Impact of Windpower - Raptorprotection.eu

Publications:

2019

May R., Masden E. A., Bennet F. & Perron M. (2019): Considerations for upscaling individual effects of wind energy development towards population-level impacts on wildlife. Journal of Environmental Management 230: 84-93.

2018

Dwyer J. F., Landon M. A., Mojica E. K. (2018): Impact of Renewable Energy Sources on Birds of Prey. Birds of Prey: 303-321.

Hernández-Lambraño R. E., Sánchez-Agudo J. Á. & Carbonell R. (2018): Where to start? Development of a spatial tool to prioritise retrofitting of power line poles that are dangerous to raptors. Journal of Applied Ecology.

Santos J. Marques J., Neves T., Marques A. T., Ramalho R. & Mascarenhas M. (2018): Environmental impact assessment Methods: An overview of the process for wind farms' different phases - From pre-construction to operation. Biodiversity and Wind Farms in Portugal: Current Knowledge and Insights for an Integrated Impact Assessment Process: 35-86.

Tikkanen H., Rytkönen S., Karlin O. P., Ollila T., Pakanen V. M., Tuohimaa H. & Orell M. (2018): Modelling golden eagle habitat selection and flight activity in their home ranges for safer wind farm planning. Environmental Impact Assessment Review 71: 120-131.

Watson J. W., Keren I. N. & Davies R. W. (2018): Behavioral accommodation of nesting hawks to wind turbines. The Journal of Wildlife Management: 1-10.

2017

Busch M., Trautmann S. & Gerlach B (2017): Overlap between breeding season distribution and wind farm risks: a spatial approach. Vogelwelt 137: 169-180.

Hunt W. G., Wiens J. D., Law P. R., Fuller M. R., Hunt T. L., Driscoll D. E. & Jackman R. E. (2017): Quantifying the demographic cost of human-related mortality to a raptor population. PLoS ONE 12: 1-22.

2016

Balotari-Chiebao F., Brommer J. E., Niinimäki T. & Laaksonen T. (2016): Proximity to wind-power plants reduces the breeding success of white-tailed eagle. Animal Conservation 19: 265-272.

Bay K., Nasman K., Erickson W., Taylor K. & Kosciuch K. (2016): Predicting Eagle Fatalities at Wind Facilities. Journal of Wildlife Management 80: 1000-1010.

Beston J. A., Diffendorfer J. E., Loss S. R. & Johnson D. H. (2016): Prioritizing avian species for their risk of population-level consequences from wind energy development. PLoS ONE 11: e0150813.

Busch M. & Garthe S. (2016): Approaching population thresholds in presenceof uncertainty: Assessing displacement of seabirds from offshore wind farms. Environmental Impact Assessment Review 56: 31-42.

Gove B., Williams L. J., Beresford A. E., Roddis P., Campbell C., Teuten E. et al. (2016): Reconciling Biodiversity Conservation and Widespread Deployment of Renewable Energy Technologies in the UK. PLoS ONE 11: e0150956.

Masden E. A. & Cook A. S. C. P. (2016): Avian collision risk models for wind energy impact assessments. Environmental Impact Assessment Review 56: 43-49.

Reyes G. A., Rodriguez M. J., Lindke K. T., Ayres K. L., Haltermann M. D., Boroski B. B. & Johnston D.S (2016): Searcher efficience and survey coverage affect precision of fatality estimates. Journal of Wildlife Management 80: 1488-1496.

Vasilakis D. P., Whitfield D. P., Schindler S., Poirazidis K. S. & Kati V. (2016): Reconciling endangered species conservation with wind farm development: Cinereous vultures (Aegypius monachus) in south-eastern Europe. Biological Conservation 196: 10-17.

2015

Al Zohbi G., Hendrick P. & Bouillard P. (2015): Evaluation of the impact of wind farms on birds: The case study of Lebanon. Renewable Energy 80: 682-689.

Bastos R., Pinhancos A., Santos M., Fernandes R. F., Vicente J. R., Morinha F., Honrado J. P., Travassos P., Barros P. & Cabral J. A. (2015): Evaluating the regional cumulative impact of wind farms on birds: how can spatially explicit dynamic modelling improve impact assessments and monitoring?. Journal of Applied Ecology

Cleasby I. R., Wakefield E. D., Bearhop S., Bodey T. W., Votier S. C. & Hamer K. C. (2015): Three-dimensional tracking of a wide-ranging marine predator: flight heights and vulnerability to offshore wind farms. Journal of Applied Ecology 52: 1474-1482.

