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General Description

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... tides, internal waves, circulation and eddy and their effects on biological transport, primary production; zooplankton, fish and the regeneration of nutrients; ... – PowerPoint PPT presentation

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Title: General Description


1
General Description
  • Physical and biological processes are
    inter-related aspects that govern the
    productivity of marine ecosystems.
  • Provides an introduction to the physical
    processes that control abundance of marine
    organisms in the ocean.
  • Turbulence in surface and bottom boundary layers
    and its roles on the lives of plants and animals
    buoyancy- and wind-induced circulation, mixing,
    coastal upwelling/ downwelling processes, fronts,
    river plume, tides, internal waves, circulation
    and eddy and their effects on biological
    transport, primary production zooplankton, fish
    and the regeneration of nutrients
  • NPZD (Nutrient, Phytoplankton, Zooplankton and
    Detritus) chemical-biological model mathematical
    and numerical techniques in the of coupled
    hydrodynamic-ecosystem model.

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Global distribution of chlorophyll averaged over
the period from 1 January 2002 to 28 February
2005 using data collected from MODIS on the Aqua
satellite. Chlorophyll values range from 0.01
mg/m3 (purple) to 60 mg/m3 (red). From NASA
Goddard Space Flight Center.
4
Xie, L. and W.W. Hsieh, 1995
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Sun

Photosynthesis by phytoplankton
Currents, tides (also moon), turbulence and
stratification by heating or associated wind
  • Alters boundary layers, stratification and
    euphotic layer, causes retention of planktonic
    organisms and modifies light penetration.
  • 2. Transports nutrients and waste products,
    assists migrations, affects the rate of encounter
    between planktonic predators and their prey.
  • 3. Rate of biological process is affected by T
    (C) and organisms colonizing is determined by v
    (m/s).

Passed from organism to organism by feeding
transfers
Food Web
8
Multi temporal and spatial scales in physic and
biologic processes
9
OSU
1mm10-3m
10
Transfers of nutrients and waste products by
faster turbulent diffusion, mesoscale, upwelling,
eddy, front, surface and internal waves
Transfers of nutrients and waste products by eddy
turbulent diffusion,basin scale circulation,
plantary waves, tides
Transfers of nutrients and waste products by
molecular diffusion
Molecular
(m)
Internal Rossby deformation radius
h water depth ? water density O angular
velocity of earth rotation F latitute
11
Temporal scales determined from organisms
days-1wks
Large marine mammal
Molecular
hours
Time scale
About 100 yrs
1-10 yrs
days
Increase fluctuations in number
Process of trophic transfer
12
Turbulence, diffusion and boundary layers,
mixing, mixed layer
13
Periods
Periods
rapidly varying turbulent component
slowly varying mean fields
Periods of u from a second (minimum) to tens
minutes (maximum). Size of u from a few
millimeters (µm) (minimum) to a few meters
(maximum)
14
Laminar Flow and Turbulent Flow
  • The terms laminar flow and purely viscous
    (molecular) flow are used synonymously to mean a
    fluid flow which flows in laminas or layers, as
    opposed to turbulent flow in which the velocity
    components have random turbulent fluctuations
    imposed upon their mean values.
  • In general, increase the flow will change from
    laminar to turbulent.
  • The effect of viscosity are still present in
    turbulent flow, but they are masked by much
    strong turbulence. The viscosity due to turbulent
    flow is sometimes called as turbulent viscosity.

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Sources of turbulent energy 1 Instability
induced by surface or internal wave
breakings, 2 Wind stirring at the sea
surface, 3. Velocity shear, 4. Strong
currents, meanders and eddies breakings.
Velocity shear
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DefinitionsViscosity, Friction and Ideal Flow
  • Molecular Viscosity internal friction of fluid
    due to molecular motion, which causes it resist
    the tendency to flow. This comes to work when the
    scale of turbulence is
  • lt 1mm.
  • Viscous force, i.e. friction depends on the type
    of fluid and physical configuration or flow
    pattern (including both molecular and turbulent
    viscous force. The magnitude of latter is much
    larger).
  • If the viscous force is negligible, the flow is
    defined as ideal flow or inviscid flow in which
    friction is precisely zero.
  • A fluid with very small viscosity may behave
    quite differently to a (hypothetical) fluid with
    no viscosity at all.

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Reynolds number
viscosity coefficients
u velocity, d typical dimension,
21
Table 2.1
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Diffusion-Viscosity
  • Diffusion mixing of a property by the random
    motions of molecules (molecular diffusion) or of
    eddy (turbulent or eddy diffusion).
  • Viscosity it is resistance force of the water,
    acts to resist the velocity. Its consequence
  • is corresponding to the associated diffusion.

24
Some Estimations
  • Ficks Law to estimate the flux and time scale
    of a variable due to molecular diffusion

The length scale to diffuse
Coefficient of molecular diffusion1.5x10-9m2s-1
  • Kolmogoroff Length length scale across the
    smallest eddy of smallest fluctuation.
  • L(kinematic viscosity (molecular)/turbulent-ener
    gy dissipation)1/4
  • Largest turbulent eddies to determine the
    vertical excursion of the small passive organisms
    being moved about by the turbulent flow
  • Lb(turbulent energy dissipation/stratification

25
(Bottom) Boundary Layer
  • Solid boundary in which water movement is
    reduced.
  • It reduces the exchange rate of molecules of
    O2, CO2, NH3 etc. with the ambient waters.

26
Idealized case
Real case
No-slip boundary or u0 at solid surface
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