Post on 15-Jun-2020
Do Analysts Say Anything About Earnings Without Revising Their Earnings Forecasts?
Philip G. Berger Booth School of Business
University of Chicago pberger@chicagobooth.edu
Charles G. Ham John M. Olin School of Business
Washington University in St. Louis cham@wustl.edu
Zachary R. Kaplan
John M. Olin School of Business Washington University in St. Louis
zrkaplan@wustl.edu
October 2016
* We appreciate helpful comments from, and discussions with, Rich Frankel, Jared Jennings, Kevin Koharki, Xiumin Martin, Volkan Muslu (discussant), Doug Skinner, Sorabh Tomar and workshop participants at Carnegie Mellon, Washington University in St. Louis, the 2016 AAA Annual Meeting, and the 2016 EAA Annual Congress, as well as research assistance from Aadhaar Verma and Yuqing Zhou. Any remaining errors or omissions are ours. Berger acknowledges financial support from the University of Chicago’s Booth School of Business.
Do Analysts Say Anything About Earnings Without Revising Their Earnings Forecasts?
Abstract
We identify a novel bias in analyst forecasts, after-revision bias, which we identify by examining an analyst’s reports after his final earnings forecast of the quarter. We document that (i) qualitative predictions from the text of reports, (ii) share price target revisions, and (iii) revisions to next quarter’s earnings forecast predict error in the current quarter’s earnings forecast (CQE). Consistent with analysts maintaining a beatable benchmark for managers, we find analysts are more likely to disseminate positive (negative) news by revising a forecast other than the CQE (revising the CQE). Consistent with analysts minimizing deviations from the consensus, we demonstrate analysts revise the CQE (revise another forecast) more frequently when a revision to the CQE would move their forecast towards (away from) the consensus. Market returns are slow to impound the information in qualitative predictions and share price target revisions, as both predict earnings announcement window returns. Our results demonstrate that the value of the current quarter’s earnings forecast to managers and investors distorts the flow of information into the forecast.
Keywords: sell-side analysts, analyst incentives, earnings forecasts, forecast bias.
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1. Introduction
We study the means, determinants, and consequences of analysts disseminating earnings
information without revising their current quarter earnings forecasts. Analysts may obtain
information with earnings implications, but omit it from the current quarter forecast, if doing so
enables them to satisfy key stakeholders. For instance, if revisions impose processing costs on
clients and/or expose the analyst to reputation loss in the event of an error, these frictions may
limit the frequency with which analysts revise their forecasts (Bernhardt et al. 2016). Similarly,
incentives to maintain relationships with, and access to, company management (Lin and
McNichols 1998; Lim 2001; Ke and Yu 2006) can affect the decision to issue a forecast,
particularly one the firm may not beat. Analysts may compensate for the costs of
communicating earnings information through the current quarter earnings forecast by instead
disseminating information through other channels, at least partially explaining why analysts issue
a preponderance of forecasts early in the quarter (Ivkovic and Jegadeesh 2004).
We use two approaches to capture the information analysts disseminate after the current
quarter’s final earnings forecast. First, we use the sign of revisions to the share price target
(SPT) and future quarter earnings (FQE) forecasts to capture news disseminated after the final
forecast of the current quarter’s earnings. Second, we use a textual approach to capture
qualitative statements about earnings in analyst reports issued after the current quarter’s final
earnings forecast. Specifically, we define qualitative predictions as positive (negative) if the
analyst uses a synonym for “beat” (“miss”) and a synonym for “earnings expectations” within
the same sentence.1 Collectively, we refer to the qualitative predictions, SPT revisions, and FQE
revisions as “non-earnings forecast signals.”2
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!1 We examine the text of a subset of analyst reports published after the final forecast of the quarter and find numerous examples of analysts publishing explicit predictions that the company will beat or miss the analyst’s own
2
We document that all non-earnings forecast signals strongly predict the analyst’s own
earnings surprise. Specifically, a qualitative prediction of miss (beat) increases the probability of
the firm missing (meeting or beating) the earnings estimate by 5.5% (6.1%). When the analyst
revises a share price target negatively (positively), the probability of the firm missing (meeting
or beating) the earnings estimate increases 1.7% (4.3%). The FQE revisions have a lower,
though still statistically significant, association with the probability of the firm missing or
beating the analyst’s prior forecast.3
The preceding results imply that analysts do not always issue a revised earnings forecast
when they have information with earnings implications (“after-revision bias”). The evidence
from our textual analysis dismisses concerns that the issuance of non-earnings forecast signals is
unintentional, because the analyst would have to not understand the meaning of his own words.
