References

• Author: Directorate-General for Environment (European Commission)
• Pages: 134-151

134 Guidance on Wind Energy Developments and EU Nature Legislation

8. REFERENCES

ACCOBAMS (2019) Methodological Guide: Guidance on Underwater Noise Mitigation Measures,

ACCOBAMS, Istanbul. Available at: https://accobams.org/wp-

content/uploads/2019/04/MOP7.Doc31Rev1_Methodological-Guide-Noise.pdf

ACCOBAMS (2007) Guidelines to Address the Issue of the Impact of Anthropogenic Noise on Cetaceans in

the ACCOBAMS Area. Available at: https://www.accobams.org/wp-

content/uploads/2018/09/GL_impact_anthropogenic_noise.pdf

Agnew R., Smith V & Fowkes R., Wind turbines cause chronic stress in badgers (Meles meles) in Great

Britain; J. of Wildlife Diseases, 52(3):459-467 (2016). https://doi.org/10.7589/2015-09-231;

https://bioone.org/journals/Journal-of-Wildlife-Diseases/volume-52/issue-3/2015-09-231/WIND-TURBINES-

CAUSE-CHRONIC-STRESS-IN-BADGERS-MELES-MELES-IN/10.7589/2015-09-231.short

Akerboom, S.; Backes, C.W.; Anker, Helle Tegner; McGillivray, Donald; Schoukens, Hendrik; Köck,

Wolfgang; Cliquet, An; Auer, Julia; Bovet, Jana; Cavallin, Elissa; Mathews, F. (2018). A com parison into the

application of the EU species protection regulation with respect to renewable energy projects in the

Netherlands, United Kingdom, Belgium, Denmark and Germany. Report comm issioned by the Dutch

ministries of Economic Affairs and Climate and Agriculture, Nature and Food Quality

Amorim, Francisco & Rebelo, Hugo & Rodrigues, Luisa. (2012). Factors Influencing Bat Activity and Mortality

at a Wind Farm in the Mediterranean Region. Acta Chiropterologica. 14. 439-457.

10.3161/150811012X661756.

Apoznaski, Grzegorz & Kokurewicz, Tomasz & Pettersson, Stefan & Sánchez-Navarro, Sonia & Rydell,

Jens. (2017). Movements of barbastelle bats at a wind farm.

Arcadis, 2011. Technical assessment of the potential impact of the construction and exploitation of wind

farms in North Dobrogea (Romania) (non published report for EC)

Armstrong, A., Burton, R.R., Lee, S.E., Mobbs, S., Ostle, N., Smith, V., W aldron, S. & Whitaker, J., (2016).

Ground-level climate at a peatland wind farm in Scotland is affected by wind turbine operation.

Environmental Research Letters. [e-journal] 11 044024. https://doi.org/10.1088/1748-9326/11/4/044024

Arnett, E. B. (2017). Mitigating bat collision. In Wildlife and Wind Farms, Conflicts and Solutions, Volume 2,

Onshore: Monitoring and Mitigation, edited by M. Perrow, 167-184. Exeter, UK: Pelagic Publishing.

Arnett, E.B. and Baerwald, E.F. (2013). Impacts of wind energy development on bats: implications for

conservation. Pp. 435–456in Bat evolution, ecology, and conservation (R. A. Adams and S.C. Pedersen,

eds.). Springer Science+Business Media, New York.

Arnett, E.B. et al. (2016). Impacts of wind energy development on bats: a global perspective. Pp. 295–323 in

Bats in the anthropo-cene: conservation of bats in a changing world (C. C. Voigt and T. Kingston, eds.).

Springer International Publishing, Springer Cham, Switzerland.

Atienza, J.C., Martín Fierro I., Infante, O., Valls, J., & Dominguez, J., (2014). Guidelines for Assessing the

Impact of Wind Farms on Birds and Bats (Version 4.0). [pdf] SEO/Birdlife. Available at:

https://www.seo.org/wp-

content/uploads/2014/10/Guidelines_for_Assessing_the_Impact_of_Wind_Farms_on_Birds_and_Bats.pdf

Bailey, Helen & Brookes, Kate & Thompson, Paul. (2014). Assessing Environmental Impacts of Offshore

Wind Farms: Lessons Learned and Recommendations for the Future. Aquatic biosystems. 10. 8.

10.1186/2046-9063-10-8.

