The influence of wind on the evolution of freshwater fronts in the … · 2020. 5. 6. · In the...

The influence of wind on the evolution of freshwater fronts in the Rhine ROFI

L.M. Keyzer, S. Rijnsburger, J.D. Pietrzak, F. Zijl, M. Verlaan, M. Snellen, C.A. Katsman, D.C. Slobbe, R.P. Flores, A.J. Souza, A.R. Horner-Devine

Tidal plume front

The Rhine ROFI: a tidal river plume along the Dutch coast

In the near-field region, thedynamics are dominated by tidalplume fronts.

Every tidal cycle, a new tidal plume front is formed.

The tidal plume fronts from previoustidal cyles can still be present whilea new one is formed.

The Rhine ROFI: the near-field region

Tidal plume fronts are advected bytidal straining

The Rhine ROFI: the near-field region

(De Boer, 2006)

Why we need to understand impact of fronts

Zandmotor(a mega nourisment)

Port of Rotterdam

Fronts can impact sediment transport

Shelf processes Near shore processes

ureturn

(Horner-Devine et

al., 2017)

1. Front propagates onshore

2. Return flow moves suspended sediment offshore

STRAINS measurement campaigns

PI’s:

J.D. Pietrzak,

A.R. Horner-Devine,

A.J. Souza

Mooringincl. 4 CTDs

Role of the wind

How does the wind direction affect:

o Location of the river plume?

o Cross-shore velocities?

o Tidal plume fronts?

ureturn

STRAINS campaign: strongest fronts are found under downwelling winds

(Rijnsburger, 2018)

• 3D: 20 sigma layers

• Open boundary conditionso Tide

o Temperature and salinity (WOA2013)

o Steric height correction

• Forcing:o Wind and atmospheric pressure

(ERA5)

o Heat-flux model

o River discharges

• Unstructured grid

Dutch Continental Shelf Model

Model validation

onshore

offshore

locity

linity

locity

Measurements (CTD and ADCP) Model output

Tidal cycle

HW HW +2 hrs HW +4 hrsHW -2 hrsHW -4hrs

linity

HW +2hrs

linity

Wind direction

linity

STRAINS 18m site

• Stratified

• ‘Plunging head’ indicates front

• Front almost reached shore

HW +2hrs

linity

Wind direction

linity

STRAINS 18m site

ssshore

onshore

offshore

• Strong onshore velocities in upper layer

• Offshore directed return flow in bottom layer

HW +2hrs

linity

Wind direction

linity

STRAINS 18m site

ngshore

• Also vertical structure in alongshore velocities,

although uniformly directed

• Important for differential advection of tidal plume

fronts

• Neap tide, eastern wind (5 m/s)

• What is the role of the wind?

Modify wind direction

What is the role of the wind?

linity

Wind direction

Reference case: no wind

Compare 4 different wind directions

o Onshore (NW)

o Offshore (SE)

o Upwelling (NE)

o Downwelling (SW)

What is the role of the wind?

linity

No wind Contour: 32 ppt

Onshore vs offshore

linity

Ekman transport

Wind direction

‘No wind’ plume

Contour: 32 ppt

Upwelling vs downwelling

linity

Ekman transport

Wind direction

‘No wind’ plume

Contour: 32 ppt

Upwelling vs downwelling: crossshore velocity

Upwelling wind Downwelling wind

linity

onshore

offshore

Stronger stratification and larger crossshore velocities found under downwelling winds

Upwelling vs downwelling: alongshore velocity

linity

Differential advection is stronger under downwelling winds

Upwelling vs downwelling: fronts

linity

Tidal plume front propagated/advected faster under downwelling winds

Conclusions

• Location of the tidal river plume is strongly influenced by wind direction

• Under downwelling winds we find

o Thicker stratification

o Larger crossshore velocities

o Faster propagating tidal plume fronts

Lennart Keyzer l.m.keyzer@tudelft.nl 22

ureturn

References

de Boer, G. J., Pietrzak, J. D., & Winterwerp, J. C. (2009). SST observations of upwelling induced by tidal straining in the Rhine ROFI. Continental Shelf Research, 29(1), 263-277.

Horner‐Devine, A. R., Pietrzak, J. D., Souza, A. J., McKeon, M. A., Meirelles, S., Henriquez, M., ... & Rijnsburger, S. (2017). Cross‐shore transport of nearshore sediment by river plume frontal pumping. Geophysical Research Letters, 44(12), 6343-6351.

Rijnsburger, S., Flores, R. P., Pietrzak, J. D., Horner‐Devine, A. R., & Souza, A. J. (2018). The influence of tide and wind on the propagation of fronts in a shallow river plume. Journal of Geophysical Research: Oceans, 123(8), 5426-5442.

The influence of wind on the evolution of freshwater fronts in the … · 2020. 5. 6. · In the...

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