Dai Y. & Xue L. (2015): China's policy initiatives for the development of wind energy technology. Climate Policy 15: 30-57.

Fijn R. C., Krijgsveld K. L., Poot M. J. M. & Dirksen S. (2015): Bird movements at rotor heights measured continuously with vertical radar at a Dutch offshore wind farm. Ibis 157: 558-566.

Garcia D. A., Canavero G., Ardenghi F. & Zambon M. (2015): Analysis of wind farm effects on the surrounding environment: assessing population trends of breeding passerines. Renewable Energy 80: 190-196.

Hernández-Pliego J., de Lucas M., Munoz R. A. & Ferrer M. (2015): Effects of wind farms on Montagu's harrier (Circus pygargus) in southern Spain. Biological Conservation 191: 452-458.

Loss S. R., Will T. & Marra P. P. (2015): Direct mortality of birds from anthropogenic causes. Annu. Rev. Ecol. Evol. Syst. 46: 99-120.

May R. F. (2015): A unifying framework for the underlying mechanisms of avian avoidance of wind turbines. Biological Conservation 190: 179-187.

May R., Reitan O., Bevanger K., Lorentsen S.-H. & Nygård T. (2015): Mitigating wind-turbine induced avian mortality: Sensory, aerodynamic and cognitive constraints and options. Renewable and Sustainable Energy Reviews 42: 170-181.

New L., Bjerre E., Millsap B., Otto M. C. & Runge M. C. (2015): A collision risk model to predict avian fatalities at wind facilities: an example using Golden Eagles, Aquila chrysaetos. PLoS ONE 10: e0130978.

Sheppard J. K., McGann A., Lanzone M. & Swaisgood R. R. (2015): An autonomous GPS geofence alert system to curtail avian fatalities at wind farms. Animal Biotelemetry 3

Singh K., Baker E. D. & Lackner M. (2015): Curtailing wind turbine operations to reduce avian mortality. Renewable Energy 78: 351-356.

Wang S., Wang S. & Smith P. (2015): Ecological impacts of wind farms on birds: Questions, hypotheses, and research needs. Renewable and Sustainable Energy Reviews 44: 599-607.

Zwart M. C., Robson P., Rankin S., Whittingham M. J. & McGowan P. J. K. (2015): Using environmental impact assessment and post-construction monitoring data to inform wind energy developments. Ecosphere

Urban M. C. (2015): Accelerating extinction risk from climate change. Science 348

2014

Bolker E. D., Hatch J. J. & Zara C. (2014): Modeling how windfarm geometry affects bird mortality. arXiv : 1408.1580.

Campedelli T., Londi G., Cutini S., Sorace A. & Florenzano G. T. (2014): Raptor displacement due to the construction of a wind farm: preliminary results after the first 2 years since the construction. Ethology Ecology & Evolution 26: 376-391.

Erickson W. P., Wolfe M. M., Bay K. J., Johnson D. H. & Gehring J. L. (2014): A Comprehensive Analysis of Small-Passerine Fatalities from Collision with Turbines at Wind Energy Facilities. PLoS ONE 9: e107491.

Everaert J. (2014): Collision risk and micro-avoidance rates of birds with wind turbines in Flanders. Bird Study 61: 220-230.

Hipkiss T., Moss E. & Hörnfeldt B. (2014): Variation in quality of Golden Eagle territories and a management strategy for wind farm projects in northern Sweden. Bird Study 61: 444-446.

Huso M. & Dalthorp D. (2014): Accounting for unsearched areas in estimating wind turbine-caused fatality. Journal of Wildlife Management 78: 347-358.

LAG VSW (2014): Recommendations for distances of wind turbines to important areas for birds as well as breeding sites of selected bird species. Berichte zum Vogelschutz 51: 15-42.

Marques A. T., Batalha H., Rodrigues S., Costa H., Pereira M. J. R., Fonseca C., Mascarenhas M. & Bernardino J. (2014): Understanding bird collisions at wind farms: an updated review on the causes and possible mitigation strategies. Biological Conservation 179: 40-52.

Morinha F., Travassos P., Seixas F., Martins A., Bastos R. & Cabral J. A. (2014): Differential mortality of birds killed at wind farms in Northern Portugal. Bird Study 61: 255-259.

