How Did MiFID Affect Systemic Underperformance in the European
Equity Market? A Tracking Error based Approach
Cheikh Niang and Alois Kanyinda-Kasanda
Department of Finance, Neoma Business School, 59 Rue Pierre Taittinger, Reims, France
Keywords: MiFID, Tracking Error, Market Quality, Market Efficiency, Benchmark.
Abstract: Using a new methodology based on the decomposition of tracking error, we show that the implementation of
MiFID improved the quality of European equity markets. The latter was favorable to the European equity
investors’ ability to reach their investment objectives as measured by the systemic downside tracking error.
In other words, after the implementation of the MiFID directive, investors were less likely to underperform
due to unfavorable market characteristics. The results were statistically significant at the 95% significance
level.
1 INTRODUCTION
The implementation of MiFID was supposed to bring
a higher level of market quality through improved
liquidity and higher efficiency by fostering trade
transparency and competition between trading
venues. The implementation of MiFID did foster
competition; however, it seems many of its negative
aspects were unanticipated.
Gomber and Pierron (2010) show that trading
activity reported as OTC activity is very different
from its description in the MiFID. MiFID
characterizes OTC as transactions that cumulatively
fulfill the requirements of being ad hoc and irregular,
carried out with wholesale counterparties, above
standard market size, and conducted outside systems
used for systematic internalization. However, their
results show that a significant share of OTC
transactions are neither above standard market sizes
nor would they face market impact if concluded on
open, public order books. The authors also show that
the adoption of new trading technologies has
dramatically increased the sensitivity of market data.
The reduction of average transaction sizes in the
various liquidity pools and the implementation of
high-frequency trading have reinforced the
willingness of buy-side firms to hide their trading
strategy by limiting information leakage while
capturing as much information about the trading
patterns of their counterparts as possible. This
situation conjugated with the desire to decrease
execution cost explains the rise of dark pools in the
European market.
Degryse et al., (2015), for instance, show that
fragmentation is beneficial in visible order books
through improved global liquidity, whereas the effect
of dark trading is detrimental.
Buti et al., (2011) show that the existence of dark
pools in illiquid markets tends to widen bid-ask
spreads, decrease the market depth, and deteriorate
overall welfare. In more liquid markets, only large
traders see their situation improve while small traders
are still worse off.
Our study aims to investigate whether these
adverse developments after the implementation of the
MiFID did have a negative impact or not on market
participants’ ability to reach their investment goals in
the European equity market. In other words, how did
the MiFID affect the likeliness of fund managers
displaying underperformance only due to market
factors?
In section 1, we review the related literature. We
dedicated Part 2 to the explanation of the
methodology. Section 3 presents the data used for the
study. Section 4 presents the statistical analysis, and
we comment on the results in part 5.
2 LITERATURE REVIEW
Academic research has widely documented
underperformance by equity mutual funds. Many
Niang, C. and Kanyinda-Kasanda, A.
How Did MiFID Affect Systemic Underperformance in the European Equity Market? A Tracking Error based Approach.
DOI: 10.5220/0008772000570062
In Proceedings of the 2nd International Conference on Finance, Economics, Management and IT Business (FEMIB 2020), pages 57-62
ISBN: 978-989-758-422-0
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
57
factors are significant in explaining portfolio
underperformance.
Day et al. focused on the impact of portfolio
composition and the excess turnover on fund
performance. Using standard portfolio optimization
techniques, they showed that the portfolio weights for
the stocks selected by fund managers are, on average
inefficient. They suggest that while fund managers
may possess superior stock selection skills, we could
achieve substantial gains by improving the efficiency
of the allocation of mutual fund assets. They also
present evidence suggesting that mutual fund
turnover is excessive and that fund managers may
rely too heavily on stock price momentum.
Cremers and Pareek (2015) confirmed these
findings. They show that among high active Share
portfolios, only those with patient investment
strategies (withholding durations of over two years),
on average, outperform, over 2% per year. Funds
trading frequently generally underperform, including
those with high Active Share.
Gastineau (2004) claims that ETFs underperform
their index fund competitors. Specifically, Gastineau
suggests that, at least in part, the deficiency in an
ETF’s underperformance is due to the ETF managers’
reluctance to adjust the portfolio before the official
moment of the index adjustment.
