Extremist ideology as a complex contagion: the spread of far-right radicalization in the United States between 2005 and 2017


ARTICLE

Extremist ideology as a complex contagion:
the spread of far-right radicalization in the United
States between 2005 and 2017
Mason Youngblood 1,2✉

Increasing levels of far-right extremist violence have generated public concern about the

spread of radicalization in the United States. Previous research suggests that radicalized

individuals are destabilized by various environmental (or endemic) factors, exposed to

extremist ideology, and subsequently reinforced by members of their community. As such,

the spread of radicalization may proceed through a social contagion process, in which

extremist ideologies behave like complex contagions that require multiple exposures for

adoption. In this study, I applied an epidemiological method called two-component spatio-

temporal intensity modeling to data from 416 far-right extremists exposed in the United

States between 2005 and 2017. The results indicate that patterns of far-right radicalization in

the United States are consistent with a complex contagion process, in which reinforcement is

required for transmission. Both social media usage and group membership enhance the

spread of extremist ideology, suggesting that online and physical organizing remain primary

recruitment tools of the far-right movement. In addition, I identified several endemic factors,

such as poverty, that increase the probability of radicalization in particular regions. Future

research should investigate how specific interventions, such as online counter-narratives to

battle propaganda, may be effectively implemented to mitigate the spread of far-right

extremism in the United States.

https://doi.org/10.1057/s41599-020-00546-3 OPEN

1 The Graduate Center, City University of New York, New York, NY 10017, USA. 2 Queens College, City University of New York, New York, NY 10017, USA.
✉email: myoungblood@gradcenter.cuny.edu

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Introduction

T
he far-right movement, which includes white supremacists,
neo-Nazis, and sovereign citizens, is the oldest and most
deadly form of domestic extremism in the United States

(Piazza, 2017; Simi and Bubolz, 2017). Despite some ideological
diversity, members of the far-right often advocate for the use of
violence to bring about an “idealized future favoring a particular
group, whether this group identity is racial, pseudo-national, or
characterized by individualistic traits” (National Consortium for
the Study of Terrorism and Responses to Terrorism (START),
University of Maryland, 2017). Over the last decade, the far-right
movement was responsible for 73.3% of all extremist murders in
the United States. In 2018, this statistic rose to 98% (The Anti-
Defamation League Center on Extremism, 2019). The increasing
severity of far-right extremist violence, as well as the associated
rhetoric on social media (Davey and Ebner, 2019; Winter, 2019),
has generated public concern about the spread of radicalization in
the United States. Former extremists have referred to it as a
public health issue (Allam, 2019; Bonn, 2019), an idea advocated
for by some policy experts as well (Sanir et al., 2017; Weine and
Eisenman, 2016).

There is little evidence that radicalization is primarily driven by
psychopathology (Misiak et al., 2019; Post, 2015; Webber and
Kruglanski, 2017). Rather, radicalization appears to be a process
in which individuals are destabilized by various environmental
factors, exposed to extremist ideology, and subsequently rein-
forced by members of their community (Becker, 2019; Jasko et al.,
2017; Jensen et al., 2018; Mills et al., 2019; Webber and Kru-
glanski, 2017). Even “lone wolves”, or solo actors, often interact
with extremist communities online (Holt et al., 2019; Kaplan
et al., 2014; Post, 2015). As such, radicalization may spread
through a social contagion process, in which extremist ideologies
behave like complex contagions that require multiple exposures
for adoption (Guilbeault et al., 2018), which has been observed
for political movements more broadly (González-Bailón et al.,
2011). Previous research suggests that extremist propaganda
(Ferrara, 2017), hate crimes (Braun, 2011; Braun and Koopmans,
2010), intergroup conflict (Buhaug and Gleditsch, 2008; Gelfand
et al., 2012), and terrorism (Cherif et al., 2009; LaFree et al., 2012;
Midlarsky et al., 1980; White et al., 2016) exhibit similar
dynamics.

The environmental factors favoring radicalization, referred to
here as endemic factors, include variables like poverty rate that
may influence an individual’s risk of adoption in particular
regions. As such, endemic factors have the potential to enhance or
constrain the spread of contagions through populations across
geographic space. Although significant research has been done on
how endemic factors predict radicalization (and resulting vio-
lence) (Goetz et al., 2012; LaFree and Bersani, 2014; McVeigh,
2004; Medina et al., 2018; Piazza, 2017), few studies have inves-
tigated how these factors interact with contagion processes. The
aim of this study is to determine whether patterns of far-right
radicalization in the United States are consistent with a contagion
process, and to assess the influence of critical endemic factors.
After controlling for population density, I assessed the following
endemic factors that have been implicated in previous research on
radicalization, extremism, and mass shootings: poverty rate
(Durso and Jacobs, 2013; Gale et al., 2002; Kwon and Cabrera,
2019b; Lin et al., 2018; Medina et al., 2018; Piazza, 2017; Sutt-
moeller et al., 2015, 2016, 2018), unemployment rate (Espiritu,
2004; Gale et al., 2002; Goetz et al., 2012; Green et al., 1998;
Jefferson and Pryor, 1999; Majumder, 2017; Pah et al., 2017;
Piazza, 2017), income inequality (Goetz et al., 2012; Kwon and
Cabrera, 2017, 2019a, b; Majumder, 2017; McVeigh, 2004;
McVeigh and Cunningham, 2012), education levels (Durso and
Jacobs, 2013; Espiritu, 2004; Florida, 2011; Gladfelter et al., 2017;

Kwon and Cabrera, 2017, 2019a; McVeigh et al., 2014), non-white
population size (Gladfelter et al., 2017; LaFree and Bersani, 2014;
McVeigh, 2004; Medina et al., 2018), violent crime rate (Glad-
felter et al., 2017; McVeigh and Cunningham, 2012; Sweeney and
Perliger, 2018), gun ownership (Anisin, 2018; Lin et al., 2018; Pah
et al., 2017; Reeping et al., 2019), hate groups per capita
(Adamczyk et al., 2014), and Republican voting (McVeigh et al.,
2014; Medina et al., 2018). Furthermore, I aim to determine
whether individual-level variables, such as social media use,
enhance the spread of far-right radicalization over space and
time. Social media platforms increasingly appear to play a role in
radicalization, both as formal recruitment tools (Aly et al., 2017;
Awan, 2017, Bertram, 2016; Wu, 2015) and spaces for extremist
communities to interact (Amble, 2012; Dean et al., 2012; Pauwels
et al., 2014; Winter, 2019). If social media platforms augment
physical organizing (Bowman-Grieve, 2009; Holt et al., 2016),
then they may also enhance the spread of radicalization.

Although social media platforms relax geographic constraints
on communication, evidence suggests that social media networks
still exhibit spatial clustering. For example, the majority of an
individual’s Facebook friends live within 100 miles of them
(Bailey et al., 2018), the probability of information diffusion on
social media decays with increasing distance (Liu et al., 2018), and
online echo chambers map onto particular locations (Bastos et al.,
2018). Since complex contagions require reinforcement, and the
majority of online friendship ties are within a close radius, the
diffusion of extremist ideologies online should still exhibit some
level of geographic bias. This idea is supported by evidence that
social media enhances physical organizing among extremists
(Bastug et al., 2018; Gill et al., 2017; von Behr et al., 2013), and
anecdotes of “self-radicalized” individuals using social media to
contact other extremists in their area (Holt et al., 2019).

