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Open Journal of Marine Science

Open Journal of Marine Science

Open Journal of Marine Science

ISSN Print: 2161-7384
ISSN Online: 2161-7392
www.scirp.org/journal/ojms
E-mail: ojms@scirp.org
"Offshore Wind Power for Marine Conservation"
written by Linus Hammar, Diana Perry, Martin Gullström,
published by Open Journal of Marine Science, Vol.6 No.1, 2016
has been cited by the following article(s):
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  • CrossRef
[1] Ecological impacts of the expansion of offshore wind farms on trophic level species of marine food chain
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[2] Co-location of fisheries and offshore wind farms: Current practices and enabling conditions in the North Sea
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[3] A framework for studying the effects of offshore wind energy development on birds and bats in the Eastern United States
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[4] Site selection within the maritime spatial planning: Insights from use-cases on aquaculture, offshore wind energy and aggregates extraction
Penin… - Ocean & Coastal …, 2024
[5] Tracking aquatic animals for fisheries management in European waters
Fisheries …, 2024
[6] Defining operational objectives for nature-inclusive marine infrastructure to achieve system-scale impact
Frontiers in Marine Science, 2024
[7] 生物多様性および生態系サービスに及ぼす風力発電の影響
日本生態学会誌, 2024
[8] Frequency-Specific Responses: The Impact of an Acoustic Stimulus on Behavioral and Physiological Indices in Large Yellow Croaker
Fishes, 2024
[9] Scenarios for offshore wind co-existence opportunities and trade-offs
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[10] Mapping Renewable Energy Technologies (Solar, Wind and Geothermal) to the United Nations' Sustainable Development Goals (SDGs) to Reveal and Quantify …
Available at SSRN 4842618, 2024
[11] Global carbon footprint assessment of floating wind energy
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[12] Upscaling Nature-based Solutions for Offshore Wind: headwind or tailwind?
2024
[13] Environmental DNA monitoring of fish communities at the Hywind Tampen floating offshore wind farm
2024
[14] Ameaças da mineração de carbonaros marinhos e da energia eólica “offshore” na biodiversidade marinha: um ponto crítico para a economia azul
2023
[15] Collaborative Governance for Adaptation to Multi-Risk in the Dutch North Sea
2023
[16] Exploring the Compatibility of Offshore Wind Farms and Marine Protected Areas in the Scotian Shelf-Bay of Fundy Bioregion: A Case Study of Canso and Middle …
2023
[17] Effekter av havsbaserad vindkraft på fisk
2023
[18] A synthesis review of nature positive approaches and coexistence in the offshore wind industry
2023
[19] Floating offshore wind farms in Mediterranean marine protected areas: a cautionary tale
ICES Journal of …, 2023
[20] Northern Europe's suitability for offshore European flat oyster (Ostrea edulis) habitat restoration based on population dynamics
Frontiers in Marine …, 2023
[21] An integrated conceptual model to characterize the effects of offshore wind farms on ecosystem services
Ecosystem Services, 2023
[22] Effekter av havsbaserad vindkraft på marint liv: En syntesrapport om kunskapsläget 2021
2022
[23] Ekologiskt hållbar vindkrafti Östersjön: Slutrapport för projekt Marin MedVind–Underlag för storskalig hållbar vindkraft till havs
2022
[24] The potential compatibility of designating offshore wind farms within wider marine protected areas—conservation of the Chinese white dolphin regarding …
Fishes, 2022
[25] Developing a conceptual framework for adopting renewable energy in the domestic urban environment in the UK
PQDT-Global, 2022
[26] Balancing profitability of energy production, societal impacts and biodiversity in offshore wind farm design
… and Sustainable Energy …, 2022
[27] Environmental impact assessment framework for offshore wind energy developments based on the marine Good Environmental Status
Penin, R Haroun - … Impact Assessment Review, 2022
[28] Key technologies and applications of agricultural energy internet for agricultural planting and fisheries industry
Information Processing in Agriculture, 2022
[29] Windfarms, fishing and benthic recovery: Overlaps, risks and opportunities
Marine Policy, 2022
[30] Unravelling the ecological impacts of large-scale offshore wind farms in the Mediterranean Sea
Science of the Total …, 2022
[31] Decommissioning of Offshore Platforms in Adriatic Sea: The Total Removal Option from a Life Cycle Assessment Perspective
Energies, 2022
[32] Wind Turbine Noise Behaviorally and Physiologically Changes Male Frogs
Biology, 2022
[33] The Potential Compatibility of Designating Offshore Wind Farms within Wider Marine Protected Areas—Conservation of the Chinese White Dolphin Regarding Fishers' …
Fishes, 2022
[34] Effects of operational off-shore wind farms on fishes and fisheries. Review report
Erquiaga, E Savina, 2022
[35] Ecosystem benefits of floating offshore wind
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[36] Mitigating biodiversity impacts associated with solar and wind energy development. Synthesis and key messages
