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Metadata: 2009, EMU Ltd., Neart na Gaoithe Offshore Wind Farm, Proposed Offshore Wind Farm and Cable Routes Geophysical Survey
Abstract:
Emu Limited were commissioned by Neart Na Gaoithe Offshore Wind Limited to undertake a geophysical survey of the Neart Na Gaoithe proposed offshore wind farm site and buffer, and two possible cable routes: Torness (including Thorntonloch and Skateraw connections) and Cockenzie. The proposed wind farm is located offshore the east coast of Scotland in the central North Sea, 61 km northeast of Edinburgh. It is situated east of the Firths of Forth and Tay and 13-30 km east of Fife Ness. The following objectives were outlined: 1. To determine accurate depths, giving full coverage across the site and collected to International Hydrographic Organisation (IHO) Order 1 standards; 2. To determine the nature of the seabed sediments; 3. To identify any seabed surface features, such as sandwaves, and potential mobility; 4. To identify any wrecks or surface obstructions; 5. To identify subsurface strata and relate these to existing known geology. The survey area over the proposed wind farm totalled approximately 181 km2. The Torness and Cockenzie routes have approximate lengths of 32 and 54 km respectively. Data collection required the acquisition of swath bathymetry, sidescan sonar, sub-bottom profiling, acoustic ground discrimination system (AGDS), and magnetometer data.
Data holder:
Crown Estate Scotland
Use constraints:
007
| Other details | ||
| Internal code | Internally assigned metadata identifier | 4515 |
| Title | The title is used to provide a brief and precise description of the dataset such as 'Date', 'Originating organisation/programme', 'Location' and 'Type of survey'. All acronyms and abbreviations should be reproduced in full. | 2009, EMU Ltd., Neart na Gaoithe Offshore Wind Farm, Proposed Offshore Wind Farm and Cable Routes Geophysical Survey |
| File Identifier | The File Identifier is a code, preferably a GUID, that is globally unique and remains with the same metadata record even if the record is edited or transferred between portals or tools. | 2f93e111-f3f7-4b9f-80af-a1059afed041 |
| Resource Identifier | This is the code assigned by the data owner. | J-1-02-1447 |
| Resource type | The resource type will likely be a dataset but could also be a series (collection of datasets with a common specification) or a service. | series |
| Start date | This describes the date the resource starts. This may only be the year if month and day are not known | 2009-06-07 |
| End date | This describes the date the resource ends. This may only be the year if month and day are not known | 2009-07-30 |
| Spatial resolution | This describes the spatial resolution of the dataset or the spatial limitations of the service. | 2 |
| Spatial resolution unit | This describes the unit of spatial resolution which for distance must be metres. | http://standards.iso.org/ittf/PubliclyAvailableStandards/ISO_19139_Schemas/resources/uom/gmxUom.xml#m |
| Frequency of updates | This describes the frequency with which the resource is modified or updated i.e. a monitoring programme that samples once per year has a frequency that is described as 'annually'. | continual |
| Abstract | The abstract provides a clear and brief statement of the content of the resource. | Emu Limited were commissioned by Neart Na Gaoithe Offshore Wind Limited to undertake a geophysical survey of the Neart Na Gaoithe proposed offshore wind farm site and buffer, and two possible cable routes: Torness (including Thorntonloch and Skateraw connections) and Cockenzie. The proposed wind farm is located offshore the east coast of Scotland in the central North Sea, 61 km northeast of Edinburgh. It is situated east of the Firths of Forth and Tay and 13-30 km east of Fife Ness. The following objectives were outlined: 1. To determine accurate depths, giving full coverage across the site and collected to International Hydrographic Organisation (IHO) Order 1 standards; 2. To determine the nature of the seabed sediments; 3. To identify any seabed surface features, such as sandwaves, and potential mobility; 4. To identify any wrecks or surface obstructions; 5. To identify subsurface strata and relate these to existing known geology. The survey area over the proposed wind farm totalled approximately 181 km2. The Torness and Cockenzie routes have approximate lengths of 32 and 54 km respectively. Data collection required the acquisition of swath bathymetry, sidescan sonar, sub-bottom profiling, acoustic ground discrimination system (AGDS), and magnetometer data. |
| Lineage | Lineage includes the background information, history of the sources of data, data quality statements and methods. | The following objectives were outlined: 1. To determine accurate depths, giving full coverage across the site and collected to International Hydrographic Organisation (IHO) Order 1 standards; 2. To determine the nature of the seabed sediments; 3. To identify any seabed surface features, such as sandwaves, and potential mobility; 4. To identify any wrecks or surface obstructions; 5. To identify subsurface strata and relate these to existing known geology. The following systems were used to achieve this objectives. 1. Horizontal Positioning: To provide navigation information to on board sensors with an accuracy of better than 0.2 m (Fugro Starfix GPS) or 2 m (DGPS), a Fugro Starfix GPS system receiving Starfix.HP corrections was used as the primary positioning system. This enabled the positioning of seabed information within 0.1 m. An additional Starfix GPS receiver, set to receive Starfix.XP corrections, was used as a secondary horizontal positioning system. A Hemisphere Crescent R120 DGPS system provided RTCM differential corrections for a GPS-derived heading and attitude sensor. Corrections were received from the EGNOS differential network via satellite. 