• Share:

By Caleb Crain, Guest Blogger and Contributer to The Best of Technology Writing 2008

"Twilight of the Books," an essay of mine published in The New Yorker on 24 December 2007, has been honored by inclusion in The Best of Technology Writing 2008, edited by Clive Thompson. When The New Yorker published my essay, I posted on my blog a series of mini-bibliographies, for anyone who wanted to dig into the research behind my article and try to answer for themselves whether television impaired intellect or whether literary was declining (here's an index/overview to all these research posts). A month or so ago, when the University of Michigan Press, the publisher of The Best of Technology Writing 2008, invited me to write about my essay for their blog, I was afraid I didn't have any more to say. Also, alas, I was under deadline. But I have a breather now, and looking over my year-old notes, I realize that there were a couple of categories of research that I never posted about at the time, because the topics didn't happen to make it into my article's final draft.

This research tried to answer the questions, Does exposure to violence on television or in video games lead to aggressive behavior in the real world? and Do video games impair academic performance? I still think the questions are very interesting, though I must now offer my summaries with the caveat that they are somewhat dated. In fact, I know of some very interesting research recently published on the first question, some of which you can read about on the blog On Fiction. I'm afraid I haven't kept up with video games as closely, but I'm sure there's more research on them, too. I hope there is, at any rate, because when I looked, I found very little. (By research, in all cases, I meant peer-reviewed studies based on experimental or survey data, and not popular treatments.)

A few words of introduction. The historian Lynn Hunt has suggested in her book Inventing Human Rights that in the eighteenth century, the novel helped to change Europe's mind about torture by encouraging people to imagine suffering from the inside. As if in corroboration, some of the research summarized below suggests that the brain responds less sympathetically when it is perceives violence through electronic media. As you'll see, however, there is some ambiguity in the evidence, and the field is highly contested.