Nemček V., Chavko J. & Deutschová L. (2014): Movement of satellite-tracked juvenile saker falcons (Falco cherrug) in SW Slovakia. Slovak Raptor Journal 8: 97-103.

Rushworth I. & Krüger S. (2014): Wind farms threaten southern Africa's cliff-nesting vultures. Ostrich 85: 13-23.

Tabassum A., Premalatha M., Abbasi T. & Abbasi S. A. (2014): Wind energy: Increasing deployment, rising environmental concerns. Renewable and Sustainable Energy Reviews 31: 270-288.

Villegas-Patraca R., Cabrera-Cruz S. A. & Herrera-Alsina L. (2014): Soaring Migratory Birds Avoid Wind Farm in the Isthmus of Tehuantepec, Southern Mexico. PLoS ONE 9: e92462.

Winder V. L., McNew L. B., Gregory A. J., Hunt L. M., Wisely S. M. & Sandercock B. K. (2014): Effects of wind energy development on survival of female greater prairie-chickens. Journal of Applied Ecology 51: 395-405.

2013

Battisti C., Franco D., Norscia C., Santone P., Soccini C. & Ferri V. (2013): Estimating the indirect impact of wind farms on breeding bird assemblages: a case study in the central Apennines. Israel Journal of Ecology and Evolution 59: 125-129.

Bispo R., Bernardino J., Marques T. A. & Pestana D. (2013): Modeling carcass removal time for avian mortality assessment in wind farms using survival analysis. Environmental and Ecological Statistics 20: 147-165.

Kitano M. & Shiraki S. (2013): Estimation of Bird Fatalities at Wind Farms With Complex Topography and Vegetation in Hokkaido, Japan. Wildlife Society Bulletin 37: 41-48.

Korner-Nievergelt F., Brinkmann R., Niermann I. & Behr O. (2013): Estimating bat and bird mortality occurring at wind energy turbines from covariates and carcass searches using mixture models. PLoS ONE 8

Liechti F., Guélat J. & Komenda-Zehnder S. (2013): Modelling the spatial concentrations of bird migration to assess conflicts with wind turbines. Biological Conservation 162: 24-32.

Loss S. R., Will T. & Marra P. P. (2013): Estimates of bird collision mortality at wind facilities in the contiguous United States. Biological Conservation 168: 201-209.

Noori M., Kucukvar M. & Tatari O. (2013): A macro-level decision analysis of wind power as a solution for sustainable energy in the USA. International Journal of Sustainable Energy

Shepard E. L., Wilson R. P., Rees W. G., Grundy E., Lambertucci S.A. and Vosper S. B. (2013): Energy landscapes shape animal movement ecology. The American Naturalist 182: 298-312.

Zimmerling J. R., Pomeroy A. C., d'Entremont M. V. & Francis C. M. (2013): Canadian Estimate of Bird Mortality Due to Collisions and Direct Habitat Loss Associated with Wind Turbine Developments. Avian Conservation and Ecology 8: 10.

Sovacool B. K. (2013): The avian benefits of wind energy: A 2009 update. Renewable Energy 49: 19-24.

2012

Dahl E. L., Bevanger K., Nygard T., Roskaft E. and Stokke B.G. (2012): Reduced breeding success in white-tailed eagles at Smøla windfarm, western Norway, is caused by mortality and displacement. Biological Conservation 145: 79-85.

De Lucas M., Ferrer M. & Janss G. F. E. (2012): Using wind tunnels to predict bird mortality in wind farms: the case of Griffon Vultures. PLoS ONE 7: e48092.

Eichhorn M., Johst K., Seppelt R. & Drechsler M. (2012): Model-based estimation of collision risks of predatory birds with wind turbines. Ecology and Society 17

Ferrer M., de Lucas M., Janns G. F., Casado E., Munoz A. R., Bechard M. J. & Calabuig C. P. (2012): Weak relationship between risk assessment studies and recorded mortality in wind farms. Journal of Applied Ecology 49: 38-46.

Flade M. (2012): From 'Renewable Energies' to the biodiversity disaster - comments on the current situation of bird conservation in Germany. Vogelwelt 133: 149 - 158.

Pearce-Higgins J. W., Stephen L., Douse A. & Langston R. H. W. (2012): Greater impacts of wind farms on bird populations during construction than subsequent operation: results of a multi-site and multi-species analysis. Journal of Applied Ecology 49: 386-394.

