Raeanne Miller scite author profile

Summary1. Offshore renewable energy provides an increasing component of our electricity supply. We have limited understanding of the potential environmental impacts of these developments, particularly in the move to larger scales. Surfaces provided by devices offer novel habitat to marine organisms, which may allow species to spread to new areas. 2. We used coupled biological and hydrodynamic models to investigate the spread of intertidal marine organisms with pelagic larvae (such as barnacles or gastropods) in the region around south-western Scotland. We assessed the impact of novel habitat on dispersal and its role in allowing transgression of physical barriers. 3. Model renewable energy device sites provided habitat for pelagic larval particles that would otherwise have been lost offshore. They also provided a source of larvae for existing coastal sites. 4. Many offshore devices fulfilled source and destination (or intermediate connection) roles, creating new dispersal pathways, and allowing previously impossible northward dispersal from the Northern Irish coast to Scotland. 5. Synthesis and applications. New habitat close to biogeographical barriers has implications for existing species' distributions and genetic population structure. It also affects the spread of non-native species and 'climate migrants'. Monitoring these sites for the presence of such species will be important in determining the future ecology of coastal habitat and in maintaining economic aquaculture and marina operations. Future model studies should focus on particular species of importance, taking account of their biology and current distribution.

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Marine renewable energy development: assessing the Benthic Footprint at multiple scales

Miller

Hutchison

Macleod

et al. 2013

Frontiers in Ecol & Environ

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Increasing concerns over global climate change and sustainable fuel procurement are driving the search for new ways to derive energy from the seas. Globally, the offshore wind energy sector has progressed rapidly, and wave and tidal‐current energy converters are now approaching deployment at commercial scales. To date, most studies of the ecological effects of marine renewable energy development have concentrated on birds and marine mammals. Here, we focus on the consequences for benthic flora and fauna, and for benthic habitats across a variety of scales. We use a “Benthic Footprint” concept to discuss the potential for species‐specific environmental responses, and to consider the poorly understood cumulative effects of wind, wave, and tidal‐current energy operations on marine ecosystems. Collaborations between ecologists, industry specialists, and government bodies, as well as better designs for devices, arrays, and developments consisting of multiple arrays, can contribute to the goal of reducing the Benthic Footprint of marine renewable energy, thereby facilitating large‐scale implementation of these technologies.

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Challenges and opportunities in monitoring the impacts of tidal-stream energy devices on marine vertebrates

Fox

Benjamins

Masden

et al. 2018

Renewable and Sustainable Energy Reviews

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Setting an agenda for biofouling research for the marine renewable energy industry

Loxton

Macleod

Nall

et al. 2017

International Journal of Marine Energy

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Abstract:Extensive marine growth on man-made structures in the ocean is commonplace, yet there has been limited discussion about the potential implications of marine growth for the wave and tidal energy industry. In response, the Environmental Interactions of Marine Renewables (EIMR) Biofouling Expert Workshop was convened. Discussions involved participants from the marine renewable energy (MRE) industry, anti-fouling industry, academic institutions and regulatory bodies. The workshop aimed to consider both the benefits and negative effects of biofouling from engineering and ecological perspectives. In order to form an agenda for future research in the area of biofouling and the marine renewable energy industry, 119 topics were generated, categorised and prioritised. Identified areas for future focus fell within four overarching categories: operation and maintenance; structured design and engineering; ecology; and knowledge exchange. It is clear that understanding and minimising biofouling impacts on MRE infrastructure will be vital to the successful development of a reliable and cost effective MRE industry.

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Societal, policy and academic ‘visions’ for the future of the marine environment and its management, exemplified in the Northern and Western Isles of Scotland.

Billing¹,

Tett²,

Brennan³

et al. 2018

Preprint

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Abstract:Interactions between environmental and social change are complex and require deep insights into human perceptions, values, motivations and choices. Humanities disciplines can bring these insights to the study of marine social-ecological systems in the context of global environmental challenges. Such systems can be defined on a range of scales, but the cases most easily studied include those of small islands and their communities. This paper presents findings from three studies in the Western and Northern isles of Scotland, concentrating on some of the processes involved in social sustainability that contribute on the one hand to protecting what a community has, and on the other hand allowing a community to evolve so as to adapt to new conditions. It relates the several sorts of transformations involved, to the role and impact of external institutions such as those of governance of the natural environment, the energy market, and academic research, which together make up the environment of the transformation. By examining the world-views of different groups of actors, this paper illustrates that an understanding of the mental constructs underlying these world-views can help marine governance through integrating different ways of knowing. This paper identifies where it would be useful to employ a transdisciplinary 'translator' or a 'space' for dialogue in order to capture the diverse 'visions' and perceptions that these groups have in relation to management of the marine environment, where there are synergies and where more should to be done to negotiate between competing values and needs. It illustrates the practical contributions to operational policy that can emerge through challenging the dominant management discourses for the marine environment.

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Raeanne Miller

Offshore marine renewable energy devices as stepping stones across biogeographical boundaries

Marine renewable energy development: assessing the Benthic Footprint at multiple scales

Challenges and opportunities in monitoring the impacts of tidal-stream energy devices on marine vertebrates

Setting an agenda for biofouling research for the marine renewable energy industry

Societal, policy and academic ‘visions’ for the future of the marine environment and its management, exemplified in the Northern and Western Isles of Scotland.

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