In order to model the spread of far-right radicalization I used a
two-component spatio-temporal intensity (twinstim) model
(Meyer et al., 2017), an epidemiological method that treats events
in space and time as resulting from self-exciting point processes
(Reinhart, 2018). In this framework, future events depend on the
history of past events within a certain geographic range. Event
probabilities are determined by a conditional intensity function,
which is separated into endemic and epidemic components. This
allows researchers to assess the combined effects of both spatio-
temporal covariates and epidemic predictors. Epidemic, in this
framework, refers to any level of contagion effect and does not
necessarily imply uncontrollable spread. With a couple of notable
exceptions (Clark and Dixon, 2018; Zammit-Mangion et al.,
2012), previous applications of self-exciting point process models
in terrorism and mass shooting research have not simultaneously
modeled diffusion over both time and space (Collins et al., 2020;
Garcia-Bernardo et al., 2015; Johnson and Braithwaite, 2017;
Lewis et al., 2012; Porter and White, 2010; Tench et al., 2016;
Towers et al., 2015; White et al., 2013).

The radicalization events in this study, which correspond to
where and when a radicalized individual’s extremist activity or
plot was exposed, came from the Profiles of Individual Radicali-
zation in the United States (PIRUS), an anonymized database
compiled by the National Consortium for the Study of Terrorism
and Responses to Terrorism (START) (National Consortium for
the Study of Terrorism and Responses to Terrorism (START),
University of Maryland, 2017). PIRUS is compiled from sources
in the public record, and only includes individuals radicalized in
the United States who were either arrested, indicted, or killed as a
result of ideologically-motivated crimes, or were directly asso-
ciated with a violent extremist organization. I chose to use PIRUS
instead of the Terrorism and Extremist Violence in the United
States (TEVUS) database because events in PIRUS are

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disambiguated by individual and include social variables that may
influence the diffusion process.

A contagion effect in this modeling framework could result
from one of two forces. The first is a copy-cat effect, in which
individuals copy behaviors observed directly or in the media.
Although this effect has been proposed in terrorism and mass
shooting research in the past (Nacos, 2009; Towers et al., 2015), it
seems to be a more plausible contagion mechanism for specific
methods of violence (Helfgott, 2015) (e.g., suicide bombings
(Tominaga, 2018)) rather than radicalization more broadly. The
second is linkage triggered by activism and organizing, or
ideologically-charged events (e.g., elections, demonstrations,
policies), in that region. To differentiate between these two forces,
I included two sets of epidemic predictors in the modeling. The
first two event-level variables, plot success and anticipated fatal-
ities, might be expected to increase epidemic probability if a copy-
cat effect is present. This is because successful large-scale events
are probably more contagious due to increased media coverage
(Towers et al., 2015). Alternatively, the two individual-level
variables, group membership and social media use, might be
expected to increase epidemic probability if activism and orga-
nizing drive the linkage between events.

Methods
Data collection. All individual-level data came from PIRUS. Only
individuals with far-right ideology who were exposed during or
after 2005 (the earliest year with social media data) with location
data at the city-level or lower (n = 416; F: 6.0%, M: 94.0%) were
included (see Figs. 1 and 2). For each individual, the date and
location of their exposure (usually when their activity/plot
occurred), whether their plot was successful (34.9%), the antici-
pated fatalities of their plot (0: 69.5%, 1–20: 26.0%, >20:2.6%,
>100: 1.9%), whether they were a member of a formal or informal
group of extremists (58.4%), and whether social media played a
role in their radicalization (31.2%), were included. Unknown or
missing values for each predictor (plot success: 0.5%, anticipated
fatalities: 13.5%, group membership: 0%, social media: 54.8%)
were coded as 0. To ensure that the coding procedure for missing
predictor values did not introduce bias, I checked whether the
results of the full model were consistent after multiple imputation
with chained equations and random forest machine learning (see
Table S1). The location of each exposure was geocoded from the
nearest city or town using the R package ggmap (Kahle and
Wickham, 2013). Since domestic terrorists tend to commit acts in

their local area (Klein et al., 2017; Marchment et al., 2018; Smith
et al., 2008), I assumed that exposure locations reflect where
individuals were radicalized.

State-level gun ownership was estimated using a proxy measure
based on suicide rates and hunting licenses (Seigel et al., 2014).
Using data from 2001, 2002, and 2004 (the only three years for
which state-level gun ownership data is available), Seigel et al.
found that the following proxy correlates with gun ownership
with an R2 of 0.95:

0:62 � FS
S

� �
þ ð0:88 � HLÞ � 0:0448 ð1Þ

where FS/S is the proportion of suicides that involve firearms
(from the Centers for Disease Control and Prevention, or CDC),
and HL is hunting licenses per capita (from the United States Fish
and Wildlife Service) (Seigel et al., 2014). Missing suicide rates
(five years for DC, two years for Rhode Island) were replaced with
the mean values for that state. State-level hate group data was
collected from the Southern Poverty Law Center, while violent
crime data was collected from the Federal Bureau of Investiga-
tion’s Uniform Crime Reporting Program.

County-level demographic data was collected from the US
Census using the R package censusapi (Recht, 2019). This
included population density, poverty rate, Gini index of income
inequality, percentage of the population that is non-white,
percentage of the population that has at least a high-school
diploma, and unemployment rate. County-level income, race,
education, and unemployment data is only available after 2009, so
the 2010 data was used for 2005–2009. County-level presidential
election voting records were collected from the Massachusetts
Institute of Technology Election Lab, and non-election years were
assigned the data from the most recent election year.

Geographic data was collected from the US Census using the R
package tigris (Walker, 2019).

Model specification. Twinstim modeling was conducted using
the R package surveillance (Meyer et al., 2017). To convert the
data to a continuous spatio-temporal point process, all tied
locations and dates were shifted in a random direction up to half
of the minimum spatial and temporal distance between events
(1.52 km and 0.5 days, respectively) (Meyer and Held, 2014).

Step functions were used to model both spatial and temporal
interactions. Visual inspection of the pair correlation function for
the point pattern indicates that the data is significantly clustered
up to 400 km (see Supplementary Fig. 1). As such, the spatial step
function was split into four 100 km intervals with 400 km as the
maximum interaction radius (Nightingale et al., 2015). The
temporal step function was split into four six-month intervals up
to two years (based on the the high degree of variation in
radicalization and attack planning times among domestic
extremists (Bouhana et al., 2018; Silkoset, 2016; Smith and
Damphousse, 2009)). I attempted the analysis with different
combinations of power-law, Gaussian, and Student spatial
functions, and exponential temporal functions, but these varia-
tions converged to unrealistically steep spatial and temporal
interaction functions that approached zero around two km and
two days, and appeared to be significantly influenced by the tie-
breaking procedure (Meyer and Held, 2014).

Population density (county-level) was log-transformed and
used as an offset endemic term. A centered time trend was also
included to determine whether the strength of the endemic
component has shifted over time. Poverty rate (county-level),
Gini index of income inequality (county-level), gun ownership
(state-level), percentage of the population that is non-white
(county-level), percentage of the population that has at least a

Fig. 1 The number of far-right extremists exposed in the PIRUS database
between 2005 and 2017. Number of cases is on the left, and cumulative
number of cases is on the right.

