Spatial Environmental Assessment Toolkit (SEAT) Plugin in QGIS

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Introduction

The SEAT incorporates device specific parameters, site-specific hydrodynamic conditions, and local receptor information to assess the potential for environmental change within a system. Results from a successful SEAT application informs developers and regulators on the risk of environmental change associated with deploying a device or array in a site of interest. There are four modules available that assess different physical aspects of the impact of instruments on environmental conditions:
- Shear Stress Module: Analysis of spatial change in bed mobility
- Velocity Module: Analysis of spatial change in larval motility
- Acoustics Module: Analysis of acoustic propagation and thresholds
- Power Module: Analysis of power generated by WEC/CEC array
For this tutorial we will be using the Shear Stress Module on a coastal region of interest in Canada. This region is the Cow Bay/Eastern Passage area, south of Dartmouth.

ROI in Orange


Download and Install Plugin

To download and install the SEAT plugin for QGIS, follow the instructions on the page linked below.

https://sandialabs.github.io/seat-qgis-plugin/installation.html

Download Datasets

a) Bathymetry

Download CHS bathymetric grid for ou study area (east coast of Canada). Download as GeoTIFF.

Visit site: https://data.chs-shc.ca/dashboard/map

Login as guest


Select Bathymetric region, for this tutorial the Eastern Passage coast south of Dartmouth.

Select region


Choose GeoTIFF


Click Next to Download


b) Hydrodynamic Data

Download a hydrodynamic model that has depth-averaged or near-bed velocity (u, v), time series covering at least one full tidal cycle, and is a grid or mesh file

c) Seabed Sediment Data

Download seabed sediment data in the form of a seabed classification map.

Preprocess Data

Before preprocessing data we need to define our study area in QGIS. We first need to set our CRS (EPSG:6663)

Create study area polygon

Add new GeoPackage Layer


Toggle to edit layer


Add polygon feature.png


Left click to create area, right click to save


a) Bathymetry

Load bathymetry into QGIS

Layer --> add layer --> add raster layer

Reproject bathymetry

Raster projection.png


Select the set CRS of your study area

Clip bathymetry to study area

Find clip.png


Clip to study area.png


Resample to resolution of 100

Use the raster projection(warp) again to set resolution.

Raster projection.png


Resolution set.png


Apply NoFill to data

Nofill.png


Use value 3x your resolution (300)


b) Hydrodynamic Model Outputs

Import hydrodynamic model outputs

Layer --> add layer --> add raster layer

Select NetCDF and load u_velocity and v_velocity

Reproject velocity layers

Use same method as for bathymetry

Clip velocities to study area

Use same method as for bathymetry

Match grid to bathymetry

Raster --> align raster

Reference layer is bathymetry, align U velocity and V velocity

c) Sediment Layer

Integration into SEAT

Generate Output

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