1 Laboratory Experiments in Political Science

Laboratory experiments have emerged as a leading technique to study topics that are difficult to manipulate in the real world, such as the effects that candidate characteristics like gender have upon voter evaluations of those candidates. Vignette-style experiments are relatively easy to design, low cost and easy to field, and permit clear, strong causal inferences. Use of this design has proliferated in the past several decades, adding a great deal to what we know about political psychology (early paradigm setting examples studying candidate gender include Sigelman and Sigelman Reference Sigelman and Sigelman1982; Huddy and Terkildsen Reference Huddy and Terkildsen1993a,Reference Huddy and Terkildsenb). The recent emergence of research centers that provide nationally representative samples online (such as YouGov, Knowledge Networks, and Survey Sampling International), the creation of large national surveys that researchers can join (such as Time-sharing Experiments for the Social Sciences (TESS) and the Cooperative Congressional Election Study (CCES)), as well as the opening of online labor pools like Amazon’s Mechanical Turk, have meant that survey experiments can now be delivered inexpensively to huge, representative samples that grant the ability to generalize results onto the broader population (Gilens Reference Gilens2001; Brooks and Geer Reference Brooks and Geer2007; Mutz Reference Mutz2011; Berinsky, Huber, and Lenz Reference Berinsky, Huber and Lenz2012).

As they have recently grown in popularity, inevitable methodological counterarguments have also developed (see particularly Gaines, Kuklinski, and Quirk Reference Gaines, Kuklinski and Quirk2007; Kinder Reference Kinder2007; Barabas and Jerit Reference Barabas and Jerit2010). For all their benefits, experiments—even those that are conducted on a population-based random sample—provide questionable external validity. This has been particularly noted for the vignette-style survey experiments that have become dominant in the discipline. Observed treatment effects in such studies seem to be higher than those observed in the real world via either field or natural experiments (Barabas and Jerit Reference Barabas and Jerit2010; Jerit, Barabas, and Clifford Reference Jerit, Barabas and Clifford2013). This is partially unavoidable. All research that studies a proxy dependent variable (i.e. a vote for hypothetical candidates in a hypothetical election) necessarily lacks the ability to declare a clear connection with the actual dependent variable of interest (i.e. real votes in real-world elections).

Further, all experiments force exposure to a treatment while simultaneously limiting subjects’ access to other information. In doing so, they create a tightly controlled information environment in which causal inferences can be easily made. However, this also makes most experimental scenarios decidedly unrealistic (McDermott Reference McDermott2002; Iyengar Reference Iyengar, James, Green, Kuklinski and Lupia2011). For many voters, the bare, minimalistic descriptions available in short vignettes may give little reason at all to vote for, or against, the candidates. Vote decisions, particularly for high-level state and federal offices, are typically much more involved than these minimal information environments allow (Carsey and Wright Reference Carsey and Wright1998; Highton Reference Highton2004; Mcdermott and Jones Reference McDermott and Jones2005). Researchers may well find a causal relationship between two variables in a study like this, but what becomes of that relationship in an actual campaign, where candidates present issue stances, make impassioned speeches and launch numerous targeted ads aimed at influencing voters? It is possible, perhaps even likely, that additional information may alter or completely negate that relationship. By restricting the availability of other information, vignette-style experiments create an environment in which the limited information subjects can access may produce outsized effects, simply because it is the only information available.

In addition, by virtue of their design, these experiments immediately measure the response to the treatment, preventing any diminishing of the treatment effect over time (Jerit, Barabas, and Clifford Reference Jerit, Barabas and Clifford2013). Treatment effects are not always long lasting, and the influence that any individual piece of information has may decline as time goes on (Lodge, Stroh, and Wahlke Reference Lodge, Stroh and Wahlke1990; Lodge, Steenbergen, and Brau Reference Lodge, Steenbergen and Brau1995). A design more concerned with external validity might give subjects more time between accessing a treatment and being asked to evaluate a candidate in order to allow information to be processed for relevance or importance, as happens during a real political campaign. Votes, after all, are still mainly cast on Election Day, permitting voters days, weeks or even months of time to digest campaign information. In the low-information, immediate-reaction scenarios that short, vignette-style survey experiments create, however, treatments are given the “best-case scenario” to produce significant effects.

