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Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt

Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt Oceanic Water Masses Oceanic Mixing Temperature - Salinity Diagrams. NOTES. The temperature and salinity of water in the ocean are determined while that water is at the surface .

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Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt

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  1. Chapter 6: Global Fluxes and The Deep Circulation Heat Budget Conservation of Salt Oceanic Water Masses Oceanic Mixing Temperature - Salinity Diagrams

  2. NOTES • The temperature and salinity of water in the ocean are determined while that water is at the surface. • Temperature of surface water is determined by the relative sizes of the different terms in the oceanic heat budget equation. • Salinityis determined by the balance between evaporation and precipitation and by the freezing and melting of ice.

  3. HEAT- Budget Equation Qs + Qv = Qb + Qh + Qe + Qt Qs = incoming short-wave radiation Qv = heat advected into the region in currents Qb = heat lost from the sea-surface by long-wave radiation Qh = heat lost by conduction/convection Qe = net amount of heat lost by evaporation Qt = net amount of heat available to raise the temperature

  4. Qs: Wm-2 The net radiation balance is largely controlled by variations in Qs

  5. Net Radiation Balance (Qs – Qb) Qb: depends on surface temperature, cloud cover and type, and water vapor content. Generally (Qs – Qb > 0)

  6. HEAT- Budget Equation Qs + Qv = Qb + Qh + Qe + Qt • Qv = heat advected into the region in currents (includes vertical circulation (i.e. upwelling and downwelling currents)). • Qh, Qe • depend upon the gradients of temperature and water content respectively, of the air above the sea-surface • Generally represent a loss of heat from the sea • Enhanced by increased atmospheric turbulence above the sea-surface. • Difficult to estimate • Qe is negative around the Grand Banks off Newfoundland where the cold Labrador Current promotes condensation of water vapour onto the sea-surface

  7. SST: July and January 15oN – 15oS net heat gain Net loss in winter hemisphere at higher latitudes Qh greater role in NH winter cooling, cold dry continental air also enhances Qe Sea ice reduces Qs but leaves Qb relatively unaffected so is maintained

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