Prior studies, which identify bias at the time of the forecast, have had difficulty distinguishing
between intentional and unintentional bias (Francis 1997), because both intentional (incentive-
based) and unintentional (behavioral-based) theories can predict under-reaction to
contemporaneously released information.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!forecast. Predicting performance relative to a previous forecast rather than revising the forecast implies the analyst does not always issue a revised earnings forecast when he has significant earnings information. For example, one week before the earnings announcement, a Wedbush Securities analyst published a report with the following phrase: “We expect Garmin to report significant upside to our expectations for revenue, margins, and EPS given the tremendous growth in the PND market and strong results from its closest rival, TomTom.” We validate our measure by hand-coding a subset of the sentences identified by our algorithm as containing qualitative predictions to ascertain whether the analyst report includes an explicit qualitative prediction that the firm will beat or miss earnings expectations. We document a significantly positive correlation between our algorithmic coding scheme and the hand-coded sentences, suggesting the text algorithm captures qualitative predictions, albeit with noise. 2 An advantage of the SPT and FQE setting is that revisions to these forecasts perfectly capture the intentions of the analyst, whereas the textual analysis will capture those intentions with error. An advantage of the textual setting is that the textual comments relate explicitly to the current quarter’s earnings forecast, while the SPT and FQE revisions could relate to other information. 3 Our main specification compares the firm’s actual earnings to the analyst’s own forecast. We also document that non-earnings forecast signals are associated with the earnings surprise if we compare the firm’s actual earnings to the consensus forecast.
3
Next, we investigate cross-sectional variation in after-revision bias to shed light on why
analysts issue non-earnings forecast signals.4 First, we examine whether analysts revise SPT and
FQE forecasts for good news more or less frequently than for bad news. Incorporating good
(bad) news into an SPT or FQE forecast, rather than the current quarter earnings (CQE) forecast,
increases the likelihood that actual earnings meet or beat (miss) the earnings forecast. Because
managers prefer to meet or beat forecasts (Richardson et al. 2004), and managers reward analysts
who publish favorable forecasts by granting greater access to management (Lim 2001; Ke and
Yu 2006; Brown et al. 2015), analysts have incentives to omit positive news from (incorporate
negative news into) CQE forecasts. We find analysts revise SPT and FQE (CQE) forecasts more
frequently for good (bad) news than bad (good) news. We also find positive SPT and FQE
revisions provide more information content about the earnings surprise relative to negative SPT
and FQE revisions. Our findings contribute to understanding the mechanism analysts use to
walk-down forecasts – they communicate positive (negative) news to their clients by omitting
positive news from (incorporating negative news into) the earnings forecast.
We also document that analysts with a “buy” recommendation walk-down their forecasts
more aggressively, suggesting a positive disposition toward a company leads the analyst to
incorporate more negative news into the CQE forecast. Consistent with this, we demonstrate that
analysts with a buy recommendation (i) are more likely to issue negative CQE forecast revisions,
and (ii) are more likely to issue positive SPT forecast revisions. Thus, analysts with a buy
recommendation distort the flow of information into the CQE forecasts in a way that increases
the probability of the firm beating these forecasts.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!4 We exclude the qualitative predictions from these analyses because the textual analysis is conducted on a small subset of the analyst reports, which limits the amount of cross-sectional variation we can exploit.
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Second, we examine whether analysts respond to earnings information with a
non-earnings forecast signal more frequently when the information moves the analyst forecast
toward the consensus (herding) or away from the consensus (bold). Investors judge analyst
forecasts relative to those of competing analysts. Prior research documents that analysts who
issue herding forecasts are less likely to be fired, suggesting career consequences from issuing
extreme forecasts (Hong et al. 2000; Clement and Tse 2005). We find that (i) analysts are more
(less) likely to issue a non-earnings forecast signal for bold (herding) forecasts, and (ii) bold
(herding) non-earnings forecast signals provide more information content about the earnings
surprise. Our result that analysts suppress bold forecasts suggests that measures of forecast
dispersion may understate the amount of disagreement, because analysts suppress their private
information when it moves them away from the consensus.
