Barriers to Movement: Modelling Energetic Costs of Avoiding Marine Wind Farms Amongst Breeding Seabirds
Overview
Environmental Health
Affiliations
Proposals for wind farms in areas of known importance for breeding seabirds highlight the need to understand the impacts of these structures. Using an energetic modelling approach, we examine the effects of wind farms as barriers to movement on seabirds of differing morphology. Additional costs, expressed in relation to typical daily energetic expenditures, were highest per unit flight for seabirds with high wing loadings, such as cormorants. Taking species-specific differences into account, costs were relatively higher in terns, due to the high daily frequency of foraging flights. For all species, costs of extra flight to avoid a wind farm appear much less than those imposed by low food abundance or adverse weather, although such costs will be additive to these. We conclude that adopting a species-specific approach is essential when assessing the impacts of wind farms on breeding seabird populations, to fully anticipate the effects of avoidance flights.
Endangered Black-faced Spoonbills alter migration across the Yellow Sea due to offshore wind farms.
Lai Y, Choi C, Lee K, Kwon I, Lin C, Gibson L Ecology. 2024; 106(1):e4485.
PMID: 39604060 PMC: 11733854. DOI: 10.1002/ecy.4485.
Regan C, Bogdanova M, Newell M, Gunn C, Wanless S, Harris M Mov Ecol. 2024; 12(1):46.
PMID: 38872225 PMC: 11177427. DOI: 10.1186/s40462-024-00467-9.
A framework to unlock marine bird energetics.
Dunn R, Duckworth J, Green J J Exp Biol. 2023; 226(24).
PMID: 37990955 PMC: 10753490. DOI: 10.1242/jeb.246754.
Determining energy expenditure in a large seabird using accelerometry.
Sutton G, Angel L, Speakman J, Arnould J J Exp Biol. 2023; 226(23).
PMID: 37947172 PMC: 10714144. DOI: 10.1242/jeb.246922.
Context-dependent variability in the predicted daily energetic costs of disturbance for blue whales.
Pirotta E, Booth C, Cade D, Calambokidis J, Costa D, Fahlbusch J Conserv Physiol. 2021; 9(1):coaa137.
PMID: 33505702 PMC: 7816799. DOI: 10.1093/conphys/coaa137.