Details of Award

NERC Reference : NE/T010800/1

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Functionality and Ecological Connectivity of Man-Made Structures (FuECoMMS)

Grant Award

Principal Investigator:: Dr N Hicks, University of Essex, Life Sciences
Co-Investigator:: Dr R Parker, Centre for Env Fisheries Aqua Sci CEFAS, CEFAS Lowestoft Laboratory
Co-Investigator:: Dr BA McKew, University of Essex, Life Sciences
Co-Investigator:: Professor JA Howe, Scottish Association For Marine Science, Dunstaffnage Marine Laboratory
Co-Investigator:: Professor W Austin, University of St Andrews, Geography and Sustainable Development
Co-Investigator:: Dr TA Wilding, University of the Highlands and Islands, Scottish Assoc for Marine Science UHI
Co-Investigator:: Dr CP Lynam, Centre for Env Fisheries Aqua Sci CEFAS, CEFAS Lowestoft Laboratory
Co-Investigator:: Dr E O'Gorman, University of Essex, Life Sciences
Co-Investigator:: Dr C R Garcia, Centre for Env Fisheries Aqua Sci CEFAS, CEFAS Lowestoft Laboratory
Co-Investigator:: Dr C Whitby, University of Essex, Life Sciences
Co-Investigator:: Dr C Fox, University of the Highlands and Islands, Scottish Assoc for Marine Science UHI
Co-Investigator:: Professor D Paterson, University of St Andrews, Biology
Grant held at:: University of Essex, Life Sciences

Science Area:: Marine
Overall Classification:: Unknown

Science Classification details

ENRIs:: Biodiversity; Environmental Risks and Hazards; Natural Resource Management; Pollution and Waste
Science Topics:: Nutrient cycling; Environmental Microbiology; Biodiversity; Carbon cycling; Isotopic analysis; Marine sediments; Microbial communities; Nitrogen cycling; Biogeochemical Cycles; Biogeochemical cycles; Ecosystem function; Ecosystem services; Ecosystem Scale Processes; Ammonia oxidising bacteria; Carbon cycling; Carbon sequestration; DNA sequencing; Microbial biodiversity; Microbial communities

Abstract:: With the increasing amount of energy-related infrastructure (oil and gas platforms, wind turbines, cables) installed in the North Sea, there is a need to understand the role these man-made structures (MMS) play in the marine ecosystem. Current decommissioning regulations prohibit leaving installations in place in any form, which means complete removal when no longer in production. However, there are significant knowledge gaps on the effect these MMS have on marine ecosystem function. Central to our understanding of MMS on the ecology of the North Sea, is having a better understanding of the background (baseline or equilibrium position) against which changes in ecosystem processes can be assessed. A few recent studies have identified the role of MMS as artificial reef structures, yet little research has examined the effect of MMS on the largest surrounding habitat - the seabed, its associated biodiversity, and the ecosystem services it provides. Shelf sediments, such as those found in the North Sea, are dominated by sandy permeable sediments, and recent research under the NERC Shelf Seas Biogeochemistry programme established that a significant proportion of 'blue carbon' is held in such shelf sediments. These sediments provide a variety of ecosystem services, from biogeochemical cycling of nutrients, carbon and oxygen; biodiversity (macrofauna, microbial); contaminant deposition; habitat provision; and production of inorganic nutrients to support surface water productivity, underpinning marine food webs and commercial fisheries. The presence and installation of MMS provides protection of the seabed from other human activities, such as trawling and dredging, protecting the seabed from physical disturbance and effectively providing an unofficial 'Marine Protected Area' (MPA). The hydrocarbon extraction activity at MMS influences local biodiversity, particularly changing benthic microbial diversity as a response to the presence and concentration of associated contaminants, and these microorganisms play a vital role in degrading the hydrocarbons within the sediments. Whilst the stability of these sediments and their ability to sequester carbon is uncertain, the decommissioning and physical removal of MMS is likely to disrupt these long term carbon stores, and impact on benthic ecosystem processes. Complete removal of MMS, following current Oslo-Paris (OSPAR) regulations could impact on the hydrodynamics and nutrient cycling at a local scale, negatively affecting biodiversity, carbon sequestration, and ecosystem processes in surrounding sediments. Furthermore, the shelf sediments may be exposed to additional hydrocarbon contaminants either via oil seeps/pipeline leaks or resuspension of oily drill cuttings, and their eventual disturbance and wider impact is relatively unknown. The presence and subsequent removal of MMS will therefore not only likely affect the sediment biogeochemistry but also the marine biodiversity and ecosystem function. This project addresses this knowledge gap through novel technologies (Autonomous Underwater Vehicles) and environmental DNA 'eDNA', with modelling of environmental data alongside data from industry (INSITE Interactive and our industry partners) to identify the role of MMS on key marine ecosystem processes. We have a strong team of project partners from industry (Shell, Repsol, INEOS, DNV-GL) and stakeholders (Shetland Oil Terminal Advisory Group, SOTEAG; National Subsea Research Initiative, NSRI). This project has significant support from industry and stakeholders, and a Stakeholder Advisory Group will be established to make full use of this. Recent news reports on UK decommissioning decisions have drawn attention other European oil nations on what is environmentally acceptable, thus the outputs of this project are expected to have international interest and direct policy relevance for future decommissioning.

Period of Award:: 12 Aug 2020 - 31 Oct 2024
Value:: £847,607

(FY details)

Authorised funds only

NERC Reference:: NE/T010800/1
Grant Stage:: Awaiting Completion
Scheme:: Directed (Research Programmes)
Grant Status:: Active
Programme:: INSITE Phase 2

This grant award has a total value of £847,607

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DA - Estate Costs	DI - Staff	DA - Other Directly Allocated	DI - T&S
£346,516	£198,647	£61,826	£39,441	£169,309	£9,257	£22,611

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