This is not to say that such experiments are without value—quite the contrary. Low-information vignette experiments seem to exaggerate treatment effects, but they generally do not find results that are out of line with what occurs in more externally valid field experiments or natural experiments (Barabas and Jerit Reference Barabas and Jerit2010; Jerit, Barabas, and Clifford Reference Jerit, Barabas and Clifford2013). They have repeatedly been shown to be very effective at demonstrating that certain treatments can have an effect and that a particular independent variable can influence a dependent variable. A harder question is determining if treatments tend to have effects in the real world, when people have other information to consult, and have time to allow the treatment to dissipate.

For many topics, however, field experiments and natural experiments are not viable possibilities, leaving few alternatives to further test the external validity of observed treatment effects. Many research questions require scenarios that the real world does not frequently present (e.g., races with candidates of various races and genders) or that are difficult to manipulate in the real world (i.e. the conduct of a campaign or the presentation of a candidate). This leaves some form of laboratory or survey experiment as the best option for many research topics.

2 Process-Tracing Experiments and Information Processing Theories

While vignette-style experiments are the most commonly used form of laboratory experiments, other options do exist. Process-tracing experiments ask subjects to make a decision between various alternatives by learning about them in a manner that can be observed and followed by the researcher. Rather than restricting subjects to a very limited set of information, process-tracing studies present a much larger universe of information and monitor how subjects opt to learn about the alternatives they are asked to choose between. The goal, rather than providing a small set of information that all subjects view in its entirety, is to provide a larger set of information and allow each subject to choose which information to access. While this may lead subjects to view different information from each other, it better replicates how people make decisions in the real world, by choosing what information they wish to encounter.

The first process-tracing experiments asked people to use a static information board to learn relevant information about each possible alternative, typically by flipping over notecards tacked to a board (Payne Reference Payne1976; Ericsson and Simon Reference Ericsson and Simon1980), while the researcher observed the subjects’ behavior (Jacoby, Speller, and Kohn Reference Jacoby, Speller and Kohn1974; Carroll and Johnson Reference Carroll and Johnson1990). In order to better mimic the dynamic nature of a political campaign, Richard R. Lau and David Redlawsk developed the Dynamic Process Tracing Environment (DPTE), which recreates the basic premise of static information boards in a dynamic, computer-based platform. DPTE places all bits of available information into a single, randomized column of “information boxes” that scroll down a computer screen, giving subjects the ability to choose the information they would like to click on and learn more about. The dynamic nature of this design better resembles a real-world campaign, where a great deal of information exists and its presentation and availability are largely out of our control, but where we ultimately choose much of what we see. (For a discussion of how dynamic environments more closely mimic campaigns, see Lau Reference Lau, Lodge and McGraw1995, Lau and Redlawsk Reference Lau and Redlawsk1997 and Lau and Redlawsk Reference Lau and Redlawsk2006).

Dynamic process-tracing techniques have been used to analyze voter decision-making (e.g. Redlawsk Reference Redlawsk2004; Ditonto, Hamilton, and Redlawsk Reference Ditonto, Hamilton and Redlawsk2014; Ditonto Reference Ditonto2017), and have been demonstrated to produce replicable results using American National Election Study data (see Lau and Redlawsk Reference Lau and Redlawsk1997; Lau, Andersen, and Redlawsk Reference Lau, Andersen and Redlawsk2008). They have not yet, however, been compared to similar vignette experiments. We posit that dynamic process-tracing studies may serve as a middle ground between shorter vignette-style experiments and the real world—allowing researchers the ability to examine causal relationships while also providing a sufficiently realistic information environment to produce more externally valid results. More specifically, we believe that the design of high-information dynamic process-tracing studies attenuate treatment effects in ways that more closely mimic the real world.

We ground our beliefs in information processing theories, which suggest that the manner in which people encounter and process information matters to how they use that information in making evaluations and decisions (Simon Reference Simon1979; Anderson Reference Anderson1983; Hastie Reference Hastie, Lau and Sears1986; Lau and Redlawsk Reference Lau and Redlawsk2006). In limiting the availability and presentation of information, short vignette-style experiments may exaggerate the role played by the treatments presented. This alters the research question being addressed from “does this information have an effect?” to “can this information have an effect?” or perhaps more specifically “can this information have an effect in isolation?”

