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Land-Ocean Interactions: Estuarine Circulation. Estuary: a semi-enclosed coastal body of water which has a free connection with the open sea and within.

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Presentation on theme: "Land-Ocean Interactions: Estuarine Circulation. Estuary: a semi-enclosed coastal body of water which has a free connection with the open sea and within."— Presentation transcript:

1 Land-Ocean Interactions: Estuarine Circulation

2 Estuary: a semi-enclosed coastal body of water which has a free connection with the open sea and within which sea water is measurably diluted with fresh water derived from land drainage. (Pritchard,1963) Coastal Ocean Estuary mouth Estuary Estuary head River

3 Schematic of a typical Estuary

4 very fresh quite salty

5 Density gradient along axis of estuary … and in the vertical (strongly stratified) Stratification evolves over time in response to freshwater inflow – shows time scale of estuary residence time is long

6 Smaller estuary: salinity shows tidal variability

7 Characteristics of estuaries Most estuaries: –strong tidal forcing –large density difference between river and ocean –complex topography –Long and narrow – can often be approximated by 2-dimensional vertical/along- axis flow (relatively little across axis flow) Mathematically we have equations for salt, mass (volume) and momentum –significant forces: friction (mixing), pressure, nonlinearity, acceleration (time variability) –typically small: wind, Coriolis, longer that tidal period coastal sea level (tides are important) –most common dynamic balance is between pressure and friction/mixing Mixing affects the salt balance … … which affects the pressure distribution and pressure gradient Can classify estuaries based on their physics (relative magnitude of different terms), or topography/geomorphology

8 Physics essentials: Fresh river water encounters salty ocean water Fresh = light; salty = heavy Freshwater flows seaward at the surface Get landward flow of more dense, salty, water –estuarine or gravitational or baroclinic circulation –time scales of ~1 day … so Coriolis force is usually of secondary importance –circulation is evident averaged over a few tidal cycles –mixing and entrainment processes are central to details of the salt and volume transport balance

9 Fjords Glacial valleys flooded by rising sea level Found poleward of 43 o latitude Narrow, deep inlets Shallow sill connect fjord with ocean Freshwater flows out in a thin surface layer Deep water is near oceanic salinity and relatively motionless Topography classification:

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11 Coastal Plain Estuaries River valleys flooded by sea level rise following glacial period (sometimes sediment- filled fjords) Little sedimentation Ancient river valleys determine the topography Shallower than fjords and more uniform in depth Extent of salt influence depends on forcing more than bathymetry Tides are often the most important source of mixing

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13 Bar-built and Lagoon Estuaries Drowned river valleys with high sedimentation rates Very shallow Often branch toward mouth into a system of shallow waterways (lagoons) Narrow connections to the ocean Sediment accumulates at mouth contributing to bar formation Shallow lagoons can be well-mixed by tides and winds Complex topography: channels, island and shoals Multiple sources of freshwater

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15 Classification based on salinity structure (= physics yay!) The majority of estuaries in populated coastal regions are in the coastal plain category (locally: Chesapeake, Delaware, Hudson) Within this group there are large differences in circulation patterns, density, residence time, and mixing A better classification is one based on salinity and flow characteristics

16 Physics essentials: Fresh river water encounters salty ocean water Fresh = light; salty = heavy Freshwater flows seaward at the surface Get landward flow of more dense, salty, water –estuarine or gravitational or baroclinic circulation –time scales of ~1 day … so Coriolis force is usually of secondary importance –circulation is evident averaged over a few tidal cycles –mixing and entrainment processes are central to details of the salt and volume transport balance Mixing across the strong vertical salinity gradient is significant Turbulence driven by velocity shear affects mixing rates Density stratification works against mixing but does not prevent it.

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18 Some velocity profile data from the Hudson River ocean river

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21 Top: As a function of depth and distance along estuary Bottom: Vertical salinity profiles for stations 1-4 Surface salinity increases from station 1 to station 4, but bottom salinity is close to oceanic at all stations Salinity in a highly stratified estuary © 1996 M. Tomczak

22 River volume flow is R. Outflow from the estuary in the upper layer is 10R. This is balanced by oceanic inflow of 9R. The net outflow at the ocean end is, of course, still only 1R. Mass transport in a highly stratified estuary © 1996 M. Tomczak

23 Salt balance: Salt in = V 2 S 2 + R S o Salt out = V 1 S 1 V 1 S 1 = V 2 S 2 (averaged over several tidal cycles) V 1 = V 2 S 2 /S 1 Volume balance: R + V 2 = V 1 R = V 1 – V 2 = V 2 (S 2 /S 1 ) – V 2 = V 2 (S 2 /S 1 – 1) V 2 = R / (S 2 /S 1 – 1) or = S 1 R / (S 2 – S 1 ) V 1 = S 2 R / (S 2 – S 1 ) R V 1, S 1 V 2, S 2 Vertical flux of salt through entrainment RV 1, S 1 V 3, S 3 V 4, S 4 V 2, S 2 Difference between upper and lower transport is always R

24 CHIMP Chesapeake Bay Interactive Modeling Project http://www.d.umn.edu/~jaustin/CHIMP.html

25 Salinity in a salt wedge estuary Top: As a function of depth and distance along estuary Bottom: Vertical salinity profiles for stations 1-4 Surface salinity is close to zero at all stations. Bottom salinity is close to oceanic. © 1996 M. Tomczak

26 Salinity in a slightly stratified (partially-mixed) estuary Top: As a function of depth and distance along estuary Mixing is indicated by the circles. Bottom: Vertical salinity profiles for stations 1-4 Surface and bottom salinity increase from station 1 to 4, but surface salinity is always slightly fresher. © 1996 M. Tomczak

27 Salinity in a vertically well-mixed estuary Top: As a function of depth and distance along estuary Bottom: Vertical salinity profiles for stations 1-4 Surface and bottom salinity increase from station 1 to 4, but surface and bottom salinity are always nearly identical © 1996 M. Tomczak

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29 3-dimensional circulation a.Slightly stratified estuary with weak Coriolis effect (northern hemisphere). b.Slightly stratified with strong Coriolis effect c.Vertically mixed estuary with Coriolis effect Blue (dark) arrows indicate upper layer flow, and red (light) arrows bottom flow © 1996 M. Tomczak

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31 Secondary flows Density driven lateral tidal cells - axial convergence

32 Salt-wedge Partially Mixed Well-Mixed

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