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I NCORPORATION OF C ONTINENTAL AND U RBAN R UN - OFF INTO A C OASTAL C IRCULATION M ODEL : A PPLICATION TO THE C ATALAN C OAST M. L ISTE, M. G RIFOLL,

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Presentation on theme: "I NCORPORATION OF C ONTINENTAL AND U RBAN R UN - OFF INTO A C OASTAL C IRCULATION M ODEL : A PPLICATION TO THE C ATALAN C OAST M. L ISTE, M. G RIFOLL,"— Presentation transcript:

1 I NCORPORATION OF C ONTINENTAL AND U RBAN R UN - OFF INTO A C OASTAL C IRCULATION M ODEL : A PPLICATION TO THE C ATALAN C OAST M. L ISTE, M. G RIFOLL, I. K EUPERS, J. M ONBALIU, M. E SPINO

2  Coastal oceans are the recipient of freshwater and land materials Boundaries between river and sea  a good understanding of the mixing and transport processes in river plumes is required for the maintenance of coastal ecosystems and their resources. Examples of satellite images of river mouths  Freshwater discharges from rivers and urban outflows to the ocean have deep effects (on the physical, chemical, and biological processes) in coastal waters. M OTIVATION  Most studies on freshwater influence into the coastal sea have focused on estuarine environnements but continental/urban runoff has been rarely considered in coastal circulation.

3 Besòs River runoff after a Barcelona Storm. 2011 M OTIVATION In the Catalan coast the combination of : local topography torrential rainfall  local runoff on a short time  large impact on coastal waters Flooding in Barcelona city during a Storm. 2011 General objective: to implement the land boundary fluxes into a coastal circulation model

4 O UTLINE 1.D ATA N EEDS 2.N UMERICAL MODEL AND INITIALIZATION 2.1.Coastal Circulation Model 2.2.Model Setup 2.2.1.Domain 2.2.2.Boundary conditions 2.2.3.Forcing 2.2.3.1.Atmospheric forcing 2.2.3.2.Initial condition-sea boundary condition 2.2.3.3.Land forcing (Rivers and urban runoff) 3.V ALIDATION 3.1.Field_AC campaign 3.2.Satellite image 4.R ESULTS 5.C ONCLUSION AND F UTURE W ORK

5 1. D ATA N EEDS C OASTAL M ODEL C OASTAL MODEL GRID I NITIAL C ONDITIONS O CEAN B OUNDARY C ONDITIONS L AND B OUNDARY C ONDITIONS O CEAN F ORCING S ALINITY 3D T EMPERATURE 3D C URRENTS 3D F REE S URFACE......... INPUTS OUTPUTS

6 2. N UMERICAL M ODEL AND I NITIALIZATION ROMS (R EGIONAL O CEAN M ODEL S YSTEM ). ( Shchepetkin and McWilliams, 2005)  vertical coordinates (σ)  low-order finite difference scheme 2.1 Coastal Circulation Model 2.2 Model Setup 2.2.1. Domain  High Resolution Bathymetry  152 x 207 grid cells  250m x 250m of horizontal resolution  20 sigma vertical levels

7 2. N UMERICAL M ODEL AND I NITIALIZATION 2.2 Model Setup 2.2.2. Boundary Conditions  Nested increasing/resolution domains

8 2. N UMERICAL M ODEL AND I NITIALIZATION 2.2 Model Setup 2.2.3. Forcing a) Atmospheric forcing  Barcelona Super Computing Center  1 km of resolution

9 2. N UMERICAL M ODEL AND I NITIALIZATION 2.2 Model Setup 2.2.3. Forcing b) Initial and Sea Boundary Condition  MyOcean project (http://www.myocean.eu )

10 2. N UMERICAL M ODEL AND I NITIALIZATION 2.2 Model Setup 2.2.3. Forcing Accumulate Rainfall per hour Flow temporal series (m 3 /h) CALIOPE air quality Model (BSC) River basin Rainfall – runoff Model (KUL) Combined Serwer Overflow Model (KUL) (Keupers et al., 2011) River runoff into the Coastal model CSOs into the Coastal model c) Land forcing -CSOs: Ginebra, Bogatell, Bac de Roda and Prim -Rivers: Llobregat, Besòs

11 3. V ALIDATION 3.1 Field Campaign CTD, Currents and Waves measurements in the Besòs River area  43 CTD profile measurements during a ‘storm' period, corresponding to 17/Mar/2011.  42 CTD profile measurements during a 'normal' (i.e., dry) period, corresponding to 11/Apr/2011 Examples of buoys. (Source: XIOM 2010) Example of CTD

12 3. V ALIDATION CTD V ERSUS ROMS P ROFILES (B ESÒS R IVER A REA ) P33 P41

13 3.2 Remote Sensing 3. V ALIDATION Measurements from : Sea surface temperature centred on the Alboran Sea. (Source: MyOcean project)  MODIS and MERIS  The combination of: satellite ocean data in situ coastal ocean measurements use of numerical models offer great opportunity to improve the validation of the numerical model results

14 3. V ALIDATION TSM F ROM MODIS ( MOD ERATE RESOLUTION I MAGING S PECTRORADIOMETER ( data provided by MUMM)) C ATALAN C OAST AREA Z OOM AREA

15 TSM F ROM MODIS VERSUS S ALINITY FROM ROMS RESULTS (M ARCH 17 TH 2011) C ATALAN C OAST Z OOM AREA 3. V ALIDATION

16 TSM (MODIS) O VERLAY INTO THE S ALINITY (ROMS RESULTS ) (M ARCH 17 TH 2011) C ATALAN C OAST AREA

17 4. R ESULTS R ESPONSE OF PLUME TO THE LAND DISCHARGES WITHOUT LAND DISCHARGES R IVER RUNOFF R IVER +CSO S RUNOFF

18 4. R ESULTS L AND D ISCHARGE D IFFERENCES M ARCH 17 TH L AND D ISCHARGE D IFFERENCES M ARCH 17 TH

19 4. R ESULTS  Land boundary fluxes (river and urban runoff) have been implemented into the coastal circulation model  the validation has proved that ROMS model reproduce the freshwater inflow  the ROMS result plume has qualitative similarities with the satellite observation data  the shape of the salinity plume from ROMS has similarities with the total suspended matter plume observed in the Satellite data.  the salinity profiles from campaign versus model validation are shown a similar behavior, but the values of the salinity (ROMS) are overestimated.  the results from a coastal circulation model (ROMS) have been compared with campaigns data and satellite observation to the Catalan Coast area:

20 5. C ONCLUSION  Different study cases have been compared:  Profile of the freshwater discharges play an important role in the plume dispersal:  Freshwater discharges affect to the plume location, structure and dispersal.  Overflows discharge impact have been detected in the Coastal grid (250x250 m of resolution)

21 6. F UTURE W ORK Total suspended matter in the Catalan coast (Source : MERIS satellite image. ESA).  to run ROMS model including the sediment transport module and the water quality module  to analyze in deep the correspondence between the campaign data CTD profiles and ROMS profile results.  to compare the salinity ROMS results with a Yellow Substance Database

22 E ND A CKNOWLEDGE :

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