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high-school diploma (county-level), unemployment rate (county-
level), percentage of voters that vote Republican in presidential
elections (county-level), violent crime rate per thousand residents
(state-level), and number of hate groups per million residents
(state-level) were included as dynamic endemic predictors that
change annually. Plot success, anticipated fatalities, group
membership, and social media radicalization were included as
epidemic predictors.

All possible models with all possible combinations of
predictors were run and ranked by Akaike’s Information
Criterion (AIC) (Burnham and Anderson, 2002). The best fitting
model with the lowest AIC was used to assess the effects of each
variable on event probability. Rate ratios were calculated by
applying exponential transformation to the model estimates.

Permutation test. To determine whether the spatio-temporal
interaction of the epidemic component was statistically sig-
nificant, I used the Monte Carlo permutation approach developed
by Meyer et al. (Meyer et al., 2016). Using this approach, a
twinstim model with all endemic predictors from the best fitting
model and no epidemic predictors was compared to 1000 per-
muted null models with randomly shuffled event times. For each
permutation I estimated the reproduction number (R0), or the
expected number of future events that an event triggers on
average, which represents “infectivity”. A p-value was calculated
by comparing the observed R0 with the null distribution of the
subset of permutations that converged.

For additional support, I also ran a likelihood ratio test and a
standard Knox test of spatio-temporal clustering. The Knox test
was conducted with spatial and temporal radii of 100 km and six
months (the upper bounds of the first steps in the step functions),
respectively (Knox and Bartlett, 1964).

Simulations. To further assess the quality of the model, I con-
ducted simulations from the cumulative intensity function using
Ogata’s modified thinning algorithm according to Meyer et al.
(2012). Using the parameters of the best fitting model, I con-
ducted 1,000 simulations of the last six months of the study
period and compared the results to the observed data.

Results
The results of the best fitting model (ΔAIC < 2), which included
seven endemic and two epidemic predictor variables, are shown

in Table 1. Firstly, there is a statistically significant time trend
whereby the endemic rate decreases by 4.6% each year, indicating
that the strength of the epidemic component has increased over
time. There appears to be a baseline increase in the endemic
component between 2008-2012 which likely corresponds to the
financial crisis (Funke et al., 2016), as well as a significant spike in
the epidemic component around 2016 which likely corresponds
to the presidential election (Giani and Meón, 2019; Rushin and
Edwards, 2018) (Fig. 3). There are also significant positive effects
of poverty rates (p < 0.01) and the presence of hate groups (p <
0.0001) on radicalization probability. Interestingly, the percentage
of voters that vote Republican in presidential elections (p <
0.0001), the percentage of the population that is non-white (p <
0.05), and unemployment rates (p < 0.0001) appear to have sig-
nificant negative effects on radicalization probability. Gun own-
ership, education level, and violent crime all have no significant
effect on radicalization probability. When Republican voting was
replaced with the absolute percent difference between Republican
and Democratic voting, a proxy measure for the competitiveness
of elections, it was no longer significant. A variance inflation
factor test identified no multicollinearity problems among the
time-averaged endemic predictors (VIF < 3) (Zuur et al., 2010).

Both group membership and radicalization via social media
have strong and significant positive effects on epidemic prob-
ability. Exposures of individuals who belong to formal or informal
extremist groups are over four times more likely to be followed by

Fig. 2 The untied locations of far-right extremists exposed in the PIRUS database between 2005 and 2017. The color of each county corresponds to its
log-transformed population density.

Table 1 The results of the twinstim modeling, with estimated
rate ratios (RR), Wald confidence intervals, and p-values.

RR 95% CI p-value

Time trend 0.946 0.91–0.98 0.0015
Poverty 1.052 1.02–1.09 0.0025
Unemployment 0.871 0.82–0.93 <0.0001
Republican voting 0.969 0.96–0.98 <0.0001
Non-white population 0.989 0.98–1.00 0.038
Education level 0.980 0.96–1.00 0.075
Hate groups 1.191 1.12–1.27 <0.0001
Violent crime 0.930 0.84–1.03 0.17

Group membership 4.563 1.57–13.28 0.0054
Social media 2.722 1.55–4.76 0.0005

Endemic predictors (including the overall time trend) are in the top portion of the table, whereas
epidemic predictors are in the bottom.

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future exposures in close spatial or temporal proximity (p < 0.01).
Similarly, exposures of individuals radicalized on social media are
almost three times as likely to be followed by future exposures
(p < 0.01). Anticipated fatalities and plot success did not appear in
the best fitting model. Estimates of the decaying spatial and
temporal interaction functions, as well as model diagnostics, can
be seen in Supplementary Figs. 2 and 3, respectively. A variance
inflation factor test identified no multicollinearity problems
among the epidemic predictors (VIF < 3) (Zuur et al., 2010).

Based on the permutation test, the observed R0 (0.31) is sig-
nificantly higher than the null distribution of the converged
permutations (Nconv = 739, p < 0.01) (Fig. 4). This indicates that
the spatio-temporal interaction in the epidemic model is sig-
nificant. Both the likelihood ratio test of the epidemic against the

endemic model (p < 0.0001) and the Knox test (p < 0.0001) sup-
port this result.

The results of the simulations can be seen in Figs. 5 and 6. On
average the simulations neatly match the observed cumulative
number of exposures between June 2017 and January 2018
(Fig. 5), indicating that the model accurately captures the tem-
poral dynamics in the data. Similarly, the model appears to do a
good job of capturing the spatial dynamics in the data, although it
is clearly weighted towards high population density areas (Fig. 6).

Discussion
By applying novel epidemiological methods to data on 416
extremists exposed between 2005 and 2017, this study provides
evidence that patterns of far-right radicalization in the United
States are consistent with a contagion process. Firstly, the esti-
mated reproduction number is significantly higher than those
from simulated null models, indicating that endemic causes alone
are not sufficient to explain the spatio-temporal clustering
observed in the data. The reproduction number for radicalization
(R0 = 0.31) is also lower than one, suggesting that extremist
ideologies behave like complex contagions that require reinfor-
cement for transmission. Fortunately, this means that extremist

Fig. 3 The total intensity (in black), as well as the isolated endemic
component (grey), over time. Total intensity can be interpreted as the
proportion of radicalization probability that is explained by the endemic and
epidemic components.

Fig. 4 The results of the Monte Carlo permutation test. The grey bars
show the null distribution of R0 from the 739 permutations that converged,
whereas the red dashed line shows the observed R0 (0.31) calculated from
the twinstim model.

Fig. 5 The cumulative number of exposures during the last six months of
the study period (red). The results of 1000 simulations are shown in grey.

Fig. 6 The exposure locations during the last six months of the study
period. The color gradient, ranging from blue (low) to yellow (high),
represents a Gaussian kernel density for the results of 1000 simulations
with a bandwidth of 200 km. The contour lines segment the kernel density
into 10 levels.

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ideologies are unlikely to spread uncontrollably through popu-
lations like seasonal influenza (R0 = 1.28) (Biggerstaff et al.,
2014), but outbreaks can occur under the right endemic and
epidemic conditions. For example, regions with higher rates of
poverty and hate group activity are more likely to experience far-
right extremism, whereas regions with a larger non-white popu-
lation, more Republican voting, and higher rates of unemploy-
ment are less likely to experience far-right extremism. Most
importantly, radicalizations involving extremist groups or social
media significantly increase the epidemic probability of future
radicalizations in the same location. This suggests that clusters of
radicalizations in space and time are driven by activism and
organizing rather than a copy-cat effect.