Third, we examine how the magnitude of earnings information after the initial CQE
forecast affects the decision to issue a non-earnings forecast signal. When there is little
information not already in the analyst’s forecast, frictions may limit the analyst’s incentive to
revise the CQE forecast (Bernhardt et al. 2016). Conversely, incentives for accuracy may
encourage the analyst to revise the CQE forecast when it omits substantial information (Clement
and Tse 2005; Groysberg et al. 2011). Consistent with this prediction, we find that the absolute
value of initial forecast error is lower when the analyst revises the SPT or FQE forecast relative
to when the analyst revises the CQE forecast.
Finally, we study the consequences of non-earnings forecast signals by examining the
association between the issuance of non-earnings forecast signals and earnings announcement
returns. If the market does not fully impound the earnings implications of non-earnings forecast
signals at the time of their issuance, these signals may be associated with returns at the earnings
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announcement date. Consistent with this, we document that when the analyst issues a qualitative
prediction of miss (beat), average earnings announcement returns are 0.7% lower (0.5% higher)
than when the analyst does not. The large predictable returns at earnings announcements suggest
that the information in qualitative predictions is not fully impounded into returns prior to the
earnings announcement. We document less (no) return predictability for SPT (FQE) forecast
revisions.
Our results provide several contributions. First, we demonstrate both the importance of
CQE forecasts and the related danger of interpreting them as a proxy for market expectations.
Finding that analysts hesitate to incorporate changes in their own CQE expectations into their
CQE forecasts is consistent with analysts viewing CQE forecasts as prominent benchmarks, and
with modifications to the benchmark imposing costs on managers or the analyst’s clients. Our
finding that analysts do not update their forecasts when they have updated their beliefs has
critical implications for academic researchers using analysts’ CQE forecasts to proxy for investor
expectations when (i) computing earnings response coefficients, (ii) measuring investor
disagreement, and/or (iii) evaluating firm performance. Our results suggest a methodology to
correct analyst forecasts for this omitted information. Finally, researchers hoping to infer the
role of analysts by examining the timing of their forecast revisions may ignore the timing of
qualitative analysis, which has substantial value to investors (Frankel et al. 2006; Chen et al.
2010).
Second, we contribute to the literature on forecast bias by identifying a novel source of
error, for which we have increased power to distinguish between intentional and unintentional
bias. The ability to distinguish between intentional and unintentional bias is challenging at the
time of the forecast because both intentional (incentive-based) and unintentional (behavioral-
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based) theories can predict under-reaction to contemporaneously released information. Biases
identified by the extant literature that condition on the existence of a forecast revision thus
provide no natural counter-factual to identify causation.5 By exploiting cross-sectional variation
in after-revision bias, we show that the issuance of non-earnings forecast signals responds to
analyst incentives, inconsistent with an unintentional explanation for the bias.6 Specifically, in
our textual analysis, when analysts make bullish (bearish) statements about future earnings, the
firm tends to beat (miss) the unrevised forecast. If unintentional, the analyst has to not
understand the meaning of his own words.
2. Literature Review and Hypothesis Development
First, we review the literature on the consequences of meeting or beating analyst
estimates as well as evidence on biases in these estimates. We also provide evidence on the
properties of longer-horizon earnings forecasts and share price target forecasts, as we will
ultimately argue these forecasts incorporate some of the information analysts omit from their
short-horizon forecasts. Second, we review the prior literature on the incentives of analysts, with
a particular focus on their incentives to issue accurate forecasts and beatable forecasts. We
conclude by motivating our research question, which asks whether analysts’ outputs after the
final current quarter earnings forecast predict error in the forecast.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!5 Prior studies document predictable errors in analyst forecasts, including: (i) forecasts under-react to past earnings information (Abarbanell and Bernard 1992), (ii) forecasts under-react to returns (Lys and Sohn 1990), (iii) forecast revisions have a positive correlation with subsequent forecast errors (Shane and Brous 2001), (iv) forecasts under-incorporate information from other analyst forecasts (Stickel 1992), and (v) forecasts under-incorporate information from firm characteristics (Hughes et al. 2008). We elaborate further on the state of the literature as to the cause of the biases in section 2. 6 In our setting, after the initial forecast of the quarter, the analyst has three options: (i) issue a non-earnings forecast signal, (ii) revise the current quarter earnings forecast, or (iii) issue no forecasts. We exploit scenarios (ii) and (iii) as counter-factuals to identify the determinants and consequences of after-revision bias.
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2.1 Meeting or Beating Analyst Forecasts and Predictable Errors in Analyst Forecasts
A lengthy stream of literature evaluates whether firms manage earnings to exceed
analysts’ forecasts of earnings, and the consequences of meeting or beating these expectations.
