© OpenStreetMap contributors
- Add External Layer
- Upload Shapefile
- Layer Tutorial
- Close
Use the checkbox () to show or hide a layer.
Use the radio buttons () to select a layer to use with the identify function.
- Layers
- Opacity
Available layers
(ctrl+c)
Search for marine data across UK organisations
- API
- How-To
- About
- Contact MEDIN
- Share
Metadata: 2023-2024, APEM, POSEIDON, North Sea Seabird and Marine Mammal Surveys
Abstract:
This report constitutes the first seasonal (October to December 2023) report outlining results from digital aerial surveys conducted in December 2023 within the Central North Sea under the POSEIDON project and commissioned by Natural England. Surveys were undertaken using APEMâ??s high-resolution camera system to capture digital still imagery of birds and marine megafauna within the Survey Area. The survey was successfully carried out across two days in December 2023 with no safety issues. A total of 2,813 observations were recorded during the survey in December 2023, of which 2,715 were observations of birds and 98 were observations of marine megafauna. APEM will continue to monitor the site for these species and others during the remaining seasonal surveys.
Data holder:
The Crown Estate
Use constraints:
No restrictions to public access
| Other details | ||
| Internal code | Internally assigned metadata identifier | 4487 |
| 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. | 2023-2024, APEM, POSEIDON, North Sea Seabird and Marine Mammal Surveys |
| 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. | 2a4dedeb657b46a763656e935a01f402 |
| Resource Identifier | This is the code assigned by the data owner. | P11683_S01 |
| 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. | dataset |
| Start date | This describes the date the resource starts. This may only be the year if month and day are not known | 2023-12-15 |
| End date | This describes the date the resource ends. This may only be the year if month and day are not known | 2023-12-19 |
| Spatial resolution | This describes the spatial resolution of the dataset or the spatial limitations of the service. | inapplicable |
| 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'. | notPlanned |
| Abstract | The abstract provides a clear and brief statement of the content of the resource. | This report constitutes the first seasonal (October to December 2023) report outlining results from digital aerial surveys conducted in December 2023 within the Central North Sea under the POSEIDON project and commissioned by Natural England. Surveys were undertaken using APEMâ??s high-resolution camera system to capture digital still imagery of birds and marine megafauna within the Survey Area. The survey was successfully carried out across two days in December 2023 with no safety issues. A total of 2,813 observations were recorded during the survey in December 2023, of which 2,715 were observations of birds and 98 were observations of marine megafauna. APEM will continue to monitor the site for these species and others during the remaining seasonal surveys. |
| Lineage | Lineage includes the background information, history of the sources of data, data quality statements and methods. | The survey was conducted using APEMâ??s bespoke camera system, termed â??Shearwater Vâ?, customised by in-house specialists for surveying the offshore environment. The camera system is integrated with custom flight planning software that allows each survey flight line to be accurately mapped before the aircraft leaves the ground. Each image capture node is precisely defined, allowing the system to fire the camera exposures at exactly the right location. This ensures that each survey is flown with the same orientation and the camera is triggered at the same position within set tolerances (Table 1). APEMâ??s flight planning software enables tolerances along survey lines to be set, meaning the camera system would automatically abort data capture should the aircraft drift away from the planned flight line. The process of automatically aborting data capture is called a â??cutoutâ??. Should this occur, the plane is required to revisit and resurvey the affected section of the survey line. APEMâ??s on-board camera technician continually monitored the imagery as it was collected to ensure data collected was fit for purpose. The camera technician would make the decision to cease data collection should conditions become unsuitable for surveying or data collection. Subsequently, the survey would then be resumed at the next earliest opportunity. All completed surveys therefore maintained conditions conducive to successful surveying. Favourable conditions for surveying were defined as: a cloud base (lowest altitude of the visible portion of the cloud) of at least 1,300 ft, according to a geoidal model, to ensure there is no cloud below the planned altitude of the aircraft, visibility of greater than 5 km, wind speed of less than 30 knots, and sea state of 4 (moderate) or less. Naturally, the cloud base may vary in altitude, but aircraft will always fly lower than the lowest cloud level; if the cloud base is lower than the planned aircraft altitude the survey would not take place. Whilst the image footprint and GSD both increase with altitude, the flight plan tolerances and focus of the camera lenses ensures no discernible differences occur within the range of altitudes potentially flown. Wind speed was recorded at the same altitude as the aircraft, whereas sea state was determined from the appearance of the sea surface recorded by the onboard aerial survey technician. The two measures therefore do not necessarily correlate. For safety reasons, no surveying can take place in icing conditions. Data capture comprised digital still images of an average 1.5 cm GSD. Images at each camera are processed at each node, resulting in slight variation in GSD across the swath width. GSD is smaller than 1.5 cm GSD at the nadir and increases with distance from the nadir, resulting in an average GSD of 1.5 cm. Image resolution is therefore clearest at the nadir, although the variation is small. Images were collected in a continuous transect-based design along a single line covered by three overlapping cameras, using a Global Positioning System (GPS) linked, bespoke flight management system to ensure the tracks were flown with a high degree of accuracy. The aircraftâ??s internal GPS and Inertial Motion Unit (IMU) systems record to an accuracy of +/- 3 to 5 m as standard. Flights occurred on the 15th and 19th of December. Take off on the 16th December was delayed due to dangerous activities being planned by the MOD in the survey area (Druridge Bay) between 09:15 and 10:30. On 15h December, three aircraft were used to survey lines 1 to 2 (take off at 10:25, landing at 15:30), 5 to 6 (take off at 10:37, landing at 15:13), and 