The sponsorship effect: do sport sponsorship announcements impact the firm value of sponsoring firms?
Reiser, Matthias ; Breuer, Christoph ; Wicker, Pamela 等
Introduction
Sponsorship in general and specifically sport sponsorship is a
vital part of every major company's communication strategy in
today's business world (Cornwell, 2008; Olson & Thjomoe, 2009).
Marketing professionals consider sponsorships as an important tool to
build brand equity and corporate image (Cornwell, Roy, & Steinard,
2001), especially in times of increased media fragmentation (Tripodi,
2001). Over the last two decades sport sponsorship has gained a
consistently increasing share of marketing budgets and has become a key
component of the marketing communication mix, which is on par with
traditional tools such as advertising, public relations, sales
promotions, and personal selling (Meenaghan & Shipley, 1999;
Tripodi, 2001). On a global scale, the spending on sport sponsorships
engagements has increased from $20 billion in 2004 to $29 billion in
2009 and is expected to increase to $35 billion by 2013
(PricewaterhouseCoopers, 2010). Sponsorship deals constitute significant
marketing investments for sponsoring firms. For example, Hyundai has
recently resigned with the global soccer association FIFA for a total
contract value of $280 million (Fenton, 2010).
Unlike traditional marketing vehicles, sponsorships enable
marketers to connect with consumers in very emotional situations and
brand and corporate image can be enhanced via associations with
positively viewed events (Miyazaki & Morgan, 2001). In addition,
sport sponsorship also has the ultimate goal to show bottom line impact
by increasing future sales and profits. Incurred direct costs
(sponsorship fees) as well as indirect costs (activation costs, agency
costs) are expected to be offset by future benefits in terms of
increased media exposure and brand awareness, positive image building,
and ultimately higher profits (Farrell & Frame, 1997). According to Mishra, Bobinski, and Bhabra (1997) public announcements of sponsorship
deals contain current and unexpected information about the sponsoring
firm. Investors process the news and might adjust expectations for the
sponsor's future cash flow. As a result, the share price would
react accordingly (Mishra et al., 1997). Up to now, there is very
limited information available about the reactions of share prices to
sponsorship announcements for different sports. However, this
information would be important to corporate managers who are responsible
for sponsorship deals as they have to justify these expenditures and
also the allocation of available funds across various sports.
Therefore, the purpose of this study is to investigate the effect
of sponsorship announcements on firm value. This sponsorship effect is
analyzed using the concept of abnormal returns (AR). ARs are defined as
the difference between expected stock returns and actual observed stock
returns. This study has two main research questions: 1) Do sport
sponsorship announcements have an impact on firm value? 2) Which factors
determine abnormal returns following sport sponsorship announcements?
Hypotheses regarding the effect of announcements on share prices are
formulated and tested. Data on sport sponsorship announcements and stock
prices was collected (n=629) and analyzed using the event study
approach. All analyses were carried out for the total sample (including
various sports), for two specific sports (soccer, motor sports), and for
different sponsor regions (Asia-Pacific, Europe, North America). The
event study results indicated an overall positive effect on the firm
value triggered by sport sponsorship announcements. Brand level
sponsorships, firm size, and national reach had a significant positive
influence on abnormal returns. The results have implications for
corporate managers and stakeholders of the sponsoring firm as
sponsorship announcements do impact the firm's value. The findings
contribute to the body of knowledge on sponsorship effectiveness in
sports by using a unique dataset of worldwide sponsorship announcements,
analyzing specific sports, and including a regional perspective.
Literature Review
To date there are a number of studies dealing with effects of sport
sponsorship announcements; however, prior research is mainly focused on
the US (e.g., Agrawal & Kamakura, 1995; Clark, Cornwell, &
Pruitt, 2009; Miyazaki & Morgan, 2001; Samitas, Kenourgios, &
Zounis, 2008). Previous research has been conducted in the context of
specific sport events such as the Olympics (e.g., Farrell & Frame,
1997; Miyazaki & Morgan, 2001; Samitas et al., 2008) or for specific
sponsorship types such as endorsement contracts (e.g., Agrawal &
Kamakura, 1995), stadium naming rights (Clark, Cornwell, & Pruitt,
2002), and title events (e.g., Clark et al., 2009). With regard to
different sports, previous research has focused on motor sports such as
Indy 500 (Cornwell, Pruitt, & van Ness, 2001) and NASCAR (Pruitt,
Cornwell, & Clark, 2004). All previous studies on the effect of
sponsorship announcements on share prices utilized the event study
approach (e.g., Agrawal & Kamakura, 1995; Clark et al., 2002;
Miyazaki & Morgan, 2001).
Most prior studies documented a positive share price reaction
following sponsorship announcements (e.g., Agrawal & Kamakura, 1995;
Farrell & Frame, 1997; Miyazaki & Morgan, 2001), with a few
examples of studies investigating different sports (e.g., Clark et al.,
2009; Cornwell, Pruitt, & Clark, 2005). Agrawal and Kamakura (1995)
found a positive effect based on a sample of 110 publicly announced
endorsement contracts. Miyazaki and Morgan (2001) investigated the
impact of 27 announcements of sponsorships related to the 1996 Olympics.
The results provided evidence that acquiring Olympic sponsorship rights
was valued as a profitable marketing activity by shareholders. In
contrast, Farrell and Frame (1997) also analyzed the same 1996 Olympics,
but reported decreasing share prices. Cornwell et al. (2005) documented
a positive share price reaction following the announcement of official
product sponsorships. In a recent study, Clark et al. (2009) used a
sample of 114 title sponsorship announcements where they found overall
no share price reaction.
