Rage against the Machines: Explaining Outcomes in Counterinsurgency Wars
Author(s): Jason Lyall and Isaiah Wilson III
Source: International Organization , Winter, 2009, Vol. 63, No. 1 (Winter, 2009), pp. 67-
106
Published by: Cambridge University Press on behalf of the International Organization
Foundation
Stable URL: https://www.jstor.org/stable/40071884
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Rage Against the Machines:
Explaining Outcomes in
Counterinsurgency Wars
Jason Lyall and Isaiah Wilson III
Abstract During the nineteenth century, states routinely defeated insurgent foes.
Over the twentieth century, however, this pattern reversed itself, with states increasingly
less likely to defeat insurgents or avoid meeting at least some of their demands.
What accounts for this pattern of outcomes in counterinsurgency (COIN) wars? We
argue that increasing mechanization within state militaries after World War I is primarily
responsible for this shift. Unlike their nineteenth-century predecessors,
modern militaries possess force structures that inhibit information collection among
local populations. This not only complicates the process of sifting insurgents from
noncombatants but increases the difficulty of selectively applying rewards and punishment
among the fence-sitting population. Modern militaries may therefore inadvertently
fuel, rather than deter, insurgencies. We test this argument with a new
data set of 286 insurgencies (1800-2005) and a paired comparison of two U.S. Army
divisions in Iraq (2003-2004). We find that higher levels of mechanization, along
with external support for insurgents and the counterinsurgent's status as an occupier,
are associated with an increased probability of state defeat. By contrast, we
find only partial support for conventional power- and regime-based explanations,
and no support for the view that rough terrain favors insurgent success.
With more than 300 insurgencies fought since 1800, the current "face" of battle in
Iraq and Afghanistan is a familiar one. Despite the recent burst of research investigating
civil war onset and dynamics, however, less attention has been devoted to
Author names are alphabetical. We thank Steven Biddle, Max Boot, Chris Butler, Robert Cassidy,
Audrey Cronin, Rozlyn Engel, Stacy Haldi, Karen Long Jusko, Stathis Kalyvas, Catherine Kelleher,
Andrew F. Krepinevich, David Lyle, Michael Meese, John Nagl, Judith Reppy, Thomas Ricks, Elizabeth
Saunders, Todd Sechser, Norton Schwartz, Don Snider, Shankar Vedantam, Elizabeth Wood, Steven
Zaloga, and Ivan Arreguin-Toft, along with three anonymous reviewers and the editors of IO, for helpful
comments and conversations. We also thank the soldiers and marines who agreed to be interviewed.
Sara Evans, Raymond Hicks, and Samantha Lomeli provided excellent research assistance.
We are also grateful for critical feedback on earlier versions from seminar participants at Columbia
University, the U.S. Military Academy at West Point, Princeton University, the Defense Science Board,
U.S. Transportation Command (USTRANSCOM), the University of Maryland, the Sante Fe Institute,
and the 2006 Annual Meeting of the American Political Science Association. Data and supplemental
analyses can be found at (http://www.princeton.edu/~jlyall/). The views expressed in this article do
not reflect the official policy or opinion of the U.S. Army, Department of Defense, or the U.S.
Government.
International Organization 63, Winter 2009, pp. 67-106
© 2009 by The IO Foundation. doi: 1 0. 1 0 1 7/SOO2O8 1 830909003 1
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68 International Organization
explaining conflict outcomes.1 Yet patterns of outcomes in conflicts where insurgents
have resorted to guerrilla warfare against states (or "incumbents") have changed
significantly since Napoleon's regulars clashed with guerrillas in Spain in 1808-
14.2 While the majority of nineteenth-century wars were decided in favor of the
incumbent, this trend reversed itself in the early twentieth century, with states
increasingly unable to avoid conceding defeat or proffering concessions to weaker
insurgent forces after World War I. As such, this article asks: Why do we observe
this change in the pattern of outcomes?
We argue that this shift can be ascribed to the increased reliance of states on
mechanized forces as the cornerstone of their militaries in the post-World War I
era. Nineteenth-century militaries were organized around "foraging" principles in
which soldiers extensively interacted with local populations to acquire supplies in
the conflict zone. The collision of industrialization and World War I forged a new
"modern" system of military organization, one premised on the substitution of
machines for soldiers to increase mobility and survivability on contemporary
battlefields. Built for direct battle, mechanized forces struggle to solve the "identification
problem"3 - separating insurgents from noncombatants selectively because
their structural design inhibits information-gathering among conflict-zone
populations. Faced with "information starvation," mechanized forces often inadvertently
fuel, rather than suppress, insurgencies.
This argument is tested using a mixed-methods approach that draws on a new
data set of 286 insurgencies (1800-2005) and a microlevel paired comparison.
The article is organized as follows. The first section outlines the puzzle and data.
The second section details our argument linking increased mechanization to declining
incumbent performance in counterinsurgency (COIN) wars. The third section
examines five alternative explanations for this trend in outcomes. The fourth section
introduces variables and controls. Next, we test the argument statistically across
and within the foraging and mechanized eras, with special attention paid to the
post-World War I era, and conduct robustness checks. The penultimate section
offers a plausibility probe of the argument's "information starvation" mechanism
by comparing the intelligence collection capabilities of two U.S. Army divisions
with disparate mechanization levels in northern Iraq (2003-2004). A final section
concludes.
1. Exceptions include Licklider 1995; and Walter 2001. On civil war onset, see especially Fearon
and Laitin 2003; Collier and Hoeffler 2004; Sambanis 2004; and Hegre and Sambanis 2006. On patterns
of violence during civil war, see especially Kalyvas 2006; Weinstein 2007; Wood 2003; and
Humphreys and Weinstein 2006.
2. Classic works on guerrilla warfare include Mao 1978; Callwell 1996; Galula 2006; Leites and
Wolf 1970; and Home 1977.
3. Kalyvas 2006, 89-91.
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Explaining Outcomes in Counterinsurgency Wars 69
FIGURE 1. The puzzle: Percentage of conflicts won by incumbent, 1800-2005
Note: N = 286. Draws are considered losses here.
The Puzzle and Our Data
Figure 1 outlines the puzzle of this study: Why has the pattern of outcom
COIN warfare shifted so precipitously? Even a cursory examination of thi
line suggests a stark disparity in outcomes between the nineteenth and tw
century. From an apex in the 1850-75 era, outcomes that once favored sta
COIN warfare have now reversed as insurgent organizations increasingly a
capable of extracting concessions from, or even defeating politically, their
stronger adversaries. Nor is this trend simply confined to weaker postcoloni
arising in the wake of the world wars. Great Powers defeated their insurge
in nearly 81 percent of pre-World War I cases but in only 40 percent of th
World War I cases.4 Non-Great Powers recorded nearly identical outcomes, d
4. "Great Powers" are defined by the Correlates of War as the United Kingdom, France
Soviet Union, Germany, Austria (1815-1918), Italy (1860-1943), Japan (1895-1945), the Unit
(1898-2005), and China (1950-2005).
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70 International Organization
ing insurgents in 80 percent of pre-World War I cases but in only 33 percent of
post- 19 18 wars.5
These results were obtained using a new data set of 286 insurgencies. Given
that this is a new data collection effort, we devote this section to outlining these
data. An insurgency is defined here as a protracted violent struggle by nonstate
actors to obtain their political objectives - often independence, greater autonomy,
or subversion of existing authorities - against the current political authority (the
incumbent). Two rules for defining a case were chosen. First, we imposed a minimum
1,000 battle death inclusion rule, with at least 100 casualties suffered on
each side. Second, the nonstate actor must have adopted a guerrilla warfare strategy.
Here, guerrilla warfare is defined as a strategy of armed resistance that (1)
uses small, mobile groups to inflict punishment on the incumbent through hit-andrun
strikes while avoiding direct battle when possible and (2) seeks to win the
allegiance of at least some portion of the noncombatant population. An insurgency
is therefore not synonymous with "civil war" since civil wars can be fought conventionally
(that is, with direct battles between opposing armies), with guerrilla
tactics, or through nonviolence.6
We began our efforts to construct an appropriate sample by drawing cases from
four data sets: the Correlates of War (COW) Intra-State War Dataset (Version 3.0);
the Fearon-Laitin civil war data set (2003); the Uppsala Conflict Data Program
(UCDP) Uppsala Armed Conflict Dataset (Version 3); and the Political Instability
Task Force's (PITF) Internal Wars Dataset.7 Since all but one of these data sets
(COW) focus on the post- 1945 era, we coded cases from several military encyclopedia
that covered the pre-1945 period.8 All cases not meeting our inclusion rules
were dropped. In addition, conflicts that were unresolved by 1 January 2006 were
excluded.9
While the post- 1945 period has received extensive attention, this is not the case
for the nineteenth century. Identifying and coding cases therefore presents a special
challenge. Though 105 pre-1900 cases were eventually recorded, this is surely
an undercount, especially if insurgent groups (and their societies) were destroyed
5. These differences in Great Power and non-Great Power win rates across the pre/post-World War
I divide are highly significant atp = .0001, f(4.70, 88.2df) andp = .0001, f(4.85, 107.42df), respectively.
6. Some wars are characterized by different types of warfare at varying stages (that is, Vietnam,
Iraq today). We included these cases if the guerrilla campaign was of longer duration than the conventional
phase.
7. All of these data sets are publicly available at: COW (http://www.correlatesofwar.org/datasets.
htm); Fearon and Laitin 2003 (http://www.stanford.edu/~jfearon/); UCDP (http://www.prio.no/
CSCW/Datasets/Armed-Conflict/UCDP-PRIO/) (see also Gleditsch et al. 2002); and PITF (http://
globalpolicy.gmu.edu/pitf/pitftabl.htm). Accessed 14 October 2008.
8. See Asprey 1994; Clodfelter 2002; and Eggenberger 1985.
9. Our data set includes 76 percent of the cases listed in UCDP-Uppsala; 76 percent in Fearon and
Laitin 2003; 48 percent in the PITF Internal Wars Dataset, and 45 percent in the COW Intrastate War
Dataset. Nearly half (N = 135) of our cases are not listed in any of these data sets.
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Explaining Outcomes in Counterinsurgency Wars 71
entirely by incumbents.10 Moreover, we only included cases where the historical
record is clear on the type of warfare and the number of casualties. Confidence in
our cases was thus purchased at the cost of dropping observations where data were
missing or too contradictory to reconcile.
Yet are nineteenth and twentieth century wars comparable? We believe that there
are no strong a priori reasons that prohibit comparison across time because our
population is uniform in its use of guerrilla warfare. Given that the adoption of
guerrilla warfare is not conditional on specific technology or time-dependent
process - some trace its lineage back to the Persian king Darius and Scythian
irregulars11 - we believe these cases are comparable. We are careful, however, to
test our argument both across and within historical eras when assessing different
explanations.
