234Th-derived particulate organic carbon export from an island-induced phytoplankton bloom in the Southern Ocean
234Th-derived particulate organic carbon export from an island-induced phytoplankton bloom in the Southern Ocean
It has long been recognised that some oceanic regions have persistently low-chlorophyll levels, even though there are abundant inorganic nutrients. Studies have shown that these high-nutrient low-chlorophyll (HNLC) areas are depleted in iron, an essential micronutrient. In these regions biological production can be enhanced with artificial mesoscale iron fertilisation. However, the ability of iron-induced blooms to efficiently sequester carbon to mesopelagic depths is still an open question. It is hypothesised that sub-Antarctic islands in the HNLC Southern Ocean are also a source of iron and thus fuel the natural phytoplankton blooms observed in their proximity, thereby enhancing levels of particulate organic carbon (POC) export. To test the third part of this hypothesis, POC export was measured in the Southern Ocean region of the Crozet Islands (52°E, 46°S) during the austral summer of 2004/2005 as part of the CROZEX project. Based on satellite imagery, a high-chlorophyll region (maximum concentration=4 ?g l?1) north and downstream of the islands was distinguished from a low-chlorophyll region (typical concentration=0.3 ?g l?1) south and upstream of the islands. POC export estimates were obtained by using the naturally occurring particle-reactive radionuclide tracer 234Th. POC export was initially 15 mmol C m?2 d?1 in the high-chlorophyll bloom region, compared with 5 mmol C m?2 d?1 in the low-chlorophyll, non-bloom region. After a moderately small bloom at the southern control stations (max concentration=0.7 ?g l?1) the spatial variability in POC export was lost, resulting in equally high levels of POC export (ca. 20 mmol C m?2 d?1) throughout the study region. Comparison of 234Th-derived POC export with estimates of new production, calculated from nitrate budgets, revealed evidence for a decoupling of new and export production, with this effect most apparent within the northern bloom area. In addition to methodological issues this apparent decoupling of new and export production could be due to a buildup of dissolved organic nitrogen within the bloom region, thus reducing the amount of POC available for export to mesopelagic depths.
CROZEX, Crozet, Southern Ocean, 234Th, Carbon export, POC
2208-2232
Morris, P.J.
efc0a494-3d80-4116-8010-c2dd5d1bbdee
Sanders, R.
02c163c1-8f5e-49ad-857c-d28f7da66c65
Turnewitsch, R.
7d9e29ea-1a91-4968-903e-ca32f525b0c6
Thomalla, S.
502d2c38-c6f2-4e0c-a05e-4075c4df2986
2007
Morris, P.J.
efc0a494-3d80-4116-8010-c2dd5d1bbdee
Sanders, R.
02c163c1-8f5e-49ad-857c-d28f7da66c65
Turnewitsch, R.
7d9e29ea-1a91-4968-903e-ca32f525b0c6
Thomalla, S.
502d2c38-c6f2-4e0c-a05e-4075c4df2986
Morris, P.J., Sanders, R., Turnewitsch, R. and Thomalla, S.
(2007)
234Th-derived particulate organic carbon export from an island-induced phytoplankton bloom in the Southern Ocean.
Deep Sea Research Part II: Topical Studies in Oceanography, 54 (18-20), .
(doi:10.1016/j.dsr2.2007.06.002).
Abstract
It has long been recognised that some oceanic regions have persistently low-chlorophyll levels, even though there are abundant inorganic nutrients. Studies have shown that these high-nutrient low-chlorophyll (HNLC) areas are depleted in iron, an essential micronutrient. In these regions biological production can be enhanced with artificial mesoscale iron fertilisation. However, the ability of iron-induced blooms to efficiently sequester carbon to mesopelagic depths is still an open question. It is hypothesised that sub-Antarctic islands in the HNLC Southern Ocean are also a source of iron and thus fuel the natural phytoplankton blooms observed in their proximity, thereby enhancing levels of particulate organic carbon (POC) export. To test the third part of this hypothesis, POC export was measured in the Southern Ocean region of the Crozet Islands (52°E, 46°S) during the austral summer of 2004/2005 as part of the CROZEX project. Based on satellite imagery, a high-chlorophyll region (maximum concentration=4 ?g l?1) north and downstream of the islands was distinguished from a low-chlorophyll region (typical concentration=0.3 ?g l?1) south and upstream of the islands. POC export estimates were obtained by using the naturally occurring particle-reactive radionuclide tracer 234Th. POC export was initially 15 mmol C m?2 d?1 in the high-chlorophyll bloom region, compared with 5 mmol C m?2 d?1 in the low-chlorophyll, non-bloom region. After a moderately small bloom at the southern control stations (max concentration=0.7 ?g l?1) the spatial variability in POC export was lost, resulting in equally high levels of POC export (ca. 20 mmol C m?2 d?1) throughout the study region. Comparison of 234Th-derived POC export with estimates of new production, calculated from nitrate budgets, revealed evidence for a decoupling of new and export production, with this effect most apparent within the northern bloom area. In addition to methodological issues this apparent decoupling of new and export production could be due to a buildup of dissolved organic nitrogen within the bloom region, thus reducing the amount of POC available for export to mesopelagic depths.
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Published date: 2007
Keywords:
CROZEX, Crozet, Southern Ocean, 234Th, Carbon export, POC
Identifiers
Local EPrints ID: 49519
URI: http://eprints.soton.ac.uk/id/eprint/49519
ISSN: 0967-0645
PURE UUID: 41a5c337-f5bc-43c9-a44b-f74c8ec99c5a
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Date deposited: 12 Nov 2007
Last modified: 15 Mar 2024 09:56
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Author:
P.J. Morris
Author:
R. Sanders
Author:
R. Turnewitsch
Author:
S. Thomalla
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