DeGeorge et al. (1999) provide evidence that a higher fraction of firms just meet or beat analyst
forecasts than just miss the threshold, suggesting managers take actions to reach this benchmark.
Evidence documenting analysts walk-down forecasts during the quarter suggests expectations
management may drive a portion of the propensity for firms to meet or beat analyst forecasts
(Kang et al. 1994; Matsumoto 2002; Cotter et al. 2006). Other studies document firms may use
real earnings management to meet or beat estimates (Roychowdhury 2006; Bhojraj et al. 2009).
Corroborating this empirical evidence, Graham et al. (2005) survey managers and find (i) a
majority of managers would sacrifice value increasing projects to avoid missing expectations,
and (ii) analyst expectations are the most important financial reporting threshold to exceed.
Studies document that firms face negative consequences upon failing to meet or beat
earnings forecasts. Firms that miss estimates have negative share price performance (Skinner
and Sloan 2002; Bartov et al. 2002; Bhojraj et al. 2009), suggesting capital market consequences
upon missing expectations. In addition, managers suffer career penalties for failing to meet or
beat earnings forecasts (Matsunaga and Park 2001; Farrell and Whidbee 2003). While most
studies investigate the importance of meeting the consensus forecast, recent research documents
that the percentage of forecasts met has better predictive power for earnings announcement
returns, suggesting that investors evaluate firm performance relative to multiple benchmarks
(Kirk et al. 2014).
Despite the importance of exceeding earnings expectations to managers, numerous
studies document information available to analysts at the time they issue earnings forecasts
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predicts forecast error. Past earnings surprises (Abarbanell and Bernard 1992) and past returns
(Abarbanell 1991) have a positive correlation with forecast error. Firm characteristics such as
book-to-market ratios, dividend payout ratios (Hughes et al. 2008; So 2013), accruals (Bradshaw
et al. 2001), and book-tax differences (Weber 2009) also predict forecast errors. Individual
forecasts under-weight information from the consensus (Chen and Jiang 2006) and the sign of
the analyst’s revision to the current quarter’s earnings forecast has a positive correlation with the
error in the revised forecast (Shane and Brous 2001; Raedy et al. 2006). Although short-horizon
forecasts contain significant biases, they still provide more accurate forecasts of future earnings
than time-series models (Brown et al. 1987; Bradshaw et al. 2012). In contrast, long-horizon
forecasts provide less accurate forecasts than time-series models (Bradshaw et al. 2012) and
contain significant bias (DeBondt and Thaler 1990).
Prior studies on share price targets have documented: (i) share price target revisions have
large announcement window returns (Brav and Lehavy 2003), (ii) forecasts of share price
appreciation contain some information about future returns, but also contain significant bias
(Bradshaw et al. 2013), and (iii) analysts do not exhibit persistent ability to forecast share price
appreciation (Bradshaw et al. 2013).
2.2 Analyst Incentives and Explanations for Forecast Bias
Explanations for analyst forecast bias fall under two broad categories: (i) intentional bias:
analysts have incentives to issue forecasts that satisfy key stakeholders such as managers or
clients, and (ii) unintentional bias: analysts make errors transforming information into forecasts
of earnings.
Under intentional explanations for forecast bias, analysts face a trade-off between their
incentives to issue accurate forecasts and the benefit to biasing forecasts to please key
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stakeholders (Lim 2001). Research demonstrates forecast accuracy is not valued as highly as
some other analyst forecast attributes. Groysberg et al. (2011) find no evidence analyst
compensation relates to forecast accuracy after conditioning on institutional investor votes.
Bagnoli et al. (2008) investigate the attributes investors value most highly using survey evidence
and find that investors rank “written reports” and “industry insight” highest, above the
importance of earnings forecasts. Groysberg et al. (2011) also find analyst compensation
increases with the analyst’s rating on investor surveys, suggesting analysts have incentives to
provide information institutional investors demand. Survey evidence confirms analysts believe
their primary objective is to provide information their clients perceive to be valuable (Brown et
al. 2015).
Research demonstrates a number of channels through which analysts can increase the
value of their information by potentially biasing forecasts. First, analysts value access to
management (Soltes 2014; Brown et al. 2015), suggesting analysts might be willing to bias
forecasts to procure access (Lim 2001; Ke and Yu 2006). Confirming the credibility of
managerial threats to withhold access, Soltes (2014) documents that managers refuse to interact
with analysts who issue negative recommendations. Brown et al. (2015) also provide survey
evidence suggesting analysts bias their earnings forecasts to obtain access to management.
