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Physical quantities / Vector calculus / Particulates / Particle physics / Science / Particle decay / Particle-size distribution / Particle size / Flux / Colloidal chemistry / Chemistry / Physics


Biogeosciences, 11, 5381–5398, 2014 www.biogeosciences.netdoi:bg © Author(sCC Attribution 3.0 License. A mechanistic particle flux model applied to the oceanic
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Document Date: 2014-12-03 15:54:00

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File Size: 1,70 MB

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Company

USA 4 Applied Physics Laboratory / Coastal / /

Country

United States / /

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Event

FDA Phase / /

Facility

University of Washington / Louisiana State University / Earth Research Institute / University of California / /

IndustryTerm

satellite-based estimates / power-law / power-law depth dependence / obvious solution / equilibrium solution / satellite observations / power law / satellite remote sensing / mesopelagic food webs / analytic solution / model solution / /

NaturalFeature

Arabian Sea / Atlantic Ocean / Southern Ocean / North Atlantic ocean / Pacific ocean / Japan Sea / North ocean / North Pacific ocean / Indian Ocean / /

Organization

European Geosciences Union / Center for Computation and Technology / Center for Computation / Department of Geography / Department of Oceanography and Coastal Sciences / Louisiana State University / University of California / Santa Barbara / Department of Atmospheric and Oceanic Sciences / Earth Research Institute / University of California / Los Angeles / University of Washington / Seattle / School of Oceanography / /

Person

Table / Diaz / /

Position

CTL model for the region and data type / Archer / Mechanistic global ocean particle model / /

Product

Ocean Carbon Cycle / /

ProgrammingLanguage

MATLAB / /

ProvinceOrState

California / /

Region

Indian Ocean / North Atlantic / /

Technology

remote sensing / 3-D / DOM / simulation / /

URL

www.biogeosciences.net/11/5381/2014 / /

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