Future research directions to reconcile wind turbine - wildlife interactions

R. May, A.B. Gill, Johann Koppel, R.H.W. Langston, Marc Reichenbach, M. Scheidat, Shawn Smallwood, C. Voigt, O. Hueppop, Michelle Portman

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

Concurrent with the development of wind energy, research activity on wind energy generation and wildlife has evolved significantly during the last decade. This chapter presents an overview of remaining key knowledge gaps, consequent future research directions and their significance for management and planning for wind energy generation. The impacts of wind farms on wildlife are generally site-, species- and season-specific and related management strategies and practices may differ considerably between countries. These differences acknowledge the need to consider potential wildlife impacts for each wind farm project. Still, the ecological mechanisms guiding species’ responses and potential vulnerability to wind farms can be expected to be fundamental in nature. A more cohesive understanding of the causes, patterns, mechanisms, and consequences of animal movement decisions will thereby facilitate successful mitigation of impacts. This requires planning approaches that implement the mitigation hierarchy effectively to reduce risks to species of concern. At larger geographical scales, population-level and cumulative impacts of multiple wind farms (and other anthropogenic activity) need to be addressed. This requires longitudinal and multiple-site studies to identify species-specific traits that influence risk of mortality, notably from collision with wind turbines, disturbance or barrier effects. In addition, appropriate pre- and post-construction monitoring techniques must be utilized. Predictive modelling to forecast risk, while tackling spatio-temporal variability, can guide the mitigation of wildlife impacts at wind farms.
Original languageEnglish
Title of host publicationWind Energy and Wildlife Interactions
Subtitle of host publicationpresentations from the CWW2015 conference
EditorsJohann Koppel
PublisherSpringer International Publishing
Pages255-276
ISBN (Electronic)9783319512723
ISBN (Print)9783319512709
Publication statusPublished - 2017
EventConference on Windenergy and Wildlife impacts - Berlin, Germany
Duration: 10 Mar 201512 Mar 2015

Conference

ConferenceConference on Windenergy and Wildlife impacts
CountryGermany
CityBerlin
Period10/03/1512/03/15

Fingerprint

wind farm
wind turbine
mitigation
energy
vulnerability
human activity
collision
wildlife
disturbance
mortality
animal
modeling

Keywords

  • Future research directions
  • impacts of wind farms
  • wildlife
  • animal movement decisions
  • mitigation hierarchy

Cite this

May, R., Gill, A. B., Koppel, J., Langston, R. H. W., Reichenbach, M., Scheidat, M., ... Portman, M. (2017). Future research directions to reconcile wind turbine - wildlife interactions. In J. Koppel (Ed.), Wind Energy and Wildlife Interactions: presentations from the CWW2015 conference (pp. 255-276). Springer International Publishing.
May, R. ; Gill, A.B. ; Koppel, Johann ; Langston, R.H.W. ; Reichenbach, Marc ; Scheidat, M. ; Smallwood, Shawn ; Voigt, C. ; Hueppop, O. ; Portman, Michelle. / Future research directions to reconcile wind turbine - wildlife interactions. Wind Energy and Wildlife Interactions: presentations from the CWW2015 conference. editor / Johann Koppel. Springer International Publishing, 2017. pp. 255-276
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May, R, Gill, AB, Koppel, J, Langston, RHW, Reichenbach, M, Scheidat, M, Smallwood, S, Voigt, C, Hueppop, O & Portman, M 2017, Future research directions to reconcile wind turbine - wildlife interactions. in J Koppel (ed.), Wind Energy and Wildlife Interactions: presentations from the CWW2015 conference. Springer International Publishing, pp. 255-276, Conference on Windenergy and Wildlife impacts, Berlin, Germany, 10/03/15.

Future research directions to reconcile wind turbine - wildlife interactions. / May, R.; Gill, A.B.; Koppel, Johann; Langston, R.H.W.; Reichenbach, Marc; Scheidat, M.; Smallwood, Shawn; Voigt, C.; Hueppop, O.; Portman, Michelle.