The fact that group membership significantly increases the
epidemic strength of events, and the presence of hate groups
significantly increases radicalization probability, suggests that
local organizing remains a potent recruitment tool of the far-right
movement. This idea is reflected in recent increases in rallies
across the country, such as “Unite the Right” in Charlottesville,
VA in August of 2017, that have been attended by regional
chapters of white nationalist and militia organizations. It also
suggests that concerns about typological “lone wolves” radicalized
over social media should not overshadow the persistent and
expanding far-right movement in the United States. Only 10.8%
of people in this study were radicalized on social media inde-
pendently of an extremist group, indicating that solo actors are
still the minority in the far-right movement. That being said, solo
actors radicalized on social media, such as Omar Mateen (Pulse
nightclub shooting in 2016) and Dylann Roof (Charleston church
shooting in 2015) (Holt et al., 2019), are typically deadlier than
group members in the United States (Phillips, 2017), and should
thus be the subject of much future research.

Radicalization on social media also significantly increases the
epidemic strength of events, indicating that social media plat-
forms augment physical organizing and that the diffusion of
extremist ideologies online is likely geographically biased. The
increasing role of social media in far-right extremism and radi-
calization is well established (Costello and Hawdon, 2018; Holt
et al., 2019; Lowe, 2019; Ottoni et al., 2018; Winter, 2019). Social
media platforms like Twitter provide extremist communities with
low cost access to large audiences that might not otherwise
engage with far-right content (Bertram, 2016; Wu, 2015). For
example, one report found that only 44% of people who follow
high-profile white nationalists on Twitter overtly express similar
ideologies (Berger and Strathearn, 2013). As mainstream plat-
forms clamp down on hate speech, extremist users have just
shifted their traffic to alternative sites such as 8chan and Gab
(Blackbourn et al., 2019; Hodge and Hallgrimsdottir, 2019).
Given the centrality of social media in far-right organizing, future
research should explore how counter-narratives (van Eerten et al.,
2017; Voogt, 2017) and other strategies could be used to fight the
spread of extremist ideologies online.

The results indicate that county-level poverty rates increase the
probability of far-right radicalization. While there is little to no
evidence that poverty predicts extremism at the state-level (Durso
and Jacobs, 2013; Gale et al., 2002; Lin et al., 2018; Piazza, 2017),
studies at the county-level have found that poverty predicts both
mass shooting rate (Kwon and Cabrera, 2019b) and hate groups
(presence (Medina et al., 2018) not longevity (Suttmoeller et al.,
2015, 2016, 2018)). This discrepancy between geographic reso-
lutions indicates that using state-level poverty data obscures local
variation. The results of this study also reveal a negative effect of
unemployment rate on radicalization, adding to the remarkably
contradictory evidence for links between unemployment and
extremism in the United States (Espiritu, 2004; Gale et al., 2002;
Goetz et al., 2012; Green et al., 1998, Jefferson and Pryor, 1999;

Majumder, 2017; Piazza, 2017). Although this result appears to be
counter-intuitive, I hypothesize that poverty and unemployment
may interact in driving radicalization. For example, individuals
from regions where jobs are plentiful but poverty remains high
may be the most disillusioned and susceptible to extremist
ideologies. Interestingly, income inequality did not appear in the
best fitting model, and had no significant effect when included.
This suggests that overall deprivation, as measured by poverty
rate, is more important in driving radicalization than inequality.
Previous studies that have found a positive impact of income
inequality on hate groups or crime either used state-level data
(Majumder, 2017), did not account for poverty rate (Goetz et al.,
2012; McVeigh, 2004), or combined income inequality with
poverty rate into a single index (McVeigh and Cunningham,
2012). Interestingly, both unemployment (Pah et al., 2017) and
income inequality (Kwon and Cabrera, 2017, 2019a, b) appear to
be strong predictors of mass shootings. Although this seems
paradoxical, the majority of mass shootings are not ideologically
driven (Capellan, 2015), so the socioeconomic drivers may be
different than for far-right radicalization.

Violent crime appears to have no influence on radicalization.
Although one study of the Ku Klux Klan found that high levels of
far-right activity can increase homicide rates in the long-term
(McVeigh and Cunningham, 2012), there is little evidence that
violent crime rates drive increases in extremist violence or radi-
calization (Sweeney and Perliger, 2018). Hate crime is only very
weakly correlated with violent crime (Gladfelter et al., 2017), and
extremist violence is even more rare (LaFree and Dugan, 2009), so
they are likely driven by different factors.

Previous studies have found strong evidence for a negative
relationship between education and hate crime rates (Espiritu,
2004; Gladfelter et al., 2017), a positive relationship between
education and mass shooting rates (Kwon and Cabrera,
2017, 2019a), and no evidence for a relationship between edu-
cation and hate group organizing (Durso and Jacobs, 2013;
Florida, 2011; McVeigh et al., 2014). The results of this study are
consistent with the latter category, which makes sense given that
the majority of the plots in the dataset were non-violent.

The negative effect of Republican voting on event probability
could be because individuals on the far-right of the political
spectrum who live in counties with more Democratic voters may
feel more partisan hostility (Miller and Conover, 2015). Inter-
estingly, this effect does not appear to be the result of more
competitive elections (Suttmoeller et al., 2015), as the absolute
difference between Republican and Democratic voting did not
significantly influence event probability. Alternatively, the nega-
tive effect of Republican voting may be due to the fact that many
of the rural counties that lean heavily Republican have low
population densities and no recent history of extremist violence.
A previous study that found mixed evidence for a positive
influence of Republican voting on the presence of hate groups
excluded counties without hate groups from the modeling, which
may have eliminated this skew effect (Medina et al., 2018).

The fact that the percentage of the population that is non-white
negatively predicts far-right extremist violence is consistent with
the intergroup contact hypothesis, which suggests that prolonged
contact between racial groups reduces conflict under certain
conditions (Allport, 1954). Although other researchers have
suggested that population heterogeneity increases far-right radi-
calization (McVeigh, 2004), the only study to find evidence of this
in the United States did not explicitly account for population
density (LaFree and Bersani, 2014). Other studies controlling for
population density have found that both anti-black hate crimes
and hate groups appear to be more common in white dominated,
racially homogeneous areas (Gladfelter et al., 2017; Medina et al.,
2018). Despite mixed evidence for the intergroup contact

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hypothesis, it is widely accepted that community diversity and
tolerance is key to fighting radicalization and extremist violence
globally (Ellis and Abdi, 2017; Ercan, 2017; Gunaratna et al.,
2013; Hoffman et al., 2018; Southern Poverty Law Center, 2017;
United Nations Development Programme, 2016).