Band, W. (2012). Using a collision risk model to assess bird collision risks for offshore wind farms. Report to

The Crown Estate Strategic Ornithological Support Services (SOSS), SOSS02.

http://www.bto.org/science/wetland-and-marine/soss/projects

Guidance on Wind Energy Developments and EU Nature Legislation 135

Apoznaski, Grzegorz & Kokurewicz, Tomasz & Pettersson, Stefan & Sánchez

Band, W., Madders, M., & Whitfield, D.P. (2007). Developing field and analytical m ethods to assess avian

collision risk at wind farms. In: de Lucas, M., Janss, G.F.E. & Ferrer, M. (eds.) Birds and Wind farms: Risk

Assessment and Mitigation, pp. 259-275. Quercus, Madrid

Barclay, R.M.R., Baerwald, E.F. & Rydell, J. (2017). Bats. Chapter 9 in W ildlife and wind farms: conflicts and

solutions. Volume 1 (M. Perrow, ed.). Pelagic Publishing, Exeter, United Kingdom.

Barré K., Le Viol I., Bas Y., Julliard R. & Kerbiriou C., (2018). Addendum to “Estimating habitat loss due to

wind turbine avoidance by bats: Implications for European siting guidance” [ Biol. Conserv.] 226, 205–214,

Biological Conservation, Volume 235, July 2019, Pages 77-78, see

https://www.sciencedirect.com/science/article/abs/pii/S0006320718305469#

Behr, O., Brinkmann, R., Hochradel, K., Mages, J., Korner-Nievergelt, F., Reinhard, H., Simon, R., Stiller, F.,

Weber, N. & Nagy, M. 2018: Bestimmung des Kollisionsrisikos von Flederm äusen an Onshore-

Windenergieanlagen in der Planungspraxis - Endbericht des Forschungsvorhabens gefördert durch das

Bundesministerium für Wirtschaft und Energie (Förderkennzeichen 0327638E). O. Behr et al. Erlangen /

Freiburg / Ettiswil.

Behr, Oliver & Brinkmann, Robert & Hochradel, Klaus & Mages, Jürgen & Korner-Nievergelt, Fränzi &

Niermann, Ivo & Reich, Michael & Simon, Ralph & Weber, Natalie & Nagy, Martina. (2017). Mitigating Bat

Mortality with Turbine-Specific Curtailment Algorithms: A Model Based Approach. 10.1007/978-3-319-51272-

3_8.

Bergström, Lena & Kautsky, Lena & Malm, Torleif & Rosenberg, Rutger & Wahlberg, Magnus & Capetillo,

Nastassja. (2014). Effects of offshore wind farms on marine wildlife - A generalized impact assessment.

Environmental Research Letters. 9. 10.1088/1748-9326/9/3/034012.

Berkhout V, Faulstich S, Görg P, Hahn B, Linke K, Neuschäfer M, PfaffelS, Rafik K, Rohrig K, Rothkegel R,

Ziese M. (2014). Wind EnergieReport Deutschland 2013. Fraunhofer-Institut für Windenergie und

Energiesystemtechnik–IWES–Kassel

Bexton, S., D. Thompson, A. Brownlow, et al. (2012). Unusual Mortalit y of Pinnipeds in the United Kingdom

Associated with Helical (Corkscrew) Injuries of Anthropogenic Origin. Aquat. Mamm . 38(3): 229-240.

Bibby, C.J., Burgess, N.D., Hill., D.A. & Mustoe, S.H., (2000). Bird Census Techniques. 2nd ed. London:

Academic Press.

Bodde, M., van der Wel, K., Driessen, P., Wardekker, A. & Runhaar, H., (2018). Strategies for Dealing with

Uncertainties in Strategic Environmental Assessment: An Analytical Framework Ill ustrated with Case Studies

from The Netherlands. Sustainability. [e-journal] 10 (7). https://doi.org/10.3390/su10072463

Boehlert, George & Gill, A. B. (2010). Environmental and Ecological Effects of Ocean Renewable Energy

Development – A Current Synthesis. Oceanography. 23. 10.5670/oceanog.2010.46.

Boonman, M., H.J.G.A. Limpens, M.J.J. La Haye, M. van der Valk & J.C. Hartman, (2013). Protocollen

vleermuisonderzoek bij windturbines. Rapport 2013.28, Zoogdiervereniging & Bureau Waardenburg. 29pp +

1 bijlage.

Boyle, G., New, P. (2018). ORJIP Impacts from Piling on Fish at Offshore Wind Sites: Collating Population

Information, Gap Analysis and Appraisal of Mitigation Options. Final Report. June 2018. The Carbon Trust.

United Kingdom. 247 pp.

Brandt M, Diederichs A, Betke K, Nehls G (2011) Responses of harbour porpoises to pile driving at the

Horns Rev II offshore wind farm in the Danish North Sea. Mar Ecol Prog Ser 421: 205–216

Brandt, Miriam & Dragon, AC & Diederichs, Ansgar & Bellmann, MA & W ahl, V & Piper, W & Nabe-Nielsen,

Jacob & Nehls, Georg. (2018). Disturbance of harbour porpoises during construction of the first seven

offshore wind farms in Germany. Marine Ecology Progress Series. 596. 10.3354/me ps12560.