A temporary decline in home advantage when moving to a new stadium.
Wilkinson, Todd ; Pollard, Richard
The home advantage in sport has been well documented in previous
research, with a comprehensive review provided by Nevill and Holder
(1999). One factor identified as contributing to the home advantage in
sport is familiarity with the local playing facility (Pollard, 2002).
This study compared home advantage during a team's last year in an
old stadium to their first year in a new stadium. The records of
thirty-seven North American professional baseball, basketball, and
hockey teams that moved to new stadiums within the same metropolitan
area between 1987 and 2001 were analyzed. The results showed a
significant reduction in home advantage for teams performing in their
first year in a new facility. Taking into account possible confounding factors such as crowd size and crowd density, Pollard quantified the
effect of familiarity with the local playing facility as accounting for
an estimated 24% of the home advantage.
Several previous studies have examined the effects on performance
of moving into a new stadium. Quinn, Bursik, Borick and Raethz (2003)
showed that Major League Baseball (MLB) teams significantly increased
their overall winning percentage when moving to a new stadium, but teams
from professional basketball (NBA), hockey (NHL) and football (NFL) did
not evidence such an effect. Watson and Krantz (2003) documented a
significantly increased home winning percentage for MLB teams moving to
new stadiums, but not for teams in the NBA and NFL.
Loughead, Carton, Bray and Kim (2003) investigated the effect of
moving to a new stadium by comparing home winning percentage in three
time periods; immediately before the move, immediately after move, and
following a period of relocation. Using a sample of 57 professional
teams from hockey and basketball in North America and from soccer in
England and Scotland, the authors found no significant differences in
home winning percentage across the time periods. However, this analysis
was based on a relatively small sample of games in each time period
(8-10), and thus the lack of significant findings may have been affected
by the different opponents for each team in the three time periods.
The present study seeks to extend previous findings on the home
advantage. It should be noted that the method of analysis employed
differs from the three aforementioned studies in its calculation of the
home advantage. Rather than using purely a measure of home winning
percentage, the analysis of home advantage used in this study is based
on the percentage of a team's number of home wins to its total wins
for a season. It should be emphasized that home winning percentage alone
is not a valid measure of home advantage unless assessed simultaneously
against away winning percentage. For example, a team that wins 60% of
its home games would actually have a home disadvantage if it wins 70% of
its away games. Also, the use of complete seasons of results, rather
than just a small number of games, ensures that the comparisons made are
based on balanced playing schedules, with the same teams being faced at
home and away.
We hypothesize that since a team's familiarity with their
playing facility will have increased by their second year in the new
venue, the magnitude of their home advantage should also be greater in
the second year than in the first. In other words, we anticipate that
the decline in home advantage due to loss of familiarity will be
temporary and last no longer than one season. Specifically, the null
hypothesis was that there would be no significant difference in home
advantage between teams' last year in the old stadium, first year
in a new stadium, and second year in a new stadium. This was tested
against the one-sided alternative that home advantage in the first year
in the new stadium would be lower than in both the final year in the old
stadium and the second year in the new stadium.
Method
Participants
The participant sample included 40 teams from Major League Baseball
(MLB), the National Hockey League (NHL), and the National Basketball
Association (NBA) that had moved to a new stadium during the period from
October 1987 to September 2002. Teams from the National Football League
(NFL) were not included due to that league's relatively smaller
number of games played per year and therefore the inherent lack of
reliability in calculating the home advantage for these teams. Further,
only teams that moved to a new stadium within the same metropolitan area
were included. This criterion was chosen to prevent the introduction of
potential confounding variables associated with a team's move to a
new city. The year 1987 was selected as the start date as no stadium
changes were made in the three years previous to 1987, and at least one
team has moved into a new stadium in every year since.
Several additional teams were eliminated from the analysis due to
other methodological considerations. For instance, six teams moved
mid-season, which prevented a comparison of balanced schedules (Seattle
in MLB, Montreal, Ottawa and Toronto in the NHL, and Miami and
Washington in the NBA). Additionally, three MLB teams (Cleveland, Texas,
and Colorado) had seasons during their move affected by the baseball
strike, and thus did not have a balanced schedule for comparison.
Another team (Houston in MLB) was excluded due to their move from a
domed stadium to an open-air stadium. Previous research has shown that
the home advantage for domed and open-air baseball stadiums is not the
same (Zeller & Jurkovac, 1988). Finally, an NBA team (Atlanta) was
excluded from the analysis because their move spanned two seasons,
during which they played home games in two different locations.
