Between the lines: Life cycle impact assessment models of collision and electrocution impacts of power lines on bird diversity in Norway

The expansion of the electric grid is inevitable. Renewable energy is on the rise, and new transmission lines must be built to link new electricity production facilities with the local network. In addition, higher electricity demand due to electrification will lead to the growth of the distribution...

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Bibliographic Details
Published in:Journal of industrial ecology 2024-06, Vol.28 (3), p.426-438
Main Authors: Gilad, Dafna, May, Roel, Stokke, Bård G., Verones, Francesca
Format: Article
Language:English
Subjects:
Biodiversity
Bird impact
Birds
characterization factors
Ecosystems
Electric power demand
Electric power distribution
Electric power generation
Electric power grids
Electricity
Electrocutions
energy system
Environmental impact
Evaluation
Geographical distribution
industrial ecology
Life cycle analysis
Life cycle assessment
Life cycles
potentially disappeared fraction of species
Power
Power lines
Renewable energy
Transmission lines
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Summary:The expansion of the electric grid is inevitable. Renewable energy is on the rise, and new transmission lines must be built to link new electricity production facilities with the local network. In addition, higher electricity demand due to electrification will lead to the growth of the distribution grid. However, further construction of power lines will affect the local biodiversity. Birds are especially vulnerable: every year, power lines cause the deaths of hundreds of millions of birds by collision and electrocution. Yet the environmental impacts of the electric grid in life cycle assessment (LCA) are limited to a few impact categories, failing to cover the area of protection for damages to ecosystem quality. We developed the first methodology to quantify power lines' collision and electrocution impacts on bird richness within LCA. We calculated the potentially disappeared fraction of species (PDF) by developing species–area relationships using high‐resolution species distribution maps, species‐specific characteristics, and the location of power lines and pylons. We applied our models to Norway, a country that aims to become a low‐emission nation by 2050. The characterization factors ranged between 8.48 × 10−16 and 5.6 × 10−15 PDF*yr/kWh for collision and 3.27 × 10−18 and 1.66 × 10−16 PDF*yr/kWh for electrocution. Integrating power lines’ impacts on biodiversity in LCA is essential, as harmonized models can estimate the effects of electricity production alongside the impacts of electricity distribution. This brings us a step further in promoting a holistic assessment of energy systems.
ISSN:1088-1980
1530-9290
DOI:10.1111/jiec.13488