9 to 12 (take off at 08:43, landing at 12:32), respectively. Before all lines were completed on 15th December, the angle of the sun prevented photos of sufficient quality for analysis being taken. Therefore, on 19th December, two aircraft surveyed lines 3 to 4 (take off at 09:35, landing at 13:50), and 7 to 8 (take off at 09:59, landing at 15:06). The camera system captured abutting imagery along 12 survey flight lines spaced approximately 18 km apart within the Survey Area. The total Survey Area was 42,050 km2. The aircraft collected the data at an altitude of approximately 1,450 ft (440 m) according to the ellipsoid model as recorded by GPS, equivalent to 1,300 ft (395 m) above geoidal mean sea level, and at a speed of approximately 120 knots. Images were collected continuously along the survey flight lines with slight overlap between image nodes. To avoid double-counting due to image overlap, all image footprints are merged into a single file, for which total area is calculated. For analysis purposes each transect should be treated as a single sample, therefore for the current survey design, n=12. A total of 15,903 nodes were initially captured. Of these, 15,809 were used for analysis. The difference reflects nodes removed during clipping to the boundary area. Total coverage was calculated to be 3.55% generated from 15,903 image nodes. A total of 11 nodes were not captured, one node on line 3 and 10 nodes on line 4. Impact on coverage was negligible, with the target coverage of 3% achieved including a redundancy of an additional 0.55%, which is over 10% contingency with respect to the target coverage. Effort data is calculated as the area (km2) per image footprint using trigonometric methods and the pinhole camera model (the mathematical relationship between the coordinates of a point in three-dimensional space, and its projection onto the image plane of an ideal pinhole camera). Effort is dependent on altitude, camera angle and aircraft position (pitch, roll and yaw), accounting for variation both between image nodes and individual cameras at each node. Summing analysed footprints and comparing against entire survey area gives the percentage analysed. Effort values provided in the GPS log reflect the total footprint of each image and do not account for overlap. Therefore, summing these values for a survey would result in an overestimate of effort. The true effort for a given survey is calculated geospatially by creating polygons for each image and removing the overlapping areas. Imagery was captured in raw format and post-processed to ensure optimal quality for the subsequent stage of image analysis, to extract information on marine fauna or other notable occurrences. When a survey was completed, data were checked to ensure the number of lines and the number of images collected was correct, and that the quality of the imagery was acceptable. Once image analysis was completed, further quality assurance (QA) processes took place. Weather conditions during the survey were conducive to collecting and analysing imagery for the purposes of providing data on the identification, distribution, and abundance of bird species and marine fauna within the Survey Area. Whilst high tail and head winds were experienced during the survey, no impact on image capture or quality, or health and safety, were reported. Measures were taken to minimise glint and glare, such as avoiding surveying when the sun angle had the greatest potential to impact image quality. Furthermore, data collected provided coverage of 3.55%, thus exceeding the 3% coverage required, enabling sufficient coverage to be collected should images be affected by glint or glare. |
| Related keywords | ||
| Keyword | General subject area(s) associated with the resource, uses multiple controlled vocabularies | Research |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Bird counts | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Research and Development Activity | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Bird behaviour | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Cetacean abundance | |
| General subject area(s) associated with the resource, uses multiple controlled vocabularies | Cetacean behaviour | |
| 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 #1 | The northern-most limit of the data resource in decimal degrees | 56.5 |
| East #1 | The eastern-most limit of the data resource in decimal degrees | 3 |
| South #1 | The southern-most limit of the data resource in decimal degrees | 55.5 |
| West #1 | The western-most limit of the data resource in decimal degrees | -1 |
| North #2 | The northern-most limit of the data resource in decimal degrees | 55.5 |
| East #2 | The eastern-most limit of the data resource in decimal degrees | 3 |
| South #2 | The southern-most limit of the data resource in decimal degrees | 55 |
| West #2 | The western-most limit of the data resource in decimal degrees | -0.89 |
| Regional sea | Northern North Sea | |
| 39F0 | ||
| 39F1 | ||
| 39F2 | ||
| North Sea | ||
| troposphere | ||
| 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 | APEM Limited | |
| Individual name | Gareth Myers-McCann | |
| Position name | Data Operations Team | |
| dot@apemltd.co.uk | ||
| Role | The originator is the person or organisation who created, collected or produced the resource. | originator |
| Organisation name | APEM Limited | |
| Individual name | Gareth Myers-McCann | |
| Position name | Data Operations Team | |
| dot@apemltd.co.uk | ||
| 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 | The Crown Estate | |
| Delivery point | 1 St James's Market | |
| Postal code | SW1Y 4AH | |
| City | London | |
| Country | United Kingdom | |
| enquiries@thecrownestate.co.uk | ||
| Resource locators | ||
| Locator URL | Web address (URL) that links to the resource | https://www.marinedataexchange.co.uk/details/TCE-3992/summary |
| Web address (URL) that links to the resource | https://www.marinedataexchange.co.uk | |
| Dataset constraints | ||
| 20 Limitations on Public Access - Access constraints | otherRestrictions | |
| 20 Limitations on Public Access - Other constraints | This states any limitations on access to the data and uses free text. | No restrictions to public access |
| 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. | Data is freely available for research or commercial use providing that the originators are acknowledged in any publications produced. |
| Version info | ||
| Date of creation | The date that the resource was created. | 2024-02-21 |
| Harvest date | The date which this record has been (re)harvested from the provider. | 2026-04-19 |
| Metadata date | The date when the content of this metadata record was last updated. | 2024-02-22 |
| 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 | 2.3.8 |
| Metadata parent | P11683 | |