Previous research has indicated that the sport under investigation
is important (e.g., Clark et al., 2009; Cornwell et al., 2005). For
example, Clark et al. (2009) found a positive impact of title
sponsorships for NASCAR races, but negative reactions following the
announcement of college sport title events. Cornwell et al. (2005)
reported significant differences among sports in their study on official
product sponsorships. There was a positive reaction for basketball, but
no reaction for American football. Although these studies took different
sports into account, the findings were solely applicable to title events
and official product sponsorships. Only Pruitt et al. (2004)
investigated the effect of NASCAR sponsorships independently of the
sponsorship type and reported an increase in shareholder wealth.
The literature review reveals three main deficits in the research
field of sport sponsorship effects on the firm value. First, prior
research was mainly on events in the United States and therefore the
reported findings may not be applicable internationally (Mishra et al.,
1997). There is no study that analyzed the effect of endorsement deals
on the firm value from an international perspective. Second, previous
studies have concentrated on analyzing sport events and sponsorship
types, rather than different sports. Until now, different sports have
only been analyzed as sub-categories of specific sponsorship types.
Third, the samples used in prior research have limitations in terms of
size and up-to-dateness. The sample used by Clark et al. (2009) consists
of 114 announcements and is the largest sample in this research area.
More common are samples sizes of less than 30 (e.g., Farrell &
Frame, 1997; Miyazaki & Morgan, 2001; Samitas et al., 2008).
Therefore, the current body of literature would benefit from an
international study that takes the effect of sponsorship announcements
on share prices in several sports and regions into account, using a
comprehensive dataset.
Variables and Hypotheses
The results of previous research on the endorsement effect
indicated that the financial community viewed engagements in sport
sponsorship activities as generally profitable investments (e.g.,
Agrawal & Kamakura, 1995; Clark et al., 2009; Miyazaki & Morgan,
2001). Sponsorship deals were expected to increase future sales and
profits and as a result share prices of sponsoring firms should increase
accordingly. Therefore, the first hypothesis (H1) suggests that
announcements of sport sponsorship engagements positively impact the
share price of sponsoring firms.
Moreover, it is assumed that both deal-specific and
sponsor-specific characteristics have an impact on share price reactions
to announcements of sport sponsorship engagements. An overview of the
variables of the current study is presented in Table 1. With regard to
deal-specific factors, the level of the sponsorship (brand or corporate
level), the reach of the sponsorship (national vs. international), and
the novelty of the sponsorship (new vs. renewed deal) can have an impact
on share price reactions. First, a company does not only have to decide
whether to sponsor or not, it also needs to decide whether to sponsor on
company level (company name will appear in the sponsorship) or on brand
level (brand name will appear in the sponsorship). Promoting on company
level has the advantage that the advertising effect might spill over to
several brands. Moreover, it has been reasoned that sponsorships lack
the ability to convey a detailed product message and hence are more
valuable in building corporate image (Meenaghan, 1991). This assumption
is supported by Pruitt et al. (2004), who reported a positive effect of
corporate level sponsorships on returns. Therefore, the second
hypothesis (H2) states that share price reactions to announcements of
sport sponsorship engagements are significantly higher for sponsorship
deals on corporate level than on brand level.
Second, endorsement deals generally differ in their geographic
coverage. Whereas some deals reach an international audience, others are
mainly noticed nationally. Since sponsorship deals with international
coverage are deemed to reach a wider audience, it can be expected that
the probability for higher sales in the future increases. Hence, a
positive relationship between a sponsorship's reach and share price
reaction is expected. For this reason the third hypothesis (H3) predicts
that share price reactions are significantly higher for sport
sponsorship deals with international reach rather than only national
reach. This characteristic has not yet been analyzed in previous
studies.
Third, the novelty of the sponsorship deal can have an impact on
the firm value. Farrell and Frame (1997) suggested that contract
extensions should affect returns positively as repeat sponsors already
have experience that is valuable to fully exploit all opportunities
linked to the sponsorship. Moreover, recall and recognition of sponsors
should be higher for repeat sponsors than for new sponsors. For this
reason, the fourth hypothesis (H4) suggests that share price reactions
are higher for renewed sponsorship deals (contract extensions) than for
new sponsorship deals.
With regard to sponsor-specific characteristics, the firm size and
the industry sector can impact the firm value of sponsoring firms.
First, the sponsor's total assets are used as a proxy for firm size
in order to study the effect of firm sizes on sponsorship returns.
Different effects are possible for firm size. On the one hand, it could
be assumed that larger firms have more financial resources to provide a
sponsorship activity with sufficient activation support and related
marketing activities to achieve the full potential of the deal.
Consequently, a positive connection between returns and firm size can be
expected. There is also support for this assumption in previous research
(e.g., Clark et al., 2009). On the other hand, a negative effect also
seems possible. Potential advantages why larger firms could achieve
higher sponsorship returns (such as more extensive activation support)
are possibly neutralized by the relative increase in visibility and
thereby awareness for smaller firms. Supported by a variety of marketing
activities, large firms are already in the mindset of consumers, so that
the incremental awareness increase through sponsorships might be
significantly higher for smaller firms and therefore more valuable for
them. Findings from previous research also support the negative firm
size effect (e.g., Clark et al., 2002). Therefore, the fifth hypothesis
(H5) suggests that share price reactions to announcements of sport
sponsorship engagements are negatively influenced by firm size.