Hu et al., (2008) found that a fund’s performance
is negatively related to its age. Blitz et al. (2012) find
the explanatory power of dividend withholding taxes
for fund underperformance relative to its benchmark
to be at least on par with fund expenses. Applying
these findings, Blitz and Huij (2012) show that
emerging market equity ETFs’ expected returns are
equal to their respective gross benchmark index
returns minus expense ratio and dividend taxes.
Charupat and Miu (2013) find that all other things
being equal, the higher the expense ratio of a fund, the
more an ETF can be expected to underperform its
underlying index.). Many articles support this view:
Elton et al. (2002), Lin and Chou (2006), Rompotis
(2006, 2011), Agapova (2011), and Blitz et al. (2012).
Plyakha et al. (2015) find that the weighting
scheme is an essential factor in explaining fund
performance. They find that, on average, value-
weighted funds tend to underperform when compared
with equal-weighted funds. They find an excess
yearly mean return of 2.71% for the equal-weighted
portfolio over the value-weighted portfolio.
According to their findings, 58% of the excess return
comes from the excess systematic component, while
42% comes from the difference in alphas.
Additionally, the higher systematic return of the
equal-weighted portfolio arises from its higher
exposure to market, size, and value factors, which is
determined by the equal initial weights. However, the
higher alpha of the equal-weighted portfolio arises
from the monthly rebalancing to maintain constant
loads.
Our work will have as an objective to assess the
impact of MiFID through its possible negative impact
on the systemic component, as described by Plykha et
al.
In fact, since the implementation of the MiFID
Directive, we observed many possible adverse
developments. Some believe that the implementation
of the MiFID has exacerbated opacity in the financial
markets. This opacity materializes in the growth of
dark pools in Europe. Moreover, it fostered
information asymmetries between different market
participants and, most notably, between high-
frequency traders and low-frequency traders (Lenglet
and Riva, 2013).
These developments put into question the
integrity of financial markets and more to the point;
they cast doubt on the information content of stock
prices in the markets where the MiFID directive
applies. Many facts over the past years are suggesting
market manipulation. For instance, the French
financial market authority revealed that the execution
of orders in Europe is at an interval between 1% and
5%.
While one of the primary objectives of MiFID
implementation is to increase transparency,
Bloomfield and O'Hara showed that there are no
discernible effects of transparency on the market
performance, based on a simulation of three markets
that have different transparency levels. In the same
way, Porter and Weaver (2005) examined the effect
of changes in information disclosure rules on the
Toronto Stock Exchange. By making comparisons in
market performances before and after the reform,
they found that increased pre-trade transparency
decreased liquidity, increased execution costs, and
market volatility.
By using a new approach, our paper will assess
equity investor’s likeliness to underperform relative
to their benchmarks due to unfavorable systemic
factors induced by the implementation of the MiFID.
We present our methodology in the following section.
3 METHODOLOGY
In our study, we would like to determine the effect of
the implementation of MiFID on portfolio managers’
ability to reach their investment objectives, through
the impact of MiFID on market quality.
FEMIB 2020 - 2nd International Conference on Finance, Economics, Management and IT Business
58
Tracking error is the most prominent metric to
measure the deviation of portfolios from there
announced benchmark.
You can find here below the equation of tracking
error.
𝑇𝐸
=𝑅
−𝑅
(1)
Where:
TEi is the Tracking Error for the period i
RPi is the return of the portfolio for the period i
RBi is the return of the benchmark for the period i
The tracking error of a given portfolio is
influenced both by idiosyncratic factors (number of
stocks in the portfolio, number of non-benchmark
stocks in the portfolio, the degree of leverage) and
non-idiosyncratic factors (most notably volatility of
the benchmark and market quality) (Vardharaj et al.,
2004).
Larsen and Resnick (1998) show that the tracking
error is affected by market capitalization. Large
capitalization portfolios have lower volatility and
tracking error than low capitalization portfolios.
Frino and Gallagher (2001) identify the expenses,
the dividend payments arising from the underlying
stocks that compose an index, and the timing of index
rebalancing as being factors affecting the size of
tracking error.