Information processing theory suggests that bytes of information do not have constant, persistent effects, but are used to update beliefs relative to what other considerations a person has in short-term and working memory (Lodge and Hamill Reference Lodge and Hamill1986; McGraw, Lodge, and Stroh Reference McGraw, Lodge and Stroh1990; Zaller Reference Zaller1992; Zaller and Feldman Reference Zaller and Feldman1992; Lau and Redlawsk Reference Lau and Redlawsk2006). An information item may be influential on an opinion or not, depending on what other information is immediately available. Over time, the effects of new information also tend to dissipate, and may disappear altogether (Lodge, Stroh, and Wahlke Reference Lodge, Stroh and Wahlke1990; Lodge, Steenbergen, and Brau Reference Lodge, Steenbergen and Brau1995). Thus, there may be great differences on the effects of learning a new item of information depending on whether alternative information is readily available, or whether the measurement of opinion change occurs immediately or some time later.

All laboratory experiments constrain the universe of information a subject has available. While this strengthens causal inferences and makes for a more parsimonious design, it also makes whatever information subjects are presented with more likely to be influential. Each individual piece of information represents a larger share of the total information available when that universe is smaller. In the real world however, all information is encountered among a milieu of other considerations and balanced for relevance and importance. A more effective way to assess if a treatment actually has an effect in the real world might be to simply present that treatment alongside a larger set of other information in the laboratory, in a manner similar to how such decisions are typically made, but do so in a manner that allows the researcher to track how much and which information is being accessed.

3 Test Case—Gender Stereotypes and Candidate Evaluations

In order to test our theory, we examine the role of a candidate’s gender in influencing his or her evaluations and electoral fortunes. This is a topic that has received much attention from political psychologists over the past 20 years, and about which there is still much contention. A great deal of experimental evidence suggests that a candidate’s gender can affect the way voters judge him or her, and that women candidates are often subject to a number of stereotypes. For example, women candidates are often assumed to have more feminine and communal characteristics—they are seen as more compassionate, gentle, warm, cautious and emotional, for example (Leeper Reference Leeper1991; Huddy and Terkildsen Reference Huddy and Terkildsen1993a,Reference Huddy and Terkildsenb; Kahn Reference Kahn1996). Also, they are often seen as more trustworthy and honest than male candidates (Kahn Reference Kahn1996). At the same time, they are stereotyped as less agentic—less competent, less able to handle the emotional demands of high office, and lacking in masculine traits like “toughness” (Huddy and Terkildsen Reference Huddy and Terkildsen1993a,Reference Huddy and Terkildsenb; Carroll and Dittmar Reference Carroll, Dittmar, Carroll and Fox2010). Stemming from these assumptions about women’s personality traits, voters often assume that women have different areas of policy expertise than men, with particular proficiency in “compassion issues” like education, healthcare, poverty, and child care often attributed to women candidates. At the same time, more “masculine” issues like crime, the military, and the economy are seen as the arena of male politicians (Leeper Reference Leeper1991; Alexander and Andersen Reference Alexander and Andersen1993; Cook, Thomas, and Wilcox Reference Cook, Thomas and Wilcox1994; Dolan Reference Dolan2004). Finally, women candidates are stereotyped as more liberal than male candidates (McDermott Reference McDermott1997, Reference McDermott1998; Koch Reference Koch2000, Koch Reference Koch2002).

Despite the plethora of experimental evidence that female candidates are subject to gender-based stereotypes, other scholars have found that, in real-world scenarios, “when women run, women win.” In other words, women are not generally disadvantaged in real elections and often win their races as often as men do (Burrell Reference Burrell1997, Darcy, Welch, and Clark Reference Darcy, Welch and Clark1997, Seltzer, Newman, and Leighton Reference Seltzer, Newman and Leighton1997, Woods Reference Woods2000, Dolan Reference Dolan2004). Further, several studies have found that expressly political factors, such as partisanship matter much more than candidate gender in real-world elections (Sanbonmatsu and Dolan Reference Sanbonmatsu and Dolan2009; Hayes Reference Hayes2011; Dolan Reference Dolan2014).

What accounts for this disconnect between findings that stereotypes exist and those that find that gender does not seem to influence electoral outcomes? It has been suggested that part of this discrepancy may be methodological in nature (e.g. Brooks Reference Brooks2013, Dolan Reference Dolan2014). The bulk of the evidence suggesting that female candidates are evaluated differently from men comes from experimental studies, and vignette experiments in particular. At the same time, many of the findings that seem to demonstrate that candidate gender does not matter are the results of nationally representative survey research (though see Brooks Reference Brooks2013 for a prominent example of experimental evidence that candidate gender is not relevant). Dolan (Reference Dolan2014), for example, uses survey data to show that voters generally do not use stereotypes to evaluate female candidates, and even if they do, political party matters much more than gender in determining vote decisions.