Another sponsor-specific characteristic of interest is if the
sponsor is from the high tech sector. High tech firms were defined as in
Clark et al. (2002) and included sponsors from the computer, internet,
telecommunications, and biotech industry. The industry classification
for each sponsor, which was based on the main revenue source of a
company, was included in the data set. Two independent referees have
validated this classification using the Industry Classification
Benchmark taxonomy developed by the FTSE Group and found no
irregularities. For high tech firms it is difficult to estimate future
cash flows as these firms typically do not have steady cash flows like,
for example, firms from the consumer goods sector. By investing heavily
in sponsorship deals, managers of high tech firms are signaling
investors that they are optimistic about the future (Clark et al.,
2002). Prior research supports the positive effect of sponsors from the
high tech industry on firm value (e.g., Clark et al., 2002; Cornwell et
al., 2005). Consequently, hypothesis six (H6) predicts that share price
reactions to announcements of sport sponsorship engagements are
significantly higher for firms from the high tech sector than for other
firms.
Methods
Data Collection
The overall database was provided by The World Sponsorship Monitor
(2010). Endorsement deals from around the globe, from several sports, as
well as deals from specific events (e.g., Olympics), and naming rights
were included in the sample. From the initial database information about
sponsorship deals from the top 10 sponsored sports (criterion: number of
deals in 2009 and 2010; Fenton, 2011) was extracted. The database
provided information about who sponsors whom, supplemented with
additional details about the sponsor's industry, the type of
sponsorship, and an estimated deal value. Since deal values have rarely
been publicly released, these values have been approximated based on
industry interviews, benchmarking procedures, and expert opinions. To
enhance the relevance of the sample, only sponsorship deals announced
between Jan. 1, 1999, and Aug. 1, 2010, were considered in the analysis.
The initially very comprehensive list was further condensed by excluding
minor sponsorship deals (only deals from the top value quartile entered
the sample, representing the universe of large sponsorship deals with a
value of at least $1.5 million). It was assumed that the likelihood for
minor deals appearing in the press and capturing the attention of
investors would be very low.
Starting with this list of sponsorship deals, manual searches for
every deal were conducted. Deals involving sponsors that were not listed
on a stock exchange were excluded from the analysis. Next, the earliest
sponsorship announcement date was identified using the online databases
Factiva and LexisNexis. Deals where the earliest announcement date could
not be identified beyond doubt were also eliminated from the sample. Due
to the internationality of the sample a few observations (<4%) were
affected by the issue of nonsynchronous trading hours of international
stock exchange when the first announcement was made in a different time
zone than the exchange where the sponsor's shares were primarily
traded. This time difference might have caused a late response to the
announcement of some deals because exchanges might have already been
closed at the time of the first announcement. Unfortunately, it was not
possible to identify the exact time of the announcement, which would be
needed for a possible adjustment of the announcement date. Thus, no
dates were adjusted; however, the methodological approach corrects for
possible event-day uncertainty by analyzing also event windows in
addition to single event dates (MacKinley, 1997). Lastly, the sample was
cleaned from deals affected by confounding events in a time window of [+
or -]3 days around the announcement date. Any observation was classified
as being contaminated, if the sponsorship announcement coincided with
other relevant firm-specific news such as earnings announcements, for
example (Mishra et al., 1997). The final data set included n=629
sponsorship deals and was to the authors' knowledge the largest
sample analyzed in an event study on sponsorship effectiveness. Relevant
financial data (e.g., daily stock prices, daily index prices, assets)
was obtained via DataStream and included in the dataset.
Sample Characteristics
The descriptive statistics are summarized in Table 1. CAR three
days prior and after the announcement date is on average positive
(+0.31%). The average firm size (average total assets of $200 billion)
indicates that the firms included in the sample are quite large.
Approximately one quarter of all deals (26%) promote specific brands
rather than a company name and the majority of deals (67%) are first
time sponsorships. In terms of geographical reach the sample is split in
half, with 53% having a national reach and 47% of the deals having an
international coverage. About 14% of all sponsoring firms are from the
high tech industry (computer, internet, telecommunications, or biotech).
With respect to the regional split of the deals, 13% were deals entered
by firms from the Asia/Pacific region, 37% involved firms from Europe,
48% were sponsorship deals with North American firms, and the remaining
2% with companies from the Middle East, North Africa, or Latin America (MENALA). In terms of the nature of the sponsorship deals, 10% are
Olympic deals and 7% naming right deals. The sportspecific deals can be
assigned to American football (6%), baseball (6%), basketball (10%),
tennis (10%), golf (13%), soccer (19%), and motor sports (19%). Out of
the overall 120 motor sports deals the majority are Formula 1 related
(n=62) and the rest are deals associated with NASCAR (n=41) or
motorcycle racing (n=18).
Event Study Approach
The event study approach (Brown & Warner, 1985) to analyze
share price reactions to firm relevant news has been widely applied in
economics, finance, and marketing (e.g., Jones & Danbolt, 2005;
Karpoff & Rankine, 1994; Koku, Jagpal, & Viswanath, 1997;
MacKinley, 1997). In general, event studies analyze share price
reactions to specific events and this approach is considered to be the
standard methodology to evaluate the sponsorship effect on firm value
(Agrawal & Kamakura, 1995). The underlying idea is to compare actual
stock returns around the event day with theoretical returns that would
be expected in absence of the event. The event in this study is the
first announcement of the sponsorship. Building on Fama's (1970)
efficient market hypothesis (EMH), event studies imply semi-strong
efficient markets, namely that all publicly available information is
reflected in a firm's share price (Fama, 1970). When investors
receive new information (e.g., announcement of a sponsorship) the share
price should react instantaneously.