By selecting cases according to how the conflict was fought, we avoid pooling
together disparate types of conflict that may not represent a homogenous population
in which outcomes can be explained by a single causal process. By contrast,
existing data sets on civil wars typically combine disparate conflict types that
are fought by different types of strategy. Fearon and Laitin, for example, pool
guerrilla wars with coup attempts and conventional wars. They are not alone:
Arregufn-Toft's "asymmetric conflict" list draws on four types of conflict, as does
the UCDP-Uppsala data set.12 Similarly, the Political Instability Task Force pooled
ethnic wars, revolutionary wars, genocides and politicides, and adverse regime
changes together as "internal wars." To be sure, this pooling may make sense for
some research purposes. Yet treating these types of wars as functionally equivalent
is problematic if the determinants of outcomes vary systematically by conflict
type and time period.13
Our dependent variable, outcome, is coded from the incumbent's viewpoint.
Following standard practice in studies of war, we operationalize outcome as a
threefold variable (win, draw, loss). A win occurs when the insurgency is militarily
defeated and its organization destroyed, or the war ends without any political
concessions granted to insurgent forces. Examples include Argentina's defeat of
the ERP (1973-77), the second Boer War (1899-1902), and the crushing of the
Huk rebellion in the Philippines (1946-51).
A draw occurs when an incumbent is forced to concede to some, but not all,
insurgent demands, and neither side obtains its maximal aims. Typical examples
of concessions include the voluntary disarmament of insurgents in exchange for
greater participation in the state's political affairs (that is, as a political party or as
members of a power-sharing government) or the granting of greater regional autonomy
(but not independence). The political settlement reached between Colombia's
10. Note, however, that these missing observations would only strengthen the marked disparity
between nineteenth- and twentieth-century outcomes.
11. Asprey 1994.
12. Arreguin-Toft 2001.
13. On the importance of "fractal pooling, see Bartels 1996.
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72 International Organization
government and the M-19 insurgent group, in which M-19 voluntarily demobilized
in exchange for its participation as a political party, is one example of a
draw. Similarly, Djibouti's government struck a deal with its secessionist Afar rebels
(FRUD) that traded FRUD's demobilization for two of its leaders becoming
cabinet members, thus ending the Afar insurgency (1991-94).
We define a loss as a situation in which the incumbent unilaterally concedes to
all, or nearly all, insurgent demands, including the granting of independence or
the deposition of current leaders. Examples include the United States in Vietnam,
the USSR in Afghanistan, the United Kingdom against nationalist insurgents in
Aden (1963-67), and the Chinese Nationalist government against PLA insurgents
(1945-49).
Note that we do not rely on military indicators of success such as incumbent/
insurgent loss-exchange ratios in battle or the pace of rebel recruitment. This is
due partly to the difficulties in obtaining accurate information but mostly to the
fact that guerrilla warfare privileges influencing populations rather than success in
direct battle. Incumbents may in fact win all, or most, direct military engagements
and yet still lose the conflict if insurgents can outlast the incumbent or if the credible
threat of continued (future) uprisings still lingers, forcing concessions to a
"defeated" rebel organization. Militarily ineffectual rebels can nonetheless still win
politically if they are able to influence the incumbent's domestic scene, as the FLN
did in France, or retain broad support among the population itself. A too-narrow
focus on military performance overlooks the fact that outcomes in COIN wars are
shaped by political processes - particularly, the battle to win the support, if only
passive, of a population - rather than success in direct battle with insurgents. Our
codings therefore reflect the political, rather than military, outcome of a given war.
The Argument: The Perils of Mechanization
We argue that this trend can be best explained by the force structures of postWorld
War I militaries. Force structure refers to the specific mixture of materiel
and personnel that compromises a military's war-making capabilities. The product
of prior decisions about how a state should organize its military, force structures
are important because they shape and constrain the type and amount of military
power that states can generate.14
Unlike existing cross-national studies of war, we follow the lead of historians in
dividing our 1 800-2005 time period into two distinct eras according to prevailing
patterns of warfare. Until World War I, armies consisted mostly of infantry and were
organized around the principle of "foraging," in which the bulk of their supplies
were obtained, usually coercively, from local populations. World War I ushered in
a new era of "machine war" marked by the replacement of manpower with motor-
14. Cohen 1984, 165-67, 174-75.
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Explaining Outcomes in Counterinsurgency Wars 73
ized vehicles (that is, tanks, trucks, and aircraft) to increase the mobility and survivability
of military forces on industrial-age battlefields of unprecedented lethality.
The advent of mechanization would have deleterious consequences for a military's
ability to wage COIN.15 Foraging armies, often quite rudimentary in their level of
technological sophistication, were forced to interact extensively with local populations
to acquire their provisions (mostly food, water, and fodder). Frequent soldierpopulation
interaction generated high volumes of information that enabled foraging
armies to be more selective in their application of rewards and punishments. Highly
complex modern armies, by contrast, are isolated from local populations since conflict
zones cannot provide either the type or quantity of needed supplies. Mechanized
militaries therefore suffer a kind of "information starvation" that inhibits their
ability to solve the identification problem.
From Foraging to Machine War
To understand how mechanization represents a radical break from past practices,
we need to take a step back to examine prior patterns of war-fighting and logistics.
As Van Creveld's seminal Supplying War details, all leading armies were organized
around the principal of "foraging" until World War I.16 Foraging involved
the use of monetary payments, forced requisition, and simple looting to acquire
provisions from populations located in or near the conflict zone rather than from
the national homeland.17
This practice had two advantages in counterinsurgency wars. First, the need to
procure supplies constantly meant that these armies were forced to privilege information
collection among local populations. This structural necessity in turn meant
that foraging armies had excellent awareness of local-level power relations, cleavages,
and languages. Second, these premodern militaries generally possessed a much
higher percentage of infantry among their ranks than contemporary armies. Given
their modest technological sophistication, foraging militaries were not forced to
divert substantial numbers to operating, maintaining, and supplying the advanced
equipment of a modern military. The bulk of their forces could therefore be devoted
to maintaining a direct and sizable presence in contested areas.
As a result, foraging armies possessed sufficient information about local populations
to ensure that their application of rewards and punishment was selective.18
Their local knowledge, coupled with their networks within these populations, rendered
such actions credible in the eyes of locals. While these foraging armies were
often brutal, they were also capable of identifying potential collaborators and of
15. A military's mechanization level can be expressed as the ratio of soldiers to motorized vehicle
in the state's standing force.
16. Van Creveld 1977, 5-70, 244-52.
17. Lynn 1993, 15-25.
1 8. "Selective" here refers to efforts to restrict targeting to guilty or relevant parties, not the actual
amount of violence used by counterinsurgents (which was often substantial). See Kalyvas 2006, 142.
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74 International Organization
skillfully dividing insurgent ranks: witness, for example, the widespread practice
of creating proxy forces staffed by locals.19
Foraging remained largely unchanged until the 1870s, when leading European
powers, seeking to apply the lessons of the recent Austro-Prussian (1866) and
Franco-Prussian (1870-71) wars, began introducing railways as a means of supplying
soldiers in distant wars.20 When integrated with steamship routes, railways
allowed armies to create depots in occupied lands, reducing, though not eliminating,
their dependence on local populations. In addition, the rising technological
sophistication of new weapons such as the breechloading rifle meant that fewer
supplies could be obtained in the conflict area. While armies still foraged once
they moved away from their depots, these thin ribbons of steel nonetheless presaged
a march toward a more industrialized form of warfare.
Railways would, however, only undercut incumbent capabilities in COIN
wars. By lowering the density of interaction between soldiers and the population,
railways inadvertently contributed to an erosion in the information-gathering capabilities
of these armies. Moreover, these long supply lines were vulnerable to
disruption, forcing armies to divert substantial portions of their ranks to protecting
and servicing them.21
This decline in incumbent fortunes is reflected in Figure 1. Beginning with
France's 1871 suppression of restive Kabylie in Algeria, where the newly completed
Algiers-Constantine railway played a supporting role, several European
nations moved toward a "foraging plus railway" model between the 1880s and
World War I. In total, railways were used in 22 of 1 19 foraging-era wars. A simple
r-test reveals that the difference in mean outcome between foraging armies (1.68)
and "foraging plus railway" armies (1.41) is significant.22 We should not exaggerate
this difference unduly, however, for even "foraging plus railway" armies still
performed at a high level in both absolute terms and relative to their post- World
War I mechanized counterparts.
Indeed, scholars agree that World War I shattered the foraging model and replaced
it with "machine war."23 This radical break was the product of a confluence of
Fordist-style mass production, surging lethality in weapons systems, and the introduction
of the internal combustion engine to the battlefield that forced armies to
redesign their force structures. More specifically, we follow historians' assessments
that the birth of this modern mechanized era occurred in November 1917 at
the battle of Cambrai, where British forces first marshalled tanks, aircraft, and
artillery in a combined effort to crack German lines.24
19. See Grenier 2005; and Vandervort 1998.
20. Mitchell 2000.
21. See Kress 2002; and Vandervort 1998, 114-23, 170-71.
22. Significant at/? = .07, r(1.53, 29.10df).
23. See Bailey 1996, 140-46; Sheffield 2001, 108-50; Strachan 1988, 223-306; McNeill 1982
132-53; Bailey 2001; and Biddle 2004, 28-51.
24. See, for example, Smithers 1992; and Addington 1994, 157-58.
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Explaining Outcomes in Counterinsurgency Wars 75
"By 1918," Biddle maintains, "a process of convergent evolution under harsh
wartime conditions had produced a stable and essentially transnational body of
ideas on how to operate effectively in the face of radically lethal modern weapons."25
This system was centered around destroying the largest enemy force over
the largest area with the fewest men (and casualties) in the least possible time.
Lashing together motorized vehicles, aircraft, and communications technology, the
modern system emphasized mobility as the key to ensuring that soldiers survived
long enough on the battlefield to destroy their foes in direct battle.26
As such, this system demanded a high degree of mechanization: armored vehicles
could both protect soldiers while dispensing with the need for large numbers
of men since these mechanized forces could cover larger areas than previously
possible by foraging armies. Self-supply, however, would be relegated to the past
since conflict zones could provide neither increasingly specialized supplies, such
as fuel and spare parts, nor the sheer quantities required to sustain large modern
armies. As such, they became "tied to umbilical cords of supply"27 and thus isolated
from their environment.
Mechanization was not a one-time shock, however. Rather, the lessons learned
by the Great Powers in World War I were codified in World War II and then gradually
diffused throughout the international system during the Cold War. In particular,
the practice of modeling client states' militaries in their patrons' image ensured
that the modern system was emulated throughout Africa, Latin America, Asia, and
the Middle East. The art of foraging was lost as state militaries became increasingly
mechanized and as the number of mechanized militaries climbed (see Figure
2). As a result, the rate of incumbent success in COIN efforts plummeted after
World War I and has continued to decline in lock-step with the increasing rate of
mechanization within and across militaries.