Most relevant for our purposes, several studies have found that gender matters specifically in low-information elections (McDermott Reference McDermott1997, Reference McDermott1998; Sapiro Reference Sapiro1981; Higgle et al. Reference Higgle, Miller, Shields and Johnson1997; Matson and Fine Reference Matson and Fine2006; Banducci et al. Reference Banducci, Karp, Thrasher and Rallings2008). This is not surprising since psychologists have found that the existence of individuating information (that is, substantive information about a particular individual) has the ability to minimize the use of stereotypes in person evaluations (Fiske and Neuberg Reference Fiske and Neuberg1990). Voters in low-information elections have little individuating information to go on, so gender becomes an important cue. However, it is possible that candidate gender would matter less, or not at all, if other individuating information was available, like a real-world campaign.

To our knowledge, though, no one has yet explicitly compared the effects of candidate gender in low- vs. high-information scenarios. It is our contention that most vignette-style experiments are essentially simulating low-information elections, whether they intend to or not, and that the presentation of a gender manipulation with minimal individuating information will lead to very different evaluations than the presentation of that same manipulation along with other kinds of information that are generally available during most high-level political campaigns (i.e. Federal and most statewide offices). If we find that gender matters in low-information conditions but not in high-information environments, that may be evidence that the lack of clarity about the role of gender in elections has to do with the methods being used by researchers and that the information environment in a particular experiment matters a great deal. If gender influences candidate evaluations across the board, though (or not at all) that may be evidence that other factors are at play, such as the changing nature of gender roles and expectations within society.

4 Data and Method

To test whether different styles of experiments create significantly different experiences for subjects, leading to substantively different results, we fielded a $2\,\times \,2\,\times \,2$ experimentFootnote ² in the summer of 2015 to approximately 800 subjectsFootnote ³ recruited through Amazon’s Mechanical Turk. We used the Dynamic Process Tracing Environment (DPTE) to create four different methods of delivering information to our subjects. Each subject proceeded through four “stages” in the experiment. They first answered some basic demographic and political questions, then participated in a “practice round” to learn how the program worked, then met the candidates in a “campaign” and finally cast a vote and evaluated the candidates.

4.1 Information presentation manipulations

Subjects were randomly sorted into four conditions that altered how they learned about the two candidates, classified across two axes of information presentation. First, each subject was randomly assigned to either a “low” information or “high” information condition. In the low-information condition, subjects could only learn five facts about each candidate—their education, family, prior political experience, religion, and an evaluation of them by the state newspaper’s editorial page. The low-information conditions were designed to be similar to previous vignette experiments and so present the types of background information often found in such studies (in particular, we use the information included in Huddy and Terkildsen’s highly influential 1993 articles). In the high-information condition, subjects could learn the five factors presented in the minimal conditions along with 15 additional attributes about each candidate, making them reasonably well-defined.Footnote ⁴

Subjects were also randomly sorted to learn about candidates either statically or dynamically. In the static conditions, information was presented in a manner in which subjects were easily able to access all of the information that would be available to them. They had complete access to available information without limitation. In the dynamic condition, the information was presented randomly in a dynamic information board, presenting them with six available information boxes at a time. The boxes slowly scrolled down the screen, and for each box that scrolled off the bottom of the screen, a new information item replaced it at the top until each item had appeared twice. This created a $2\times 2$ set of conditions as displayed below in Figure 1.

Figure 1. Information Groups.

In the News Articles condition, subjects were asked to view two news articles, one dedicated to each candidate. Again, this condition, in particular, was designed to mimic commonly used survey experiments. Each news article conveyed five attributes of a candidate using the same wording available in the other conditions. The articles were both about 200 words and were viewable by clicking on a box with the respective candidate’s name and picture. Both boxes appeared simultaneously on the screen, and the order of the boxes was randomized between subjects.

The Static Board condition created a computerized version of the classic “notecards on a board” process-tracing design used in marketing research. It listed the two candidates’ names along the top, creating two columns, and then listed the 20 available attributes about the candidates along the side of the screen in rows. Below each candidate’s name were a series of codes that could be entered that would reveal the relevant attribute about the candidate. Subjects would enter a code, view the information, and then return to the static board where they could input a new code.