2. Swath Bathymetry: Equipment used: Reson Seabat 8101 multibeam Reson Seabat 7125 multibeam Coda Octopus F180 precision motion and attitude system Valeport Mini-SVP QINSy 8 acquisition, navigation and processing software Leica 1200 GPS system - Logging GPS height data for Post-Processed Kinematic (PPK) tides Reson 7125 and Reson 8101 multibeam echosounders were used. F180 attitude data was fed directly into QINSy for real time bathymetric correction. Both multibeam systems were calibrated for heading, pitch and roll prior to survey with a patch test. The Reson 7125 was used to attain IHO Order 1 swath coverage and density on the main site and the deeper sections of the cable routes. The Reson Seabat 8101 was used to attain IHO Order 1 swath coverage and density on the shallower sections of the cable routes. Sound velocity profiles through the water column were taken at the start and at 8 hourly intervals throughout survey operations. The sound velocity profiles were applied online during data acquisition. Data was processed using QINSy. Relevant corrections and filters were applied including the patch test calibration results, removal of outliers with automatic and manual filtering and post-processing of tidal data. The cleaned data were gridded using a 2 m bin size and exported into a GIS-compatible format. All depths are referenced to Chart Datum (CD) unless otherwise stated. Tidal heights across the surveyed areas ranged from 0.5 to 5.9 m above CD throughout the duration of the survey. The mean sea level at the wind farm site is approximately 3 m above CD. 3. Sidescan Sonar Survey: High (400 kHz) and low (100 kHz) frequency sidescan sonar data was acquired to provide 100% coverage. Equipment used: Edgetech 4200 dual frequency sidescan sonar towfish and transceiver Discover acquisition software SonarWiz processing software Sonardyne Scout USBL positioning system High and low frequency channels were recorded as XTF and JSF. The towfish was positioned by Ultra Short Baseline (USBL), calibrated prior to survey. Sonar data was processed using SonarWiz. Time-varied gain and slant-range corrections were applied to provide a sidescan sonar mosaic. Sediment boundaries were identified and classified using grab sampling and drop-down video. 124 grab samples were analysed using Particle Size Analysis (PSA), and the results used to classify sediment type and feature interpretation for the wind farm site and cable routes. 4. Seismic Survey: Boomer and Pinger data were acquired to provide high and ultra-high resolution seismic data respectively. Equipment used: Applied Acoustics boomer catamaran with 200 J boomer plate Applied Acoustics CSP 1500 J seismic energy source C-Products 8 element hydrophone streamer Sonar Equipment Services Digital Transmitter (Pinger) Coda Octopus DA2000 digital acquisition and processing system Octopus 120 thermal printer Prior to survey the boomer and pinger systems were tested near the survey area to establish optimum, site-specific settings for each system. For the boomer system 100 J power and a trigger interval of 250 ms were selected with a recorded voltage range of ±1.25 V. The boomer catamaran and hydrophone were maintained 30 m astern throughout the survey. This layback was applied during post-processing. For the pole-mounted pinger, a power output of 40 - 100 % was chosen depending on the water depth (lower power values were preferable in shallow water). A frequency of 5 kHz was initially selected although this was reduced to 3.5 kHz in areas where less penetration was achieved at 5 kHz. The recorded digital seismic data sweep time was 200 ms but a display range of 80 ms was maintained for online data QA. Fixes were generated at 50 m intervals and recorded within digital records. All settings and offsets were recorded in online logs. All data were logged digitally (.cod format) in the Coda Octopus DA2000 acquisition and processing system. Post-processing and interpretation were carried out using Coda Octopus GeoSurvey 4.3.0. A combination of band-pass filters were used to remove noise and aid the interpretation. Horizons were interpreted and exported to a database. These were imported into ESRI ArcGIS where the data were contoured and quality checked. The rockhead values were reduced to Chart Datum (CD) by combining bathymetry values with the depth of below seabed. 5. Magnetometer Survey: Magnetometer data was acquired to identify major items of debris, wreck or changes in near surface bedrock. Equipment used: Geometrics G-882 caesium magnetometer MagLog acquisition software Geosoft Oasis Montaj GIS and processing software Sonardyne Scout USBL positioning system Magnetometer data was acquired using a Geometrics G-882 caesium vapour marine magnetometer. The towfish unit housed a total magnetic field sensor and provided absolute readings of total magnetic field in nano-Teslas (nT). The magnetometer was towed approximately 170 m behind the vessel. Cable length was reduced to 100 m within the inshore sections of cable routes. The altitude was maintained between 15 to 30 m above the seabed. The towfish was positioned by Ultra Short Baseline (USBL). Following the survey, post-processing was carried out using Geosoft Oasis Montaj software. The residual magnetic field intensity was calculated by applying a combination of low-pass filters to produce background