Gun ownership does not predict radicalization in this model,
which is unsurprising since only 30.5% of people in this study
planned on committing fatal attacks but interesting given the
centrality of gun control in debates following mass shootings in
the United States (Joslyn and Haider-Markel, 2017; Luca et al.,
2020; Pierre, 2019). Despite strong evidence that gun ownership is
linked to mass shooting rates at the national-level (Reeping et al.,
2019), evidence for same pattern at the state-level remains mixed.
Previous studies have found that it either positively predicts mass
shootings overall (Reeping et al., 2019), when combined with
particular gun control laws (Anisin, 2018), or not at all (Lin et al.,
2018; Pah et al., 2017). Unfortunately, CDC funding for research
on gun ownership was restricted by Congress in 1996 after lob-
bying by the National Rifle Association, so potential links
between extremist violence and gun ownership remain under-
studied (DeFoster and Swalve, 2018; Lemieux, 2014; Morall, 2018;
Winker et al., 2016).

Several limitations of this study should be highlighted. Firstly,
the PIRUS database only represents a subset of radicalized indi-
viduals in the United States. The creators of the database used
random sampling to maximize its representativeness over dif-
ferent time periods, but there remains a possibility of spatial or
temporal bias in the original data due to underreporting by vic-
tims and law enforcement effort (DiIulio, 1996). Instances of hate
crime are notoriously underreported relative to other forms of
crime (Pezzella et al., 2019), because victims often fear retaliation
or mistrust the police (Pezzella, 2017; Weiss et al., 2016; Wong
and Christmann, 2016). There is also a great deal of variation in
hate crime training among police departments, and the personal
beliefs of individual officers can influence whether or not
instances are reported (Boyd et al., 1996; Pezzella, 2017). Both of
these factors are likely to be more pronounced in areas with
legacies of far-right extremist violence, and historical crossover
between far-right groups and the police (Barnes, 1996; Johnson,
2019; Rowe, 1976). In addition, the geographic locations of events
are only geocoded to the city-level, potentially enhancing the
spatial clustering of the data. Furthermore, social media data were
missing for a significant number of individuals (54.8%). The
significance level of the estimate for social media usage is extre-
mely low and robust to imputation, indicating that it likely
reflects a real effect, but researchers should exercise caution when
interpreting this result (Safer-Lichtenstein et al., 2017). Lastly, the
spatial resolution of three of the endemic predictors was limited
to the state-level, which may have flattened some important local
variation. One of these variables, gun ownership, was also a proxy
measure. Policymakers should release historical restrictions on
research funding for gun violence and hate crime research to
improve data resolution for future studies.

In conclusion, far-right radicalization in the United States
appears to spread through populations like a complex contagion.
Both social media usage and group membership enhance the
contagion process, indicating that online and physical organizing
remain primary recruitment tools of the far-right movement. In
addition, far-right radicalization is more likely in Democrat-
majority regions with high poverty and low unemployment, fewer
non-white people, and more hate group activity. While the federal
government has acknowledged the threat of far-right extremism
(The Department of Homeland Security, 2019), funding for
organizations researching or fighting the movement has
decreased in recent years (O’Toole, 2019). Based on the results of

this study, I recommend that policymakers reconsider their
funding priorities to address the expanding far-right extremist
movement in the United States. Future research should investi-
gate how specific interventions, such as online counter-narratives
to battle propaganda, may be effectively implemented to mitigate
the spread of extremist ideology.

Data availability
All data used in the study are available online either publicly or
upon request from PIRUS. The R code used in the study is
available on Harvard Dataverse: https://doi.org/10.7910/DVN/
WPYCKJ

Received: 29 April 2020; Accepted: 9 July 2020;

References
Adamczyk A, Gruenewald J, Chermak SM, Freilich JD (2014) The relationship

between hate groups and far-right ideological violence. J Contemp Crim
Justice 30(3):310–332

Allam H (2019) ‘We were blindsided’: families of extremists form group to fight
hate. National Public Radio (12)

Allport G (1954) The nature of prejudice. Addison-Wesley, Cambridge
Aly A, Macdonald S, Jarvis L, TM Chen (2017) Introduction to the special issue:

terrorist online propaganda and radicalization. Stud Confl Terror 40(1):1–9
Amble JC (2012) Combating terrorism in the new media environment. Stud Confl

Terror 35(5):339–353
Anisin A (2018) A configurational analysis of 44 US mass shootings: 1975-2015. Int

J Comparat Appl Criminal Justice 42(1):55–73
Awan I (2017) Cyber-extremism: Isis and the power of social media. Society 54

(2):138–149
Bailey M, Cao R, Kuchler T, Stroebel J, Wong A (2018) Social connectedness:

measurement, determinants, and effects. J Econ Perspect 32(3):259–280
Barnes RD (1996) Blue by day and white by (k)night: regulating the political

affiliations of law enforcement and military personnel. Iowa Law Rev
81:1079

Bastos M, Mercea D, Baronchelli A (2018) The geographic embedding of online
echo chambers: evidence from the Brexit campaign. PLoS ONE 13(11):1–16

Bastug M, Douai A, Akca D (2018) Exploring the "demand side” of online radi-
calization: evidence from the Canadian context. Stud Confl Terror. https://
doi.org/10.1080/1057610X.2018.1494409

Becker MH (2019) When extremists become violent: examining the association
between social control, social learning, and engagement in violent extremism.
Stud Confl Terror. https://doi.org/10.1080/1057610X.2019.1626093

Berger JM, Strathearn B (2013) Who matters online: measuring influence, evalu-
ating content and countering violent extremism in online social networks.
The International Centre for the Study of Radicalisation and Political Vio-
lence. https://bit.ly/35lvqby

Bertram L (2016) Terrorism, the Internet, and the Social Media Advantage:
Exploring how terrorist organizations exploit aspects of the internet, social
media and how these same platforms could be used to counter-violent
extremism. J Deradical 7:225–252

Biggerstaff M, Cauchemez S, Reed C, Gambhir M, Finelli L (2014) Estimates of the
reproduction number for seasonal, pandemic, and zoonotic influenza: a
systematic review of the literature BMC Infect Dis 14:480

Blackbourn J, McGarrity N, Roach K (2019) Understanding and responding to
right wing terrorism. J Polic Intell Count Terror 14(3):183–190

Bonn T (2019) Former extremists call for violent extremism to be treated as public
health issue. The Hill (9)

Bouhana N, Corner E, Gill P, Schuurman B (2018) Background and preparatory
behaviours of right-wing extremist lone actors: a comparative study. Perspect
Terror 12(6):150–163

Bowman-Grieve L (2009) Exploring stormfront: a virtual community of the radical
right. Stud Confl Terror 32(11):989–1007

Boyd EA, Berk RA, Hamner KM (1996) "Motivated by hatred or prejudice”:
categorization of hate-motivated crimes in two police divisions. Law Soc Rev
30(4):819–850

Braun R (2011) The diffusion of racist violence in the Netherlands: discourse and
distance. J Peace Res 48(6):753–766

Braun R, Koopmans R (2010) The diffusion of ethnic violence in Germany: the role
of social similarity. Eur Sociol Rev 26(1):111–123

HUMANITIES AND SOCIAL SCIENCES COMMUNICATIONS | https://doi.org/10.1057/s41599-020-00546-3 ARTICLE

HUMANITIES AND SOCIAL SCIENCES COMMUNICATIONS |            (2020) 7:49 | https://doi.org/10.1057/s41599-020-00546-3 7

https://doi.org/10.7910/DVN/WPYCKJ
https://doi.org/10.7910/DVN/WPYCKJ
https://doi.org/10.1080/1057610X.2018.1494409
https://doi.org/10.1080/1057610X.2018.1494409
https://doi.org/10.1080/1057610X.2019.1626093
https://bit.ly/35lvqby