Information Starvation
Why do mechanized forces perform counterinsurgency so poorly? Put simply, the
force structure of modern post-World War I militaries inhibit the collection and
vetting of the context-specific information required to wield power discriminately.
While lethal in direct battle, mechanized militaries struggle to sift insurgents from
noncombatants because they do not interact with local populations on the same
scale as their foraging predecessors. Built to ensure that soldiers can move and
survive on high-intensity battlefields, the modern military's force structure privileges
survivability and thus inhibits soldiers from assuming the same risks that
fence-sitting populations face daily. It therefore becomes harder to recruit reliable
collaborators among local populations, further compounding information starva-
25. Biddle 2004, 28.
26. Ibid., 28-51.
27. VanCreveld 1977,252.
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76 International Organization
tion. The result is a counterinsurgent that fuels, rather than deters, insurgent
recruitment.
FIGURE 2. Incumbent mechanization over time
Scholars and practitioners largely agree that successful COIN efforts hinge not
on the physical destruction of insurgent organizations but rather on the incumbent's
ability to win over local populations.28 Mechanized militaries thus already begin
at a disadvantage since their direct battle mission may be secondary, and even
counterproductive, to the determinants of success. Instead, the key to success lies
in the efficient collection of reliable information on population characteristics,
including its grievances, cleavages, power structures, views of the counterinsurgent,
and the nature of the insurgents themselves. Acquiring this information
in turn requires a high rate of interaction between counterinsurgent and population
so that the requisite skills - including language and cultural awareness - are
obtained and connections forged.
28. See, for example, Galula 2006, 52-58; U.S. Army/Marine Corps Field Manual 2007, 79-136;
Callwell 1996, 170; Mao 1978; and Thompson 1966.
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Explaining Outcomes in Counterinsurgency Wars 77
Yet since mechanized armies decide the tradeoff between manpower and mobility
in favor of the latter, they possess fewer infantry than their foraging peers. As
the number of machines in a given military increase, the number of personnel
devoted to their operation and maintenance must necessarily rise. Modern militaries
therefore possess comparatively few infantrymen, reducing the rate of interaction
simply because fewer soldiers are available for such tasks. The fact that
mechanized forces are ill-suited for certain types of terrain and are tied to available
roads only magnifies these problems. Rather than exercising control, mechanized
forces are actually providing only "presence" since their greatest asset,
mobility, allows them to cover more ground without having to embed in a particular
location. This asset is nonetheless a liability: with fewer soldiers, mechanized
forces must sacrifice depth for breadth.
The complexity of the modern war machine also dictates an extremely long supply
train to deliver goods that can only be acquired from specialized industries
outside the war zone. Unable to forage, mechanized armies forego the opportunity
to forge mutual interdependencies with locals. The accumulation of social capital
and trust is therefore stunted, heightening the risks that acquired information will
be partial or misleading while eroding the ability of these forces to discern credible
information. This self-induced dilemma has reached new heights in Iraq today,
where the U.S. Army now imports even its fast food.29
To minimize these logistical complexities, mechanized forces are garrisoned
on large, isolated bases. Without a shared sense of risk with locals, however,
this posture underscores the incumbent's preoccupation with its security. Potential
fence-sitters must weigh the costs and benefits of collaboration and may decide
to forego cooperation if the incumbent cannot credibly protect these individuals
or if it appears indifferent to their fate. Without a sustained and substantial presence
in terms of time and force size, mechanized units are less able to win the
population's trust. If popular allegiance is endogenous to the degree of control
exercised by a military, then control itself is a function of the frequency and
nature of these interactions.30 In Vietnam, for example, hamlets protected by light
infantry (marines) were routinely judged more politically reliable than similar
hamlets protected by (army) mechanized forces because the marines were constantly
present.31
This information starvation has important consequences for the effectiveness of
COIN efforts. If incumbent forces cannot wield their power selectively, then they
will ease insurgent recruitment by collapsing the distinction between combatants
and noncombatants. With the innocent and guilty equally likely to be punished,
rational individuals will seek security and predictability with insurgent groups. At
worst, incumbents will lose control over their strategies. For example, insurgents
29. Ricks 2006, 255-57.
30. On this point, see Kalyvas 2006, 1 18-23.
31. Krepinevich 1988, 174-75.
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78 International Organization
may deliberately provoke incumbent overreaction in areas still outside rebel control
in a bid to create new grievances that will tip these fence-sitters into the
insurgency's ranks.32
Information starvation also undercuts learning by delaying the receipt of reliable
information that would trigger an update of the incumbent's strategy and
tactics. By the time an incumbent has determined that its approach is counterproductive,
an insurgency may already be established. Indeed, initial encounters
between incumbent and insurgent forces are likely to have a disproportionate
impact on insurgent recruitment than later ones.33 Historical cases from conflicts
as diverse as Algeria, Vietnam, and Chechnya suggest that mechanized armies
have belatedly recognized their deficiencies but proved unable to surmount them.34
Without either curtailing their use of vehicles or sharply increasing the number
of infantry available, mechanized forces will remain constrained in their ability
to solve the identification problem.35
Why No Self-Correction?
This discussion raises a second puzzle, however: Why have states not learned and
adjusted their force structures? Indeed, as Figure 2 demonstrates, the ranks of mechanized
powers have swelled since World War I and, far from self-correcting, have
accelerated this process.
One possible explanation lies in the bureaucratic culture of the military itself.
Militaries built around modern war develop norms and rules that may inhibit change
by deliberately viewing COIN as "secondary" and by ensuring promotion is based
around satisfying modern, rather than COIN, missions. This argument is often
invoked to explain the U.S. Army's apparent failure to reject its modern war mentality
during the Vietnam War, for example.36 More generally, the cultural norms
and associated cognitive beliefs of military institutions may stunt learning by discarding
nonconfirmatory information and by perpetuating prior decisions on weapons
acquisition.37
Yet the crossnational nature of this trend toward greater mechanization, along
with the remarkable similarity of contemporary force structures, suggest that its
causes are found at the systemic-level. Supporting this claim is the fact that mechanization
levels are not correlated with regime type or with the COW's cumula-
32. See Kalyvas and Kocher 2007, 187-90; and Kalyvas 2006, 146-71.
33. Johnson and Madin 2008.
34. See Home 1977; Krepinevich 1988; and Lieven 1998.
35. These constraints may also explain why frustrated states racing entrenched insurgencies typically
resort to mass killing among noncombatants as a means of "solving" the identification problem.
See Valentino, Huth, and Balch-Lindsay 2004.
36. See Nagl 2002; and Krepinevich 1988.
37. See Kier 1997; and Shafer 1988.
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Explaining Outcomes in Counterinsurgency Wars 79
tive measure of state power.38 In other words, all states, regardless of their regime
type or national capabilities, are being pulled toward ever-higher levels of mechanization.
Bureaucratic culture may be a symptom of this process, but it is unlikely
to be its cause.
Neorealists would argue that the competitive nature of the international system
drives states to either adopt prevailing practices or risk being "selected out." In
this view, fear of defeat (or worse) is the mechanism by which states are socialized
to emulate one another's mode of war-fighting.39 Yet, as Fazal has argued,
the post- 1945 era was marked by a shift away from violent state death as states
institutionalized norms against conquest and annexation.40 Mechanization was therefore
accelerating at precisely the moment when states faced the lowest prospect of
violent "exit" in the past two hundred years.41
Instead, we view increasing mechanization as a reflection of a shared set of
norms that govern state beliefs about what constitutes the most appropriate means
of military organization. The origins of this normative standard lie in another macrohistorical
trend, namely industrialization, which rendered it possible for early adopters
in Europe (and the United States) to apply emerging methods of industrial
organization to warfare.42 In fact, the modern system was at root an application of
Fordist-style principles of mass production, automation, standardization, and cost
efficiency to the problem of survivability on World War I battlefields. Validated as
successful in two world wars, the modern system became increasingly difficult to
abandon because its industrial underpinnings created a logic of their own. Each
new industrial innovation promised ever-higher levels of lethality and survivability
on the battlefield at the price of creating additional sunk costs that reinforced
the state's commitment to mechanized warfare. Early adopters therefore locked
themselves into highly lethal, and highly capital-intensive, force structures that
meshed with their industrial societies.
Yet industrialization alone cannot explain the embrace of machine war by late
adopters. Once established, the modern system emerged as a shared standard of
appropriateness because early movers had set the stage for what constituted a "modern"
military organization. Indeed, every historical era has prescribed a specific
set of practices of war-fighting that been used to define the boundaries of international
society.43 It is telling, then, that these leaders outlawed guerrilla warfare
in the Geneva Convention (1949) as an acceptable form of warfare for "modern"
states.
38. The correlation between mech and regime is -.034, while between mech and power is .023.
See below for discussion of these variables.
39. Waltz 1979, 74.
40. Fazal 2007, 169-228.
41. Moreover, while it may be rational for some states to privilege mechanization since their adversaries
are also likely to field mechanized forces, many states face more pressing internal threats from
insurgents and yet still pursue greater mechanization.
42. Biddle 2004, 29-30.
43. See March and Olsen 1998; and Luard 1986.
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80 International Organization
In some cases, this pressure to conform was overt: both the United States and
the Soviet Union remade Cold War client militaries in their own image. In other
cases, however, postcolonial states viewed their highly mechanized forces as a
symbol of their membership within the broader international community. Mechanization
was, in some senses, a ticket to international legitimacy.44 These socialization
pressures are most clearly observed in underdeveloped states that faced
internal threats and lacked industrial resources but still chose to pursue mechanization.
Some of the largest tank fleets and highest levels of mechanization are
found among the least industrialized countries of the world, including Afghanistan,
Angola, Algeria, and Yemen. Shockingly, these states possess equal or higher
mechanization levels than militaries that initially sparked the move to mechanized
forces, including Russia, Britain, Germany, and the United States.
What has emerged is, in effect, a monoculture in which substantial advantages
can be obtained by nonstate actors if they abandon the modern system and return
to more "primitive" methods. Modern militaries cannot easily follow suit: the combination
of industrial lock-in and a belief that modern states fight along mechanized
lines conspire to trap incumbents. Change may require more than episodic
defeats at the hands of weaker rebels; it may, in fact, require a change in the industrial
bases of society within leading states and the emulation of these new force
structures by laggard states.
Alternative Explanations
Five alternative explanations might also explain this marked shift in outcomes.
First, Arreguin-Toft's study of 197 "asymmetric conflicts" since 1816 - conflicts
in which one side enjoyed a 10:1 advantage in military power - provides clear
evidence that stronger actors have become increasingly vulnerable to defeat by
weaker actors.45 Noting that this trend has accelerated since 1950, Arregufn-Toft
argues that its root can be found in the nature of the strategies adopted by combatants.
