Abstract
The OPTIPOL project - 'Optimal design and routing of power lines; ecological, technical and economic perspectives' - has been active for two years, although the main operational phase was delayed until autumn 2009. The overall OPTIPOL objective is to develop knowledge and tools to improve the decision on environmental friendly power-line routing. To achieve this goal the work is subdivided into 9 focal areas; Develop a 'least-cost path' GIS-based application for an environmental friendly routing of power lines based on ecological, financial and technological criteria; Assess habitat use of power-line Rights-of-Way (ROW) by different wildlife species, consider actions of improving power-line ROW as wildlife habitats, and evaluate possible positive and negative effects on wildlife of power-line ROWs. More specific we will examine how power-line ROW may offer suitable feeding grounds for moose and see if the species habitat selection is influenced by power line ROW; Assess population impact of bird mortality due to power-line collisions, relative to other human related mortality factors (primarily hunting) in gallinaceous birds (with capercaillie and black grouse as model species); Identify ecological high-risk factors for bird collisions, i.e. site-specific factors connected to topographic characteristics, including vegetation structure, season, weather and light conditions; Establish a national
More>>
Citation Formats
Bevanger, K, Bartzke, G, Broeseth, H, Gjershaug, J O, Hanssen, F, Jacobsen, K -O, Kvaloey, P, May, R, Meaas, R, Nygaard, T, Refsnaes, S, Stokke, S, and Vang, R.
Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL).
Norway: N. p.,
2010.
Web.
Bevanger, K, Bartzke, G, Broeseth, H, Gjershaug, J O, Hanssen, F, Jacobsen, K -O, Kvaloey, P, May, R, Meaas, R, Nygaard, T, Refsnaes, S, Stokke, S, & Vang, R.
Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL).
Norway.
Bevanger, K, Bartzke, G, Broeseth, H, Gjershaug, J O, Hanssen, F, Jacobsen, K -O, Kvaloey, P, May, R, Meaas, R, Nygaard, T, Refsnaes, S, Stokke, S, and Vang, R.
2010.
"Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL)."
Norway.
@misc{etde_1005098,
title = {Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL)}
author = {Bevanger, K, Bartzke, G, Broeseth, H, Gjershaug, J O, Hanssen, F, Jacobsen, K -O, Kvaloey, P, May, R, Meaas, R, Nygaard, T, Refsnaes, S, Stokke, S, and Vang, R}
abstractNote = {The OPTIPOL project - 'Optimal design and routing of power lines; ecological, technical and economic perspectives' - has been active for two years, although the main operational phase was delayed until autumn 2009. The overall OPTIPOL objective is to develop knowledge and tools to improve the decision on environmental friendly power-line routing. To achieve this goal the work is subdivided into 9 focal areas; Develop a 'least-cost path' GIS-based application for an environmental friendly routing of power lines based on ecological, financial and technological criteria; Assess habitat use of power-line Rights-of-Way (ROW) by different wildlife species, consider actions of improving power-line ROW as wildlife habitats, and evaluate possible positive and negative effects on wildlife of power-line ROWs. More specific we will examine how power-line ROW may offer suitable feeding grounds for moose and see if the species habitat selection is influenced by power line ROW; Assess population impact of bird mortality due to power-line collisions, relative to other human related mortality factors (primarily hunting) in gallinaceous birds (with capercaillie and black grouse as model species); Identify ecological high-risk factors for bird collisions, i.e. site-specific factors connected to topographic characteristics, including vegetation structure, season, weather and light conditions; Establish a national infrastructure for management of dead bird data (including birds re-corded as collision and electrocution victims) by developing an online web application enabling the general public to contribute with data on recorded dead birds via Internet; Review available literature to assess 1) the possibilities for increased collision hazard to birds by making power-line structures less visible for humans given the present knowledge on bird vision, and 2) technical properties and constraints of camouflaging techniques on conductors and earth wires; Review available literature on technical modifying solutions and assess their effectiveness to mitigate bird collisions and electrocution; Develop guidelines for technical solutions to mitigate power-line induced mortality to birds; Assess eagle owl mortality and population impact caused by power-line collision and electrocution, and identify high-hazard collision and electrocution structures; The work with a 'Least Cost Path' (LCP) tool for optimal routing of power lines has started and a pilot version of a 'LCP-GIS-toolbox' is ready and will be further developed in 2011. A main challenge will be to identify thematic areas and parameters and prepare these for a geo data-base. An expert panel will be appointed which will - under three workshops - identify agreed value criteria, and how these should be weighted. The work for making a LCP-GIS toolbox will start in June 2011. A 6km section of a 300kV transmission line, owned by Statnett, in Bangdalen (Namsos local authority) is selected for field work to collect data on the wildlife use of the clear-felled corridor. The data collection on habitat use is assisted by wildlife cameras. Although a particular focus is directed towards the moose, data on other species like red fox and mountain hare is obtained as well. To improve the basis for achieving optimal power-line routing that will reduce the bird collision it is important to identify areas involving a high collision hazard and the characteristics of them. Thus, it is imperative to understand what topographic and other environmental factors, e.g. vegetation structure, contributing to increased collision hazard. To achieve this existing dataset from other projects will be reanalyzed, and new data will be collected in connection to the field work in Ogndalen. The wachtel dog that was bought by the project in the autumn 2009 has now been trained for locating