Buhaug H, Gleditsch KS (2008) Contagion or confusion? why conflicts cluster in
space. Int Stud Q 52(2):215–233

Burnham KP, Anderson DR (2002) Model selection and multimodel inference: a
practical information-theoretic approach. Springer, New York

Capellan JA (2015) Lone wolf terrorist or deranged shooter? a study of ideological
active shooter events in the United States, 1970-2014. Stud Confl Terror 38
(6):395–413

Cherif A, Yoshioka H, Ni W, Bose P (2009) Terrorism: mechanisms of radicali-
zation processes, control of contagion and counter-terrorist measures. Pre-
print at arXiv: 0910.5272

Clark NJ, Dixon PM (2018) Modeling and estimation for self-exciting spatio-
temporal models of terrorist activity. Ann Appl Stat 12(1):633–653

Collins B, Hoang DT, Yoon HJ, Nguyen NT, Hwang D (2020) A survey on
forecasting models for preventing terrorism. In: Advanced computational
methods for knowledge engineering. Springer, Cham, pp 323–334

Costello M, J Hawdon (2018) Who are the online extremists among us? socio-
demographic characteristics, social networking, and online experiences of
those who produce online hate materials. Violence Gender 5(1):55–60

Davey J, Ebner J (2019) ‘The great replacement’: the violent consequences of
mainstreamed extremism. Institute for Strategic Dialogue. https://bit.ly/
2yXdl7h

Dean G, Bell P, Newman J (2012) The dark side of social media: review of online
terrorism. Pak J Criminol 3(3):107–126

DeFoster R, Swalve N (2018) Guns, culture or mental health? framing mass
shootings as a public health crisis. Health Commun 33(10):1211–1222

DiIulio JJ (1996) Help wanted: economists, crime and public policy. J Econ Per-
spect 10(1):3–24

Durso RM, Jacobs D (2013) The determinants of the number of white supremacist
groups: a pooled time-series analysis. Soc Probl 60(1):128–144

Ellis BH, Abdi S (2017) Building community resilience to violent extremism
through genuine partnerships. Am Psychol 72(3):289–300

Ercan SA (2017) Engaging with extremism in a multicultural society: a deliberative
democratic approach. J Peacebuild Dev 12(2):9–21

Espiritu A (2004) Racial diversity and hate crime incidents. Soc Sci J 41(2):197–208
Ferrara E (2017) Contagion dynamics of extremist propaganda in social networks.

Inf Sci 418-419:1–12
Florida R (2011) The geography of hate. The Atlantic (5)
Funke M, Schularick M, Trebesch C (2016) Going to extremes: politics after

financial crises, 1870-2014. Eur Econ Rev 88(2011):227–260
Gale LR, Heath WC, Ressler RW (2002) An economic analysis of hate crime. East

Econ J 28(2):203–216
Garcia-Bernardo J, Qi H, Shultz JM, Cohen AM, Johnson NF, Dodds PS (2015)

Social media affects the timing, location, and severity of school shootings.
Preprint at arXiv: 1506.06305

Gelfand M, Shteynberg G, Lee T, Lun J, Lyons S, Bell C, Chiao JY, Bruss CB,
Dabbagh MA, Aycan Z, Abdel-Latif AH, Dagher M, Khashan H, Soomro N
(2012) The cultural contagion of conflict. Philos Trans R Soc B 367
(1589):692–703

Giani M, Meón PG (2019) Global racist contagion following Donald Trump’s
election. Br J Polit Sci. https://doi.org/10.1017/S0007123419000449

Gill P, Corner E, Conway M, Thornton A, Bloom M, Horgan J (2017) Terrorist use
of the internet by the numbers: quantifying behaviors, patterns, and pro-
cesses. Criminol Public Policy 16(1):99–117

Gladfelter AS, Lantz B, Ruback RB (2017) The complexity of hate crime and bias
activity: variation across contexts and types of bias. Justice Q 34(1):55–83

Goetz SJ, Rupasingha A, Loveridge S (2012) Social capital, religion, Wal-Mart, and
hate groups in America. Soc Sci Q 93(2):379–393

González-Bailón S, Borge-Holthoefer J, Rivero A, Moreno Y (2011) The dynamics
of protest recruitment through an online network. Sci Rep 1(197):1–7

Green DP, Glaser J, Rich A (1998) From lynching to gay bashing: the elusive
connection between economic conditions and hate crime. J Pers Soc Psychol
75(1):82–92

Guilbeault D, Becker J, Centola D (2018) Complex contagions: a decade in review.
In: Complex spreading phenomena in social systems. Springer, Cham, pp
3–25

Gunaratna R, Jerard J, Nasir SM (2013) Countering extremism: building social
resilience through community engagement. Imperial College Press, London

Helfgott JG (2015) Criminal behavior and the copycat effect: literature review and
theoretical framework for empirical investigation. Aggress Violent Behav
22:46–64

Hodge E, Hallgrimsdottir H (2019) Networks of hate: the alt-right, “troll culture”,
and the cultural geography of social movement spaces online. J Borderl Stud
https://doi.org/10.1080/08865655.2019.1571935

Hoffman AJ, Alamilla S, Liang B (2018) The role of community development in
reducing extremism and ethnic conflict. Palgrave MacMillan, Cham

Holt TJ, Freilich JD, Chermak SM (2016) Internet-based radicalization as encul-
turation to violent deviant subcultures. Deviant Behav 38(8):855–869

Holt TJ, Freilich JD, Chermak SM, Mills C, Silva J (2019) Loners, colleagues, or
peers? assessing the social organization of radicalization. Am J Crim Justice
44(1):83–105

Jasko K, LaFree G, Kruglanski A (2017) Quest for significance and violent extre-
mism: the case of domestic radicalization. Polit Psychol 38(5):815–831

Jefferson PN, Pryor FL (1999) On the geography of hate. Econ Lett 65(3):389–395
Jensen MA, Seate AA, James PA (2018) Radicalization to violence: a pathway

approach to studying extremism. Terror Polit Violence. https://doi.org/
10.1080/09546553.2018.1442330

Johnson VB (2019) KKK in the PD: white supremacist police and what to do about
it. Lewis Clark Law Rev 23(1):205–261

Johnson SD, Braithwaite A (2017) Spatial and temporal analysis of terrorism and
insurgency. In: The handbook of the criminology of terrorism. Wiley,
Hoboken, pp 232–243

Joslyn MR, Haider-Markel DP (2017) Gun ownership and self-serving attributions
for mass shooting tragedies. Soc Sci Q 98(2):429–442

Kahle D, Wickham H (2013) ggmap: spatial visualization with ggplot2. R J 5(1):
144–161

Kaplan J, Lööw H, L Malkki (2014) Introduction to the special issue on lone wolf
and autonomous cell terrorism. Terror Polit Violence 26(1):1–12

Klein BR, Gruenewald J, Smith BL (2017) Opportunity, group structure, temporal
patterns, and successful outcomes of far-right terrorism incidents in the
United States. Crime Delinq 63(10):1224–1249

Knox EG, Bartlett MS (1964) The detection of space-time interactions. J Royal Stat
Soc C 13(1):25–30