Plonczkier P. & Simms I. C. (2012): Radar monitoring of migrating pink-footed geese: behavioural responses to offshore wind farm development. Journal of Applied Ecology 49: 1187-1194.

Schaub M. (2012): Spatial distribution of wind turbines is crucial for the survival of red kite populations. Biological Conservation 155: 111-118.

2011

Dokter A. M., Liechti F., Stark H., Delobbe L., Tabary P. & Holleman I. (2011): Bird migration flight altitudes studied by a network of operational weather radars. J. R. Soc. Interface 8: 30-43.

Douglas D. J. T., Bellamy P. E. & Pearce-Higgins J. W. (2011): Changes in the abundance and distribution of upland breeding birds at an operational wind farm. Bird Study 58: 37-43.

Drechsler M., Ohl C., Meyerhoff J., Eichhorn M. & Monsees J. (2011): Combining spatial modeling and choice experiments for the optimal spatial allocation of wind turbines. Energy Policy 39: 3845-3854.

Dürr T. (2011): Dunkler Anstrich könnte Kollisionen verhindern: Vogelunfälle an Windradmasten. Der Falke 58: 499-501.

Garvin J. C., Jenelle C. S., Drake D. & Grodsky S. M. (2011): Response of raptors to a windfarm. Journal of Applied Ecology 48: 199-209.

Kiesecker J. M., Evans J. S., Fargione J., Doherty K., Foresman K. R., Kunz T. H., Naugle D., Nibbelink N. P. & Niemuth N. D. (2011): Win-Win for Wind and Wildlife: A Vision to Facilitate Sustainable Development. PLoS ONE 6: e17566.

Panwar N. L., Kaushik S. C. & Kothari S. (2011): Role of renewable energy sources in environmental protection: A review. Renewable and Sustainable Energy Reviews 15: 1513-1524.

2010

Meyerhoff J., Ohl C. & Hartje V. (2010): Landscape externalities from onshore wind power. Energy Policy 38: 82-92.

Nadaї A. & Labussiѐre O. (2010): Birds, Wind and the Making of Wind Power Landscapes in Aude, Southern France. Landscape Research 35: 209-233.

2009

Carrete M., Sánchez-Zapata J. A., Benítez J. R., Lobón M. and Donázar J. A. (2009): Mortality at wind-farms is positively related to large-scale distribution and aggregation in griffon vultures. Biological Conservation 142: 2954-2961.

Carrete M., Sánchez-Zapata J. A., Benítez J. R., Lobón M. and Donázar J. A. (2009): Large scale risk-assessment of wind-farms on population viability of a globally endangered long-lived raptor. Biological Conservation 142: 2954-2961.

Desholm M. (2009): Avian sensitivity to mortality: Prioritising migratory bird species for assessment at proposed wind farms. Journal of Environmental Management 90: 2672-2679.

Farfán M. A., Vargas J. M., Duarte J. & Real R. (2009): What is the impact of wind farms on birds? A case study in southern Spain. Biodiversity and Conservation 18: 3743-3758.

Krijgsveld K. L., Akershoek K., Schenk F., Dijk F. and Dirksen S. (2009): Collision risk of birds with modern large wind turbines. Ardea 97: 357-366.

Masden E. A., Haydon D. T., Fox A. D., Furness R. W., Bullman R. & Desholm M. (2009): Barriers to movement: impacts of wind farms on migrating birds. ICES Journal of Marine Science 66: 746-753.

Pearce-Higgins J. W., Stephen L., Langston R. H., Bainbridge I. P. and Bullman R. (2009): The distribution of breeding birds around upland wind farms. Journal of Applied Ecology 46: 1323-1331.

Smallwood K. S., Rugge L. & Morrison M. L. (2009): Influence of behavior on bird mortality in wind energy developments. The Journal of Wildlife Management 73: 1082-1098.

2008

De Lucas M., Janns G. F., Whitfield D. P. & Ferrer M. (2008): Collision fatality of raptors in wind farms does not depend on raptor abundance. Journal of Applied Ecology 45: 1695-1703.

Drewitt A. L. & Langston R. H. W. (2008): Collision effects of wind-power generators and other obstacles on birds. Annals of the New York Academy of Science 1134: 233-266.

