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Details of Award

NERC Reference : NE/M005208/1

Testing resilience in Marine Protected Areas using storm disturbance in Lyme Bay, SW England

Grant Award

Principal Investigator:
Professor M Attrill, University of Plymouth, Marine Institute
Science Area:
Marine
Overall Classification:
Marine
ENRIs:
Biodiversity
Environmental Risks and Hazards
Global Change
Natural Resource Management
Science Topics:
Conservation Ecology
Ecosystem Scale Processes
Abstract:
Resilience, namely how an ecosystem can absorb disturbance and how quickly it can recover, is a key component of ecosystem health. Marine Protected Areas (MPAs) are the major tool for marine conservation management to help provide such resilience. It is perceived that MPAs increase the resilience of ecosystems to natural and anthropogenic stressors, for example against the effects of climate change, by having a wider range of organisms within the MPA that can provide the necessary ecosystem functions. In such a system, if one species is lost others will be available to maintain that function. This ecosystem resilience has two aspects: capacity to tolerate disturbance (known as sensitivity or resistance) and ability to rebuild after a disturbance when necessary (recovery). Resistance can be viewed as the ability of an ecosystem to absorb disturbance before changing its structure, while recovery relates to the rate of return to a steady state following perturbation. Although much has been discussed about the resilience value of MPAs and their networks (primarily in the tropics), it is difficult to formally test due to the inherent role of MPAs to protect habitats from disturbance, and the need for extensive pre-disturbance baseline data. A great opportunity has arisen to assess this claim of MPA resilience and test whether resilience increases with MPA age (and thus period of protection). During January and February 2014, a series of storms swept the North Atlantic, generating some of the highest waves ever recorded in Western Europe with exceptionally long wave periods. The south-west coasts of the UK were heavily impacted by these storms, including Lyme Bay, an area which includes the UK's first large MPA designated in 2008 to exclude towed fishing gear from a 206 km2 area in order to protect high-biodiversity reef systems (including species like Pink Sea Fans and Ross Coral that provide habitat for many different species such as young fishes and scallops). Prior to this designation, smaller voluntary closures existed and subsequently in 2012 the MPA was enlarged when it became a Special Area of Conservation. Since 2008 the seabed has been monitored to assess its recovery, providing a unique baseline data set. We therefore have a range of times since protection, plus areas still fished, from which we have a very good understanding of the seabed animals in order to explore how the major natural disturbance caused by the unparalleled storm activity has affected the seabed. Using a towed underwater flying HD video camera along 200 m transects, we will survey 60 sites across four different levels of MPA protection, using locations that have been monitored over the previous 5 years to allow pre-storm comparison. We will analyse the videos for the whole transect to record the number of important functional group indicator organisms present and also a more detailed analysis of 30 frame grabs per transect; indicator species will also be measured to see any change in size over time. From this analysis we will be able to assess the functional diversity of all these sites after the storm damage and compare it with pre-storm surveys, thus assessing whether sites that have been protected longer, and with higher overall diversity, are more resilient to this major natural disturbance. The results will be important for aiding our understanding of how such seabed communities are impacted by natural disturbance, how resilient these communities are and how much difference protection within a MPA makes to boosting this resilience. As this has consequences for marine conservation, management and fisheries policy, the results are of great value for organisations such as Natural England, local Fisheries Associations and conservation charities who are partners in this project.
Period of Award:
4 Apr 2014 - 3 Sep 2014
Value:
£51,502
Authorised funds only
NERC Reference:
NE/M005208/1
Grant Stage:
Completed
Scheme:
Urgency
Grant Status:
Closed
Programme:
Urgent Grant

This grant award has a total value of £51,502  

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FDAB - Financial Details (Award breakdown by headings)

DI - Other CostsIndirect - Indirect CostsDA - InvestigatorsDA - Estate CostsDI - StaffDI - T&SDA - Other Directly Allocated
£9,476£15,643£1,599£3,834£14,359£2,742£3,849

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