Second, if forecast accuracy is evaluated relative to the accuracy of other analysts, this
creates incentives for analysts to omit information from forecasts in certain circumstances. Hong
et al. (2000) demonstrate that inexperienced analysts are more likely to be fired for inaccurate
forecasts and bold forecasts, whereas being bold and accurate does not improve the analysts’
career outcomes. They argue this creates incentives for analysts to forecast strategically.
Clement and Tse (2005) further demonstrate that herding forecasts, or forecasts that move the
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forecast toward the consensus, contain less new information than bold forecasts, which they
interpret as further evidence of strategic forecasting.
Third, the analyst could bear some cost when revising the forecast (i.e., frictions).
Empirical evidence that analysts revise their forecast infrequently, a median of once per quarter,
is consistent with frictions impeding the flow of information into forecasts. Frictions can impact
forecast frequency through several channels, including: (i) the analyst incurs costs from adjusting
the model and/or explaining the changes in the model to clients.7 Evidence that analysts make
mistakes preparing their models suggests the risk of error is non-negligible (Green et al. 2016).
(ii) The analyst endogenizes the processing cost his revisions impose on clients and only issues
revisions from which a client would obtain a benefit that exceeds the client’s processing cost.8
For the frictions explanation to be plausible in our setting, in at least some instances frictions
must prevent a revision to the CQE forecast while not preventing either the publication of a
report or the revision of another forecast.
Fourth, when analysts publish forecasts, they are broadly disseminated through I/B/E/S,
Bloomberg, and other financial networks. Thus, updating information in earnings forecasts
potentially allows non-clients to capture some of the informational rents created by an analyst’s
research. Inserting information into the text of the report could limit the number of non-clients
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!7 Costs also arise because analysts receive questions about the materials they disseminate. By issuing a report the analyst alerts clients to his report, and these clients might follow up with questions or demands for additional analysis. 8 When an analyst revises a forecast the reports and/or notes are circulated to clients. If the information content of the reports is low, the client may feel the cost incurred from processing the information was not worth the benefit from obtaining the information in the report. The client may then penalize the analyst on his survey evaluations for wasting his time. Investors can condition their decision to process an analyst report on (i) the brokerage of the analyst, (ii) the company covered, and/or (iii) the timing of the report. Investors will often find it difficult to decide whether to process information based on the content of the information, because obtaining the content involves incurring costs processing the information (Sims 2003).
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consuming the information.9 This should increase the benefit clients obtain from an analyst’s
research by limiting the number of informed investors (Grossman and Stiglitz 1980).
2.3 Research Question
Ultimately, analysts must provide valuable information to their clients. Empirical
evidence documents that the final revision to the current quarter earnings forecast often occurs
near the prior quarter earnings announcement date (Ivokovic and Jegadeesh 2004). If the analyst
disseminates earnings information only through revisions to the current quarter earnings forecast,
this implies that in many firm-quarters the analyst goes three months without providing earnings
information to clients. Not disseminating information over such a long time frame likely
decreases the value of his research to clients (Groysberg et al. 2011). Alternatively, the analyst
may disseminate earnings information via other channels. In other words, the analyst may
respond to the incentives to omit information from the CQE forecast, yet incorporate the
information into other forecasts. Thus, we study whether the aforementioned non-earnings
forecast signals have information content about earnings.
RQ: Do analysts’ non-earnings forecast signals after the final current quarter earnings forecast
provide information content about the earnings surprise? If so, why do analysts issue non-
earnings forecast signals after the final current quarter earnings forecast?
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!9 Prior research investigates “tipping” by studying whether institutional investors trade on analyst recommendations before they have been publicly disseminated (Irvine et al. 2007). Although providing information to clients before publishing it offers the clients a significant information advantage, it exposes the analyst to potential discipline from his brokerage, many of which proscribe the behavior. This form of selective disclosure is also against FinRa regulations.
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3. Sample Selection and Descriptive Statistics
3.1 Revision Sample Selection
The sample begins with all analyst-firm-quarters on the I/B/E/S unadjusted detail file
over the period 1999Q1 to 2015Q2. The start date is the first year share price targets are
available on I/B/E/S and the end date is the last quarter with data availability. We keep analyst-
firm-quarters for which (i) the analyst issued a quarterly earnings forecast in the current and prior
quarters, (ii) the firm’s actual earnings figure and earnings announcement date are available for
the current and prior quarters, (iii) the firm’s share price, outstanding shares, and the cumulative
factor to adjust price are available on CRSP for the prior quarter’s earnings announcement, and
(iv) the cumulative factor to adjust price is available on CRSP for the current quarter. This
includes 2,293,778 analyst-firm-quarters.