Even though it may be problematic to directly link sponsorship
deals to sales figures or profits, applying event study methodology in
this context allows detecting if these marketing investments are viewed
favorably by investors. The substantial investments and the formal
announcement of endorsement contracts assure media coverage. Investors
learn about this marketing activity and independently assess the impact
on future profitability. Based on EMH, the sponsor's share price
should react accordingly (Agrawal & Kamakura, 1995). Using event
studies in the marketing context offers a unique way to measure the net
present value (NPV) of events like sponsorship announcements. Changes in
share prices following the announcement reflect the difference between
investors' expectations about future profits and total costs (e.g.,
sponsorship fees, activation costs) arising from the sponsorship deal
(Clark et al., 2009).
Data Analysis
The data analysis consists of three main steps and is performed in
STATA. All steps of the data analysis are carried out for the entire
sample as well as for two specific sports (soccer, motor sports) and
three regions (North America, Europe, and Asia/Pacific). To allow
comparisons with prior event studies testing the financial effectiveness
of sponsorship programs an a-level of 0.1 is used for all statistical
tests (e.g., Clark et al., 2002, 2009; Farrell & Frame, 1997;
Tsiotsoua & Lalountas, 2005).
First, following Brown and Warner (1995), the market model is
utilized to calculate daily deviations from expected returns. The market
model describes the normal or expected return of firm i on day t
([R.sub.i,t]) as a function of the return of a market index:
(1) [R.sub.i,t] = [[alpha].sub.i] + [r.sub.i,t] + [R.sub.i,t]
with [alpha] and [beta] being the market model parameters,
[R.sub.m,t] the return of the market index m on day t, and [e.sub.i,t]
the statistical margin of error. The unexpected return or AR is then
defined as:
(2) [AR.sub.i,t] = [r.sub.i,t] - [R.sub.i,t]
with [r.sub.i,t] being the actual return of stock i on day t and
[R.sub.i,t] the expected return as defined above. Market model
parameters were estimated using an estimation window of -120 trading
days (6 months), beginning on day t=-130 to t=-11. Day t=0 marks the
announcement date. In case this date fell on one of the stock exchange
closing days across the various countries (e.g., weekend, holidays) the
next possible trading day was defined as t=0. The event window stretches
from dayt=-3 to t=3. The analysis of event windows corrects for possible
uncertainty in the identification of actual announcement dates and
accounts for information leakages and late stock market reactions.
Next, daily ARs are averaged across all firms in the sample in
order to test statistical significance on an aggregate level. Average
abnormal return (AAR) across all events on day t is defined as:
(3) [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII]
with [AR.sub.i,t] being the abnormal return following event i on
day t and N the total number of events in the sample. These average
abnormal returns are cumulated over different time windows (e.g.,
[t.sub.1] = -2 to [t.sub.2] = +2) within the event period. The cumulated
average abnormal return (CAAR) between day [t.sub.1] and [t.sub.2] is
defined as follows:
(4) [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII]
These CAARs enable to test the significance of the cumulative
effect of sponsorship announcements. To test the statistical
significance of AAR and CAAR and consequently to test the first
hypothesis (H1), Boehmer, Musumeci, and Poulsen's (BMP, 1991)
standardized cross-sectional t-test is applied (Farrell & Frame,
1997). This parametric test is well specified for event studies using
daily stock returns as it overcomes the potential problem of
event-induced heteroskedasticity (Binder, 1998). The BMP test statistic is defined as:
(5) [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII]
with [SAR.sub.i,E] being the standardized abnormal return following
event i in period E and N the total number of events in sample. The
standardized abnormal return following event i in period E (SARi,E)
included in formula (5) is defined as follows:
(6) [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII]
with [AR.sub.i,E] being the abnormal return following event i in
period E, T the total number of days in period E, and [s.sub.i] the
standard deviation of AR of event i during estimation period.
As the second step of the data analysis, a non-parametric rank test
is performed to further strengthen the significance of the results and
to determine that the results are not driven by extreme outliers. This
test is considered the standard procedure in the event study methodology
as the normality assumption implicit in the t-test might be violated.
Instead of using the value of AR the rank-test uses its ordinal information. As a result, the z-statistic is not influenced by the
variance in the distribution of returns (Agrawal & Kamakura, 1995).
For every country in the sample the corresponding leading share index is
used as a proxy for [R.sub.m] (e.g., Dow Jones for the US, FTSE 100 for
UK). It is important to note that the results reported in this study are
robust against changes in model specifications. Similar results are
obtained using a 12-month estimation period, different approaches for
expected return calculations (mean adjusted return, market adjusted
return), and the selection of national stock market indexes (e.g.,
S&P 500 instead of Dow Jones for US). It is tested if AR can be
detected for sponsoring firms, which would be revealed by a significant
difference between expected stock returns and actual observed stock
returns.
Third, multivariate regression analyses are carried out to test the
hypotheses H2 to H6. It is checked whether cumulated ARs (CAR) across
t=-3 and t=+3 (dependent variable) are influenced by deal-specific
(CORP, INTERNAT, NEW) or sponsor-specific characteristics (SIZE, TECH).
