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Importance of vertical mixing for additional sources of nitrate and iron to surface waters of the Columbia River plume: Implications for biology

Importance of vertical mixing for additional sources of nitrate and iron to surface waters of the Columbia River plume: Implications for biology
Importance of vertical mixing for additional sources of nitrate and iron to surface waters of the Columbia River plume: Implications for biology

The influence of the Columbia River plume on the distributions of nitrate and iron and their sources to coastal and shelf waters were examined. In contrast to other large estuaries, the Columbia River is a unique study area as it supplies very little nitrate (5 μM) and iron (14-30 nM) at salinities of 1-2 to coastal waters. Elevated nitrate and dissolved iron concentrations (as high as 20 μM and 20 nM) were observed, however, in the near field Columbia River plume at salinities of 20. Surface nitrate concentrations were higher than observed in the Columbia River itself and therefore must be added by entrainment of higher nitrate concentrations from subsurface coastal waters. Tidal flow was identified as an important factor in determining the chemical constituents of the Columbia River plume. During the rising flood tide, nitrate and iron were entrained into the plume waters resulting in concentrations of 15 μM and 6 nM, respectively. Conversely, during the ebb tide the concentrations of nitrate and total dissolved iron were reduced to 0.3-3 μM and 1-2 nM, respectively, with a concomitant increase in chlorophyll a concentrations. As these plume waters moved offshore the plume drifted directly westward, over a nitrate depleted water mass (< 0.2 μM). The plume water was also identified to move southwards and offshore during upwelling conditions and nitrate concentrations in this far field plume were also depleted. Iron concentrations in the near-field Columbia River plume are sufficient to meet the biological demand. However, due to the low nitrate in the Columbia River itself, nitrate in the plume is primarily dependent on mixing with nitrate rich, cold, high salinity subsurface waters. Without such an additional source the plume rapidly becomes nitrate limited.

Chlorophyll, Columbia River plume, Iron, Nitrate, Oregon, Washington
0304-4203
260-273
Lohan, Maeve C.
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Bruland, Kenneth W.
f3e947c6-f9b7-435c-ac84-b3476306a368
Lohan, Maeve C.
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Bruland, Kenneth W.
f3e947c6-f9b7-435c-ac84-b3476306a368

Lohan, Maeve C. and Bruland, Kenneth W. (2006) Importance of vertical mixing for additional sources of nitrate and iron to surface waters of the Columbia River plume: Implications for biology. Marine Chemistry, 98 (2-4), 260-273. (doi:10.1016/j.marchem.2005.10.003).

Record type: Article

Abstract

The influence of the Columbia River plume on the distributions of nitrate and iron and their sources to coastal and shelf waters were examined. In contrast to other large estuaries, the Columbia River is a unique study area as it supplies very little nitrate (5 μM) and iron (14-30 nM) at salinities of 1-2 to coastal waters. Elevated nitrate and dissolved iron concentrations (as high as 20 μM and 20 nM) were observed, however, in the near field Columbia River plume at salinities of 20. Surface nitrate concentrations were higher than observed in the Columbia River itself and therefore must be added by entrainment of higher nitrate concentrations from subsurface coastal waters. Tidal flow was identified as an important factor in determining the chemical constituents of the Columbia River plume. During the rising flood tide, nitrate and iron were entrained into the plume waters resulting in concentrations of 15 μM and 6 nM, respectively. Conversely, during the ebb tide the concentrations of nitrate and total dissolved iron were reduced to 0.3-3 μM and 1-2 nM, respectively, with a concomitant increase in chlorophyll a concentrations. As these plume waters moved offshore the plume drifted directly westward, over a nitrate depleted water mass (< 0.2 μM). The plume water was also identified to move southwards and offshore during upwelling conditions and nitrate concentrations in this far field plume were also depleted. Iron concentrations in the near-field Columbia River plume are sufficient to meet the biological demand. However, due to the low nitrate in the Columbia River itself, nitrate in the plume is primarily dependent on mixing with nitrate rich, cold, high salinity subsurface waters. Without such an additional source the plume rapidly becomes nitrate limited.

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More information

Published date: 1 February 2006
Keywords: Chlorophyll, Columbia River plume, Iron, Nitrate, Oregon, Washington

Identifiers

Local EPrints ID: 414019
URI: http://eprints.soton.ac.uk/id/eprint/414019
ISSN: 0304-4203
PURE UUID: ee6f49f3-dd9a-43a7-8178-1ef2f446bf11
ORCID for Maeve C. Lohan: ORCID iD orcid.org/0000-0002-5340-3108

Catalogue record

Date deposited: 12 Sep 2017 16:31
Last modified: 06 Jun 2024 01:51

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Contributors

Author: Maeve C. Lohan ORCID iD
Author: Kenneth W. Bruland

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