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[37] Dispersal modelling of the early life stages of flatfish in the Anthropocene
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[38] A GIS-based approach for the evaluation of the land-use impact of future energy scenarios in South Africa for 2050
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[39] Spatial and temporal analysis of cumulative environmental effects of offshore wind farms in the North Sea basin
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[40] Introducing offshore wind energy in the sea space: Canary Islands case study developed under Maritime Spatial Planning principles
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[41] Potential environmental effects of deepwater floating offshore wind energy facilities
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[42] Mitigar los impactos de los proyectos de energía solar y eólica sobre la biodiversidad
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[43] PM Kompletteringar marinbiologi, Skandiaporten
MARINE MONITORING AB, 2021
[44] A Review of Biodiversity Data Needs and Monitoring Protocols for the Offshore Wind Energy Sector in the Baltic Sea and North Sea
Renewables Grid Initiative: Berlin, Germany, 2021
[45] Analisi degli impatti legati alle operazioni di decommissioning delle piattaforme O&G offshore
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[46] Havsbaserad vindkraft-beskrivning av samhällsnytta: Uppdragsforskningsrapport
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[47] Using artificial-reef knowledge to enhance the ecological function of offshore wind turbine foundations: implications for fish abundance and diversity
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[48] The Development and Tendency of Current Off-Shore Wind Power Plant All over the World
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[49] Deliverable 6.2 FINAL SYNTHESIS REPORT
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[50] A spatial food web model to investigate potential spillover effects of a fishery closure in an offshore wind farm
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[51] Sarah J. Nancollas & Simon J. Pittman
Environ Monit Assess, 2020
[52] PelagiCam: a novel underwater imaging system with computer vision for semi-automated monitoring of mobile marine fauna at offshore structures
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[53] The externalities of energy production in the context of development of clean energy generation
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[54] Filling the data gap–A pressing need for advancing MPA sustainable finance
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[55] Retrospective and Outlook for an Environmentally Sound Development of Offshore Wind Energy
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[56] How larval traits of six flatfish species impact connectivity
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[57] Closing marine governance gaps? Sweden's marine spatial planning, the ecosystem approach to management and stakeholders' views
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[58] Implications of 'other effective area-based conservation measures' for marine conservation
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[59] Filling the data gap-a pressing need for advancing MPA sustainable finance
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[60] Exploitation of Offshore Wind Energy
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[61] AMBEMAR-DSS: A Decision Support System for the Environmental Impact Assessment of Marine Renewable Energies
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[62] The global casino: an introduction to environmental issues
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[63] Effekter av bottentrålning på ekosystemtjänster i svenska hav
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[64] Introducing ocean energy industries to a busy marine environment
Renewable and Sustainable Energy Reviews, 2017
[65] ENERGY AND LAND USE
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[66] Risk Management in Offshore Construction
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[67] From fish biodiversity indicators to spatial risk assessments: Towards the integration of Blue Growth and conservation objectives in the German Bight
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[68] Sustainable energy options and implications for land use
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[69] 13. Geography of marine renewable energy technologies
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[70] Geography of marine renewable energy technologies
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[71] Short-term effects of fishery exclusion in offshore wind farms on macrofaunal communities in the Belgian part of the North Sea
Fisheries Research, 2016
[72] Offshore renewable energy and nature conservation: the case of marine tidal turbines in Northern Ireland
Biodiversity and Conservation, 2016
[73] Maritime Spatial Planning in Europe Discussion Paper on the Challenges and Potential Opportunities Around the Colocation of Offshore Wind Energy with …
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