2007

Barclay R., Baerwald E. & Gruver J. (2007): Variation in bat and bird fatalities at wind energy facilities: assessing the effects of rotor size and tower height. Canadian Journal of Zoology-Revue 85: 381-387.

Everaert J. & Stienen E. (2007): Impact of wind turbines on birds in Zeebrugge (Belgium). Biodiversity and Conservation 16: 3345-3359.

2006

Chamberlain D. E., Rehfisch M. R., Fox A. D., Desholm M. & Anthony S. J. (2006): The effect of avoidance rates on bird mortality predictions made by wind turbine collision risk models. Ibis 148: 198-202.

Drewitt A. L. & Langston R. H. W. (2006): Assessing the impact of wind farms on birds. Ibis 148: 29-42.

MacMillan D., Hanley N. & Lienhoop N. (2006): Contingent valuation: Environmental polling or preference engine?. Ecological Economics 60: 299-307.

Madders M. & Whitfield D. P. (2006): Upland raptors and the assessment of wind farm impacts. Ibis 148: 43-56.

2004

Barrios L. & Rodriguez A. (2004): Behavioural and environmental correlates of soaring‐bird mortality at on‐shore wind turbines. Journal of Applied Ecology 41: 72-81.

De Lucas M., Janss G. & Ferrer M. (2004): The effects of a wind farm on birds in a migration point: The Strait of Gibraltar. Biodiversity and Conservation 13: 395-407.

Reports:

2018:

Dijks S., Thylmann M. & Pteres W. (2018): Regionale Auswirkungen des Windenergieausbaus auf die Vogelwelt. 1-60.

2017

Kohle O. (2017): Zugvögel und Windpark Le Peuchapatte. Faktencheck.

2016

Aschwanden J. & Liechti F. (2016): Vogelzugintensität und Anzahl Kollisionsopfer an Windenergieanlagen am Standort Le Peuchapatte (JU).

Deutsche Wildtierstiftung (2016): Viel Wind um falsche Thesen: Die Deutsche Wildtierstiftung warnt vor Windkraft-Lobbyisten, die die Gefahr die Vogelwelt leugnen.

Grünkorn T., Blew J., Coppack T., Krüger O., Nehls G., Potiek A., Reichenbach M., von Rönn J., Timmermann H. & Weitekamp S. (2016): Ermittlung der Kollisionsraten von (Greif)Vögeln und Schaffung planungsbezogener Grundlagen für die Prognose und Bewertung des Kollisionsrisikos durch Windenergieanlagen (PROGRESS). Schlussbericht zum durch das Bundesministerium für Wirtschaft und Energie (BMWi) im Rahmen des 6. Energieforschungsprogrammes der Bundesregierung geförderten Verbundvorhaben PROGRESS, FKZ 0325300A-D.

Kohle O. (2016): Windenergie und Rotmilan: Ein Scheinproblem.

Sansom A., Etheridge B., Smart J. & Roos S. (2016): Population modelling of North Scotland red kites in relation to cumulative impacts of wildlife crime and wind farm mortality. 904

Urquart B. & Whitfield D. P. (2016): Derivation of an avoidance rate for Red Kite Milus milvus suitable for an onshore wind farm collision risk modelling.

2015

Hanagasioglu M., Aschwandan J., Bontadina F. & Nilsson M. (2015): Investigation of the effectiveness of bat and bird detection of DTBat and DTBird systems at Calandawind turbine. : 142.

Langgemach T. & Dürr T. (2015): Informationen über Einflüsse der Windenergienutzung auf Vögel. Stand 16. Dezember 2015, Aktualisierungen außer Fundzahlen hervorgehoben.

Therkildsen O.R. & Elmeros M. (eds.) (2015): First year post-construction monitoring of bats and birds at Wind Turbine Test Centre Østerild. Aarhus University, DCE – Danish Centre for Environment and Energy, 126 pp. Scientific Report from DCE – Danish Centre for Environment and Energy No. 133 http://dce2.au.dk/pub/SR133.pdf.

Whitfield D. P. & Urquhart B. (2015): Deriving an avoidance rate for swans suitable for onshore wind farm collision risk modelling. Natural Research Information Note 6. Natural Research Ltd, Banchory, UK.

2014

LAG VSW (2014): Fachkonvention "Abstandsempfehlungen für Windenergieanlagen zu bedeutsamen Vogellebensräumen sowie Brutplätzen ausgewählter Vogelarten".