European states, along with the United States and the Soviet Union,
embraced "direct" strategies of warfare after World War II aimed at the destruction
of a peer enemy's armed forces. Asian states, by contrast, derived different
lessons from its World War II experiences, and instead adopted guerrilla warfare
to offset the technological advantage of their potential opponents. Indirect strategies
typically trump direct ones because they tend to produce protracted conflicts
that generate domestic pressures in the stronger states to quit the war.46
Given that Arreguin-Toft's study is the most extensive to date, we should take
care to distinguish our explanation from his "strategic interaction" approach. First,
44. Eyre and Suchman 1996, 80-83.
45. See Arreguin-Toft 2001 and 2005.
46. Arregufn-Toft2001, 104-5, 112.
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Explaining Outcomes in Counterinsurgency Wars 81
we seek to explain outcomes in counterinsurgency wars only. By contrast, ArreguinToft
pools data from four different types of conflicts, including conventional wars,
urban revolts, and guerrilla wars. The 10:1 power ratio for inclusion into the data
set also strikes us as arbitrary and risks introducing unwanted selection bias. Second,
force structure cannot be reduced to a type of strategy. Mechanized forces
can adopt "direct" strategies (offensive, defensive, and annihilation, among others)
as well as indirect; so, too, can nonmechanized forces.47
Moreover, while it can be difficult to collapse evolving wartime strategies down
to a single type, mechanization levels can be measured ex ante - unlike strategies and
can be utilized to capture variation across and within countries over time at
a more fine-grained level. Finally, Arreguin-Toft's initial test relies on crosstabulations
that cannot control for potentially confounding variables such as regime
type, terrain, or even different power ratios between strong and weak actors. It is
unclear, then, whether strategy is a function of an actor's attributes rather than an
independent variable in its own right.
Second, the sharp decrease in the likelihood of an incumbent's win appears to
track closely with global patterns of democratization. For example, Merom48 has
argued that the combination of an educated middle class and voting rights undercuts
military effectiveness by rendering democratic publics averse to the casualties
and moral compromises necessary to conduct COIN successfully. Impatient
for success, and unwilling to shoulder the required sacrifices of blood and treasure,
democracies are more likely to offer concessions or concede defeat than autocratic
states that can safely ignore their publics.49
Democracies may be especially hamstrung in COIN contexts by their commitment
to international norms and laws governing the use of military force.50 Unlike
autocrats, democratic leaders are thought to be unwilling to incur the reputation
costs associated with violating these laws, particularly widely shared treaties such
as the Geneva Convention. Indeed, the prospect of suffering audience costs at home
and abroad has emerged as a reality in the post- 1945 era of global media that
transmits both information on compliance with treaty obligations and on insurgent
attacks aimed at disillusioning their democratic audience. "Beware the scripted
enemy," Kilcullen writes, "who plays to a global audience and seeks to defeat you
in the court of global public opinion."51 We should therefore expect divergent outcomes
across regime types as the ranks of democracies swell over time and as
global media brings the reality of war home to democratic publics.
47. Force structures can certainly constrain strategy, as Arreguin-Toft himself notes (2001, 106) but
they do not determine its choice.
48. Merom 2003.
49. The classic statement of democratic casualty aversion is Mueller 1973. For counterargument
see Feaver and Gelpi 2004; and Jentleson 1992.
50. Note, however, that Downes 2006 (161-70) argues that democracies will violate these laws i
they are desperate and believe that these actions will end the war swiftly.
51. Kilcullen 2006, 106. See also Bob 2005.
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82 International Organization
Third, both quantitative and qualitative studies of civil war routinely cite an
insurgent's external support as a key factor that determines outcomes. Two types
of external assistance - safe havens in neighboring states and the provision of military
or economic aid - have been deemed especially crucial for insurgent success.
One byproduct of the Westphalian system's diffusion through colonialism
may be the creation of greater opportunities for insurgents to seek sanctuary in
neighboring states, thereby hiding behind the shield of sovereignty that prevents
incumbents from crossing national borders. In turn, the profusion of states over
time may well have increased the incentives for neighbors or patron states to fight
proxy wars through the provision of cheap arms to insurgents in the hopes of destabilizing
an enemy from within.52
Fourth, the trend may be a function of state strength rather than insurgent
attributes. The two great waves of state creation after the post-World War I and
World War II imperial collapses may have populated our data set with weak states
that are more likely to experience insurgent challenges precisely because they are
unable to defeat them. Two important studies have noted that states with low gross
domestic product (GDP) per capita incomes53 or high (around 33 percent) share
of GDP derived from primary commodity exports54 record the highest levels of
civil war onset. If this view is correct, we should observe a correlation between
state weakness and insurgent success in the post-World War I era.
Finally, the declining rate of incumbent victory parallels the spread of nationalism
and the idea of self-determination.55 Mack has argued that nationalist-inspired
insurgencies typically have longer time horizons and less political liabilities than
their opponents since they are fighting to establish a homeland, if not for survival
itself.56 An important strand of research in comparative politics has similarly demonstrated
that ethnic identities can overcome the collective action dilemma facing
all insurgent organizations by creating a sense of group solidarity around shared
purposes.57 Foreign occupiers should therefore possess a lower likelihood of victory,
while all states should experience declining probabilities of victory as nationalism
spreads.
All of these theories offer plausible reasons for the marked decline in the ability
of incumbents to defeat insurgents over time. As such, we are not claiming that
these explanations are inherently flawed. Nor do we exclude the possibility that
multiple causes may be at work; war outcomes, after all, are products of complex,
and sometimes contingent, processes. Indeed, to anticipate our results, we find
support for some, though not all, of these alternative explanations. Their explicit
inclusion also raises the bar for our explanation by ensuring that any correlation
52. See Salehyan 2007; Record 2007; Kahaner 2006; Salehyan and Gleditsch 2006; and Regan 2002.
53. Fearon and Laitin 2003, 80.
54. Collier and Hoeffler 2004, 574.
55. Anderson 1983, 6-7.
56. Mack 1975, 181-85.
57. See, for example, Connor 1994; Horowitz 1985; and Sambanis 2001.
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Explaining Outcomes in Counterinsurgency Wars 83
we uncover between mechanization and war outcomes is not spurious or accounted
for by these leading alternatives.
Research Design
We adopt a mixed-method research design to test the proposed linkage between
mechanization and counterinsurgency outcomes. We begin with a statistical analysis
of 286 insurgencies (1800-2005) to examine whether (1) foraging armies are
more proficient at COIN than modern mechanized forces, and (2) increasing mechanization
within the post- 19 17 era is also associated with declining performance.
The use of statistical methods also enables us to test our argument against alternative
explanations while holding other variables such as terrain and distance constant.
We then subject the argument to various robustness checks.
To highlight the proposed information starvation mechanism more directly, we
complement our statistical analysis with an out-of-sample paired comparison of
two U.S. Army divisions in Iraq. Using a mix of declassified internal memoranda
and interviews, we contrast the comparative information-gathering capabilities of
the highly mechanized 4th Infantry Division (ID) with the lightly mechanized 101st
Air Assault Division. If our argument is correct, we should observe a divergence
in their intelligence-gathering capabilities as well as variance in their COIN effectiveness
given their varying abilities to address the identification problem.
Explanatory Variables
We operationalize our principal explanatory variable, force structure, in several
ways. First, we use a binary variable (modern) to capture whether an
incumbent's military was organized around foraging or machine war practices.
Consistent with our discussion above, we code the machine era's dawn at 1917.58
To measure the intra-foraging era variation noted above, we created railway,
which denotes whether an incumbent used railways to supplement its foraging
practices during 1871-1917.
We directly measure an incumbent's mechanization level using a scaled index
that records the prewar soldier-to-mechanized vehicle ratio in the state's military
(mech). More specifically, the size of the country's military was drawn from the
COW data set and then divided by the number of mechanized vehicles in the
country's arsenal.59 Data for mechanization values were obtained from numerous
58. We realize that this is a blunt indicator and that multiple factors could account for pre- and
post- 19 17 differences in outcomes. Nonetheless, we include it to demonstrate that the time period
effects observed in Figure 1 persist in the face of additional controls.
59. Specifically, we counted the number of main battle tanks, medium battle tanks (1917-45 only),
armored personnel carriers (APCs), armored fighting vehicles (AFVs), scout cars, and self-propelled
artillery in each country's arsenal.
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84 International Organization
sources.60 To avoid endogeneity with war dynamics, both observations are lagged
a year prior to the conflict. There are 167 observations for mech.
These values were then collapsed into a fourfold ordinal variable with cutpoints
at the 25 percent quartiles. On this scale, 1 represents the lowest level of
mechanization (>834 soldiers per vehicle), 2 (288 to 833 per vehicle) and 3 (109
to 287 per vehicle) the midway points, and 4 the highest level (11 to 108 soldiers
per vehicle). This produces a scaled variable that has minimal skewness
(0.08) and kurtosis (1.62) and that weights mechanization values by the size of
the country's military personnel. Treating mech as an ordinal variable is also appropriate
since it reduces sensitivity to data inaccuracies that inevitably arise from
state secrecy.
Finally, we supplement mech with a battlefield-level indicator - heli - which
records whether an incumbent deployed >25 helicopters during a particular war.
Beginning with France's fielding of a substantial helicopter force in Algeria in the
1950s, the use of rotary- wing aircraft in combat and support roles has come to be
viewed as an integral element of modern warfare. As such, heli provides additional
evidence of an incumbent's commitment to a mechanized pattern of warfare.
To test the explanatory strength of regime type explanations, we code each
country's regime (regime) using Polity2 values from the PolitylV data set. Polity2
is a 21 -point scaled composite index of regime type that ranges from highly autocratic
(- 10) to highly democratic (+ 10).61 Values are lagged one year prior to the
conflict (1800-2005).
A regime's sensitivity to international pressure arising from normative commitments
may also hinder an incumbent by removing more effective COIN strategies
from the realm of the politically possible. While it can be difficult to measure
normative pressure directly, we use the natural log of a country's share of GDP
that is derived from imports and exports as an indicator of a state's vulnerability
to external pressures (trade).62 The greater the state's exposure to trade flows,
the more vulnerable it will be to reputational and economic costs for contravening
existing norms. Trade data are drawn from the International Monetary Fund (IMF)
Direction of Trade data set,63 while GDP is taken from the Banks Cross-National
Time Series Dataset for the 1946-2005 era.64
External support for an insurgency (support) is a scaled variable that measures
whether insurgents received two critical types of assistance: material economic
and military aid, and the ability to use a neighboring country as a sanctuary. We
assign a value of 2, if the insurgent group received both types of assistance; 1, if
60. These include the International Institute for Strategic Studies' Military Balance 2007; the Stockholm
International Peace Research Institute's Arms Transfer Database 2007; Jane's Armor and Artillery
2007; Ness 2002; and Solyakin 2005. A complete source list is provided in our codebook.