CAR between t=-3 and t=+3 is used as the dependent variable to account
for possible information leakages before the announcement date or late
market reactions. Moreover, dummy variables for regions (ASIAPAC,
EUROPE, MENALA, NAMERICA), Olympic sponsorship (OLYMPIC), naming right
sponsorship (NAMING), and specific sports (SPORT) are included in the
regression model as controls. The variables are checked for
multicollinearity and endogeneity. All correlation coefficients are
below 0.9 (Tabachnick & Fidell, 2007) and the variance inflation
factors (VIFs) are below 10 (Hair, Rolph, Tatham, & Black, 1998)
indicating no problems of multicollinearity. As there is no correlation
between the independent variables and the residuals, there should be no
endogeneity problem (Wooldridge, 2002). The regression equation for the
entire sample is written down below (with [[SIGMA].sup.4.sub.t] REGION
representing a summary vector for all regions and [[SIGMA].sup.8.sub.t]
SPORT for all sports included in the sample as listed in Table 1):
[MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII] (7)
All regression models were estimated with robust standard errors to
control for heteroskedasticity (MacKinnon & White, 1985; White,
1980).The regression equation for the two sub-samples soccer and motor
sports is similar to equation (7), but excludes the control dummies for
Olympic, naming right, and specific sport sponsorships. In the motor
sports model, a Formula 1 dummy (F1) and a NASCAR dummy (NASCAR) are
included as controls (reference category is motor cycle racing).
Results
The results of the event study analysis for the overall sample
including all sports (Panel A), and the sport-specific sub-samples
soccer (Panel B) and motor sports (Panel C) are summarized in Table 2.
The average ARs for the overall sample are positive (+0.36%) and
significant (p<0.01) on the announcement day (Panel A). However, day
2 following the announcement registers significant negative returns
(-0.09%, p<0.05). It is therefore important to examine the results of
multi-day time windows in order to assess the cumulative impact. The
CAARs for most time windows are positive and significant (e.g., days -1
to +1: +0.53%, p<0.01; Panel A) and no evidence for a negative
reaction is found. These findings provide statistical evidence that
sport sponsorship announcements positively impact stock returns.
Therefore, H1 can be confirmed for the overall sample.
The results for the effect of soccer deals are displayed in Panel B
of Table 2. While announcements trigger significantly negative returns
on the day following the announcement (AAR=-0.21%, p<0.05), there is
no statistical evidence for any share price reaction when looking at
time windows. As share prices show no reaction to soccer sponsorships,
or even react slightly negative, H1 cannot be confirmed for soccer. For
sponsorships in motor sports, highly significant positive AARs on day 0
(+0.58%, p<0.01) show a positive impact of motor sport sponsorship
announcements on stock returns (Panel C in Table 2). This result is also
confirmed by consistently positive and significant CAARs across
different time windows. For instance, between days -1 and +1 CAAR is
+0.77% (p<0.05), thereby supporting H1 for sponsorship announcements
in motor sports. It must be noted that these positive returns in motor
sports are mainly driven by NASCAR deals (out of the 120 motor sport
deals, 41 are NASCAR sponsorships, 62 are Formula 1 sponsorships, and
the remaining 17 are motor cycling deals). The highly positive AAR on
day 0 (0.92%, p<0.01) for NASCAR deals is also confirmed for CAARs
(e.g., days -1 to +1: +1.63%, p<0.01), whereas returns for Formula 1
sponsorships are positive but not significant (e.g., days -1 to +1:
+0.33%, p>0.10).
The results for the sponsorship effects for sponsors from different
regions are displayed in Table 3, including North America (Panel A),
Europe (Panel B), and Asia/Pacific (Panel C). Both, the average ARs for
single days (day 0: +0.46%, p<0.01) and CAARs for time windows (days
-1 to +1: +0.83%, p<0.01) are positive and significant for sponsors
from North America (Panel A). Similar results were found for sponsors
from Europe (Panel B) with positive and significant returns on the
announcement day (+0.27%, p<0.05) and for time windows around the
announcement (days 0 to +1: +0.36%, p<0.05). Thus, H1 can be
confirmed for sponsors from North America and Europe. In contrast,
significant negative ARs were detected for sponsors from the
Asia/Pacific region (Panel C) on the second day following the
announcement (-0.32%, p<0.05) and a time window surrounding the
announcement (days -3 to +3: -0.66%, p<0.10). Because of these
negative returns H1 must be rejected for the Asia/Pacific region.
The regression results for the overall sample (Model 1), for soccer
(Model 2), and for motor sports (Model 3) are summarized in Table 4.
With regard to the deal-specific factors, the factor CORP has a
significant negative effect on CAR in Model 1 for all sports, implying
that sponsorships on brand level have a higher impact on CAR than
sponsorships on corporate level. The effect of CORP is neither
significant in the soccer model nor in the motor sports model.
Consequently, H2 must be rejected for all models. The variable INTERNAT
has no significant effect on CAR in the model for all sports, whereas
the results for soccer (Model 2) and motor sports (Model 3) reveal a
significant negative effect. This negative effect implies that
sponsorship deals with national reach have a significantly higher impact
on CAR than sponsorship deals with international reach, which is
contrary to the previous hypothesis (H3). Thus, H3 cannot be confirmed.
The effect of NEW is not significant in all three models and therefore,
H4 must be rejected. Pertaining to sponsor-specific factors, SIZE has a
significant negative influence on CAR in the soccer model (Model 2),
whereas the effect of SIZE is not significant in the overall model
(Model 1) and for the motor sport model (Model 3). Therefore, H5 can
only be confirmed for soccer. The variable TECH has no significant
impact in all three models and therefore, H6 must be rejected. The
region factor for ASIAPAC has a significant negative effect in the
overall and in the soccer model and MENALA shows a significant positive
effect in the motor sports model (Table 4).
