Abstract.
Wind farms have shown a spectacular growth during the last 10 years. As far as we know, this study is the first where the relationship between wind power and birds and small mammals have been considered. Before–after control impact (BACI) study design to birds and Impact Gradient (IG) study design to small mammals to test the null hypothesis of no impact of a wind farm were used. In the BACI model Windfarm Area and a Reference Area were considered. Distance from turbines was considered in the IG model. Windfarm installations did not clearly affect bird and small mammal populations. Flight height of nesting and no nesting birds did not show a clear tendency. Small mammals populations suffered high variations in numbers through times by intrinsic population factors. There are many practical problems of detection of human influence on abundances of populations so sampling in the long run can be suggested.
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References
Alonso C. 2002. Parque Natural de las Islas Atlánticas de Galicia. La fuerza del mar. Ambienta (http://hispagua.cedex.es).
R. Anderson M. Morrison K. Sinclair D. Strickland (1999) Studying Wind Energy/Bird Interactions: A Guidance Document National Wind Coordinating Committee (NWCC) Washington
J.C. Blanco J.L. González (1992) Libro Rojo de los Vertebrados de España Colección Técnica ICONA Madrid
M.K. Chase W.B. Kristan SuffixIII A.J. Lynam M.V. Price J.T. Rotenberry (2000) ArticleTitleSingle species as indicators of species richness and composition in California coastal sage scrub birds and small mammals Conserv. Biol. 14 474–487 Occurrence Handle10.1046/j.1523-1739.2000.98312.x
Dirksen S., Winden J.v.d. and Spaans A.L. 1998. Nocturnal collision risks of birds with wind turbines in tidal and semi-offshore areas. Wind Energy Landscape 99–107.
Erickson W.P., Johnson G.D., Strickland M.D., Young D.P., Sernka K.J. and Good R.E. 2001. Avian Collisions with Wind Turbines: A Summary of Existing Studies and Comparisons to Other Sources of Avian Collision Mortality in the United States. National Wind Coordinating Committee (NWCC) Resource Document.
C. Ferry B. Frochot (1958) ArticleTitleUne methode pour denombrer les oiseaux nicheurs Terra e Vie 105 IssueID2 85–102
R.H. Green (1979) Sampling Design and Statistical Methods for Environmental Biologist John Wiley and Sons New York
M. Guillemette J.K. Larsen (2002) ArticleTitlePostdevelopment experiments to detect anthropogenic disturbance: the case of Sea Ducks and Wind Park Ecol. Appl. 12 IssueID3 868–877
Guillemette M., Larsen J.K. and Clausager I. 1998. Impact Assessment of an Off-shore Wind Park on Sea Ducks. National Environmental Research Institute, Report number 227.
S.H. Hurlbert (1984) ArticleTitlePseudoreplication and the design of ecological field experiments Ecol. Monogr. 54 IssueID2 187–211
Howell J.A. 1997. Avian Use and Mortality at the Sacramento Municipal Utility District Wind Energy Development Site, Montezuma Hills, Solano County, California. Sacramento Municipal Utility District, California.
J.K. Larsen J. Madsen (2000) ArticleTitleEffects of wind turbines and other physical elements on field utilization by pink-footed geese (Anser brachyrhynchus): a landscape perspective Landscape Ecol. 15 755–764 Occurrence Handle10.1023/A:1008127702944
K.L. Leddy K.F. Higgins D.E. Naugle (1999) ArticleTitleEffects of wind turbine on upland nesting birds in conservation reserve program grasslands Wilson Bull. 111 IssueID1 100–104
M.d. Lucas G. Janss M. Ferrer (2004) ArticleTitleThe effects of a wind farm on birds in a migration point: the Strait of Gibraltar Biodiv. Conserv. 13 395–407 Occurrence Handle10.1023/B:BIOC.0000006507.22024.93
M.L. Morrison K. Sinclair (1998) Avian Risk and Fatality Protocol National Renewable Energy Laboratory (NREL) Colorado
C.J.M. Musters M.A.W. Noordervliet W.J. Terkeus (1996) ArticleTitleBird casualties caused by a wind energy project in an estuary Bird Study 43 124–126
Natural S.G.d.H. 1995a. Atlas de Vertebrados de Galicia. Tomo II: Aves. Santiago de Compostela.