The dynamic presentation conditions (both low- and high-information) entered subjects into a dynamic information board loaded with the available information. Each information box listed the candidate’s name and picture, as well as the attribute the box contained. Each information item was available two times and the order of items was randomized for each subject. The boxes slowly scrolled down the screen and continued to scroll while subjects clicked on boxes and read the information inside. All information about the candidates was identical between the presentation conditions and differed only in presentation style and availability.

We propose that the high-information condition is more realistic in mimicking what voters face during most federal and statewide campaigns—whether they choose to learn it or not, there is a wealth information available. Similarly, we believe that, by design, the dynamic conditions are more realistic than the static conditions, making information available to subjects without giving them complete control over the information environment and also ultimately allowing them to choose the information they access. We can rank the information environments in these conditions, then, from simplest to most complex and from least to most realistic: News Articles, Low-information Dynamic Board, Static Board, High-Information Dynamic Board.

6 Subject Behavior Results

We now seek to explain why these differences emerge. What is it about these different information presentation styles that lead subjects to behave so differently? We suggest that there are three main factors at play: the time subjects spend in the experiment, the level of information they encounter, and the importance of the information they view.

6.1 Time

One way in which differences can manifest in an experimental study is through the time subjects spend gathering, reading and considering the information they encounter. Particularly in a study such as this, where the treatment is viewed early on (though reinforced throughout), this greater amount of time provides an opportunity for the treatment effect to attenuate naturally. Table 3, below, shows the average time subjects took to complete each substage within the experiment, and in total to complete the entire study. Clear differences in total time emerge, and reviewing the substage information makes it clear that these time differences come from where we would expect them to—the practice session and the actual campaigns where subjects are exposed to information.

Table 3. One-way Anova’s of time in experiment, by Information Group.

Unsurprisingly, subjects who were in the low-information conditions (News Articles and Low-Information Dynamic Board) spent far less time in the study overall, because they had less information to view, and thus less to actually do. Subjects in the News Articles group completed the study quickest, taking on average about 680 seconds, or 11 minutes. The Low-Information Dynamic Board was close to this, at about 740 seconds. While each of the four groups averaged a different average completion time, a Scheffe test (using a 0.05 significance level) demonstrates that the two low-information groups were statistically indistinguishable, but were both different than the two high-information groups. Interestingly, the Static Board group took significantly longer than the High-Information Dynamic Board group, requiring about 993 seconds on average compared with 883 seconds. Subjects in these two groups spent much more time learning about the candidates.

While this is due to the amount of information available to subjects, it is also a consequence of the design of the overall study. In order to proceed out of each section of the experiment, subjects must complete a certain task. In the pre- and postquestionnaire stages, subjects all answered the same questions, so predictably took similar amounts of time. In the information-providing stages however, subjects necessarily faced different tasks. In the News Articles group, subjects were asked to read the two articles, and then were free to progress,Footnote ¹⁰ while in the Static Board subjects were forced to view at least 5 individual items of information of their choice before moving on.Footnote ¹¹ Thus subjects in the Static Board group could choose to view 5 items about their in-party candidate and never learn anything about their opponent. Those in the News Articles group did not have that option (though they could still open an article and simply not read it). The requirements in these two scenarios were information-dependent, forcing subjects to encounter a certain number of information items.

While the two static groups were information-dependent, the dynamic information boards were time-dependent, and forced subjects to remain within the stage until all of the available information had scrolled by.Footnote ¹² This took longer, but did not require subjects to actually view any information if they did not wish to. It was possible for subjects to view nothing at all and still advance through to the next substage of the study (though no subject actually did this—the minimum number of unique items opened was 2, and the minimum number of boxes was 3).

6.2 Information viewed

The differences in behavior between the information groups are strikingly apparent in the level of information about the candidates that those subjects viewed—and somewhat unexpected. There are two primary ways to examine the information subjects viewed—based upon the number of unique attributes viewed, and by the total number of information items opened. The count of unique items viewed records how many different attributes subjects chose to expose themselves to—that is, how many pieces of information about the candidates they chose to look at. This measure does not take into account if subjects view an item multiple times, but simply that they viewed an item at least once. However, subjects will oftentimes return to re-examine previously viewed information, meaning that the number of items opened will sometimes be far greater than the number of unique items viewed. Examining both measures provides a greater window into how subjects learned about the candidates.