Discussion
The results of the study document that share prices generally
reacted positively to sport sponsorship announcements. In particular,
across the entire sample sponsoring firms achieved ARs of +0.36% on the
announcement date. Investors saw sponsorship deals as value creating
investments with beneficial impact on future sales and profits. Overall,
these substantial marketing investments were considered to be positive
NPV projects that enhanced firm value. This implies, however, that deals
might have been generally underpriced and that the equilibrium price level for sport sponsorship contracts has not (yet) been reached. The
fact that sponsorship programs were considered as positive return
projects could assist sponsored organizations in negotiating higher fees
in order to allocate returns more equally. The finding of a positive
sponsorship effect is in line with previous research (e.g., Agrawal
& Kamakura, 1995; Clark et al., 2009; Miyazaki & Morgan, 2001).
The results also show that not all sponsorships were equal.
Sponsorships in soccer were perceived as more skeptical. The negative
share price reaction can be a sign that investors were pessimistic about
the cost-benefit ratio for soccer deals. A potential reason for this
finding can be that expected future incremental sales originated from
the sponsorship could not justify the high prices paid for soccer deals.
On the contrary, motor sport sponsorships generated high ARs (+0.58% on
the announcement day), indicating that the investment community was very
optimistic about motor sports deals. This finding is in accordance with
previous results on motor sports sponsorships (Cornwell et al., 2001;
Pruitt et al., 2004). Interestingly, the motor sports results were
driven by NASCAR sponsorships, and not by Formula 1 deals. There are two
possible reasons for this difference. First, deal prices were
significantly higher for Formula 1 sponsorships. The fact that the
impact of Formula 1 deals was neutral suggests that sponsorship
contracts were signed at fair prices. Sponsors paid an adequate amount
with regard to additional sales in the future. Second, NASCAR sponsors
can build on an exceptionally loyal fan base. As Pruitt et al. (2004)
note, NASCAR fans see a direct link between the performance of the teams
and the contribution of sponsors. Fans are aware of the fact that
"it is the sponsor that enables teams to develop better engines,
better cars and to run more tests. That translates into fan
loyalty." (Pruitt et al., 2004, p. 284).
The results from the regional analyses suggest that the effects of
sponsorship announcements differed among regions. Whereas sponsorship
was generally seen as a value creating activity for sponsors from North
America and Europe, it was perceived as a negative sign in the
Asia/Pacific region with negative returns. It must be noted total
sponsorship expenditures of firms from the Asia/Pacific region are still
on a comparatively low level and amount only to 50% of European and only
to 30% of American sponsorship expenditures (PricewaterhouseCoopers,
2010). These figures indicate that sponsorship might still be in a
development phase in the Asia/Pacific region and investors still need to
be convinced about its effectiveness as a marketing tool.
Two deal-specific factors determined the firm value. For the entire
sample, abnormal returns were determined by the level of the sponsorship
(CORP). Contrary to the finding of previous research (Pruitt et al.,
2004), deals on corporate level (e.g., promoting the firm name instead
of a brand name) experienced lower returns compared to brand level
deals. One explanation can be that investors are skeptical about the
ability of consumers to associate the sponsored company name with
specific brands, and as a result, future sales would be unaffected by
the sponsorship. The factor INERNAT had a significant negative impact on
ARs in the soccer model and in the motor sports model. A comparison with
previous work is not possible as this characteristic has not been under
investigation until now. The better performance of deals with national
coverage could indicate a mismatch between a sponsors geographic target
group and the sponsorship reach. For example, a global soccer event
might not be the best fit for a Brazilian beer producer because (with
few exceptions) the beer industry is characterized by fragmented
national markets rather than a global market. The negative and
insignificant effect of NEW is in line with previous research (e.g.,
Clark et al., 2002; Farrell & Frame, 1997). The argument that
sponsors gain significant experience in first-time partnerships that is
valuable to optimally leverage their sponsorship rights when the
sponsorship is extended is not supported.
With respect to the sponsor-specific characteristics, the results
indicated that SIZE had a negative influence on returns for soccer
sponsorships. The negative effect for firm size implies that larger
sponsors experienced lower ARs than smaller sponsors. This is in
accordance with Clark et al.'s (2002) study on title event
sponsorships. The findings support the previous assumption that
potential scale advantages for larger firms in terms of extensive
activation support are neutralized by additional visibility and
significantly higher incremental awareness increase for smaller firms.
In contrast to previous studies (e.g. Clark et al., 2009; Cornwell et
al., 2005) there was no evidence in this study that firms from the high
tech sector generated higher excess returns than firms from other
industries.
This study has some limitations. The first limitation relates to
the selection of sample firms. The selection process using a numerical
cut-off value excluded smaller sponsorship deals (e.g., deals < $1.5
million). Thus, the results are primarily applicable to large
sponsorship deals. Second, the relatively low R2s indicate that further
variables might be relevant to explain abnormal returns. For example,
the level of congruence between a sponsor and the sponsored organization
was found to be a relevant factor impacting ARs (Pruitt et al., 2004;
Cornwell et al., 2005). However, this variable was not included in the
model because of the subjective character of what constitutes a
congruent sponsorship. Moreover, a sponsor's market share could be
relevant because the marginal benefit from the sponsorship is likely to
decline with higher levels of market share as a result of already high
awareness scores. Unfortunately, it was not possible to obtain reliable
estimates for this variable. Whereas the diversity of the sample
regarding regions, industries, sponsorship types, and sports was an
advantage over past literature in terms of broader generalizability of
event study results, it might be a disadvantage at this point due to a
lack of clear universal explanatory variables. Nevertheless, previous
studies reported similar values for R2 of less than 0.12 (e.g., Clark et
al., 2009; Cornwell et al., 2001; Mishra et al., 1997) indicating that
the variance in abnormal returns is difficult to explain.
