110541453Scottish Shelf Model IntegrationEdited by Catarina.100016107generic_information_pageund1537527511153787535700153787535716112- <p>The wider Scottish Shelf Model (SSM) domain covers the whole Scottish Shelf, and beyond, and has a nominal horizontal resolution of 1 km at the coastline. Whilst this resolution is suitable for many applications, there are applications that require higher resolution. This is why a number of sub-models have been developed, which can be nested within the wider SSM. The output from the nested sub-models, at a high spatial resolution, was then integrated with the wider SSM producing a product covering the whole Scottish Shelf with exceptionally high resolution along most of the coastline.</p>
<p>The fully integrated sub-models were forced along their open boundary with detailed output from the SSM climatological run (water elevation, horizontal velocities, temperature and salinity). This one way nesting approach ensured that the sub-models were stable and produce realistic results close to their open boundaries that are in agreement with the wider SSM. This level of agreement between the models enabled the climatological outputs to be combined into a single output grid with an exceptionally high resolution.</p>
<p>To date the most commonly used integrated variables are the velocity fields for particle tracking applications. The integrated output allows particle tracking simulations beyond the boundaries of individual fine resolution models, while taking advantage of the finer resolution outputs in the areas where those are available. <strong>The latest version is 2.02 </strong>incorporating the latest climatological outputs from the wider SSM and four sub-models.</p>
filtered_html<p>The wider Scottish Shelf Model (SSM) domain covers the whole Scottish Shelf, and beyond, and has a nominal horizontal resolution of 1 km at the coastline. Whilst this resolution is suitable for many applications, there are applications that require higher resolution. This is why a number of sub-models have been developed, which can be nested within the wider SSM. The output from the nested sub-models, at a high spatial resolution, was then integrated with the wider SSM producing a product covering the whole Scottish Shelf with exceptionally high resolution along most of the coastline.</p>
<p>The fully integrated sub-models were forced along their open boundary with detailed output from the SSM climatological run (water elevation, horizontal velocities, temperature and salinity). This one way nesting approach ensured that the sub-models were stable and produce realistic results close to their open boundaries that are in agreement with the wider SSM. This level of agreement between the models enabled the climatological outputs to be combined into a single output grid with an exceptionally high resolution.</p>
<p>To date the most commonly used integrated variables are the velocity fields for particle tracking applications. The integrated output allows particle tracking simulations beyond the boundaries of individual fine resolution models, while taking advantage of the finer resolution outputs in the areas where those are available. <strong>The latest version is 2.02 </strong>incorporating the latest climatological outputs from the wider SSM and four sub-models.</p>
- 35096453SSM wider and integrated gridspublic://ssm_compare_skye_transparent.pngimage/png18568811537531962image
- Residual current on the wider SSM and integrated gridsResidual current on the wider SSM and integrated grids
- Residual currents taken from the wider SSM (left) and integrated (right) grids for the region surrounding Skye, showing the higher horizontal resolution of the integrated grid.Residual currents taken from the wider SSM (left) and integrated (right) grids for the region surrounding Skye, showing the higher horizontal resolution of the integrated grid.