According to Kostovetsky (2003), the tracking
error of index funds is affected by the bid-ask spreads
of the portfolio's underlying stocks, the dividend
distribution policies, and the transaction costs.
Osterhoff and Kaserer (2015) find that daily
tracking error significantly depends on the liquidity
of the underlying stocks.
This result confirms the findings of several studies
suggesting a positive effect of spreads on tracking
error. For instance, Milonas and Rompotis (2006),
Delcoure, and Zhong (2007) all verify that a fund’s
tracking error is positively affected by the bid-ask
spread.
Frino et al. (2004) use monthly data for the years
1994-1999 and show that tracking error in index
mutual funds for the S&P 500 is significantly related
to index revisions, share issuances, spin-offs, share
repurchases, index replication strategy, and fund size.
Gastineau (2002) finds for equity index funds
tracking the Russell 2000 and S&P 500 indices that
changes in index composition have a significant
effect on tracking error due to the transaction cost
involved in the necessary rebalancing of the
underlying portfolio.
Kundisch and Klein (2009) observe the daily
returns and tracking ability of several DAX
certificates and one DAX ETF for the period 2001-
2006 and show that the trading volume of the ETF
negatively correlates with its tracking error.
Elton et al. presented the non-reinvestment of
dividends as a significant factor affecting the tracking
error of SPDRs.
The contribution of each factor to tracking error is
called the “Marginal Contribution to Tracking Error”
(MCTE).
In our model, we hypothesize that the effect of the
MiFID on the investors’ ability to match their
benchmark is included in the Residual MCTE
(RMCTE). RMCTE is the MCTE once we consider
the MCTE of all the factors except the market quality.
Hence, the difference between the RMCTE of the
Pre-MiFID and the Post-MiFID periods will account
for the effect of the directive on market quality. Thus,
our study periods will be October 2003 – June 2007
serving as a reference period before implementation
and January 2009 – November 2011 after the MiFID
entered in vigor. We intentionally skip the interval of
time between July 2007 and December 2008 due to
the subprime crisis and the bias it could introduce in
the data.
The methodology consisting of a comparison of
the period before the implementation of a policy to
the period after the application of the latter is standard
in the literature for assessing newly implemented
regulations (See, for instance, Gresse 2011, Porter
and Weaver (2005), etc.).
To determine the effect of the MiFID directive on
systemic underperformance (the part of managers’
underperformance only related to market factors,
namely volatility and market quality), we will
examine a metric that we call the downside tracking
error that we note “DTE.” The tracking error is a
metric that treats all types of deviation from the
benchmark in the same way. However,
underperformance and outperformance do not have
the same implications in terms of portfolio
management. This is the rationale behind the
calculation of the DTE. We calculate it as the
negative deviations from the benchmark.
We will extract the idiosyncratic downside
tracking error by creating an extensive portfolio of
portfolios composed of 21 different ETFs and Mutual
Funds randomly chosen in the universe of investable
funds in the European Markets and displaying an
average negative tracking error during the study
period.
As in a single portfolio, the risk related to a
portfolio of portfolios is inversely associated with the
number of portfolios included. Hence, by creating
such a collection of portfolios, we will eliminate all
How Did MiFID Affect Systemic Underperformance in the European Equity Market? A Tracking Error based Approach
59
the idiosyncratic tracking error (Vardharaj et al.,
2004).
Once we have the systemic downside tracking
error, we can then split the non-idiosyncratic part of
the tracking error into two parts. The first part will be
related to volatility, and the remaining one will be
related to market quality, which includes the effect of
the implementation of the MIFID.
To isolate the part related to volatility, we will run
a univariate regression model using the market
volatility as the explanatory variable and the
downside tracking error of the diversified portfolio of
portfolios as the explained variables. We had to
transform the downside tracking error by taking its
absolute value so that we could use its logarithmic
form.
We show the downside regression equation here
below:
𝑙𝑛 ∣ 𝐷𝑇𝐸
∣− 𝑙𝑛∣𝐷𝑇𝐸
∣= µ
𝑙𝑛𝑉
−𝑙𝑛𝑉
+ 𝜀
(2)
Where:
DTE
dp
is the downside systemic tracking error
µ is the elasticity of DTE
dp
related to volatility
V
it
is the volatility of the benchmark
The part of the downside systemic tracking error
explained by volatility corresponds to the coefficient
of determination in the regression model obtained in
equation 2 above and is noted MCVDTE (Marginal
Contribution of Volatility to Downside Tracking
Error).