Despite these limitations, the findings of this study have
implications for several stakeholders. First, it is important for
corporate managers and shareholders to note that the investment
community considers sponsorships as overall beneficial investments.
Therefore, it can be recommended that corporate managers invest in sport
sponsorships as part of the communication mix. Second, the existence of
ARs for sponsors should warn sport managers that the equilibrium price
level for sport sponsorship contracts has not (yet) been reached. This
provides grounds for upcoming negotiations to allocate overall
sponsorship returns between sponsors and sport organizations more
equally. Third, the results enable marketers to discuss on a
quantitative basis about the value of including sponsorships into the
communication strategy, based on the evidence that sponsorships add
measurable financial value to the firm. Lastly, linking marketing
activities like sponsorship programs to share prices might seem
farfetched since traditional measures are of more qualitative nature
such as awareness scores or brand image changes. However, employing the
event study approach allows drawing general conclusions about how
investors react to sponsorship activities. This should be of interest
for all companies attempting to maximize shareholder value.
Conclusion
This study provided evidence on the positive impact of sponsorship
announcements on firm value using the event study approach. Based on an
international sample of sponsorship deals the results indicated a
positive effect on the firm value caused by sport sponsorship
announcements. Sponsorship deals of smaller firms, deals on brand level,
and national deals were found to have significantly higher abnormal
returns. Future research should further investigate the reasons why
sponsorships with national reach generated higher ARs than deals with
international reach using the speculated mismatch between the sponsors
geographic target group and the sponsorship reach as a starting point.
Next, the initial finding of the negative sponsorship effect for
Asia/Pacific sponsors warrants further research on regional differences
of sponsorship effectiveness. Furthermore, the impact of sponsorship
withdrawals should be explored, especially in times where sponsoring
firms face challenges following scandals such as Tiger Woods or Michael
Phelps.
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Matthias Reiser (1), Christoph Breuer (1), and Pamela Wicker (2)
(1) German Sport University Cologne
(2) Griffith University
Matthias Reiser is a PhD candidate in the Institute of Sport
Economics and Sport Management. His research interests include capital
markets and sport sponsorships.
Christoph Breuer, PhD, is a professor of sport management in the
Institute of Sport Economics and Sport Management. His primary research
interests include sport systems, sponsoring, and methodology of sport
management research.
Pamela Wicker, PhD, is a senior lecturer in the Department of
Tourism, Leisure, Hotel and Sport Management. Her research interests
include economics of sport consumer behavior, estimating the value of
sporting success, consumer segmentation, analyzing and predicting sport
participation, and the development of nonprofit sport organizations.
Table 1: Overview of Variables
Variable Description
Dependent variable
CAR Cumulated abnormal return for days
t=-3 to t=+3 (in %)
Deal-specific factors
CORP Level of sponsorship (0=brand level;
2=corporate level)
INTERNAT Reach of sponsorship (0=national,
2=international)
NEW Novelty of deal (0=renewed, 1=new)
Sponsor-specific factors
SIZE Size of sponsor measured by total
assets (in $ billions at year-end before
announcement)
TECH Sponsor is from high tech industry (1=yes)
Controls
OLYMPICS Sponsorship is for the Olympics (1=yes)
NAMING Sponsorship is a naming rights deal (1=yes)
ASIAPAC Sponsor from Asia/Pacific region
EUROPE Sponsor from Europe
MENALA Sponsor from Middle East, North Africa,
and Latin America region
NAMERICA Sponsor from North America
SPORT Different sports (American football,
baseball, basketball, golf, motor sports,
tennis, soccer)
F1 Sponsorship is associated with Formula 1
(0=other motor sports, 1=Formula 1 deal)
NASCAR Sponsorship is associated with NASCAR
(0=other motor sports, 1=NASCAR deal)
Variable Scale Mean (SD)
Dependent variable
CAR Metric 0.31 (4.35)
Deal-specific factors
CORP Dummy 0.74 (0.44)
INTERNAT Dummy 0.53 (0.50)
NEW Dummy 0.67 (0.47)
Sponsor-specific factors
SIZE Metric 200.23
(468.32)
TECH Dummy 0.14 (0.34)
Controls
OLYMPICS Dummy 0.10 (0.30)
NAMING Dummy 0.07 (0.25)
ASIAPAC Dummy 0.13 (0.33)
EUROPE Dummy 0.37 (0.48)
MENALA Dummy 0.02 (0.50)
NAMERICA Dummy 0.48 (0.14)
SPORT Dummy /
F1 Dummy 0.51 (0.50)
NASCAR Dummy 0.34 (0.48)
Table 2: (Cumulative) Average Abnormal Returns for Selected Days
Around the Announcement Date
Day(s) N (C)AAR [t.sub.RMP] N+ (%) z
Panel A: All sports
-2 629 0.05% 0.78 317 (50%) -0.11
-1 629 0.06% 0.91 331 (53%) 0.63
0 629 0.36% 471 *** 344 (55%) 3.96 ***
+1 629 0.11% 1.23 315 (50%) 0.11
+2 629 -0.09% -2.06 ** 284 (45%) -2.39 **
-1 to 0 629 0.42% 4.25 *** 340 (54%) 3.27 ***
-1 to +1 629 0.53% 4.17 *** 345 (55%) 3.28 ***
-3 to +3 629 0.32% 1.36 328 (52%) 1.47
Panel B: Soccer
-2 117 -0.01% -0.02 55 (47%) -0.37
-1 117 0.14% 1.29 68 (58%) 0.68
0 117 0.11% 0.83 58 (50%) -0.09
+1 117 -0.21% -2.34 ** 52 (44%) -1.86 *
+2 117 0.04% 0.01 65 (56%) 0.54
-1 to 0 117 0.25% 1.56 61 (56%) 0.50
-1 to +1 117 0.04% 0.36 53 (64%) -0.75
-3 to +3 117 -0.07% -0.01 56 (48%) -0.05
Panel C: Motor sports
-2 120 -0.03% -0.45 66 (55%) 0.23
-1 120 0.07% 0.11 56 (47%) -0.41
0 120 0.58% 3.06 *** 74 (62%) 2.89 ***
+1 120 0.13% 1.13 60 (50%) 0.29
+2 120 0.02% -0.22 56 (47%) -0.31
-1 to 0 120 0.65% 1.97 * 67 (56%) 1.74 *
-1 to +1 120 0.77% 2.40 ** 67 (56%) 2.06 **
-3 to +3 120 0.67% 1.19 70 (58%) 1.77
Note: *** p<0.01; ** p<0.05; * p<0.1; N+ is the number of sponsorship
announcements having positive returns, percentage share in brackets.