61. Jaggers and Gurr 1995.
62. We thank an anonymous reviewer for this suggestion.
63. International Monetary Fund 2007.
64. Banks 2003.
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86 International Organization
only one type was granted; and 0, if neither aid nor sanctuary was received by a
particular state.65
We assess an incumbent's capacity using two indictors. First, we estimate an
incumbent's power using COW's Composite Index of National Capabilities (CINC)
data.66 CINC values, a staple of COW studies of interstate war, measures a country's
share of global military (army size, military spending) and economic (iron production,
energy consumption, and population) power. We also use a country's per capita
energy consumption as a proxy for state capacity (energy). This has the
advantage of extending across a longer time period than the standard measure of
capacity - GDP per capita - and is more tied to a country's ability to sustain military
power. Both variables are logged; values are taken one year prior to conflict
(1800-2005). Higher power and energy scores should therefore be associated with
a higher probability of incumbent victory.
Finally, while recognizing that nationalist sentiment is partly endogenous to the
nature of the conflict itself, we estimate the depth of ex ante nationalist sentiment
with a binary variable that denotes whether the incumbent was an external occupier
(occupy). Existing studies contend that nationalist sentiment is likely to be
higher when insurgents face a foreign occupier rather than the home government.
Occupier status should therefore be associated with a decreased probability of state
victory in COIN warfare. The variable is coded for the entire 1800-2005 era.
Controls
We also include several control variables. For example, quantitative and qualitative
studies converge on the finding that rough terrain, specifically mountains and
deep forests, increase the likelihood of insurgent victory by providing refuge from
incumbent power (terrain).67 We estimate the roughness of terrain by taking the
average of five altitude measures (in meters) of the conflict area itself (1 800-2005).
We might also anticipate that as the distance between the incumbent's capital
and the conflict area increases, the probability of incumbent victory decreases as
logistical difficulties multiply. We therefore measure distance in kilometers
(logged) between the incumbent's capital and the principal conflict area. Wars that
are primarily fought in or near a capital city are assigned a nominal one kilometer
in distance (1800-2005).
It is also possible that the diversity of a conflict area's population will effect the
incumbent's ability to defeat an insurgency. In particular, the greater the number
of languages spoken within the conflict area, the more difficulty an incumbent
may have in acquiring the contextual information necessary to use its resources
discriminately. We therefore adopt Fearon and Laitin's (2003) data on languages
65. Data were drawn from Record 2007; Regan 2002; and individual case histories (1800-2005).
66. Correlates of War 2000.
67. See Fearon and Laitin 2003, 23-25; Collier and Hoeffler 2004; and Galula 2006.
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Explaining Outcomes in Counterinsurgency Wars 87
spoken (language) but reset the values for the conflict area (that is, Nagaland)
rather than national level (that is, India) for 1945-2005.
Finally, scholars have argued that the Cold War possessed unique dynamics including
a heightened willingness to intervene in other states to fight proxy wars not
found in other eras.68 We therefore include a cold war dummy variable for
the 1949-89 period. Summary statistics are reported in Table 1.
Empirical Analysis: Foraging and Mechanized Eras
We begin by comparing the determinants of COIN outcomes across the foraging
and machine war eras. We then explore whether explanatory variables carry the
same weight within each era.
Table 2 presents the results of four ordered logistic regression models. Several
findings are especially noteworthy. First, modern is highly significant and negatively
correlated with incumbent victory when considered alone (Model 1) and when
nested within the full model (Model 2). Though a crude measure, the shift from
the foraging to the mechanized era of war-fighting is highly correlated with incumbent
defeat. Similarly, railway, a more direct measure of actual practices, is also
negatively correlated with incumbent victory in the foraging era (Model 3).
Using Clarify, we can assess the substantive effect of shifting between foraging
and mechanized eras as well as the impact of the use of railways on the expected
probability of incumbent victory.69 For example, the shift from foraging to machine
war is associated with an -89 percent change in the expected probability of a
state victory (with a 95 percent confidence interval at -155 to -33 percent). As
predicted, reliance on railways in COIN contexts also had a negative impact on
the expected probability of incumbent victory, with an estimated -18 percent
change (95 precent confidence interval at -45 to 2 percent).
Insurgent support is also highly significant and negatively correlated with incumbent
victory in the full model as well as within the foraging (Model 3) and mechanized
(Model 4) eras. The contention that an occupying state should experience a
more difficult struggle due to nationalism also receives support, albeit indirect.
occupy is significant and negatively correlated with incumbent victory (Model 4)
in the mechanized era but not the foraging one. This is consistent with the argument
that nationalist-inspired insurgents are a product of twentieth-century processes
such as mass literacy, development, and decolonization.
68. Westad 2007.
69. See King, Tomz, and Wittenberg 2000; and Tomz, Wittenberg, and King 2003. All substantive
interpretations reported here and below were obtained using first differences in Clarify. All continuous
variables were set at their mean, all dichotomous variables were set at median values, and K = 1000
simulations were estimated.
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88 International Organization
TABLE 2. Foraging and mechanized era of warfare: A comparison
Model 1 Model 2 Model 3 Model 4
(modern only) (Full model) (Foraging) (Mechanized)
Variables (1800-2005) (1800-2005) (1800-1917) (1918-2005)
modern -1.90*** -1.77***
(0.42) (0.60)
RAILWAY -1.10*
(0.61)
regime -0.03 -0.02 -0.03
(0.02) (0.06) (0.02)
support -0.84*** -1.35*** -0.84***
(0.16) (0.35) (0.17)
power 0.17* 0.57*** 0.16
(0.10) (0.22) (0.12)
energy 0.02 0.12 -0.05
(0.08) (0.10) (0.09)
occupy -0.92** 0.04 _ii4***
(0.36) (0.76) (0.34)
elevation 0.02 -0.37 0.11
(0.08) (0.37) (0.10)
distance -0.06 -0.83* -0.03
(0.06) (0.44) (0.06)
cold war 0.56 0.52
(0.37) (0.40)
Cutpoints -2.37 -3.35 -10.65 -1.05
-1.40 -2.22 -10.25 0.36
N (clusters) 286(85) 285(85) 112(20) 173(80)
Waldchi2 20.57*** 51.47*** 97.27*** 32.79***
Log likelihood -261.03 -239.55 -54.71 -171.10
R2 0.09 0.16 0.14 0.10
Notes: Robust standard errors cl
*** significant at 1%.
State capacity also yie
in any model, power i
tory in both the full m
relationship between
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bly, power's period-sp
2005 to reflect changin
Finally, none of the o
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Explaining Outcomes in Counterinsurgency Wars 89
The Mechanized Era
In this section we offer a more fine-grained test of the proposed argument by examining
whether increasing levels of mechanization within state militaries is associated
with worsening COIN outcomes in the post- 19 17 era.
The results presented in Table 3 support our claim that mechanization is negatively
associated with incumbent victory, mech is negative and statistically significant
when tested alone (Model 5) as well as in the 1918-2005 (Model 6) and
1945-2005 (Model 7) eras. In substantive terms, shifting from the least mechanized
military (1) to the most mechanized (4) is associated with a -50 percent
change in the expected probability of an incumbent victory in the 1918-2005 era
(with a 95 percent confidence interval of -89 percent to -7 percent), all else
TABLE 3. The perils of mechanization
Model 5 Model 6 Model 7 Model 8
(mech only) (mech) (mech,) (heli)
Variables (1918-2005) (1918-2005) (1945-2005) (1945-2005)
mech -0.33*** -0.30** -0.33**
(0.13) (0.14) (0.16)
heli -1.32***
(0.45)
regime -0.03 -0.05** -0.05**
(0.02) (0.03) (0.03)
support -0.81*** -0.57*** -0.56***
(0.18) (0.20) (0.21)
power 0.09 0.20 0.38**
(0.15) (0.15) (0.17)
energy 0.02 0.00 -0.05
(0.09) (0.09) (0.09)
occupy -1.32*** -1.76*** -2.20***
(0.37) (0.57) (0.64)
elevation 0.09 0.18 0.17
(0.10) (0.13) (0.14)
distance -0.02 0.03 0.02
(0.06) (0.07) (0.07)
LANGUAGE -0.05* ~0.05**
(0.03) (0.03)
trade 0.23 0.28
(0.34) (0.30)
Cutpoints -1.41 -2.18 -2.84 -2.86
-0.19 -0.75 -1.16 -1.14
N (clusters) 167(80) 167(80) 135(76) 135(76)
Waldchi2 7.01*** 33.69*** 37.49*** 42.70***
Log likelihood -179.20 -162.96 -129.78 -126.95
R2 0.02 0.11 0.12 0.14
Notes: Robust standard errors clu
*** significant at 1%.
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90 International Organization
being equal. This dramatic effect is obvious in Figure 3, which plots the conditional
effects of mechanization levels on the expected probability that incumbents
will defeat their insurgent foes. We obtain a similar -61 percent reduction in the
expected probability of incumbent victory when shifting from the least to most
mechanized military in the post- 1945 era (95 percent confidence interval of - 1 16
to -3 percent), all else equal.
External support for insurgent organizations is also associated with a decrease
in the likelihood of state victory. Indeed, the expected probability of an incumbent's
victory diminishes by -87 percent when facing an insurgency with substantial
external support (2) compared to an insurgency without patrons or a safe refuge
(95 percent confidence interval at -119 percent to -52 percent). Interestingly,
the impact of support is itself reduced if we restrict our analysis to the post- 1945
period. Here, the likelihood of an incumbent win decreases by -68 percent when
we shift the nature of insurgent support from none to substantial (95 percent confidence
interval at -111 percent to -22 percent).
FIGURE 3. Conditional effect of mechanization on probability of incumbent win,
1918-2005
Note: Estimates obtained from Model 6 with natural cubic spline curves. Mechanization values
are from lowest (1) to highest (4). N = 167.
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Explaining Outcomes in Counterinsurgency Wars 91
We also find evidence that foreign occupiers are at a special disadvantage when
fighting COIN wars. A shift in an incumbent's occupier status from a 0 to a 1
results in an estimated -59 percent reduction in the likelihood of victory, all else
equal (95 percent confidence interval at -86 percent to -27 percent). A reasonable,
if somewhat crude, proxy for nationalist sentiment, occupy suggests that at
least some insurgencies are not simply driven by greed or opportunities but are
instead rooted in identity-based grievances sparked by foreign intervention.70
Interestingly, regime only reaches statistical significance in the post- 1945 era
(Model 7) and is negatively associated with incumbent victory, suggesting that as
states become more democratic their vulnerability to defeat increases. This at once
supports and qualifies existing arguments about presumed ineffectiveness of democratic
states in COIN wars. To be sure, it suggests that as political systems become
more open, the likelihood of defeat is also increased. Yet these shifts in regime type
could occur at lower ends of the 21 -point Polity 2 values - that is, a shift from -5
to a 0 - and therefore one should not conclude that stable democracies are especially
vulnerable.71 Moreover, the time-dependent nature of this effect is at least
partially inconsistent with claims that audience costs or educated middle classes
are hobbling democratic war efforts. Indeed, neither mechanism is exclusive to
democracies, nor is it clear why their effects should only be observed after 1945.