Table 4 (below) shows the differences in the number of unique items viewed and the total items opened for each of the information presentation groups. Subjects in the Static Board group, despite taking the most amount of time during the Campaign stage, on average viewed the least amount of unique information, about seven items total. A Scheffe test demonstrates that this is statistically the same as the Low-Information Dynamic Board, where subjects tended to view about eight unique items. This is interesting in that, even though the Static Board group had four times the information available as the Low-Information Dynamic Board group, they both viewed statistically equally amounts of information. And the Static Information Board group took much longer to do so! As a contrast, the High-Information Dynamic Board produced by far the most information viewed, at almost 22 attributes viewed; three times the information in less time than the Static Board.

Table 4. One-way ANOVA’s of information viewed, by Information Group.

Interestingly, participants in the two high-information groups ended up evaluating the candidates very similarly, despite massive differences in how much they actually learned about them. Members of the Static Board group viewed far less information, on average, than High-Information Dynamic Board members and yet seemed to evaluate the candidates statistically identically. This is a strong indication that it is not necessarily viewing more information that is affecting subjects’ evaluations of the candidates, but having access to certain kinds of information, and perhaps choosing to view information that is particularly influential.

It is worth noting that the News Articles Group is in its own Scheffe group, but this is due to the absence of variance in the number of items subjects viewed. Because each news article revealed five attributes about each candidate, and subjects were required to read both articles, we must assume that all of the subjects in this condition viewed the 10 available items with no variation between subjects. By lumping all of the available information into a single article, we have no choice but to assume that subjects fully read and paid attention to every portion of the text, even though we cannot verify this. While we can never truly be certain that subjects attend to any information they are exposed to (aside from perhaps using eye-tracking software combined with recall tests), presenting each piece of information in its own “box” (as the two dynamic groups and the Static Board do) lets us know for certain when subjects seek specific information, and thus conversely when they are not exposed to an item.

The pattern of viewing information changes slightly when we consider the total number of items opened. Using this metric, we can see that subjects in the Low-Information Dynamic Board group viewed more information, on average, than did subjects in the Static Board group, despite having much less information available to them. The High-Information Dynamic Board group again views much more information than the other conditions, at about 26 items. The News Articles group gets a slight boost here, with some subjects choosing to read the articles multiple times, raising the average items viewed to 11.60. Contrary to what we might have expected at the outset, subjects who had full control over a high-information environment (the Static Board) chose to view the fewest items out of all the groups, and were exposed to less information than the subjects who had only 25% of that information available to them.

6.3 Type of information

A final area in which differences in candidate evaluation can be generated is in the types of information subjects viewed. In each of our four conditions, subjects had access to the same five background pieces of information about the candidates, which are similar to information routinely used in vignette experiments, particularly those studying the effects of candidate attributes like gender. In the high-information conditions, we augmented this information with policy stances and general ideological information about the candidates. This allows us to compare what information subjects choose to view when they have no control over the information environment (News Articles), some control (Dynamic Boards), and total control (Static Information Board).

Table 5 shows the percentage of subjects within each information group who selected to view each attribute (for either candidate). We rank the attributes by the percentage of subjects within the High-Information Dynamic Board who chose to view the attribute, because this is the group that tended to view the most information and we believe to be the most realistic scenario.

Table 5. Percentage of subjects viewing attribute, by Information Group.

What we find is again striking—the five attributes we included in the minimal conditions place in the bottom five slots of views in the High-Information Dynamic Board. That is—the types of information typically used in survey experiments alongside the treatment is the least desirable information for our subjects to want to view when given other options. If the intent of providing background information of this type in survey experiments is to avoid contaminating subjects’ decision-making processes with other considerations, we can now support this as a well-crafted design—subjects clearly have little interest in background information and do not seem to seek it out when making decisions.

However, this is also a strong indication of why we find such large differences in treatment effects between the high- and low-information groups. Background information in itself is simply not appealing to subjects in campaign style experiments, and presents little additional information for subjects to use when evaluating candidates. The result is that the treatment information—in this case the gender of the in-party candidate—is exaggerated in its importance because it is important relative to the other information available to draw from when evaluating a candidate. This is not to say that the treatment effect in low-information studies is wrong, only that it is exaggerated. By denying subjects the ability to access information that they might otherwise use to evaluate candidates, low-information studies force subjects to use treatment information alone. While the low-information conditions may accurately simulate very low-level elections, they certainly do not mimic higher-level national elections, which are those most commonly studied by political scientists.

