within a sustained coastal observatory. Our data follow a seasonal pattern of CO2 undersaturation from January to August, followed by supersaturation in September–October and a return to near-equilibrium thereafter. This pattern is explained by the interplay of thermal and biological sinks in winter and spring–summer, respectively, followed by the breakdown of stratification and mixing with deeper, high-CO2 water in autumn. The drawdown of DIC and inorganic N between March and June with a C:N ratio of 8.7–9.5 was consistent with carbon over-consumption during phytoplankton growth. Monthly mean surface pCO2 was strongly correlated with depth integrated chlorophyll a highlighting the importance of subsurface chlorophyll a maxima in controlling C-fluxes in shelf seas. Mixing of seawater with riverine freshwater in near-shore samples caused a reduction in TA and the saturation state of calcite minerals, particularly in winter. Our data show that the L4 and E1 oceanographic stations were small, net sinks for atmospheric CO2 over an annual cycle (?0.52±0.66 mol C m?2 y?1 and ?0.62±0.49 mol C m?2 y?1, respectively).
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Published date: 1 July 2012
Keywords:
Carbon cycle, carbon dioxide, pH, Ocean Acidification, Coastal zone, English channel
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 340697
URI: http://eprints.soton.ac.uk/id/eprint/340697
ISSN: 0278-4343
PURE UUID: e284ab05-90fd-44a2-8b83-a2565f067c33
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Date deposited: 29 Jun 2012 09:20
Last modified: 14 Mar 2024 11:28
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Contributors
Author:
Vassilis Kitidis
Author:
Nicholas J. Hardman-Mountford
Author:
Emmer Litt
Author:
Ian Brown
Author:
Denise Cummings
Author:
Sue Hartman
Author:
David Hydes
Author:
James R. Fishwick
Author:
Carolyn Harris
Author:
Victor Martinez-Vicente
Author:
E. Malcolm S. Woodward
Author:
Timothy J. Smyth
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