dead birds for more than a year and will assist during the efforts to find collided birds. This sub project will be prioritized in 2011. The aim of identifying species- and site-specific factors affecting the collision hazard is also the rationale behind the sub project aiming at activating the general public to assist in the data collection by reporting on dead birds found via Internet. Although a functional prototype of the database was finished in 2009, NINA addressed the possibilities to co-operate with The Norwegian Biodiversity Information Centre (NBIC) in early 2010. The NBIC already has a species observation portal - artsobservasjoner.no. - which has become a very popular web site and is accessed by several people contributing with hundreds of observations daily. The NBIC has to undertake some adjustments of the activity list for death causes have to be expanded. This operation was difficult to speed up, however, the NBIC have assured that the system will be functional at the end of 2010.}
place = {Norway}
year = {2010}
month = {Dec}
}
title = {Optimal design and routing of power lines; ecological, technical and economic perspectives (OPTIPOL)}
author = {Bevanger, K, Bartzke, G, Broeseth, H, Gjershaug, J O, Hanssen, F, Jacobsen, K -O, Kvaloey, P, May, R, Meaas, R, Nygaard, T, Refsnaes, S, Stokke, S, and Vang, R}
abstractNote = {The OPTIPOL project - 'Optimal design and routing of power lines; ecological, technical and economic perspectives' - has been active for two years, although the main operational phase was delayed until autumn 2009. The overall OPTIPOL objective is to develop knowledge and tools to improve the decision on environmental friendly power-line routing. To achieve this goal the work is subdivided into 9 focal areas; Develop a 'least-cost path' GIS-based application for an environmental friendly routing of power lines based on ecological, financial and technological criteria; Assess habitat use of power-line Rights-of-Way (ROW) by different wildlife species, consider actions of improving power-line ROW as wildlife habitats, and evaluate possible positive and negative effects on wildlife of power-line ROWs. More specific we will examine how power-line ROW may offer suitable feeding grounds for moose and see if the species habitat selection is influenced by power line ROW; Assess population impact of bird mortality due to power-line collisions, relative to other human related mortality factors (primarily hunting) in gallinaceous birds (with capercaillie and black grouse as model species); Identify ecological high-risk factors for bird collisions, i.e. site-specific factors connected to topographic characteristics, including vegetation structure, season, weather and light conditions; Establish a national infrastructure for management of dead bird data (including birds re-corded as collision and electrocution victims) by developing an online web application enabling the general public to contribute with data on recorded dead birds via Internet; Review available literature to assess 1) the possibilities for increased collision hazard to birds by making power-line structures less visible for humans given the present knowledge on bird vision, and 2) technical properties and constraints of camouflaging techniques on conductors and earth wires; Review available literature on technical modifying solutions and assess their effectiveness to mitigate bird collisions and electrocution; Develop guidelines for technical solutions to mitigate power-line induced mortality to birds; Assess eagle owl mortality and population impact caused by power-line collision and electrocution, and identify high-hazard collision and electrocution structures; The work with a 'Least Cost Path' (LCP) tool for optimal routing of power lines has started and a pilot version of a 'LCP-GIS-toolbox' is ready and will be further developed in 2011. A main challenge will be to identify thematic areas and parameters and prepare these for a geo data-base. An expert panel will be appointed which will - under three workshops - identify agreed value criteria, and how these should be weighted. The work for making a LCP-GIS toolbox will start in June 2011. A 6km section of a 300kV transmission line, owned by Statnett, in Bangdalen (Namsos local authority) is selected for field work to collect data on the wildlife use of the clear-felled corridor. The data collection on habitat use is assisted by wildlife cameras. Although a particular focus is directed towards the moose, data on other species like red fox and mountain hare is obtained as well. To improve the basis for achieving optimal power-line routing that will reduce the bird collision it is important to identify areas involving a high collision hazard and the characteristics of them. Thus, it is imperative to understand what topographic and other environmental factors, e.g. vegetation structure, contributing to increased collision hazard. To achieve this existing dataset from other projects will be reanalyzed, and new data will be collected in connection to the field work in Ogndalen. The wachtel dog that was bought by the project in the autumn 2009 has now been trained for locating dead birds for more than a year and will assist during the efforts to find collided birds. This sub project will be prioritized in 2011. The aim of identifying species- and site-specific factors affecting the collision hazard is also the rationale behind the sub project aiming at activating the general public to assist in the data collection by reporting on dead birds found via Internet. Although a functional prototype of the database was finished in 2009, NINA addressed the possibilities to co-operate with The Norwegian Biodiversity Information Centre (NBIC) in early 2010. The NBIC already has a species observation portal - artsobservasjoner.no. - which has become a very popular web site and is accessed by several people contributing with hundreds of observations daily. The NBIC has to undertake some adjustments of the activity list for death causes have to be expanded. This operation was difficult to speed up, however, the NBIC have assured that the system will be functional at the end of 2010.}
place = {Norway}
year = {2010}
month = {Dec}
}