7 Subject Behavior Conclusions

From this examination of how subjects spent their time within the experiment in the four information presentation groups, we get a sense of why there are such great differences between the findings in the gender cue analysis. We see significant differences by group in the amount of time spent in the study, the amount of information accessed, and the type of information that subjects cared about. These findings complicate our understanding of experimental design, however. Contrary to our expectations, giving subjects access to more information did not guarantee that they looked at more information. The group that took the longest to complete the study was also the group that viewed the least amount of information. And yet they acted remarkably similar to they High-Information Dynamic Group that viewed much greater amounts of information in less time. Given this design, we have little ability to tease out why this is the case, but we do now know that this is an important area for follow-up research.

The larger question we are left with, as researchers, is: which method is best for accomplishing our research goals? What we find here is that perhaps there is no single best answer. Low-information experiments seem better at determining if treatments can have effects, and whether they do in very low-information elections. High-information experiments appear better at determining if treatments have effects when subjects have other information at their disposal. In a real election, either of these types of studies may best mimic reality, depending upon the level of office and the amount of media attention for a particular race. We know that candidates running for office do not all have the same ability to inform the electorate about their campaigns, creating unique information environments around each office. For presidential candidates, information floods the media environment, almost guaranteeing that citizens learn at least some attributes about the candidates. In such races, experiments should likely mimic this and design high-information studies and we may want to approach low-information designs with greater skepticism.

But not all offices are like this. Lower-ballot elections, such as state legislative races and local contests suffer from much lower campaign spending and media attention. In these situations, low-information experiments such as survey experiments may be more accurate, because they better mimic the information environments that typically exist. Still, we do wonder whether restricting information from subjects mimics this situation better than does providing information and giving subjects the freedom to choose whether or not they wish to view it. In theory, all citizens can simply Google their local candidates and find out a great deal about them, even if few people actually do so.

8 General Discussion and Conclusions

Low-information survey experiments can clearly demonstrate that various treatments can produce behavioral effects, and field experiments can clearly demonstrate when effects do occur in the real world. The downsides to these two types of experiments are also apparent. Survey experiments can lack external validity, and unrealistically bar access to information that might diminish treatment effects. Field experiments are, at least in part, dependent on the events of the real world, forcing researchers to tailor their research questions to the available political environment (it is difficult to imagine how we could have run a field experiment in the scenario used here). We believe that high-information laboratory experiments are a possible middle ground, where researchers have the freedom to create scenarios they are interested in studying and a more realistic environment that allows treatment effects to dissipate.

The case for high-information process-tracing experiments is not perfect, however. Among the other findings, we do show that high-information experiments take longer, and thus will require larger payments for subject participation (Andersen and Lau Reference Andersen and Lau2018; Zechmeister Reference Zechmeister and Desposato2015) . Given confined research budgets, this means that such studies will likely draw smaller subject pools, making examining subgroups within the sample more difficult. It is within these subgroups that the most interesting developments are likely to be found in future studies. We suspect (though do not present evidence here) that the drop in significant treatment effects is created by some subjects reacting to acquired information that allows the treatment to have a weaker effect. We doubt that this happens equally to all participants, and believe that this is likely localized to certain subgroups, possibly the most politically sophisticated participants who are most likely to process new information and update their evaluations in accordance.

We see high-information experiments as a useful tool for political scientists, adding an additional layer of realism and complexity over traditional vignette-style experiments. Future developments can continue this progress, particularly by lengthening the duration of studies (over multiple days or weeks, for instance) and testing the effects of a wider variety of types of information (topics that subjects gravitate toward vs. those they ignore). This study has demonstrated that our variable of interest—candidate gender—did not produce significant treatment effects across a variety of methods. However, we believe that is because the effect of gender can be moderated by other information. It is less clear if things like partisanship or declared ideology would be similarly affected by additional information, unless it was directly contradictory. There is still a great deal of room for studying what information is influential to voters, and how the overall information environment influences the effect of any single item of information. In summary, we believe that by complicating the information environment we can create more externally valid studies that will better capture how people learn about and evaluate the political world.