Natural S.G.d.H. 1995b. Atlas de Vertebrados Terrestres de Galicia. Tomo I: Peixes, Anfibios, Re´ ptiles e Mamı´ feros. Santiago de Compostela.
Nelson H.K. and Curry R.C. 1995. Assessing avian interactions with windplant development and operation. Trans. 60th No. Am. Wildl. & Natur. Resour. Conf. 266–277.
S. Orloff A. Flannery (1992) Wind Turbine Effects on Avian Activity, Habitat Useand Mortality in Altamont Pass and Solano County Wind Resource Areas California Energy Commission (CEC) California
J.L. Orrock J.F. Pagels W.J. McShea E.K. Harper (2000) ArticleTitlePredicting presence and abundance of a small mammal species: the effect of scale and resolution Ecol. Appl. 10 IssueID5 1356–1366
R.G. Osborn K.F. Higgins R.E. Usgaard C.D. Dieter R.D. Neiger (2000) ArticleTitleBird mortality associated with wind turbines at the buffalo ridge wind resource areaMinnesota Am. Midland Nat. 143 41–52
Page D.S., Gilfillan E.S., Boehm P.D. and Harner E.J. 1993. Shoreline ecology program for Prince William Sound, Alaska, flowing the Exxon Valdez oil spill: Part 1- Study design and methods. DRAFT. Third Symposium on Environmental Toxicology and Risk: Aquatic Plant, and Terrestrial. American Society for Testing and Materials. Philadelphia, PA.
S. Rivas-Martínez (1987) La vegetación de España Universidad Alcalá Madrid
A.D. Rodewald R.H. Yahner (2001) ArticleTitleInfluence of landscape composition on avian community structure and associated mechanisms Ecology 82 IssueID12 3493–3504
D.P. Snyder (1978) Populations of small mammals under natural condition The University Pittsburgh 237
Stekoll M.S., Deyster L., Highsmith R.C., Saupe S.M., Guo Z., Erickson W.P., McDonald L. and Strickland D. 1993. Coastal Habitat Injury Assessment: Intertidal communities and the Exxon Valdez oil spill. Presented at the Exxon Valdez Oil Spill Symposium, February 2–5, 1993. Anchorage, Alaska.
A. Stewart-Oaten (1986) The Before-After/Control-Impact-Pairs Design for Environmental Impact Assessment Marine Review Committee California
D. Strickland G.D. Johnson W.P. Erickson S.A. Sarappo R.M. Halet (1998) Avian UseFlight Behaviorand Mortality on the Buffalo RidgeMinnesotaWind Resource Area National Avian - Wind Power Planning Meeting III San DiegoCalifornia
Tellerı´ a J.L. 1986. Manual para el Censo de los Vertebrados Terrestres. Madrid.
Thelander C.G. and Rugge L. 1998. Bird Risk Behaviors and Fatalities at the Altamont Wind Resource Area. National Avian - Wind Power Planning Meeting III. San Diego, California.
Thomas L., Laake J.L., Strindberg S., Marques F.F.C., Bochers D.L., Buckland S.T., Anderson D.R., Burham K.P., Hedley S.L. and Pollard J.H. 2002. Distance 4.0 Beta 6. Research Unit for Wildlife Population Assessment University of St. Andrews, UK. (http://www.ruwpa. stand.ac.uk/distance).
A.J. Underwood (1994) ArticleTitleOn beyond BACI: sampling designs that might reliably detect environmental disturbances Ecol. Appl. 4 IssueID1 3–15
J.E. Winkelman (1990) Bird collision victims in the experimental wind park near Oosterbierum (Fr), during building and partly operative situations (1986–1989) Instituut voor Bos- en Natuuronderzoek Wageningen
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de Lucas, M., Janss, G. & Ferrer, M. A Bird and Small Mammal BACI and IG Design Studies in a Wind Farm in Malpica (Spain). Biodivers Conserv 14, 3289–3303 (2005). https://doi.org/10.1007/s10531-004-0447-z
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DOI: https://doi.org/10.1007/s10531-004-0447-z