magnetic intensity for each line. This curve was subtracted from the raw data to give the residual magnetic field intensity. An analytical signal grid was calculated for this residual which represented the square root of the sum of the derivatives in x, y and z directions (magnetic gradient). This was used to identify the edges of magnetic source bodies. Magnetic targets, or anomalies, were calculated from this grid. 6. Acoustic Ground Discrimination System (AGDS) Survey Equipment used: RoxAnn AGDS Knudsen 320M single beam echosounder RoxMap AGDS acquisition software A RoxAnn Acoustic Ground Discrimination System (AGDS) combined with a Knudsen 320M single beam echosounder was used to collect quantitative data to classify the seabed. RoxAnn analysed the primary and secondary (multiple) returns from the transducer to give results for the roughness (E1) and hardness (E2) of the seabed. Data was post-processed using Geosoft Oasis Montaj. Depth data were first processed to remove anomalous results. Seabed classifications were calculated according E1 vs. E2 values. Boundaries between seabed types were compared with the sidescan sonar interpretation. Ground truthing was completed by grab sampling and drop-down video. Particle Size Analysis (PSA) was used to classify the sediment types for the AGDS interpretation. |
| Related keywords | ||
| Keyword | General subject area(s) associated with the resource, uses multiple controlled vocabularies | Agreement for Lease Area |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Offshore Cable Corridor | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Consenting | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Bathymetry and Elevation | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Seismic reflection | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Side-scan sonar | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Magnetic Anomalies | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Seafloor Topography | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Geophysical | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Marine Sediments | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | echo sounder | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Marine Environmental Data and Information Network | |
| Keyword title | MEDIN | |
| Keyword | General subject area(s) associated with the resource, uses multiple controlled vocabularies | Marine Environmental Data and Information Network |
| Keyword title | MEDIN | |
| Geographical coverage | ||
| North | The northern-most limit of the data resource in decimal degrees | 56.3481 |
| East | The eastern-most limit of the data resource in decimal degrees | -2.1356 |
| South | The southern-most limit of the data resource in decimal degrees | 56.1953 |
| West | The western-most limit of the data resource in decimal degrees | -2.3675 |
| Regional sea | Northern North Sea | |
| 41E7 | ||
| North Sea | ||
| Responsible organisations | ||
| Role | The point of contact is person or organisation with responsibility for the creation and maintenance of the metadata for the resource. | pointOfContact |
| Organisation name | Mainstream Renewable Power Limited | |
| Individual name | Data Manager | |
| Delivery point | 11th Floor, 140 London Wall | |
| Postal code | EC2Y 5DN | |
| City | London | |
| info@neartnagaoithe.com | ||
| Role | The originator is the person or organisation who created, collected or produced the resource. | originator |
| Organisation name | Fugro EMU Limited | |
| Individual name | Project Manager | |
| mail@fugroemu.com | ||
| Role | The custodian is the person or organisation that accepts responsibility for the resource and ensures appropriate care and maintenance. If a dataset has been lodged with a Data Archive Centre for maintenance then this organisation is be entered here. | custodian |
| Organisation name | Crown Estate Scotland | |
| Phone | 0131 260 6070 | |
| Delivery point | Quartermile Two, 2nd Floor, 2 Lister Square | |
| Postal code | EH3 9GL | |
| City | Edinburgh | |
| enquiries@crownestatescotland.com | ||
| Resource locators | ||
| Locator URL | Web address (URL) that links to the resource | https://www.marinedataexchange.co.uk/details/CES-246/summary |
| Web address (URL) that links to the resource | https://www.marinedataexchange.co.uk | |
| Dataset constraints | ||
| 20 Limitations on Public Access - Access constraints | restricted | |
| 20 Limitations on Public Access - Other constraints | This states any limitations on access to the data and uses free text. | 007 |
| 21 Conditions for Access and Use - Use limitation | This states any constraints on use of the data. Multiple conditions can be recorded for different parts of the data resource. If no conditions apply, then `No condtions apply` is recorded. This uses free text. | Restricted |
| Available data formats | ||
| Data format | Format in which digital data can be provided for transfer | Database |
| Version info | ||
| Date of publication | The publication date of the resource or if previously unpublished the date that the resource was made publicly available via the MEDIN network. | 2012-01-22 |
| Harvest date | The date which this record has been (re)harvested from the provider. | 2026-04-12 |
| Metadata date | The date when the content of this metadata record was last updated. | 2012-02-21 |
| Metadata standard name | The name of the metadata standard used to create this metadata | MEDIN Discovery metadata standard |
| Metadata standard version | The version of the MEDIN Discovery Metadata Standard used to create the metadata record | 2.3.4 |
| Metadata parent | n/a | |