Note, too, that trade is also not significant, a finding that points away from the
vulnerability of integrated states to reputation costs. Indeed, many of the key variables
cited in the civil war literature - notably, terrain, distance, and power are
not significantly correlated with outcomes. The one exception is language,
which is significant and negatively correlated with incumbent victory, underscoring
the importance of the "human terrain" in which states wield their power.
Finally, Model 8 reports findings using heli to estimate the relationship between
mechanization and war outcomes. The results are stark. States that employed helicopters
won only 12.5 percent of their conflicts (4/32), while states without helicopters
won nearly 40 percent (41/103).72 Substantively, the shift from no
helicopters to their use is associated with a -58 percent change in the expected
probability of incumbent's win, all else equal (95 percent confidence interval at -92
percent to -22 percent). This measure provides direct battlefield-level evidence that
higher rates of mechanization are negatively correlated with incumbent victory.
These results demonstrate that mechanization reduces the likelihood of incumbent
victory even when accounting for other variables thought to affect COIN outcomes.
However, several of the alternative explanations detailed above - notably,
the globalization of media and rising nationalism - are not directly captured by
any variables here and may only appear as time effects.
70. See especially Collier and Hoeffler 2004; and Fearon and Laitin 2003.
71. We re-estimated Model 7 with a dummy democ variable that denoted whether a state's regime
score was >7, the conventional threshold for being coded a stable democracy, democ was not significant.
72. This difference is highly significant at p = .02 f (2.29,68.03df ).
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92 International Organization
As a result, we re-estimated our models in Table 3 with fixed-time effects for
each post- 19 17 decade (minus one) to assess the importance of mechanization relative
to other, perhaps unmeasured, variables that may have changed over time.
We also used dummy variables to capture possible period effects in the mechanized
era associated with the post- 1945 and post- 1989 eras. The inclusion of these
decade fixed effects did not alter our results, and none of the decade dummies are
statistically significant.73 This is an important finding, for it suggests (1) that more
mechanized militaries fare worse than their less mechanized counterparts even
within the same decade, and that (2) mechanization's effects are independent rather
than simply running parallel to some unidentified temporal trend.
Robustness Tests
It is reasonable to wonder, however, whether these results are being driven by
the characteristics of particular countries or regions. Similarly, we might imagin
that mechanization simply coincides with other temporal dynamics, such as decolonization,
that are really responsible for the observed shift in war outcomes. W
therefore subject our findings to several robustness checks in this section (see
Table 4).
We begin with country fixed effects to test whether stable but unobserved differences
in the performance of specific outliers are driving our results. Dummy
variables were created for incumbents with more than one observation whose mean
outcome was either significantly above or below the mean outcome (1.26) for
all incumbents.74 We defined "significantly" as 0.5 standard deviations above or
below mean outcome. Model 9 reports estimates for modern, while Model 10
provides estimates for mech. Our indices of mechanization remain significant and
in the predicted direction.
Models 11 and 12 include dummy variables for six different regions - Eastern
Europe, Latin America, Sub-Saharan Africa, North Africa and the Middle East,
Asia, and North America - to control for the possibility that outcomes cluster in
particular regions. Western Europe was the reference category and was thus dropped
from the analysis. Model 1 1 reports results from the entire time period, while Model
12 focuses solely on the mechanized era. Again, our measures of mechanization
remain significant.75
73. Moreover, the coefficients of these decade fixed effects are reasonably similar, indicating that
most, though not all, of the time trend has been accounted for. These results are reported in our supplemental
appendix at (http://www.princeton.edu/~jlyall/).
74. Above-average incumbents include the United States, Argentina, Austria-Hungary, Russia/
Soviet Union, Algeria, and the Philippines. Below-average incumbents include Bolivia, Portugal, Serbia/
Yugoslavia, Liberia, Chad, Japan, Germany, South Africa, Afghanistan, Pakistan, Cambodia, and South
Vietnam.
75. Interestingly, only two regions - Eastern Europe, and North Africa and the Middle East - are
statistically significant in both models. Both are positively correlated with incumbent victory.
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Explaining Outcomes in Counterinsurgency Wars 93
Following Fearon and Lai tin 2003, we also re-estimated our models with a variable
(new state) denoting whether war onset occurred during the first two years
of a new state's postcolonial existence. It is likely that the combination of colonialism's
delegitimization in the 1950s and surging nationalism rendered wavering colonial
states and weak successor governments especially likely to be challenged and
to suffer defeat (particularly in Africa). Models 13 and 14 report regression estimates
with new states included. Once again, our mech and heli estimates are
unchanged, and new states itself is not significant.
TABLE 4. Robustness checks
Country FE Region FE New states
Model 9 Model 10 Model 1 1 Model 12 Model 13 Model 14
(MODERN) (MECH) (MODERN) (MECH) (MECH) (HELl)
Variables (1800-2005) (1918-2005) (1800-2005) (1918-2005) (1918-2005) (1945-2005)
modern -1.67*** -1.93***
(0.43) (0.46)
mech -0.35** -0.43*** -0.29**
(0.14) (0.17) (0.13)
heli -1.23***
(0.43)
regime -0.04* -0.05** -0.02 -0.01 -0.04* -0.06**
(0.02) (0.02) (0.02) (0.03) (0.02) (0.03)
support -0.75*** -0.73*** -0.81*** -0.76*** -0.86*** -0.73***
(0.19) (0.20) (0.19) (0.21) (0.17) (0.19)
power 0.13 0.10 0.18* 0.22 0.14 0.30*
(0.09) (0.13) (0.11) (0.17) (0.14) (.17)
energy 0.02 -0.00 0.03 -0.02 0.03 -0.04
(0.05) (0.10) (0.06) (0.10) (0.09) (0.08)
occupy -0.56 -0.77 -1.01*** -1.87*** -1.35*** -2.16***
(0.35) (0.49) (0.37) (0.51) (0.38) (0.62)
elevation -0.01 0.07 -0.02 0.03 0.11 0.14
(0.09) (0.12) (0.09) (0.12) (0.10) (0.13)
distance -0.10* -0.06 -0.08 -0.02 -0.03 -0.01
(0.05) (0.06) (0.06) (0.06) (0.06) (0.07)
cold war 0.56* 0.51 0.73** 0.51 0.51 1.02**
(0.34) (0.38) (0.33) (0.42) (0.42) (0.44)
above 1.26*** 1.45**
(0.47) (0.62)
below -1.48*** -i.7i***
(0.41) (0.49)
NEW STATES 0.50 0.64
(0.53) (0.56)
Cutpoints -3.52 -2.32 -3.02 -0.04 -1.81 -1.13
-2.32 -0.73 -1.87 1.50 -0.36 0.62
N (clusters) 285 167 285 167 167(80) 135(76)
Waldchi2 94.95*** 61.33*** 73.67*** 50.77*** 34.49*** 31.17***
Log likelihood -228.38 -150.75 -235.97 -154.23 -161.36 -126.00
R2 0.20 0.17 0.18 0.16 0.12 0.15
Notes: Robust standard errors (Models 9 to
* significant at 10%; **significant at 5%; **
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94 International Organization
Three additional robustness tests were also conducted.76
First, we omitted World War II observations from Germany and Japan since
their multiple losses can plausibly be tied to defeat by third parties. Next, we reran
our models with a dummy variable for the United Kingdom. The United Kingdom
not only accounts for the largest number of observations (N = 43) but also has
been routinely cited as possessing an especially proficient COIN force.77 Our results
remain unchanged.
Finally, we recoded outcome as a binary variable to test whether our results
are an artifact of our decision to use an ordered dependent variable. While a win/
draw/loss ordinal coding retains greater information about outcomes, it also assumes
that there is one underlying dimension onto which discrete outcomes are mapped
and that the effect of any variable is uniform regardless of where the observation
lies on this continuum. As a result, it does not permit a variable to increase the
likelihood of middle outcomes (that is, draws) at the expense of more extreme
outcomes (win, defeat). We therefore recast outcome using two different binary
variables: win/no win, and defeat/no defeat. Once again, our results are consistent
with those presented above.
Microlevel Evidence: A Tale of Two Divisions
While our large-N statistical analysis allows us to examine trends over time, it
cannot directly test the argument's proposed mechanism of information starvation
As a result, in this section we turn to an out-of-sample comparison as an initial
plausibility probe of how mechanization shapes information-gathering. We exploit
intramilitary variation in mechanization rates by comparing two U.S. divisions
the 4th Infantry Division and the 101st Air Assault Division - deployed in Iraq
during 2003-2004.
Despite its name, 4th ID was the most heavily mechanized unit in the entire
U.S. Army, with 1,690 M1A2 tanks and armored vehicles for its 17,000 soldiers
(or ten soldiers per vehicle). The 101st, by contrast, was one of the least mechanized
units, with only 296 vehicles, principally unarmored HMMWVs ("Hum
vees"), for its 20,000 soldiers (or nearly sixty-eight soldiers per vehicle).78 The
difference between these division's mechanization rates represents roughly a mov
from 1 to 2 in our mech variable (that is, from the 1 percent to the 20 percent
percentile).
If the proposed argument is correct, we should observe clear differences in the
ability of these divisions' soldiers to acquire reliable information. Moreover, divi-
76. These tests are reported in our supplemental appendix.
77. See, tor example, NagI 2UU2; and Thompson 1966. Indeed, the United Kingdoms mean outcome
score is 1.51 compared to the 1.21 obtained by remaining incumbents. This difference is significant
at/7 = .023, r(-2.32, 62.77df).
78. The 101st also deployed with 161 helicopters, while 4th ID possessed 96.
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Explaining Outcomes in Counterinsurgency Wars 95
sion personnel should ascribe their information-gathering abilities to the advantages
and limits of their particular force structure. In light of their divergent force
structures, these divisions should adopt different strategies given their divergent
intelligence capabilities. In this case, 4th ID should be relatively ineffective in
COIN operations given its "modern" emphasis on direct battle and, above all, its
lack of soldiers available for dismounted (that is, on foot) patrolling. Trading men
for machines, 4th ID not only possessed fewer soldiers but could not undertake
large numbers of dismounted patrols since so many of their soldiers were required
to simply maintain and operate their vehicles.79
TABLE 5. A tale of two divisions: Northern Iraq, 2003-2004
Wist Airborne Division 4th Infantry Division
Variables (Air assault) (Mechanized)
Mechanization
Division type Light infantry Mechanized
Mechanization level 67.6 10.1
Control variables
Deployment length 12 months 10 months
AO size 75,357 square kilometers 52,718 square kilometers
AO average elevation 798.56 meters 139.42 meters
Governates 4 3
AO population 6.4 million 3.4 million
AO ELF (weighted) .628 .546
Outcome
Overall performance Relative success Relative failure
Notes: Mechanization level is number of soldiers divided by motorized vehicles in division.
