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Introduction

The 'Bathymetry' toolbox allows importing, exporting and merging bathymetry data from a number of on-line and open source datasets. The bathymetric data is available with different resolutions according to different zoom levels (so-called tiles) indicated in brackets in the column resolution.

Usage of the toolbox for exporting

The 'Export' tab in the Working Space allows the user exporting data within a predefined Polygon. The Polygon can be defined using the key “Draw Polygon” and then drawing a polygon with the mouse (left click to draw the polygon, right click  or double click to close it). An example can be found in the Figure below.

  • “Delete Polygon” is used to delete the polygon.
  • “Load Polygon” allows loading an existing polygon file in ASCII format (*.pol).
  • “Save Polygon” allows saving the polygon file in ASCII format (*.pol).

 

Figure: Exporting bathymetric datasets is easily to carry out with Delft Dashboard as can be seen in this example where we export GEBCO '08 data of Ponta Delgada, Portugal.

Usage of the toolbox for importing

The 'Import' tab in the Working Space allows the user importing data. Dashboard support multiple formats like ASCII grid, MAT-files, xyz-grid and netCDF and multiple coordinates systems. This can for example be a powerful tool when a LIDAR data set is combined with a data set like the Coastal Relief Model. An example can be found in the Figure below. Importing contains of 3 steps:
  1. Select file. By selecting the file file Delft Dashboard determines how many cells it is going to create.
    1. If you use Matlab or NetCDF as input: make sure the bathymetry information is saved within the variables x, y and z. (lower case)
  2. Edit settings. Define for example the coordainte system and filename and attributes.
  3. Generate Tiles. The bathymetry set will be created for Delft Dasboard using tiles.

 

Figure: Importing other bathymetric datasets is easily to carry out with Delft Dashboard as can be seen in this example where we import LiDAR data of Barnegat Bay, NJ


Available data sets 

 

The available data sets are given in the table below

Category

Available Databases

Coverage

Resolution (approx.)

Source

Other

GEBCO '08

Global topography

926 m (1) / 29.630 m (6)

BODC website

Other

SRTM 4.1

Global topography

93 m (1) / 47.407 m (10)

Jarvis A., H.I. Reuter, A.  Nelson, E. Guevara (2008)

USGS

Hawaii

Bathymetry

55 m (1) / 872 m (5)

USGS (Curt Storlazzi)

USGSSan Francisco BayBathymetry100 m (1) / xxx m (5)USGS website
USGSSouthern CaliforniaTopography near Los Angeles3 m (1) / 384 m (8)USGS publication
NGDC

Coastal Relief Model (CRM)

Bathymetry of the USA

93 m (1) / 11.852 m (8)

NOAA website

NGDCETOPO 1Global topography 1852 m (1) / 118518 m (7)NOAA website
NGDCETOPO 2Global topography 3704 m (1) / 118518 m (6)NOAA website  
Rijkswaterstaat

Vaklodingen

Bathymetry - the Netherlands

20 m (1) / 320 m (5)

Rijkswaterstaat

SURA

Gulf of Mexico

Bathymetry

93 m (1) / 1481 m (5)

GCOOS website

EMODNETCentral MediterraneanBathymetry 463 m (1) / 3704 m (4)EMODNET webite
EMODNETAegean SeaBathymetry 463 m (1) / 3704 m (4)EMODNET webite  
EMODNETBay of BiscayBathymetry 463 m (1) / 3704 m (4)EMODNET webite  
EMODNETCeltic SeasBathymetry 463 m (1) / 3704 m (4)EMODNET webite  
EMODNETGreat North SeaBathymetry 463 m (1) / 3704 m (4)EMODNET webite  
EMODNETWestern MediterraneanBathymetry 463 m (1) / 3704 m (4)EMODNET webite  
Marine ScotlandWest of LewisTopography 5 m (1) / 80 m (5)?
Geoscience AustraliaAustraliaTopography 278 m (1) / 17778 m (7)Geoscience Australia
NCTRSouthwest WashingtonTopography 45 m (1) / 9744 m (2)?
DMUACE-2Altimetry93 m (1) / 47407 (10)?
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