Wind turbines kill mostly female and juvenile bats
Date:
December 13, 2021
Source:
Leibniz Institute for Zoo and Wildlife Research (IZW)
Summary:
Many bats die at wind turbines when colliding with the spinning
blades.
Currently it is unclear whether all age cohorts or sexes are
equally vulnerable. A comparison of age, sex and geographic origin
of Nathusius' pipistrelles killed at wind turbines and living
conspecifics from nearby populations now reveals that juveniles are
killed more frequently than adults compared to their proportion in
local populations. Females are killed more frequently than males --
yet in line with their higher proportion in local populations. The
high number of killed females and the elevated vulnerability of
juveniles may have a negative effect on the long-term survival of
populations, indicating that the current practice of wind energy
production may not be ecologically sustainable.
FULL STORY ==========================================================================
Many bats die at wind turbines when colliding with the spinning blades.
Currently it is unclear whether all age cohorts or sexes are equally vulnerable. A comparison of age, sex and geographic origin of Nathusius' pipistrelles killed at wind turbines and living conspecifics from nearby populations now reveals that juveniles are killed more frequently than
adults compared to their proportion in local populations. Females are
killed more frequently than males -- yet in line with their higher
proportion in local populations. The high number of killed females and
the elevated vulnerability of juveniles may have a negative effect on the long-term survival of populations, indicating that the current practice
of wind energy production may not be ecologically sustainable. The investigation was led by scientists from the Leibniz Institute for Zoo
and Wildlife Research (Leibniz-IZW) and is published in the scientific
journal Ecological Applications.
==========================================================================
In an effort to reduce the negative effects of CO2 emissions on global
climate, many countries are promoting energy production from renewable
sources such as wind. Although being considered environmentally friendly,
wind energy production comes at notable costs to biodiversity. First,
animal populations may suffer from habitat loss during wind turbine constructions in sensitive areas such as forests or wetlands. Second,
birds and bats may be killed by operating turbines, either by directly colliding with the rotating blades of turbines or -- in the case of bats
-- by a so-called barotrauma in the tailwind vortices of the spinning
blades. Until now, it was unclear whether some age cohort or sex of bats
may be particularly vulnerable to encounters with wind turbines. A higher vulnerability of, for example, female or juvenile bats might have strong conservation implications.
"In our comparative investigation we observed more juvenile Nathusius' pipistrelles (Pipistrellus nathusii) dead beneath wind turbines than
expected from their frequency in the local population, suggesting that
juvenile bats may be particularly vulnerable to encounters with wind
turbines," says Dr Christian Voigt, head of the Leibniz-IZW Department
of Evolutionary Ecology and senior author of the paper. "We found this significant bias at low wind turbine densities in areas with water
bodies and forests where Nathusius' pipistrelles breed. In areas with
high turbine densities such as in coastal regions, this difference
was no longer observed." A high vulnerability of juvenile Nathusius' pipistrelles at wind turbines may reduce juvenile recruitment and
thereby have detrimental effects on the population viability. Although
the proportion of females among the killed bats was not higher than in
the local population, Voigt and his team still consider the death of
female bats a conservation concern for the migratory bats. "Females and juveniles are extremely important for ensuring the long-time viability
of populations. Protecting juvenile and female bats from being killed
should be a high-priority goal for planning and operation of wind parks," concludes Voigt.
Voigt and his colleagues looked into the characteristics of about
650 individuals of Nathusius' pipistrelles bats during the summer
migration period in Germany. They statistically evaluated sex, age and geographic origin for both killed bats (119) and individuals from local populations (524) caught in nets or observed in artificial daytime
roosts. In order to distinguish regional bats from conspecifics
originating from Balto-Russian populations, they analysed stable
hydrogen isotopes in the fur of bats. "In contrast to sex and age,
the origin of a bat does not influence the likelihood of being
killed at wind turbines," says first author Ceci'lia Kruszynski de
Assis, doctoral student in the Leibniz-IZW Department of Evolutionary
Ecology. "However, our investigation demonstrates that wind turbines
can have uneven effects on migratory bats. Schemes to mitigate wind
turbine mortality, such as elevated cut-in speeds, should be implemented throughout Europe to prevent population declines of migratory bats." ========================================================================== Story Source: Materials provided by Leibniz_Institute_for_Zoo_and_Wildlife_Research_(IZW).
Note: Content may be edited for style and length.
========================================================================== Journal Reference:
1. Cecilia Kruszynski, Liam D. Bailey, Lothar Bach, Petra Bach, Marcus
Fritze, Oliver Lindecke, Tobias Teige, Christian C. Voigt. High
vulnerability of juvenile Nathusius' pipistrelle bats ( Pipistrellus
nathusii ) at wind turbines. Ecological Applications, 2021; DOI:
10.1002/ eap.2513 ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2021/12/211213094905.htm
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