Kwon R, Cabrera JF (2017) Socioeconomic factors and mass shootings in the
United States. Crit Public Health 28(2):138–145

Kwon R, Cabrera JF (2019a) Income inequality and mass shootings in the United
States. BMC Public Health 19:1147

Kwon R, Cabrera JF (2019b) Social integration and mass shootings in U.S. counties.
J Crime Justice 42(2):121–139

LaFree G, Bersani BE (2014) County-level correlates of terrorist attacks in the
United States. Criminol Public Policy 13(3):455–481

LaFree G, Dugan L (2009) Tracking global terrorism trends, 1970-2004. In: To
protect and to serve: policing in an age of terrorism. Springer, New York, pp
43–80

LaFree G, Dugan L, Xie M, P Singh (2012) Spatial and temporal patterns of
terrorist attacks by ETA 1970 to 2007. J Quant Criminol 28(1):7–29

Lemieux F (2014) Effect of gun culture and firearm laws on gun violence and mass
shootings in the United States: a multi-level quantitative analysis. Int J Crim
Justice Sci 9(1):74–93

Lewis E, Mohler G, Brantingham PJ, Bertozzi AL (2012) Self-exciting point process
models of civilian deaths in Iraq. Security J 25(3):244–264

Lin PI, Fei L, Barzman D, Hossain M (2018) What have we learned from the time
trend of mass shootings in the U.S.? PLoS ONE 13(10):1–13

Liu L, Chen B, Ai C, He L, Wang Y, Qiu X, Lu X (2018) The influence of
geographic factors on information dissemination in mobile social networks in
China: evidence from WeChat. ISPRS Int J Geoinf 7(5):1–16

Lowe D (2019) The Christchurch terrorist attack, the far-right, and social media:
what can we Learn? The New Jurist (4)

Luca M, Malhotra D, Poliquin C (2020) The impact of mass shootings on gun
policy. J Public Econ 181:104083

Majumder M (2017) Higher rates of hate crimes are tied to income inequality.
FiveThirtyEight (1)

Marchment Z, Bouhana N, Gill P (2018) Lone actor terrorists: a residence-to-crime
approach. Terror Political Violence. https://doi.org/10.1080/09546553.
2018.1481050

McVeigh R (2004) Structured ignorance and organized racism in the United States.
Soc Forces 82(3):895–936

McVeigh R, Cunningham D (2012) Enduring consequences of right-wing extre-
mism: Klan mobilization and homicides in southern counties. Soc Forces
90(3):843–862

McVeigh R, Cunningham D, Farrell J (2014) Political polarization as a social
movement outcome: 1960s Klan activism and its enduring impact on political
realignment in southern counties, 1960 to 2000. Am Sociol Rev 79(6):
1144–1171

Medina RM, Nicolosi E, Brewer S, Linke AM (2018) Geographies of organized hate
in America: a regional analysis. Ann Am Assoc Geogr 108(4):1006–1021

Meyer S, Elias J, Höhle M (2012) A space-time conditional intensity model for
invasive meningococcal disease occurrence. Biometrics 68(2):607–616

Meyer S, Held L (2014) Power-law models for infectious disease spread. Ann Appl
Stat 8(3):1612–1639

Meyer S, Held L, Höhle M (2017) Spatio-temporal analysis of epidemic phenomena
using the R package surveillance. J Stat Softw 77(11):1–55

Meyer S, Warnke I, Rössler W, Held L (2016) Model-based testing for space-time
interaction using point processes: an application to psychiatric hospital
admissions in an urban area. Spat Spatio-Temporal Epidemiol 17:15–25

ARTICLE HUMANITIES AND SOCIAL SCIENCES COMMUNICATIONS | https://doi.org/10.1057/s41599-020-00546-3

8 HUMANITIES AND SOCIAL SCIENCES COMMUNICATIONS |            (2020) 7:49 | https://doi.org/10.1057/s41599-020-00546-3

https://bit.ly/2yXdl7h
https://bit.ly/2yXdl7h
https://doi.org/10.1017/S0007123419000449
https://doi.org/10.1080/08865655.2019.1571935
https://doi.org/10.1080/09546553.2018.1442330
https://doi.org/10.1080/09546553.2018.1442330
https://doi.org/10.1080/09546553.2018.1481050
https://doi.org/10.1080/09546553.2018.1481050


Midlarsky MI, Crenshaw M, Yoshida F (1980) Why violence spreads: the contagion
of international terrorism. Int Stud Q 24(2):262–298

Miller PR, Conover PJ (2015) Red and blue states of mind: partisan hostility and
voting in the United States. Polit Res Q 68(2):225–239

Mills CE, Freilich JD, Chermak SM, Holt TJ, LaFree G (2019) Social learning and
social control in the off- and online pathways to hate crime and terrorist
violence. Stud Confl Terror. https://doi.org/10.1080/1057610X.2019.1585628

Misiak B, Samochowiec J, Bhui K, Schouler-Ocak M, Demunter H, Kuey L, Raballo
A, Gorwood P, Frydecka D, Dom G (2019) A systematic review on the
relationship between mental health, radicalization and mass violence. Eur
Psychiatry 56:51–59

Morall A (2018) The science of gun policy: a critical synthesis of research evidence
on the effects of gun policies in the united states. RAND Health Quart 8:1

Nacos BL (2009) Revisiting the contagion hypothesis: terrorism, news coverage,
and copycat attacks. Perspect Terror 3(3):3–13

National Consortium for the Study of Terrorism and Responses to Terrorism
(START), University of Maryland (2017). Profiles of Individual Radicaliza-
tion in the United States (PIRUS). https://bit.ly/2yWtmu8

Nightingale GF, Laland KN, Hoppitt W, Nightingale P (2015) Bayesian spatial
NBDA for diffusion data with home-base coordinates. PLoS ONE 10(7):
e0130326

O’Toole M (2019) Trump officials have redirected resources from countering far-
right, racism-fueled domestic terrorism. Los Angeles Times (8)

Ottoni R, Bernardina P, Cunha E, Meira W, Magno G, Almeida V (2018) Ana-
lyzing right-wing YouTube channels: hate, violence and discrimination. In:
WebSci 2018 Proceedings of the 10th ACM Conference On Web Science,
Amsterdam, pp 323–332

Pah AR, Hagan J, Jennings AL, Jain A, Albrecht K, Hockenberry AJ, Amaral LA
(2017) Economic insecurity and the rise in gun violence at US schools. Nat
Hum Behav 1(2):2–7

Pauwels L, Brion F, Schils N, Laffineur J, Verhage A, de Ruyver B, Easton M (2014)
Explaining and understanding the role of exposure to new social media in
violent extremism: an integrative quantitative and qualitative approach.
Academia Press, Gent

Pezzella FS (2017) Hate crime statutes: a public policy and law enforcement
dilemma. Springer, New York

Pezzella FS, Fetzer MD, Keller T (2019) The dark figure of hate crime under-
reporting. Am Behav Sci. https://doi.org/10.1177/0002764218823844

Phillips BJ (2017) Deadlier in the U.S.? on lone wolves, terrorist groups, and attack
lethality. Terror Polit Violence 29(3):533–549

Piazza JA (2017) The determinants of domestic right-wing terrorism in the USA:
economic grievance, societal change and political resentment. Confl Manag
Peace Sci 34(1):52–80

