Song flight and 3D thermal detection provide evidence for bat attraction to wind turbines in Central Europe

Journal Article

Title: Song flight and 3D thermal detection provide evidence for bat attraction to wind turbines in Central Europe

Author:

Nagy, M.; Hochradel, K.; Haushalter, C.; Simon, R.; Weber, N.; Behr, O.; Knörnschild, M.

Publication Date:

March 19, 2026

Journal:

Communications Biology

Volume:

Pages:

460

Publisher:

Springer Nature Limited

Affiliation

Natural History Museum Berlin, UMIT Private University for Health Sciences, Medical Informatics and Technology, Nuremberg Zoo, University of Antwerp, Max Planck Institute of Animal Behavior, OekoFor GbR, Humboldt University of Berlin, Deutsche Fledermauswarte

Technology:

Wind Energy, Land-Based Wind

Stressor:

Collision

Receptor:

Bats

Language:

English

Document Access

Website:

External Link

Attachment:

Access File

Citation

APA
BibTex
RIS

Nagy, M.; Hochradel, K.; Haushalter, C.; Simon, R.; Weber, N.; Behr, O.; Knörnschild, M. (2026). Song flight and 3D thermal detection provide evidence for bat attraction to wind turbines in Central Europe. Communications Biology, 9, 460. https://doi.org/10.1038/s42003-026-09882-7

@article{Nagy-2026-,
author = {Nagy, M and Hochradel, K and Haushalter, C and Simon, R and Weber, N and Behr, O and Knörnschild, M},
title = {Song flight and 3D thermal detection provide evidence for bat attraction to wind turbines in Central Europe},
journal = {Communications Biology},
year = {2026},
month = {mar},
publisher = {Springer Nature Limited},
volume = {9},
pages = {460},
doi = {10.1038/s42003-026-09882-7},
url = {https://www.nature.com/articles/s42003-026-09882-7},
keywords = {Wind Energy, Land-Based Wind, Collision, Bats},
}

Export Citation to BibTex

TY - JOUR
TI - Song flight and 3D thermal detection provide evidence for bat attraction to wind turbines in Central Europe
AU - Nagy, M
AU - Hochradel, K
AU - Haushalter, C
AU - Simon, R
AU - Weber, N
AU - Behr, O
AU - Knörnschild, M
T2 - Communications Biology
AB - Fatal interactions with wind turbines are a major threat to bat populations worldwide. Yet, the ultimate causes for bats colliding with wind turbines remain elusive. Using an extensive acoustic data set recorded at nacelle height in different parts of Germany, we show that feeding and social activity occur at all studied wind turbines. At least seven bat species (accounting for 95% of German bat fatalities) perform song flight at wind turbines, a behavior related to mating and courtship, indicating that males may find wind turbines attractive for establishing mating territories. Male songs broadcast over considerable distances and could function as acoustic beacons attracting females to turbine sites. Analysis of 3D thermal detection shows that bat density is higher in the rotor swept zone than in the free air space surrounding turbines. This strongly suggests that bats actively approach turbines, possibly in search of mating, roosting and/or foraging opportunities.
DA - 2026/03//
PY - 2026
PB - Springer Nature Limited
VL - 9
SP - 460
UR - https://www.nature.com/articles/s42003-026-09882-7
DO - 10.1038/s42003-026-09882-7
LA - English
KW - Wind Energy
KW - Land-Based Wind
KW - Collision
KW - Bats
ER -

Export Citation to RIS

Abstract

Fatal interactions with wind turbines are a major threat to bat populations worldwide. Yet, the ultimate causes for bats colliding with wind turbines remain elusive. Using an extensive acoustic data set recorded at nacelle height in different parts of Germany, we show that feeding and social activity occur at all studied wind turbines. At least seven bat species (accounting for 95% of German bat fatalities) perform song flight at wind turbines, a behavior related to mating and courtship, indicating that males may find wind turbines attractive for establishing mating territories. Male songs broadcast over considerable distances and could function as acoustic beacons attracting females to turbine sites. Analysis of 3D thermal detection shows that bat density is higher in the rotor swept zone than in the free air space surrounding turbines. This strongly suggests that bats actively approach turbines, possibly in search of mating, roosting and/or foraging opportunities.