<_drafty_revision_requested>FIELD_LOAD_CURRENT1Residual currents taken from the wider SSM (left) and integrated (right) grids for the region surrounding Skye, showing the higher horizontal resolution of the integrated grid.Residual current on the wider SSM and integrated grids571800571800 - 13795
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- <table border="1" cellspacing="1" cellpadding="1">
<thead>
<tr>
<th style="width:15%" scope="col">Version Number</th>
<th style="width:15%" scope="col">Time Period</th>
<th style="width:35%" scope="col">Description</th>
<th style="width:35%" scope="col">Main Integrated Fields</th>
</tr>
</thead>
<tbody>
<tr>
<td>1.01</td>
<td>1 year climatology representing 1960-2004</td>
<td>
<p>The original integrated grid combining the wider SSM 1.01 with four sub-models. There are 10 terrain following sigma layers. The ECLH 1.01 only has 6 months output (May – October) so this integrated grid has two forms, with and without the ELCH 1.01 model incorporated:</p>
<ul>
<li>Jan – Apr and Nov – Dec combines SSM 1.01 with PFOW 1.01, WLLS 1.01 and SMB 1.01.</li>
<li>May – Oct combines SSM 1.01 with PFOW 1.01, WLLS 1.01, SMB 1.01 and ECLH 1.01.</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
</ul>
</td>
</tr>
<tr>
<td>2.01</td>
<td>1 year climatology representing 1990-2014</td>
<td>
<p>Combined output (on the original integrated grid) from updated model runs including:</p>
<ul>
<li>The wider SSM 2.01</li>
<li>PFOW 1.02</li>
<li>SMB 1.02</li>
<li>WLLS 1.02</li>
<li>ECLH 1.02</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
<li>Upward Water Velocity, ww.</li>
</ul>
</td>
</tr>
<tr>
<td>2.02</td>
<td>1 year climatology representing 1990-2014</td>
<td>
<p>Combined output (on the original integrated grid), including temperature and salinity, from updated model runs including:</p>
<ul>
<li>The wider SSM 2.01</li>
<li>PFOW 1.02</li>
<li>SMB 1.02</li>
<li>WLLS 1.02</li>
<li>ECLH 1.02</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
<li>Upward Water Velocity, ww.</li>
<li>Temperature, temp.</li>
<li>Salinity, salinity.</li>
</ul>
</td>
</tr>
</tbody>
</table>
full_html<table border="1" cellspacing="1" cellpadding="1">
<thead>
<tr>
<th style="width:15%" scope="col">Version Number</th>
<th style="width:15%" scope="col">Time Period</th>
<th style="width:35%" scope="col">Description</th>
<th style="width:35%" scope="col">Main Integrated Fields</th>
</tr>
</thead>
<tbody>
<tr>
<td>1.01</td>
<td>1 year climatology representing 1960-2004</td>
<td>
<p>The original integrated grid combining the wider SSM 1.01 with four sub-models. There are 10 terrain following sigma layers. The ECLH 1.01 only has 6 months output (May – October) so this integrated grid has two forms, with and without the ELCH 1.01 model incorporated:</p>
<ul>
<li>Jan – Apr and Nov – Dec combines SSM 1.01 with PFOW 1.01, WLLS 1.01 and SMB 1.01.</li>
<li>May – Oct combines SSM 1.01 with PFOW 1.01, WLLS 1.01, SMB 1.01 and ECLH 1.01.</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
</ul>
</td>
</tr>
<tr>
<td>2.01</td>
<td>1 year climatology representing 1990-2014</td>
<td>
<p>Combined output (on the original integrated grid) from updated model runs including:</p>
<ul>
<li>The wider SSM 2.01</li>
<li>PFOW 1.02</li>
<li>SMB 1.02</li>
<li>WLLS 1.02</li>
<li>ECLH 1.02</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
<li>Upward Water Velocity, ww.</li>
</ul>
</td>
</tr>
<tr>
<td>2.02</td>
<td>1 year climatology representing 1990-2014</td>
<td>
<p>Combined output (on the original integrated grid), including temperature and salinity, from updated model runs including:</p>
<ul>
<li>The wider SSM 2.01</li>
<li>PFOW 1.02</li>
<li>SMB 1.02</li>
<li>WLLS 1.02</li>
<li>ECLH 1.02</li>
</ul>
</td>
<td>
<ul>
<li>Water surface elevation, zeta.</li>
<li>Depth average horizontal velocity fields, ua and va.</li>
<li>Full water column velocity fields, u and v.</li>
<li>Vertical Sigma Coordinate Velocity, omega.</li>
<li>Turbulent Eddy Viscosity For Momentum, km.</li>
<li>Upward Water Velocity, ww.</li>
<li>Temperature, temp.</li>
<li>Salinity, salinity.</li>
</ul>
</td>
</tr>
</tbody>
</table>
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xsd:dateTimedate_iso8601https://marine.gov.scot/?q=information/scottish-shelf-model-integrationrory0a:6:{s:16:"ckeditor_default";s:1:"t";s:20:"ckeditor_show_toggle";s:1:"t";s:14:"ckeditor_width";s:4:"100%";s:13:"ckeditor_lang";s:2:"en";s:18:"ckeditor_auto_lang";s:1:"t";s:7:"overlay";i:1;}9925411054116107draftpublished16112153787535711Scottish Shelf Model Integration15378753579925411054116107draftpublished16112153787535711Scottish Shelf Model Integration15378753579925411054116107draftpublished16112153787535711Scottish Shelf Model Integration1537875357