The seasonal pCO2 cycle at 49°N/16.5°W in the northeastern Atlantic Ocean and what it tells us about biological productivity
The seasonal pCO2 cycle at 49°N/16.5°W in the northeastern Atlantic Ocean and what it tells us about biological productivity
A 2-year record of mixed layer measurements of CO2 partial pressure (pCO2), nitrate, and other physical, chemical, and biological parameters at a time series site in the northeast Atlantic Ocean (49°N/16.5°W) is presented. The data show average undersaturation of surface waters with respect to atmospheric CO2 levels by about 40 ± 15 ?atm, which gives rise to a perennial CO2 sink of 3.2 ± 1.3 mol m?2 a?1. The seasonal pCO2 cycle is characterized by a summer minimum (winter maximum), which is due to the dominance of biological forcing over physical forcing. Our data document a rapid transition from deep mixing to shallow summer stratification. At the onset of shallow stratification, up to one third of the mixed layer net community production during the productive season had already been accomplished. The combination of high prestratification productivity and rapid onset of stratification appears to have caused the observed particle flux peak early in the season. Mixed layer deepening during fall and winter reventilated CO2 from subsurface respiration of newly exported organic matter, thereby negating more than one third of the carbon drawdown by net community production in the mixed layer. Chemical signatures of both net community production and respiration are indicative of carbon overconsumption, the effects of which may be restricted, though, to the upper ocean. A comparison of the estimated net community production with satellite-based estimates of net primary production shows fundamental discrepancies in the timing of ocean productivity.
carbon, nitrogen, surface ocean
C04020-[15pp]
Körtzinger, A.
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Send, U.
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Lampitt, R.S.
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Hartman, S.
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Wallace, D.W.R.
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Karstensen, J.
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Villagarcia, M.G.
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Llinás, O.
a31ba11b-2725-4004-ace3-7feca62ced68
DeGrandpre, M.D.
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April 2008
Körtzinger, A.
0b07e9fa-df7e-45d0-b4f8-f7d5341748eb
Send, U.
e4f7234f-b5b3-4472-a57e-d15bc1e2c2a2
Lampitt, R.S.
dfc3785c-fc7d-41fa-89ee-d0c6e27503ad
Hartman, S.
2f74a439-395a-4ee7-89a2-eff4cc8d9481
Wallace, D.W.R.
dcdb5567-816f-4a7c-b794-0913ba067b58
Karstensen, J.
3bc81c4c-e533-48b5-92ca-6b6976b2c899
Villagarcia, M.G.
49e2537c-bb5d-4eb0-af61-d027d029f0cd
Llinás, O.
a31ba11b-2725-4004-ace3-7feca62ced68
DeGrandpre, M.D.
b7c7e562-681f-4982-9ef1-ba58844e2ef2
Körtzinger, A., Send, U., Lampitt, R.S., Hartman, S., Wallace, D.W.R., Karstensen, J., Villagarcia, M.G., Llinás, O. and DeGrandpre, M.D.
(2008)
The seasonal pCO2 cycle at 49°N/16.5°W in the northeastern Atlantic Ocean and what it tells us about biological productivity.
Journal of Geophysical Research, 113 (C4), .
(doi:10.1029/2007JC004347).
Abstract
A 2-year record of mixed layer measurements of CO2 partial pressure (pCO2), nitrate, and other physical, chemical, and biological parameters at a time series site in the northeast Atlantic Ocean (49°N/16.5°W) is presented. The data show average undersaturation of surface waters with respect to atmospheric CO2 levels by about 40 ± 15 ?atm, which gives rise to a perennial CO2 sink of 3.2 ± 1.3 mol m?2 a?1. The seasonal pCO2 cycle is characterized by a summer minimum (winter maximum), which is due to the dominance of biological forcing over physical forcing. Our data document a rapid transition from deep mixing to shallow summer stratification. At the onset of shallow stratification, up to one third of the mixed layer net community production during the productive season had already been accomplished. The combination of high prestratification productivity and rapid onset of stratification appears to have caused the observed particle flux peak early in the season. Mixed layer deepening during fall and winter reventilated CO2 from subsurface respiration of newly exported organic matter, thereby negating more than one third of the carbon drawdown by net community production in the mixed layer. Chemical signatures of both net community production and respiration are indicative of carbon overconsumption, the effects of which may be restricted, though, to the upper ocean. A comparison of the estimated net community production with satellite-based estimates of net primary production shows fundamental discrepancies in the timing of ocean productivity.
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e-pub ahead of print date: 17 April 2008
Published date: April 2008
Keywords:
carbon, nitrogen, surface ocean
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Local EPrints ID: 59184
URI: http://eprints.soton.ac.uk/id/eprint/59184
ISSN: 0148-0227
PURE UUID: 150bb42f-7bba-4950-8e5e-166c7bfb86f1
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Date deposited: 27 Aug 2008
Last modified: 15 Mar 2024 11:14
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Contributors
Author:
A. Körtzinger
Author:
U. Send
Author:
R.S. Lampitt
Author:
S. Hartman
Author:
D.W.R. Wallace
Author:
J. Karstensen
Author:
M.G. Villagarcia
Author:
O. Llinás
Author:
M.D. DeGrandpre
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