Assessing the impact of introduced infrastructure at sea with cameras: A case study for spatial scale, time and statistical power

Detecting the effects of introduced artificial structures on the marine environment relies upon research and monitoring programs that can provide baseline data and the necessary statistical power to detect biological and/or ecological change over relevant spatial and temporal scales. Here we report...

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Veröffentlicht in:	Marine environmental research 2019-05, Vol.147, p.126-137
Hauptverfasser:	Bicknell, Anthony W.J., Sheehan, Emma V., Godley, Brendan J., Doherty, Philip D., Witt, Matthew J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Baseline studies Benthos BRUV Cameras Change detection Conservation of Natural Resources Ecosystem Ecosystems Energy Environment Environmental assessment Environmental changes Environmental factors Environmental impact Environmental impact assessment Environmental management Environmental monitoring Fishes Human impact Identification methods Impact assessment Infrastructure Marine energy Marine environment Marine monitoring Offshore structures Polls & surveys Power analysis Remote monitoring Renewable Energy Renewable resources Resource management Statistical power Statistics Survey design Surveying Underwater Wave energy Wave power Weather
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creator	Bicknell, Anthony W.J. Sheehan, Emma V. Godley, Brendan J. Doherty, Philip D. Witt, Matthew J.
description	Detecting the effects of introduced artificial structures on the marine environment relies upon research and monitoring programs that can provide baseline data and the necessary statistical power to detect biological and/or ecological change over relevant spatial and temporal scales. Here we report on, and assess the use of, Baited Remote Underwater Video (BRUV) systems as a technique to monitor diversity, abundance and assemblage composition data to evaluate the effects of marine renewable energy infrastructure on mobile epi-benthic species. The results from our five-year study at a wave energy development facility demonstrate how annual natural variation (time) and survey design (spatial scale and power) are important factors in the ability to robustly detect change in common ecological metrics of benthic and bentho-pelagic ecosystems of the northeast Atlantic. BRUV systems demonstrate their capacity for use in temperate, high energy marine environments, but also how weather, logistical and technical issues require increased sampling effort to ensure statistical power to detect relevant change is achieved. These factors require consideration within environmental impact assessments if such survey methods are to identify and contribute towards the management of potential positive or negative effects on benthic systems. •Annual variation and survey design impact the ability to detect change in ecological metrics.•Redundancy in sampling effort is important to ensure statistical power in environmental impact assessments•Baited underwater video (BRUV) systems demonstrate their capacity for use in temperate, high energy marine environments.
doi_str_mv	10.1016/j.marenvres.2019.04.007
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subjects	Animals Baseline studies Benthos BRUV Cameras Change detection Conservation of Natural Resources Ecosystem Ecosystems Energy Environment Environmental assessment Environmental changes Environmental factors Environmental impact Environmental impact assessment Environmental management Environmental monitoring Fishes Human impact Identification methods Impact assessment Infrastructure Marine energy Marine environment Marine monitoring Offshore structures Polls & surveys Power analysis Remote monitoring Renewable Energy Renewable resources Resource management Statistical power Statistics Survey design Surveying Underwater Wave energy Wave power Weather
title	Assessing the impact of introduced infrastructure at sea with cameras: A case study for spatial scale, time and statistical power
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