Materials
Major League Baseball, National Hockey League and National
Basketball Association teams that had moved to a new stadium within the
same city between 1987 and 2002 were identified through use of an
internet website (ballparks.com). Team records from this same period of
time were also identified through use of an internet website
(shrpsports.com).
Procedure
The method for calculating home advantage was that of Pollard
(1986). For each baseball and basketball team, home advantage was
calculated as the percentage of home wins to total wins during a season.
To account for ties and overtime losses in hockey, home advantage for
these teams was calculated as the percentage of total points earned in
home games divided by total points earned during the season. For each
team, home advantage was calculated for three seasons: their last year
in the old stadium, and for each of their first two years in the new
stadium.
Statistical analysis
Because there was evidence of non-normality of the distribution of
home advantage values, non-parametric methods were employed in the
analysis. Friedman's test was used to investigate differences
between the three time periods. A subsequent test of multiple
comparisons (Hollander & Wolfe, 1973) was then applied in order to
determine the extent to which home advantage in the first year in the
new stadium was lower than in the final year in the old stadium, and in
the second year in the new stadium.
Results
Table 1 presents mean home advantage for the three time periods,
with the teams classified by sport. These results are shown in Figure 1
and clearly display the dip in home advantage that occurred in all the
sports during the first year in the new stadium. Friedman's test,
using all 40 teams, indicated a significant difference between the three
time periods (p = .015). Table 2 gives p-values for the tests of
multiple comparisons. A clear drop in home advantage in the first year
in the new stadium is evident (p = .005), with the increase in the
subsequent year also significant (p = .036). These results suggest that
a significant drop in home advantage occurs during the initial season in
a new stadium, but that by the following season home advantage has
largely returned to previous levels.
[FIGURE 1 OMITTED]
Discussion
The results of the study provide support for the effect of
familiarity with playing facility on the home advantage in sport. Home
advantage was greater in teams' second season in their new stadium
than their first season in the new stadium. In addition, there was
little difference between the home advantage for teams in their second
season in the new stadium versus their last season in the old stadium,
suggesting that a two-year period is on average, sufficient for teams to
gain familiarity with their new stadium and subsequently
"rebound" to the level of home advantage they previously
enjoyed in the old stadium. The results also replicate the findings of
Pollard (2002) by evidencing a significant decrease in home advantage
from a team's last year in their old stadium to their fast year in
the new stadium.
In addition to our analysis of the home advantage, we examined
whether three potential confounding factors may have had an impact on
our findings: attendance, team quality, and changes over time in the
overall league home advantage. First, the average attendance per home
game in each of the three seasons studied was investigated. In each of
the three leagues, average attendance per game was highest the first
year in a new stadium. Since larger crowds would, if anything, be
expected to increase home advantage, it can be concluded that change in
attendance could not have been responsible for the decline in home
advantage.
Several previous studies have explored the possibility that the
quality of individual teams might be related to the magnitude of home
advantage, but no clear cut conclusions have been reached. These include
basketball (Harville & Smith, 1994; Madrigal & James, 1999),
hockey (Bray, 1999) and these sports together with soccer (Loughead et
al., 2003). We also examined the possibility that the changes in home
advantage may have been affected by changes in team quality, which was
quantified by team winning percentage. No significant relationship was
found between change in team quality from season to season and change in
home advantage. As a result, this factor can also be excluded as having
an influence on the observed change in home advantage.
The third confounding factor analyzed was the overall change in
home advantage over time. It has been documented that over the past two
decades, the average home advantage has been declining in basketball and
hockey, at the same time showing marked variations from year to year.
Pollard and Pollard (2005) present a season by season analysis of home
advantage for all the sports in this study. Because our analysis covers
a three year period for each team, it is possible that the change in
overall home advantage over time might have had an influence on the
results. To account for this factor, home advantage was analyzed for
each team in relation to the average home advantage in that sport for
that year. This refinement made a slight but interesting change to the
results (Table 3) with Friedman's test still showing a significant
difference between the time periods (19 = .045). The mean drop in home
advantage and subsequent recovery became very similar to each other in
magnitude, both just under 2%. However, although the mean difference
between the first and second season after relocation had increased, its
significance was lowered (p =. 103). Nevertheless, the level of home
advantage in the second year in the new stadium was now virtually the
same as in the final year in the old.