Table 3: (Cumulative) Average Abnormal Returns for Selected Days
Around the Announcement Date
Day(s) N (C)AAR [t.sub.RMP] N+ (%) z
Panel A: North America
-2 305 0.08% 1.29 157 (51%) 0.18
-1 305 0.14% 1.42 165 (54%) 1.76 *
0 305 0.46% 3.96 *** 171 (56%) 3.55 ***
+1 305 0.23% 1.85 * 166 (54%) 1.01
+2 305 -0.03% -1.38 135 (44%) -1.41
-1 to 0 305 0.60% 4.10 *** 173 (57%) 3.63 ***
-1 to +1 305 0.83% 4.31 *** 181 (59%) 4.13 ***
-3 to +3 305 0.75% 2.29 ** 169 (55%) 2.45 **
Panel B: Europe
-2 231 0.08% 0.78 119 (52%) 0.52
-1 231 0.09% 0.55 123 (53%) 0.05
0 231 0.27% 2.32 ** 126 (55%) 1.85 *
+1 231 -0.04% -0.47 103 (45%) -0.99
+2 231 -0.11% -0.67 109 (47%) -1.16
-1 to 0 231 0.36% 2.26 ** 120 (52%) 1.43
-1 to +1 231 0.32% 1.76 * 122 (53%) 1.02
-3 to +3 231 0.05% 0.41 120 (52%) 0.60
Panel C: Asia/Pacific
-2 81 -0.08% -1.31 35 (43%) -1.14
-1 81 -0.23% -0.96 37 (46%) -1.40
0 81 0.22% 1.12 41 (51%) 0.69
+1 81 -0.01% -0.05 39 (48%) -0.41
+2 81 -0.32% -2.13 ** 33 (41%) -1.92 *
-1 to 0 81 -0.01% -0.10 41 (51%) -0.31
-1 to +1 81 -0.02% -0.10 35 (43%) -0.73
-3 to +3 81 -0.66% -1.85 * 32 (39%) -2.09 **
Note: *** p<0.01; ** p<0.05; * p<0.1; N+ is the number of sponsorship
announcements having positive returns, percentage share in brackets.
Table 4: Summary of Regression Results for Cumulated Abnormal
Return Between t=-3 and t=+3
Model 1: All sports Model 2: Soccer
Constant 1.041 (1.79) * 3.045 (2.79) ***
CORP -0.775 (-1.83) * -0.694 (-0.87)
INTERNAT -0.060 (-0.14) -1.496 (-1.94) *
NEW -0.031 (-0.09) -1.177 (-1.52)
SIZE -0.001 (-1.34) -0.002 (-2.40) **
TECH 0.442 (0.68) 0.796 (0.76)
OLYMPICS 1.417 (1.91) * /
NAMING 0.352 (0.48) /
ASIAPAC -1.278 (-2.21) ** -2.395 (-2.09) **
EUROPE -0.534 (-1.34) -0.867 (-1.01)
MENALA 0.334 (0.24) -1.025 (-0.64)
SPORT dummies included /
F1 / /
NASCAR / /
[R.sup.2] 0.055 0.139
F 1.87 2.40
p 0.02 ** 0.02 **
N 629 117
Model 3: Motor sports
Constant 2.315. (1.86) *
CORP -0.104 (-0.14)
INTERNAT -4.069 (-3.27) ***
NEW 0.904 (1.56)
SIZE -0.000 (-0.24)
TECH 0.564 (0.44)
OLYMPICS /
NAMING /
ASIAPAC -0.525 (-0.46)
EUROPE 0.258 (0.03)
MENALA 2.660 (1.67) *
SPORT dummies /
F1 1.421 (1.43)
NASCAR -1.504 (-1.21)
[R.sup.2] 0.088
F 1.72
p 0.03 **
N 120
Note: *** p<0.01; ** p<0.05; * p<0.1; displayed are the
coefficients, t-values in brackets, robust standard errors are
reported. Reference category for regions is North America. Seven
sport dummies are used to capture sport-specific effects (Model 1;
reference category is soccer); all SPORT dummies are not
significant (p>0.1) except for American football (p<0.05). Motor
sports model (model 3): reference category for motor sports dummies
is motor cycle racing.