1. Does exposure to violence on television or in video games lead to aggressive behavior in the real world?

• In a summary of pre-2006 research, John P. Murray pointed to experiments in the 1960s by Albert Bandura, showing that children tend to mimic violent behavior they have just seen on screen and to a number of studies in the early 1970s that found correlations between watching violence and participating in aggressive behavior or showing an increased willingness to harm others. In 1982, a panel commissioned by the Surgeon General to survey existing research asserted that "violence on television does lead to aggressive behavior," and in 1992, a similar panel commissioned by the American Psychological Association reported "clear evidence that television violence can cause aggressive behavior. " One mechanism may be through television's ability to convince people that the world is dangerous and cruel, in what is known as the "mean world syndrome." Murray claims that a twenty-two-year longitudinal study in Columbia County, New York, run by Huesmann and Eron, which was begun under the auspices of the Surgeon General's office, has linked boys' exposure to television violence at age eight to aggressive and antisocial behavior at age eighteen and to involvement in violent crime by age thirty ; in fact, a 1972 study by Huesmann et al. did link boys' exposure at eight to aggressive behavior at eighteen, but the 1984 study cited by Murray linked violent crime at age thirty to aggressive behavior at age eight and said nothing about exposure to televised violence. In an unrelated study, when television was introduced in Canada, children's levels of aggression increased. [John P. Murray, "TV Violence: Research and Controversy," Children and Television: Fifty Years of Research, Lawrence Erlbaum Associates, 2007. L. Rowell Huesmann, Leonard D. Eron, Monroe M. Lefkowitz, and Leopold O. Walder, "Stability of Aggression Over Time and Generations," Developmental Psychology 1984. For a synopsis of Huesmann's 1972 study, see Steven J. Kirsh, Children, Adolescents, and Media Violence: A Critical Look at the Research, Sage Publications, 2006, p. 208.]
• A longitudinal study of 450 Chicago-area children was begun in 1977 when the children were between six and eight years old, and continued in 1992-1995, when they were between twenty-one and twenty-three years old. As children, the subjects were asked about their favorite television programs, whether they identified with the characters, and how true-to-life they thought the shows were. Fifteen years later, it emerged that watching violent shows, identifying with aggressive characters of the same sex, and believing that the shows were realistic correlated with adult aggression, including physical aggression. The effect was present even after controlling for such factors as initial childhood aggression, intellectual capacity, socioeconomic status, and parents' level of emotional support. (Note that in the opinion of the researchers, the Six Million Dollar Man was considered a "very violent" show, and that the heroine of the Bionic Woman was considered an aggressive character.) [L. Rowell Huesmann, Jessica Moise-Titus, Cheryl-Lynn Podolski, and Leonard D. Eron, "Longitudinal Relations between Children's Exposure to TV Violence and Their Aggressive and Violent Behavior in Young Adulthood, 1977-1992," Developmental Psychology, 2003. Cf. Kirsh , p. 209.]
• In a 2006 textbook about the relation between media violence and aggressive behavior, author Steven J. Kirsh notes that a 1994 meta-analysis of the link between television violence and aggression estimated the size of the effect to be r = .31. "The effect sizes for media violence and aggression are stronger than the effect sizes for condom use and sexually transmitted HIV, passive smoking and lung cancer at work, exposure to lead and IQ scores in children, nicotine patch and smoking cessation, and calcium intake and bone mass," Kirsh wrote. A 2004 meta-analysis found that the correlation between video game violence and aggressive behavior was r = .26. To put the effect sizes in perspective, Kirsh notes that they are greater than the link between testosterone levels and aggression, but weaker than the link between having antisocial peers and delinquency. In surveying the research on video games, Kirsh makes the point that there is little research yet, and that most of it was done in what he calls the "Atari age," when the games were fairly innocuous; almost no one has experimentally tested the effects on children and teens of the new-generation, highly realistic and gory first-person shooter games. [Steven J. Kirsh, Children, Adolescents, and Media Violence: A Critical Look at the Research, Sage Publications, 2006.]
• In a 2007 summary of research, three scientists asserted that there was "unequivocal evidence that media violence increases the likelihood of aggressive and violent behavior in both immediate and long-term contexts," and noted that the link between television violence and aggression had been proved by studies in both the laboratory and the field, and by both cross-sectional and longitudinal studies. Video games were not as well documented, but in the opinion of the scientists, the preliminary evidence suggested that their effect would be similar. Playing violent video games has been shown to increase physiological arousal. Measurements of skin conductance and heart rate show that people have less of an aversion to images of real violence, if they have previously been exposed to violent television or violent video games. exposure to violent video games reduces aversion to scenes of real violence, as measured by a blip of voltage that typically occurs 300 milliseconds after sight of a gory image. A 2006 study by Murray et al. (see below) showed that violent scenes of television activated parts of the brain associated with emotion, memory, and motor activity. Yet another 2006 study, by Weber et al., showed that while players were engaged in violence during a video game, a brain region associated with emotional processing was suppressed, and one associated with cognitive processing was aroused, perhaps in order to reduce empathy and thereby improve game performance. In a 2005 study by Matthews et al., chronic adolescent players of violent video games scored the same as adolescents with disruptive behavior disorders on a test designed to assess a brain region responsible for inhibition and error correction. Attempting to explain the results of the various studies under review, the authors write: "Initial results suggest that, although video-game players are aware that they are engaging in fictitious actions, preconscious neural mechanisms might not differentiate fantasy from reality." [Nicholas L. Carnagey, Craig A. Anderson, and Bruce D. Bartholow, "Media Violence and Social Neuroscience," Measurements of event-related brain potentials (ERPs) and functional magnetic resonance imaging (fRMI) allow researchers to look with new precision at the magnitude of brain processes that occur at particular times and at the activation of specific regions of the brain. A 2006 study by Bartholow et al., for example, showed that Currents Directions in Psychological Science, 2007.]
• While a functional magnetic resonance imaging (fMRI) device monitored their brain activity, eight children watched a video montage that included boxing scenes from Rocky IV and part of a National Geographic animal program for children, among other clips. The violent scenes activated many brain regions that the nonviolent scenes did not, mostly in the right hemisphere. These regions have been associated by other researchers with emotion, attention and arousal, detection of threat, episodic memory, and fight or flight response. The authors of the study speculate that "though the child may not be aware of the threat posed by TV violence at a conscious level . . . a more primitive system within his or her brain (amygdala, pulvinar) may not discriminate between real violence and entertainment fictional violence. " In the activation of regions associated with long-term memory, the researchers saw a suggestion that the television violence might have long-term effects on the viewer. [John P. Murray, etal. "Children's Brain Activations While Viewing Televised Violence Revealed by fMRI," Media Psychology, 2006.]
• In a 2005 study, 213 video-game novices with an average age of twenty-eight were divided into two groups, and one group spent a month playing an average of 56 hours of a violent multi-player fantasy role-playing video game. Participants completed questionnaires to assess their aggression-related beliefs before and after the test month, and were asked before and after whether they had argued with a friend and whether they had argued with a romantic partner. The data showed no significant correlation between hours of game play and the measures of aggression, once the results were controlled for age, gender, and pre-test aggression scores. The authors note that there might be an effect too small for their study to detect, and that adults might be less sensitive to the exposure than children or adolescents. [Dmitri Williams and Marko Skoric, "Internet Fantasy Violence: A Test of Aggression in an Online Game," Communication Monographs, June 2005. Andrea Lynn, "No Strong Link Seen Between Violent Video Games and Aggression," News Bureau, University of Illinois at Urbana-Champaign, 9 August 2005.]
• A 2007 book presented three studies of video-game violence's effect on school-age children. In the first study, 161 nine- to twelve-year-olds and 354 college students were asked to play one of several video games-either a nonviolent game, a violent game with a happy and cartoonish presentation, or a violent game with a gory presentation-and then to play a second game, during which they were told they could punish other player with blasts of noise (the blasts were not, in fact, delivered). Those who played violent games, whether cartoonish or gory, were more likely to administer punishments during the second game; playing violent games at home also raised the likelihood of punishing others. Children and college students behaved similarly. In the second study, 189 high school students were given questionnaires designed to assess their media usage and personality. The more often the students reported playing violent video games, the more likely they were to have hostile personalities, to believe that violence was normal, and to behave aggressively, and the less likely they were to feel forgiving toward others. The correlation between game playing and violent behavior held even when the researchers controlled for gender and aggressive beliefs and attitudes. The more time that students spent in front of screens (whether televisions or video games), the lower their grades. In the third study, 430 elementary school children were surveyed twice, at a five-month interval, about their exposure to violent media, beliefs about the world, and whether they had been in fights. Students were asked to rate one another's sociability and aggressiveness, and teachers were asked to comment on these traits and on academic performance. In just five months, children who played more video games darkened in their outlook on the world, and peers and teachers noticed that they became more aggressive and less amiable. The effect was independent of gender and of the children's level of aggression at the first measurement. Screen time impaired the academic performance of these students, too; they only became more aggressive, however, when the content they saw during the screen time was violent. [Craig A. Anderson, Douglas A. Gentile, and Katherine E. Buckley, Violent Video Game Effects on Children and Adolescents: Theory, Research, and Public Policy, Oxford University Press, 2007.]