We will deduct the part accounted for by market
quality (including the implementation of MIFID) by
subtracting the MCVDTE to 1 (See equation 3
below).
𝑅𝑀𝐶𝐷𝑇𝐸 = 1 − 𝑀𝐶𝑉𝐷𝑇𝐸 (3)
Where:
RMCDTE is the Residual Marginal Contribution to
Downside Tracking Error.
MCVDTE is the part of the downside tracking error
of the diversified portfolio explained by the
volatility of the benchmark.
We will use the criteria below to see if the MIFID
has affected the investor’s ability to match their
benchmark. Additionally, we also consider the
elasticity µ to confirm the effect of volatility on
systemic downside tracking error.
We are evaluating the impact of MiFID on
downside tracking error.
If the RMCDTE before the MiFID is higher than
the RMCDTE after MiFID, then market quality issues
played a less critical role before MiFID
implementation in explaining downside systemic
tracking error, which would mean a better market
quality.
If the RMCDTE before the MiFID is lower than
the RMCDTE after MiFID, then market quality issues
played a more critical role in explaining downside
systemic tracking errors after the implementation,
which would mean a lower market quality.
In fact, in a perfectly efficient market (maximum
market quality), all participants should be able to
match their benchmark perfectly (no
underperformance due to market frictions and no
outperformance due to market mispricing).
We made regressions on 167 weekly observations
for the Pre-MiFID period and 179 weekly
observations for the Post-MiFID period.
We will examine the RMCDTE at a 95%
significance level to ensure the statistical significance
of the results.
4 NOTE ON DATA TREATMENT
AND ANALYSIS PROCEDURE
Due to the peculiarity of the study period, we have
performed a CUSUM squared test on the data for the
period running from October 24
th
, 2003 to November
29
th
, 2013, to ensure that our results are not sensitive
to the effects of the subprime crises. The results of the
test showed parameter stability for the whole period.
It seems that the impact of the subprime crises on the
downside systemic tracking error was minimal. The
details of the CUSUM squared analysis are available
in the appendix.
The data for the Post-MIFID period did not
display perfect homoskedasticity. Hence, all
regressions used robust standard errors. Additionally,
the data showed positive autocorrelation. To deal
with it, we first differenced all variables and
performed the Dickey-Fuller test on their respective
first differences. This process revealed that the first
differences were stationary. Hence the data follows
an AR (1) stationary process. This condition is
necessary to apply the Prais Winsten process with
robust standard errors to correct for autocorrelation
and heteroskedasticity.
Finally, we performed the Dickey-Fuller test for
all variables. None of them is stationary except the
tracking error for the Pre-MiFID period. However,
performing the Johansen test of the variables shows
FEMIB 2020 - 2nd International Conference on Finance, Economics, Management and IT Business
60
that the variables are cointegrated. As a result, despite
the non-stationary variables, the results from our
regression model are valid.
5 COMMENT ON THE RESULTS
We created a diversified portfolio of portfolios
randomly selected from the universe of investable
equity portfolios in the European markets and
displaying an average negative tracking error during
our study period.
Our analysis has permitted to highlight a
significant difference between the Pre MiFID and the
Post-MiFID periods. We observe that factors related
to market quality account for 25% in the explanation
of the systemic downside tracking error in the Post-
MiFID period while they explained all the systemic
downside tracking error in the Pre-MiFID period
since market volatility was not a significant variable
in the Pre-MiFID period.
The coefficient of market volatility confirms this
finding; the latter is significant and equal to 0.63 in
the Post-MiFID period, while it is not significant in
the Pre-MiFID period.
These results would point towards a decisive role
of MiFID and a better market quality after its
implementation.
However, these results do not tell us the effect of
MiFID of systemic outperformance. Its impact on the
latter can be different from the effect found on
systemic underperformance. To have a complete
study, we would need to investigate the impact of
MiFID on systemic outperformance through its effect
on market quality. Our future research will extend the
methodology used in this article on a different data
set.
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