Pierre JM (2019) The psychology of guns: risk, fear, and motivated reasoning. Pal
Commun 5(1):1–7

Porter MD, White G (2010) Self-exciting hurdle models for terrorist activity. Ann
Appl Stat 4(1):106–124

Post JM (2015) Terrorism and right-wing extremism: the changing face of ter-
rorism and political violence in the 21st century: the virtual community of
hatred. Int J Group Psychoth 65(2):242–271

Recht H (2019) censusapi: retrieve data from the census APIs. R package version
0.6.0

Reeping PM, Cerdá M, Kalesan B, Wiebe DJ, Galea S, Branas CC (2019) State gun
laws, gun ownership, and mass shootings in the US: cross sectional time
series. BMJ 364:1542

Reinhart A (2018) A review of self-exciting spatio-temporal point processes and
their applications. Stat Sci 33(3):299–318

Rowe G (1976) My undercover years with the Ku Klux Klan. Bantam Books, New
York

Rushin S, Edwards GS (2018) The effect of President Trump’s election on hate
crimes. SSRN Electronic Journal. https://doi.org/10.2139/ssrn.3102652

Safer-Lichtenstein A, LaFree G, Loughran T (2017) Studying terrorism empirically:
what we know about what we donat know. J Contemp Crim Justice 33(3):
273–291

Sanir J, Nicholson A, Giammaria C (2017) Countering violent extremism through
public health practice: proceedings of a workshop. In: Forum on medical and
public health preparedness for disasters and emergencies. The National
Academies Press, Washington, DC

Seigel M, Ross C, King C (2014) A new proxy measure for state-level gun own-
ership in studies of firearm injury prevention. Inj Prev 20(3):204–207

Silkoset E (2016) Lone-actor terrorists: how long does it take to plan a terrorist
attack? Dissertation, University College of London

Simi P, Bubolz BF (2017) Far right terrorism in the United States. In: The hand-
book of the criminology of terrorism, Wiley, Hoboken. pp 297–309

Smith BL, Cothren J, Roberts P, Damphousse KR (2008) Geospatial analysis of
terrorist activities: the identification of spatial and temporal patterns of

preparatory behavior of international and environmental terrorists. Terror-
ism Research Center in Fulbright College, University of Arkansas. https://bit.
ly/2SibIIc

Smith BL, Damphousse KR (2009) Patterns of precursor behaviors in the life span
of a U.S. environmental terrorist group. Criminol Public Policy 8(3):475–496

Southern Poverty Law Center (2017) Ten ways to fight hate: a community resource
guide. https://bit.ly/35j4TLN

Suttmoeller M, Chermak S, Freilich JD (2015) The influence of external and
internal correlates on the organizational death of domestic far-right extremist
groups. Stud Confl Terror 38(9):734–758

Suttmoeller MJ, Chermak SM, Freilich JD (2016) Only the bad die young: the
correlates of organizational death for far-right extremist groups. Stud Confl
Terror 39(6):477–499

Suttmoeller MJ, Chermak SM, Freilich JD (2018) Is more violent better? the impact
of group participation in violence on group longevity for far-right extremist
groups. Stud Confl Terror 41(5):365–387

Sweeney MM, Perliger A (2018) Explaining the spontaneous nature of far-right
violence in the United States. Perspect Terror 12(6):52–71

Tench S, Fry H, Gill P (2016) Spatio-temporal patterns of IED usage by the
Provisional Irish Republican Army. Eur J Appl Math 27(3):377–402

The Anti-Defamation League Center on Extremism (2019) Murder and extremism
in the United States in 2018. https://bit.ly/2VLy5If

The Department of Homeland Security (2019) Strategic framework for countering
terrorism and target violence. https://bit.ly/2xhCCsB

Tominaga Y (2018) Thereas no place like home! examining the diffusion of suicide
attacks through terrorist group locations. Appl Spat Anal Policy 11(2):
355–379

Towers S, Gomez-Lievano A, Khan M, Mubayi A, Castillo-Chavez C (2015)
Contagion in mass killings and school shootings. PLoS ONE 10(7):
e0117259

United Nations Development Programme (2016) Preventing violent extremism
through promoting inclusive development, tolerance and respect for diver-
sity. https://bit.ly/2KJzxVa

van Eerten JJ, Doosje B, Konijn E, de Graaf B, de Goede M (2017) Developing a
social media response to radicalization: the role of counter-narratives in
prevention of radicalization and de-radicalization. Wetenschappelijk
Onderzoek-en Documentatiecentrum. https://bit.ly/2VMRkBc

von Behr I, Reding A, Edwards C, Gribbon L (2013) Radicalisation in the digital
era: the use of the internet in 15 cases of terrorism and extremism. RAND
Europe. https://bit.ly/37AOnIn

Voogt S (2017) Countering far-right recruitment online: CAPEas practitioner
experience. J Polic Intelligence Counter Terrorism 12(1):34–46

Walker K (2019) tigris: load vensus TIGER/line shapefiles. R package version 0.8.2
Webber D, Kruglanski AW (2017) Psychological factors in radicalization: a “3 N”

approach. In: The handbook of the criminology of terrorism. Wiley, Hobo-
ken, pp 33–46

Weine S, Eisenman, D (2016) How public health can improve initiatives to counter
violent extremism. National Consortium for the Study of Terrorism and
Responses to Terrorism. https://bit.ly/3cVtvNm

Weiss JC, McDevitt J, Iwama JA (2016) Group work with victims of hate crimes.
In: Greif GL, Knight C (ed) Group work with populations at risk, 4th edn.
Oxford, New York, pp 291–311

White G, Porter MD, Mazerolle L (2013) Terrorism risk, resilience and volatility: a
comparison of terrorism patterns in three southeast Asian countries. J Quant
Criminol 29(2):295–320

White G, Ruggeri F, Porter MD (2016) Modelling the proliferation of terrorism via
diffusion and contagion. Preprint at arXiv 1612.02527

Winker MA, Abbasi K, Rivara FP (2016) Unsafe and understudied: the US gun
problem. BMJ 352:i578

Winter A (2019) Online hate: from the far-right to the ‘alt-right’ and from the
margins to the mainstream. In: Online Othering. Springer, Cham, pp
39–63

Wong K, Christmann K (2016) Increasing hate crime reporting: narrowing the gap
between policy aspiration, victim inclination and agency capability. Br J
Commun Justice 14(3):5–23

Wu P (2015) Impossible to regulate? social media, terrorists, and the role for the
U.N. Chic J Int Law 16(1):281–311

Zammit-Mangion A, Dewar M, Kadirkamanathan V, Sanguinetti G (2012) Point
process modelling of the Afghan War Diary. PNAS 109(31):12414–12419

Zuur AF, Ieno EN, Elphick CS (2010) A protocol for data exploration to avoid
common statistical problems. Methods Ecol Evol 1(1):3–14

Acknowledgements
I would like to thank David Lahti, Bobby Habig, and the rest of the Lahti lab for their
valuable conceptual feedback.

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	Extremist ideology as a complex contagion: the�spread of far-right radicalization in the United States between 2005 and 2017
	Introduction
	Methods
	Data collection
	Model specification
	Permutation test
	Simulations

	Results
	Discussion
	Data availability
	References
	Acknowledgements
	Competing interests
	Additional information