The study is not without its limitations. For instance, teams from
just three professional leagues in North America were included in the
analysis. As such, it is possible that these results do not generalize to other sports (e.g., professional football) or to leagues in other
countries. Many of the top soccer teams in Europe have, for instance,
moved to new stadiums during the last decade. Therefore, it is suggested
that further research be conducted to examine this rebound effect across
other domains and contexts.
In addition, by examining team records on a complete season by
season basis, we were unable to determine more precisely when increased
familiarity with the facility resulted in a team's return to the
previous home advantage enjoyed in the old stadium. It is possible, for
instance, that familiarity had increased enough by mid-season for teams
to have regained their full home advantage. Additional research using
split- or partial-season records may serve to further enhance this
understanding, although the lack of a balanced playing schedule during a
specific part of a season will present problems.
With the proliferation of new stadiums having been built over the
past decade, and with more new venues planned, the findings of the
present study may be both valuable and timely for a number of
professional organizations. These results suggest it may be in the
interest of a team moving to a new stadium to increase its exposure to
the new facility, possibly through additional scrimmages, pre-season
work-outs or exhibition games, in an effort to more quickly familiarize
them with the new facility. It may also serve to inform team
organizations and interested parties as to the importance of familiarity
with the playing facility as a factor in team performance.
References
Bray, S. R. (1999). The home advantage from an individual team
perspective. Journal of Applied Sport Psychology, 11, 116-125.
Harville, D. A., & Smith, M. H. (1994). The home-court
advantage: How large is it, and does it vary from team to team? American
Statistician, 48, 22-28.
Hollander, M. & Wolfe, D.A. (1973). Nonparametric statistical
methods. New York: Wiley.
Loughead, T. M., Carron, A. V., Bray, S. R., & Kim, A. J.
(2003). Facility familiarity and the home advantage in professional
sports. International Journal of Sport and Exercise Psychology, 1,
264-274.
Madrigal, R., & James, J. (1999). Team quality and the home
advantage. Journal of Sport Behavior, 22, 381-398.
Nevill, A. M., & Holder, R. L. (1999). Home advantage in sport:
An overview of studies on the advantage of playing at home. Sports
Medicine, 28, 221-236.
Pollard, R. (1986). Home advantage in soccer: A retrospective
analysis. Journal of Sports Sciences, 4, 237-248.
Pollard, R. (2002). Evidence of a reduced home advantage when a
team moves to a new stadium. Journal of Sports Sciences, 20, 969-973.
Pollard, R., & Pollard, G. (2005). Long-term trends in home
advantage in professional team sports in North America and England
(1876-2003). Journal of Sports Sciences, 23, 337-350.
Quinn, K. G, Bursik, P. B., Botlek, C. P., & Raethz, L. (2003).
Do new digs mean more wins? The relationship between a new venue and a
professional sports team's competitive success. Journal of Sports
Economics, 4, 167-182.
Watson, J. C., & Krantz, A. J. (2003). Home field advantage:
New stadium construction and team performance in professional sports.
Perceptual and Motor Skills, 97, 794-796.
Zeller, R. & Jurkovac, T. (1988). Doming the stadium: The case
for baseball. Sport Place International, 3, 35-38.
Todd Wilkinson
University of Minnesota
Richard Pollard
California Polytechnic State University
Address Correspondance To: Todd Wilkinson, Dept of Psychology,
Elliott Hall, Room N580, University of Minnesota, Minneapolis, MN 55455.
Table 1.
Mean home advantage before and after moving into a new stadium.
First Second
Last Season Season Season
Number in Old in New in New
Sport League of Teams Stadium Stadium Stadium
Baseball MLB 7 54.75% 53.72% 55.11%
Basketball NBA 19 64.08% 61.68% 63.25%
Hockey NHL 14 56.03% 53.31% 55.24%
All sports 40 59.63% 57.36% 59.02%
Table 2.
Mean changes in home advantage from season to season.
Seasons Mean change p-value
First season in new stadium -- last -2.27% .005
season in old stadium
First season in new stadium -- second -1.66% .036
season in new stadium
Table 3.
Mean changes in home advantage from season to season, adjusted for
average league home advantage for each year in each sport.
Seasons Mean change p-value
First season in new stadium -- last -1.86% .013
season in old stadium
First season in new stadium -- second -1.98% .103
season in new stadium
