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River influences on shelf ecosystems: introduction and synthesis

River influences on shelf ecosystems: introduction and synthesis
River influences on shelf ecosystems: introduction and synthesis

River Influences on Shelf Ecosystems (RISE) is the first comprehensive interdisciplinary study of the rates and dynamics governing the mixing of river and coastal waters in an eastern boundary current system, as well as the effects of the resultant plume on phytoplankton standing stocks, growth and grazing rates, and community structure. The RISE Special Volume presents results deduced from four field studies and two different numerical model applications, including an ecosystem model, on the buoyant plume originating from the Columbia River. This introductory paper provides background information on variability during RISE field efforts as well as a synthesis of results, with particular attention to the questions and hypotheses that motivated this research. RISE studies have shown that the maximum mixing of Columbia River and ocean water occurs primarily near plume liftoff inside the estuary and in the near field of the plume. Most plume nitrate originates from upwelled shelf water, and plume phytoplankton species are typically the same as those found in the adjacent coastal ocean. River-supplied nitrate can help maintain the ecosystem during periods of delayed upwelling. The plume inhibits iron limitation, but nitrate limitation is observed in aging plumes. The plume also has significant effects on rates of primary productivity and growth (higher in new plume water) and microzooplankton grazing (lower in the plume near field and north of the river mouth); macrozooplankton concentration (enhanced at plume fronts); offshelf chlorophyll export; as well as the development of a chlorophyll "shadow zone" off northern Oregon.

Hickey, B. M.
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Kudela, R. M.
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Nash, J. D.
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Bruland, K. W.
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Peterson, W. T.
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MacCready, P.
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Lessard, E. J.
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Jay, D. A.
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Banas, N. S.
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Baptista, A. M.
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Dever, E. P.
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Kosro, P. M.
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Kilcher, L. K.
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Horner-Devine, A. R.
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Zaron, E. D.
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McCabe, R. M.
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Peterson, J. O.
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Orton, P. M.
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Pan, J.
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Lohan, M. C.
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Hickey, B. M.
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Kudela, R. M.
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Nash, J. D.
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Bruland, K. W.
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Peterson, W. T.
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MacCready, P.
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Lessard, E. J.
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Jay, D. A.
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Banas, N. S.
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Baptista, A. M.
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Dever, E. P.
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Kosro, P. M.
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Kilcher, L. K.
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Horner-Devine, A. R.
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Zaron, E. D.
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McCabe, R. M.
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Peterson, J. O.
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Orton, P. M.
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Pan, J.
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Lohan, M. C.
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Hickey, B. M., Kudela, R. M., Nash, J. D., Bruland, K. W., Peterson, W. T., MacCready, P., Lessard, E. J., Jay, D. A., Banas, N. S., Baptista, A. M., Dever, E. P., Kosro, P. M., Kilcher, L. K., Horner-Devine, A. R., Zaron, E. D., McCabe, R. M., Peterson, J. O., Orton, P. M., Pan, J. and Lohan, M. C. (2010) River influences on shelf ecosystems: introduction and synthesis. Journal of Geophysical Research: Oceans, 115 (2), [C00B17]. (doi:10.1029/2009JC005452).

Record type: Review

Abstract

River Influences on Shelf Ecosystems (RISE) is the first comprehensive interdisciplinary study of the rates and dynamics governing the mixing of river and coastal waters in an eastern boundary current system, as well as the effects of the resultant plume on phytoplankton standing stocks, growth and grazing rates, and community structure. The RISE Special Volume presents results deduced from four field studies and two different numerical model applications, including an ecosystem model, on the buoyant plume originating from the Columbia River. This introductory paper provides background information on variability during RISE field efforts as well as a synthesis of results, with particular attention to the questions and hypotheses that motivated this research. RISE studies have shown that the maximum mixing of Columbia River and ocean water occurs primarily near plume liftoff inside the estuary and in the near field of the plume. Most plume nitrate originates from upwelled shelf water, and plume phytoplankton species are typically the same as those found in the adjacent coastal ocean. River-supplied nitrate can help maintain the ecosystem during periods of delayed upwelling. The plume inhibits iron limitation, but nitrate limitation is observed in aging plumes. The plume also has significant effects on rates of primary productivity and growth (higher in new plume water) and microzooplankton grazing (lower in the plume near field and north of the river mouth); macrozooplankton concentration (enhanced at plume fronts); offshelf chlorophyll export; as well as the development of a chlorophyll "shadow zone" off northern Oregon.

Text
Hickey_et_al-2010-Journal_of_Geophysical_Research__Oceans_(1978-2012) - Version of Record
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Published date: February 2010
Related URLs:
Organisations: Marine Biogeochemistry

Identifiers

Local EPrints ID: 411658
URI: http://eprints.soton.ac.uk/id/eprint/411658
DOI: doi:10.1029/2009JC005452
PURE UUID: 7b9891c2-7469-472c-9d9a-dfc10cd2c5c5
ORCID for M. C. Lohan: ORCID iD orcid.org/0000-0002-5340-3108

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Date deposited: 21 Jun 2017 16:33
Last modified: 16 Mar 2024 04:13

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Contributors

Author: B. M. Hickey
Author: R. M. Kudela
Author: J. D. Nash
Author: K. W. Bruland
Author: W. T. Peterson
Author: P. MacCready
Author: E. J. Lessard
Author: D. A. Jay
Author: N. S. Banas
Author: A. M. Baptista
Author: E. P. Dever
Author: P. M. Kosro
Author: L. K. Kilcher
Author: A. R. Horner-Devine
Author: E. D. Zaron
Author: R. M. McCabe
Author: J. O. Peterson
Author: P. M. Orton
Author: J. Pan
Author: M. C. Lohan ORCID iD

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