2. Do video games impair academic performance?

• In a 2004 survey of 2,032 school-age children, there were statistically significant differences in print and video-game use between students earning As and Bs and those earning Cs and below. On average, A-B students had read for pleasure 46 minutes and played video games for 48 minutes the previous day; C-and-below students had read for pleasure 29 minutes and played video games for 1 hour 9 minutes. Television watching seemed constant between the groups. [Donald F. Roberts, Ulla G. Foehr, and Victoria Rideout, Generation M: Media in the Lives of 8-18 Year-Olds, The Henry J. Kaiser Family Foundation, March 2005, page 47.]
• A 2007 book presented results of a study in which 189 high school students were given questionnaires designed to assess their media usage and personality. The more time that students spent in front of screens (whether televisions or video games), the lower their grades. In a related and similar study, 430 elementary school children were surveyed twice, at a five-month interval, and screen time impaired the academic performance of these students, too. [Craig A. Anderson, Douglas A. Gentile, and Katherine E. Buckley, Violent Video Game Effects on Children and Adolescents: Theory, Research, and Public Policy, Oxford University Press, 2007.]

--Caleb Crain

Crain's article on life without reading was included in The Best of Technology Writing 2008, edited by Clive Thompson. To read more about this title, visit our website:

Other Featured Journalists:

• Ted Allen
• Michael Behar
• Julian Dibbell
• Cory Doctorow
• David Glenn
• Thomas Goetz
• Charles Graeber
• Alex Hutchinson - Read Alex's Blog Post: "Technology (Writing) versus Science (Writing)"
• Walter Kirn
• Robin Mejia
• Emily Nussbaum
• Ben Paynter - Read Ben's Blog Post: "The Meteor Farmer Revisited"
• Jeffrey Rosen
• John Seabrook
• Cass R. Sunstein

The Best of Technology Writing is part of The Digital Culture Series,
a joint imprint of the University of Michigan Press and the Scholarly
Publishing Office of the University of Michigan Library. All books are
available for free online and for sale in print.

To read more about past Best of Technology Writing collections, select one of the below title covers: