Lone actor terrorists: a residence-to-crime approach

Although there has recently been a considerable increase in research into lone actor terrorism, one of the main areas that remains understudied is that of target selection. The lack of empirically driven studies that can guide prevention measures is a notable oversight. This paper applies methods fr...

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Bibliographic Details
Main Author: Marchment, Zoe (Author)
Contributors: Bouhana, Noémie ; Gill, Paul
Format: Electronic Article
Language:English
Published: 2020
In: Terrorism and political violence
Year: 2020, Volume: 32, Issue: 7, Pages: 1413-1438
Online Access: Presumably Free Access
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Keywords:
Lone actor terrorism
target selection
distance decay
Environmental Criminology
Description
Summary:Although there has recently been a considerable increase in research into lone actor terrorism, one of the main areas that remains understudied is that of target selection. The lack of empirically driven studies that can guide prevention measures is a notable oversight. This paper applies methods from environmental criminology to examine the residence-to-attack journeys of 122 lone terrorist acts in the U.S and Europe. The distance decay effect was evident, and significant differences were found between subgroups. Individuals were more likely to travel further if a) they were in the U.S, b) they had links to a wider network, c) they had a single-issue ideology, d) they attacked an iconic target, e) they attacked a symbolic building, or f) they used a bomb as their main weapon. A few case studies are discussed which highlight a need to conduct further research that considers the whole nodal network of an individual. The findings suggest that distance can be put forward as a constraining factor on lone actor target selection and provide support for the notion that the spatial decision making of terrorists is similar to traditional criminals.
Item Description:Gesehen am 18.01.2023
Published online: 18 Jul 2018
Physical Description:Diagramme
ISSN:1556-1836
DOI:10.1080/09546553.2018.1481050