AO ELF = average of each governate weighted by population.
Comparing two divisions drawn from the same military and
for a number of confounding variables, including war aims, reg
power, and occupier status. Moreover, each division's area of o
northern Iraq was similar (Table 5). Controlling adjacent AOs w
linguistic fractionalization values, the divisions were stationed i
nearly equal length that began at roughly the same time. Each
challenge of addressing substantial populations of demobilized s
AOs. Tikrit, Saddam Hussein's birthplace and home to many Ir
79. It takes four soldiers to operate an M1A2 tank, for example, and anot
Bradley armored fighting vehicle. Even if soldiers dismount, some portion
behind to protect the vehicles. Nor were U.S. Army mechanized units trained t
patrolling, especially in the pre-2003 era, since such practices run counter to the
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96 International Organization
within 4th ID's responsibilities, which also partially straddled Iraq's Sunni-Shia
fault line. The 101st also faced some 1 10,000 demobilized soldiers while also inheriting
70,000 Kurdish peshmerga and a bitter intra-Kurdish rivalry. It should be
noted, though, that the lOlst's AO was substantially larger, more rugged, and
densely populated. Though the 101st only had 3,000 more soldiers than 4th ID, it
was tasked with overseeing 3 million more Iraqis.
We draw on unique data to compare these divisions' performance. These include
one author's combat tour in Iraq as Divisional Chief of Plans; declassified internal
documents on the intelligence-gathering activities of the 101st; and a small Webbased
survey of twenty-five soldiers and marines who served in these divisions
during 2003-2004 as well as those currently in Iraq serving in comparable divisions.
Interviewees range in rank from captain to colonel, and all but one have at
least one, and in many cases two, combat tours in Iraq. (The lone exception had
two tours in Afghanistan). We acknowledge that there are severe data and other
limitations inherent in conducting research during an ongoing war. The case study
should be viewed as suggestive, not definitive. Nonetheless, these data support
the contention that as mechanization increases, the quality and quantity of information
diminishes, undercutting COIN effectiveness.
Comparative Information-Gathering Capabilities
Force structure's impact made itself immediately apparent in the type and frequency
of patrols each division conducted. After a brief delay, the 101st made
daily patrols by small groups of dismounted soldiers the centerpiece of its
intelligence-gathering. This decision was a product of its force structure: lacking
armored vehicles but possessing an above-average complement of soldiers, the
101st moved toward a police-style model of "walking beats." Internal records
indicate that the 101st conducted an average of 200 to 250 patrols daily, the vast
majority dismounted. Some forty to ninety of these daily patrols were joint with
Iraqi forces, allowing the 101st to tap their language and cultural skills to gather
information.80
4th ID's patrol rate compares unfavorably. Task Force Iron Horse (35,000 soldiers),
which included 4th ID, recorded an average of 169 daily patrols, or about
68-85 percent of the lOlst's average despite possessing 75 percent more soldiers.81
Crucially, the bulk of 4th ID's patrols were not dismounted but instead
were mechanized, meaning that soldiers typically did not leave their vehicles to
engage in face-to-face contact. Instead, the division sought to intimidate the local
population and flush out insurgents by projecting "presence" through armored shows
80. "Security" and "Aggressive Implementation in AO North: Early Wins in the First 30 Days"
Declassified Briefing Material (dated January 2004). See also Wilson 2007, 97-1 13.
81. Daily Central Command (CENTCOM) Briefings (dated January 2004).
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Explaining Outcomes in Counterinsurgency Wars 97
of force. "We came in very hard,"82 Lt. General Raymond Odierno, 4th ID's commanding
officer, remarked.
The importance of dismounted patrolling as the best, and often only, means for
acquiring information - often referred to as "atmospherics" - about local populations
was a consistent theme in our interviews. "The fewer the soldiers that interact
with the environment," one Major noted, "the less information gleaned from
it."83 The following excerpts illustrate this relationship.
Before we left, my Soldiers knew their sector inside and out. They knew the
locations of IED [Improvised Explosive Device] hot spots, trigger positions,
sniper positions, drive-by alleys, short cuts, abandoned buildings, manhole
covers. They also knew the stores, storeowners, chiefs, schools, mosques,
Imams, and all the other key figures. We knew the ethnic backgrounds of
neighborhoods, status of electricity and water, everything you need to know
in order to conduct proper COIN. You can't get that kind of situation awareness
without living and patrolling in assigned sectors.84
My company was very good at gaining intelligence because of the number of
patrols I conducted and the amount of time I spent talking with locals, police,
sheiks, etc. I generally found that you got out what you put in and the key
was giving platoons specific tasks and intelligence requirements on patrols
. . . instead of simply driving around. Our ability improved over time because
of the improved understanding I had of the area. Over time I gained greater
credibility and could speak intelligently about the area (history, geography,
personalities) which gave [inhabitants] greater confidence to talk to me.85
Two points emerge from these interviews. First, these soldiers are privileging
types of information that are sharply opposed to the types required by the dictates
of modern battle (principally, the location of enemy formations). There are no
technological shortcuts that can substitute for the acquisition of these contextspecific
and time-sensitive "atmospherics" and, as such, divisions built around direct
battle are ill-equipped to acquire them. Second, divisions such as 4th ID will struggle
because their force structures impinge on their collection abilities. Local information
cannot be acquired via presence patrols that do not interact with the local
population. As one 101st soldier wryly observed, "it's impossible to conduct 'eye/
hand' contact at 20-30 miles an hour."86
The 101st, commanded by then Major General David Petraeus, moved to institutionalize
the collection and vetting of this information. A "Tribal Engagement
Plan" was adopted, binding together division and influential tribal leaders
{mukhtars) in a complex web of formal associations, employment programs, and
82. Quoted in Ricks 2006, 289.
83. Author's interview with Major, U.S. Army, 3 November 2007.
84. Author's interview with Captain, U.S. Army, 15 November 2007.
85. Author s interview with Major, U.S. Army, 18 September 2007.
86. Author's interview with Major, U.S. Army, 24 October 2007.
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98 International Organization
informal meetings. An anonymous telephone tip line was also established; soldiers
distributed its number on their daily patrols. Recognizing the need to depart
from traditional measures of success - namely, insurgent casualties - the 101st reorganized
itself. It created an Integrated Effects Working Group (IEWG) that meshed
together once-separate intelligence and planning aspects of the division.87 This
coordination facilitated the rapid sharing of an ever-increasing volume of information
obtained from active collaborators and dismounted patrols.
By contrast, 4th ID was constrained by a force structure that privileged a more
direct approach to exerting control. The most technologically advanced division
in the U.S. Army, 4th ID continued to define its performance in terms of traditional
metrics such as enemy casualties or the number of firefights. This stance
left the division largely unaware of the subterranean insurgency that was slowly
gathering steam during summer 2003. Rather than reorienting toward this invisible
opponent, the division's patrols were designed to demonstrate its wasta (influence)
in the public's eyes through highly visible shows of force. The division's
armored vehicles, one 4th ID officer argued, provided "shock effect value" by deterring
Iraqis from joining or supporting insurgent groups.88
Our interviewees also stressed that reliable information flowed more freely
because dismounted patrolling convinced locals that U.S. forces were willing to
share the same risks. "The center of gravity lies with the population," one marine
argued, "and you have to be among them to win them over."89 The lOlst's force
structure aided this task: its lack of armor, for example, relieved it of the need to
be isolated on a massive Forward Operating Base (like 4th ID), while its lack of
tentage in the initial months meant it was forced to hunker down in abandoned
buildings. Interestingly, 101st officers, along with soldiers from "light" units, noticed
that the volume of information they received diminished near the end of their
deployments. Iraqis, anticipating the withdrawal of these units, cut their ties to
avoid their exposure since they did not (yet) trust the replacement division.
Surveying the performance of other more mechanized Divisions, one 101st officer
concluded:
Units that succeeded in gaining information from the local population often
lived (i.e. actively patrolled dismounted) in an area. Commands that identified
this early often saw increased capability to identify the insurgents within
their AO. Commands that did not identify this practice early often struggled
with information gathering and had trouble identifying insurgents.90
87. "Division Tribal Engagement," "Tribal System Diagram," "Tribal Alliance System Diagram,"
and "Why AO North JIATF Was Established," Declassified Briefing Material (dated 10 January 2004).
See also Wilson 2007, 115-31.
88. Author's interview with Colonel, U.S. Army, 9 November 2007. See also author's interview
with Lieutenant Colonel, U.S. Army, 1 November 2007.
89. Author's interview with Colonel, U.S. Marines, 8 November 2007.
90. Author's interview with Major, U.S. Army, 24 October 2007.
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Explaining Outcomes in Counterinsurgency Wars 99
The disparity in intelligence gathering between 4th ID and the 101st support
this proposition. Internal records from the 101st track sizable increases in the average
volume of weekly tips provided by local collaborators from none in May 2003
to about 150 by September 2003 and 370 by January 2004. The reliability of these
tips also dramatically improved: by September, the 101st was routinely conducting
selective raids to secure weapons caches or capture high-value individuals identified
by locals.91
On the other hand, 4th ID's intelligence-gathering efforts were criticized by other
divisions and its commanders. "Few of the raids . . . executed by [4th ID] have
resulted in the capture of any anti-coalition members or the seizures of illegal
weapons,"92 noted one of 4th ID's officers, a sign that the appropriate information
was not being collected. Indeed, even if we assume that mechanized and dismounted
patrols gather and vet information equally - a dubious distinction given the sharply
different skill sets required by these force structures - the disparity in patrol rates
alone ensured that 4th ID would acquire relatively less information. During the
4th ID's ten-month tour, the 101st conducted between 9,300 and 24,300 more
patrols, a staggering difference given that the 101st possessed only 3,000 more
soldiers.
The Impact of Information Starvation
Reliance on mechanized patrols not only contributed to 4th ID's information starvation
but also proved counterproductive since their effects were anything but selective.
Interviews and data suggest that these "presence" patrols only stirred up
resentment, a fact even acknowledged by those generally supportive of such
patrols.93 Advocates of dismounted patrols were especially dismissive of presence
patrols - "brain surgery with a hammer,"94 in the words of one soldier - since without
accurate information their effects would be indiscriminate.
