WebWhen globally integrated, submarine canyons are responsible for dissipating 30.8–75.3 GW, or 3.2%–7.8% of the energy input into the M2-frequency internal tides. This percentage of the internal tide energy that is dissipated in submarine canyons is comparable to or larger than previous calculations using extrapolations from observations of single canyons. WebSubmarine canyons have been identified as a type of topography that leads to significant internal wave‐driven mixing. In this study, we use a global map of canyons, together with a...
Vertical fluxes of nutrients enhanced by strong turbulence and ...
WebThe results of air quality monitoring show significantly increased concentrations of polycyclic aromatic hydrocarbons (PAH) and arsenic in the area located near the town of Kladno in Central Bohemia, Czech Republic. The region of interest is historically associated with coal mines and steelworks. Source apportionment using the method of Positive Matrix … Web1 de fev. de 2024 · Abstract The exchanges of water, nutrients, and oxygen between the coastal and open ocean are key components of on-shelf nutrient budgets and biogeochemical cycles. On a regional scale, submarine canyons enhance physical processes such as shelf–slope mass exchange and mixing. There is good … incident command structure frs
On the magnitude of canyon‐induced mixing - Semantic Scholar
WebOn the Magnitude of Canyon-Induced Mixing Authors Robert Nazarian, Fairfield UniversityFollow Christian M. Burns Sonya Legg Maarten C. Buijsman Harpreet Kaur Brian K. Arbic Document Type Article Article Version Publisher's PDF Publication Date 11-5 … WebOn the Magnitude of Canyon‐Induced Mixing Article Full-text available Nov 2024 Robert H. Nazarian Christian M. Burns Sonya Legg Brian K. Arbic Plain Language Summary When these waves break, they... WebNazarian, Robert H., et al. “On the magnitude of canyon-induced mixing”. Journal of Geophysical Research Oceans (2024). Web. inconsistency\\u0027s yi