2013

Gove B., Langston R. H. W., McCluskie A., Pullan J.D. and Scrase I. (2013): Wind farms and birds: an updated analysis of the effects of wind farms on birds, and best practice guidance on integrated planning and impact assessment. RSPB/BirdLife UK

Hochrathner P., Hochrathner I. & Winkler H. (2013): Windkraft und Vogelschutz im Bundesland Salzburg. Erarbeitung einer Studie zur Festlegung von Rahmenbedingungen für den Ausbau von Windkraftanlagen im Land Salzburg aus Sicht des Vogelschutzes in den Gebieten Aineck, Windsfeld und Lehmberg.

Hötker H., Krone O. & Nehls G. (2013): Greifvögel und Windkraftanlagen: Problemanalyse und Lösungsvorschläge. Schlussbericht für das Bundesministerium für Umwelt, Naturschutz und Reaktorsicherheit. Michael-Otto-Institut im NABU, Leibniz-Institut für Zoo- und Wildtierforschung, BioConsult SH, Bergenhusen, Berlin, Husum.

Illner H. & Joest R. (2013): Stellungnahme zu: Modellhafte Untersuchungen zu den Auswirkungen des Repowerings von Windenergieanlagen auf verschiedene Vogelarten am Beispiel der Hellwegbörde.

New Jersey Audubon, Old Bird Inc & North East Ecological Services (2013): Post-construction wildlife monitoring at Maple Ridge wind farm.

2012

Bergen F., Gaedicke L., Loske K.-H. & Loske C. H. (2012): Modellhafte Untersuchungen zu den Auswirkungen des Repowerings von Windenergieanlagen auf verschiedene Vogelarten am Beispiel der Hellwegbörde.

Cook A. S.C.P., Johnston A., Wright L. J. & Burton N. H. K. (2012): A review of flight heights and avoidance rates of birds in relation to offshore wind farms.

May R., Hamre Ø., Vang R. & Nygård T. (2012): Evaluation of the DTBird video-system at the Smøla wind-power plant. Detection capabilities for capturing near-turbine avian behaviour. NINA Report 910.

Rydell J., Engström H. , Hedenström A. , Larsen J. K. , Pettersson J. & Green M. (2012): The effect of wind power on birds and bats.

Schaub M. (2012): Populationsbiologie als zentrales Element der Naturschutzforschung.

Therkildsen O.R., Elmeros M., Kahlert J. & Desholm M. (2012): Baseline investigations of bats and birds at wind turbine test centre Østerild.

Wichmann G., Uhl H. & Weißmair W. (2012): Das Konfliktpotenzial zwischen Windkraftnutzung und Vogelschutz in Oberösterreich. Studie zur Erarbeitung von Tabu- und Vorbehaltszonen.

2011

Cárcamo B., Kret E., Zografou C. & Vasilakis D. (2011): Assessing the impact of nine established wind farms on birds of prey in Thrace, Greece. Technical Report. pp. 93. WWF Greece, Athens.

May R. F., Nygard T., Dahl E. L., Reitan O. & Bevanger K. M. (2011): Collision risk in white-tailed eagles. Modelling kernel-based collision risk using satellite telemtry data in Smøla wind power plant.

2006

Hötker H., Thomsen K.-M. & Jeromin H. (2006): Impacts on biodiversity of exploitation of renewable energy sources: the example of birds and bats - facts, gaps in knowledge, demands for further research, and ornithological guidelines for the development of renewable energy exploitation. Michael-Otto-Institut im NABU, Bergenhusen.

Whitfield D. P. and Madders M. (2006): Deriving collision avoidance rates for red kites Milvus milvus.

2003

Thelander C. G., Smallwood K. S. & Rugge L. (2003): Bird Risk Behaviors and Fatalities at the Altamont Pass Wind Resource Area.

Presentations:

2015

Grünkorn T. (2015): A large-scale, multispecies assessment of avian mortality rates at onshore wind turbines in northern Germany (PROGRESS).

Miosga O., Gerdes S., Krämer D. & Vohwinkel R. (2015): Besendertes Uhu-Höhenflugmonitoring im Tiefland. Münster.

Potiek A. (2015): Mortality from collisions with wind turbines long-term population effects on three raptor species.

Weitekamp S., Timmermann H. & Reichenbach M. (2015): Predictive modelling versus empirical data – collision numbers in relation to flight activity in 55 German wind farm seasons.