The following interview excerpts illustrate the connection between force structure,
poor information, and heightened Iraqi resentment.
Many of our mounted patrols, especially in crowded urban areas or on congested
roads, did not provide security or gain intelligence. Instead, they usually
only left the Iraqis more frustrated with our presence since our troops in
their mounted /armored patrols often "bullied" their way through congested
areas.95
91. Data taken from "IO Supporting Tasks," "Operation Locked Claw," "Defeat of the Al-Rifah
Terrorist Organization (Figure A-l)," and "MMTC Hotline Calls," Declassified Briefing Material.
92. Ricks 2006, 279.
93. See, for example, author's interview with Colonel, U.S. Army, 9 November 2007; and author's
interview with Major, U.S. Army, 4 November 2007.
94. Author's interview with Major, U.S. Army, 3 November 2007.
95. Author's interview with Colonel, U.S. Army, 20 November 2007.
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100 International Organization
Armored patrols are impersonal and send a loud nonverbal message of repression
and occupation. Iraqis must pull their vehicles over or get out of the road
when a U.S. vehicle passes by for security reasons. They see weapons being
directed at them, they see angry American faces, and they hear horns blaring
to get people's attention. All of these actions send a message to the Iraqis that
they have fewer freedoms than the occupiers do. This breeds resentment.96
Drive-by patrolling in armored vehicles is probably the least effective means
of patrolling. You are doing absolutely nothing except trolling for IEDs. You
are making yourself and the people more of a target. In addition, if you make
contact [with insurgents] . . . you will cause too much collateral damage. If
you're patrolling dismounted, you have situational awareness, [allowing] for
precision engagement.97
The disparate ability to acquire relevant information, and its subsequent impact
on Iraqi public opinion, is perhaps best seen in the varying arrest records of each
division. Armed with usable information, the 101st was able to target insurgents
much more selectively with raids that minimized inconveniences to the general
populace. Internal records reveal that the 101st arrested eleven individuals on average
each day in its AO on suspicion of insurgent activity.98 By contrast, 4th ID
arrested thirty-three each day, and nearly 10,000 over the course of its tour in
Iraq. This was the highest total of any division in Iraq. Yet the division struggled
to separate insurgents from the noncombatant population and often detained large
numbers of innocent people. The Army Inspector General concluded that 4th ID
was "grabbing whole villages because combat soldiers were unable to figure out
who was of value and who was not."99
To close this information gap, 4th ID turned to more dubious methods, including
hostage-taking among the families of putative insurgents. Frustration among
the division's soldiers also gave way to prisoner abuse: the division was frequently
cited as the most likely to inflict abuse on its prisoners.100
Polling data of sufficient reliability and subnational level is unfortunately not
available to track public opinion toward these two divisions during the war's initial
phase. The example of Sharqat, a small city some 270 kilometers northwest of
Baghdad, does offer a window into elite estimates of their effectiveness, however.
By dint of geography, the city is bisected north-south by a river, leaving its eastern
half in the lOlst's AO and its western half under 4th ID's purview. Sharqat's
96. Author's interview with Captain, U.S. Army, 1 November 2007.
97. Author's interview with Captain, U.S. Army, 15 November 2007. Emphasis in the original.
98. "A Typical Day in AO North," Declassified Briefing Material (dated January 2004).
99. Army Inspector General Report, "4th Infantry Division Detainee Operations Assessment Trip
Report (CONUS Team)," DOD-0 15397 (2004). A Defense Department official estimated that 80 percent
of the prisoners captured by 4th ID's artillery brigade were simply "in the wrong place at the
wrong time." The 101st, by contrast, was rated among the most selective in its detainment policy. See
Ricks 2006, 232-40.
100. See, for example, "Commander's Report of Commander's Inquiry," Internal Army documents
released to the ACLU, 12 September 2003.
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Explaining Outcomes in Counterinsurgency Wars 101
western half was visited only sporadically and briefly by 4th ID's mechanized "presence"
patrols. The city's eastern environs, however, were routinely patrolled by
dismounted infantry from the 101st. Growing lawlessness and insurgent activity
in western Sharqat persuaded its mayor, Muhsin Khalaf, to petition coalition and
101st leaders to have the entire city moved under the lOlst's aegis. Despite repeated
entreaties, the request to gerrymander the lOlst's AO was denied by the Coalition
Provisional Authority because it would set a bad precedent.101
Perhaps unsurprisingly, each division recorded different patterns of insurgent
violence despite being neighbors. Data from the 101st indicate that it experienced
an average of five daily attacks by insurgent and unknown forces. By comparison,
the average level of daily attacks by insurgent and unknown forces for all U.S.
Army divisions in Iraq during 2003-2004 was approximately twenty-five. 4th ID
recorded the highest-known rate of daily attacks of any U.S. Army division. "From
June 2003 to January 2004," Odierno noted, "we had three times more than the
combined number of attacks in the rest of the Iraqi theater."102 Moreover, while
the lOlst's data suggest that attacks diminished over time, the opposite was true
of 4th ID, where attacks accelerated sharply after summer 2003. 103 In short, it is
difficult to avoid drawing the conclusion that 4th ID fueled, rather than suppressed,
the insurgency in its AO.
This initial test, while limited, does reinforce the central conclusion from our
large-N analysis: increased levels of mechanization heighten the difficulties faced
by counterinsurgents. Force structure can place severe restrictions on the ability
of mechanized forces to acquire, process, and act upon the types of information
necessary to render a counterinsurgent efforts discriminate. This is not to suggest
that technological determinism is at work. Not all heavily mechanized armies lose
COIN efforts, nor do all lightly mechanized forces defeat insurgent forces. Yet it
is clear that force structures do constrain reform efforts, and fairly drastic actions
may be necessary if mechanized forces are to become successful counterinsurgents.
It also bears emphasizing that the lOlst's relative success in counterinsurgency
was purchased at the price of suffering higher casualties. The 101st lost eightyfour
soldiers during its tour; the 4th ID lost thirty-four. The same force structure
that proved flexible enough to enable the 101st to build its information networks
through dismounted patrolling also left its soldiers more vulnerable than their mechanized
counterparts. This suggests the existence of a bitter tradeoff: minimizing
soldiers' risk lowers the volume and accuracy of information obtained, thus lowering
the probability of defeating an insurgency. Perversely, a higher casualty total which
in modern war terms is viewed as evidence of failure - is often evidence
that the counterinsurgent has anchored itself astride the information networks that
will ultimately improve its effectiveness.
101. Author's interview with Major, U.S. Army, 16 April 2007.
102. Hollis 2004, 10.
103. "A Typical Day in AO North," Declassified Briefing Material (dated January 2004).
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102 International Organization
Conclusion
This article addresses a simple puzzle: why have states have proven increasingly
unable to defeat weaker insurgent organizations over time? We contend that the
increasing mechanization of state militaries has steadily undercut their effectiveness
by truncating their ability to collect local information. Beginning with the
introduction of railways in the 1870s, and accelerating sharply after World War I,
the mechanization of military force structures has led to (1) reduced numbers of
infantry in modern militaries; (2) less interaction with local populations; and (3)
increased dependence on long, vulnerable, logistical ties to their homelands that
only reinforce their isolation from local information networks. The result is often
a mechanized military unable to apply its coercive and noncoercive power in a
selective manner due to information starvation. The proposed negative relationship
between mechanization and war outcomes received significant support in our
statistical analysis of 286 insurgencies, the largest data set yet assembled. Suggestive
evidence of the plausibility of the argument's causal mechanism was also provided
through a microlevel study of two U.S. Army divisions in Iraq.
At a broader level, these results indicate that conflict scholars should heed two
methodological concerns. First, it is important that our sample populations are
composed of uniform cases - combining various types of warfare under the same
"civil war" rubric risks mistaken inferences since it is unlikely that these disparate
forms of violence share a uniform causal process. Second, the article's findings
suggest that without due attention to periodization, we also risk drawing improper
conclusions about the generalizability of particular arguments. For example, key
independent variables, notably power, occupy, and regime, are only significant
in certain eras, an important finding that is obscured if the entire 1800-2005 period
is treated as an undifferentiated historical era.
These findings also suggest several profitable avenues for future research. We
still lack, for example, a large-N study of how different regime types perform in
COIN wars. Our sample of wars could also be further categorized by the type of
demands made by rebel groups, since it is plausible that outcomes vary according
to the extent and nature of group demands. There may be variation, for example,
in the types of concessions made by incumbents as well as their success in resolving
the underlying conditions that sparked the insurgency. Similarly, the number
of insurgent groups active in a conflict likely affects the difficulties an incumbent
faces. Advances could also be made by exploring "draws," which represents a
growing share of outcomes since the 1960s.104
The process of mechanization itself also deserves further study. Time-series data
on rates of mechanization for all states, not simply combatants, would be invaluable.
These data would enable scholars to test the determinants of mechanization,
including the important question of whether (and which) country-specific factors
104. Fortna 2004, 3-4.
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Explaining Outcomes in Counterinsurgency Wars 103
inhibit or accelerate its embrace. Future research could also be extended to the
battlefield itself. Variation in force structures across militaries, or within different
units of the same military, may help explain the location, intensity, and nature of
insurgent violence. Finally, additional spatial measures of mechanization, including
the length of supply lines or the distance between bases in a conflict area,
could also be adopted.
From a policy perspective, the evidence presented here suggests that modern
armies will be chronically unprepared to defeat insurgencies that may arise after
military interventions. Paradoxically, the mechanized force structures of modern
militaries may contribute not just to the rise of insurgent opposition but may actually
embolden it. Insurgents, now thoroughly versed in the limits of mechanized
forces, have incentives to adopt "primitive" strategies that pit the strengths of the
modern state against itself. The result may be greater disorder in postintervention
environments and, as a consequence, a decrease in the rate of success associated
with efforts to achieve policy objectives such as democratization through military
intervention.
Policymakers may be tempted to draw the conclusion that interventions are
doomed to fail. Indeed, one consequence of increased mechanization may be a
decreased willingness to contemplate intervention at all, leading to missed opportunities
to staunch the implosion of failed states or avert human rights disasters
such as genocide. Insofar as policymakers remain convinced of the merits of intervention,
however, substantial changes will need to be made to current force structures
if their vulnerabilities are to be reduced and the odds of success against
insurgents improved. This is not an antitechnology brief for returning to the "foraging"
era of warfare. Instead, decision makers contemplating future interventions
should (1) increase the number of infantry in their forces; (2) invest in the
human capital of their soldiers, including language and area skills; and (3) reduce
logistical dependencies on the homeland by forging local interdependencies and
adopting decentralized base postures that heighten interaction with locals. Such
actions may be politically unpalatable since they increase the risks that soldiers
face. Without a willingness to consider reforms, however, states will continue to
prepare for the wrong type of war - with potentially disastrous consequences.
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