Wind Energy and Wildlife Interactions: presentations from the CWW2015 conference. ed. / Johann Koppel. Springer International Publishing, 2017. p. 255-276.

Research output: Chapter in Book/Report/Conference proceedingChapter

TY - CHAP

T1 - Future research directions to reconcile wind turbine - wildlife interactions

AU - May, R.

AU - Gill, A.B.

AU - Koppel, Johann

AU - Langston, R.H.W.

AU - Reichenbach, Marc

AU - Scheidat, M.

AU - Smallwood, Shawn

AU - Voigt, C.

AU - Hueppop, O.

AU - Portman, Michelle

PY - 2017

Y1 - 2017

N2 - Concurrent with the development of wind energy, research activity on wind energy generation and wildlife has evolved significantly during the last decade. This chapter presents an overview of remaining key knowledge gaps, consequent future research directions and their significance for management and planning for wind energy generation. The impacts of wind farms on wildlife are generally site-, species- and season-specific and related management strategies and practices may differ considerably between countries. These differences acknowledge the need to consider potential wildlife impacts for each wind farm project. Still, the ecological mechanisms guiding species’ responses and potential vulnerability to wind farms can be expected to be fundamental in nature. A more cohesive understanding of the causes, patterns, mechanisms, and consequences of animal movement decisions will thereby facilitate successful mitigation of impacts. This requires planning approaches that implement the mitigation hierarchy effectively to reduce risks to species of concern. At larger geographical scales, population-level and cumulative impacts of multiple wind farms (and other anthropogenic activity) need to be addressed. This requires longitudinal and multiple-site studies to identify species-specific traits that influence risk of mortality, notably from collision with wind turbines, disturbance or barrier effects. In addition, appropriate pre- and post-construction monitoring techniques must be utilized. Predictive modelling to forecast risk, while tackling spatio-temporal variability, can guide the mitigation of wildlife impacts at wind farms.

AB - Concurrent with the development of wind energy, research activity on wind energy generation and wildlife has evolved significantly during the last decade. This chapter presents an overview of remaining key knowledge gaps, consequent future research directions and their significance for management and planning for wind energy generation. The impacts of wind farms on wildlife are generally site-, species- and season-specific and related management strategies and practices may differ considerably between countries. These differences acknowledge the need to consider potential wildlife impacts for each wind farm project. Still, the ecological mechanisms guiding species’ responses and potential vulnerability to wind farms can be expected to be fundamental in nature. A more cohesive understanding of the causes, patterns, mechanisms, and consequences of animal movement decisions will thereby facilitate successful mitigation of impacts. This requires planning approaches that implement the mitigation hierarchy effectively to reduce risks to species of concern. At larger geographical scales, population-level and cumulative impacts of multiple wind farms (and other anthropogenic activity) need to be addressed. This requires longitudinal and multiple-site studies to identify species-specific traits that influence risk of mortality, notably from collision with wind turbines, disturbance or barrier effects. In addition, appropriate pre- and post-construction monitoring techniques must be utilized. Predictive modelling to forecast risk, while tackling spatio-temporal variability, can guide the mitigation of wildlife impacts at wind farms.

KW - Future research directions

KW - impacts of wind farms

KW - wildlife

KW - animal movement decisions

KW - mitigation hierarchy

M3 - Chapter

SN - 9783319512709

SP - 255

EP - 276

BT - Wind Energy and Wildlife Interactions

A2 - Koppel, Johann

PB - Springer International Publishing

ER -

May R, Gill AB, Koppel J, Langston RHW, Reichenbach M, Scheidat M et al. Future research directions to reconcile wind turbine - wildlife interactions. In Koppel J, editor, Wind Energy and Wildlife Interactions: presentations from the CWW2015 conference. Springer International Publishing. 2017. p. 255-276