Mathematics – Logic
Scientific paper
Dec 2009
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009georl..3623603s&link_type=abstract
Geophysical Research Letters, Volume 36, Issue 23, CiteID L23603
Mathematics
Logic
3
Oceanography: General: Continental Shelf And Slope Processes (3002), Oceanography: General: Physical And Biogeochemical Interactions, Oceanography: Physical: Internal And Inertial Waves, Oceanography: Biological And Chemical: Food Webs, Structure, And Dynamics (0491), Oceanography: Biological And Chemical: Carbon Cycling (0428)
Scientific paper
We show that a breaking internal tide at a shelf edge is a fundamental control on the structural and functional properties of ecosystems. Contrasts in vertical mixing of nitrate between the shelf and the open ocean correspond with horizontal and vertical changes in phytoplankton communities, with largest cells found in surface waters at the shelf edge. Intense fishing activity is commonly seen at continental shelf edges, targeting spawning fish stocks. We suggest that the internal tide, a globally ubiquitous physical process at steep shelf edge bathymetry, supports shelf edge fisheries by providing large-celled phytoplankton for first-feeding fish larvae. The repeatability of the internal tide removes fish from the need to time spawning with a spring bloom. Also, with large phytoplankton cells dominating particulate organic carbon export, the internal tides could be an important influence on spatial and temporal variability in patterns of global carbon sequestration in deep water and sediments.
Hickman Anna E.
Holligan Patrick M.
Moore Mark C.
Palmer Matthew R.
Sharples Jonathan
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