We drop analyst-firm-quarters (i) without a current quarter earnings forecast after the
prior quarter earnings announcement date and before the current quarter earnings announcement
date (917,272), (ii) without a share price target issued either with the final current quarter
earnings forecast or in the 365 days before the final current quarter earnings forecast date
(359,227), (iii) without a next quarter earnings forecast either with the final current quarter
earnings forecast or in the 365 days before the final current quarter earnings forecast date
(149,856), (iv) with a stock split or a stock dividend after the prior quarter earnings
announcement date and before the current quarter earnings announcement date (13,648), and (v)
without CRSP or Compustat data to calculate control variables (134,402). The final revision
sample includes the remaining 719,373 analyst-firm-quarters corresponding to 8,504 unique
analysts and 7,509 unique firms. These sample selection procedures are detailed in Appendix A.
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3.2 Revision Sample Descriptive Statistics
Panel A of Table 1 reports descriptive statistics for the 719,373 analyst-firm-quarters in
the revision sample. The analyst revises a share price target after the final current quarter
earnings forecast in 13.1% of the analyst-firm-quarters, including 8.3% upward revisions and
4.8% downward revisions (thus 63.5% of the share price target revisions are revised upwards).
The analyst revises the next quarter earnings forecast after the final current quarter earnings
forecast in 11.7% of the analyst-firm-quarters, including 6.0% upward revisions and 5.6%
downward revisions (thus 51.8% of the next quarter earnings forecast revisions are revised
upwards). The analyst revises either a share price target or next quarter’s earnings forecast in
19.5% of analyst-firm-quarters. The high proportion of positive SPT and FQE revisions relative
to negative SPT and FQE revisions suggests analysts more frequently disseminate positive news
via non-earnings forecast signals after the final current quarter earnings forecast.
We also report descriptive statistics for a number of control variables. RET_QTR, the
firm’s return over the ninety days before the analyst’s final current quarter earnings forecast, has
a negative median, suggesting quarterly earnings forecasts tend to be issued when prior
economic news is negative. REV_CQE is an indicator variable set equal to one if the analyst
revises the current quarter earnings forecast after the first current quarter earnings forecast
following the prior quarter earnings announcement date, and to zero otherwise. NEG_CQE
(POS_CQE) is an indicator variable set equal to one if REV_CQE equals one and the revision is
negative (positive), and to zero otherwise. These variables help us evaluate the determinants of
an analyst’s decision to (i) revise the current quarter earnings forecast, (ii) revise the share price
target or next quarter earnings forecast, or (iii) revise no forecasts. The analyst revises the
current quarter earnings forecast in 32% of the analyst-firm-quarters in our sample and 59.6% of
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these revisions are negative (12.9% upward revisions and 19.1% downward revisions). The
predominance of negative CQE revisions contrasts with the results for SPT and FQE revisions,
which are predominantly positive. Finally, the firm meets or beats the analyst’s forecast of
earnings (MEET_BEAT) in 70.6% of analyst-firm-quarters.
3.3 Text Sample Selection
The following sample selection procedures are detailed in Appendix A. The qualitative
prediction variables (MISS_TEXT, BEAT_TEXT) require the text of analyst reports. We collect
analyst reports from ThomsonOne Banker for 175 randomly selected analysts in the revision
sample detailed above.10 The 175 randomly selected analysts correspond to 65,539 analyst-firm-
quarters from the revision sample. We search for the analyst name from the I/B/E/S
recommendation file in ThomsonOne Banker and if we cannot identify the analyst by name in
ThomsonOne Banker, we discard the analyst. We are unable to identify 33 of the 175 analysts in
ThomsonOne Banker. The text sample is thus comprised of the 53,765 analyst-firm-quarters for
the remaining 142 analysts we can identify in ThomsonOne Banker.
We collect 44,237 analyst reports corresponding to the 142 analysts and 958 unique
firms. We match each analyst report to an analyst-firm-quarter based on its issue date
(classifying a report as belonging to an analyst-firm-quarter if the report is issued after the prior
quarter earnings announcement date and before the current quarter earnings announcement date).
We also drop analyst reports (i) issued before the analyst’s final current quarter earnings
forecast, and (ii) issued more than 30 days before the current quarter earnings announcement
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!10 We collect the analyst reports over three iterations. In the first iteration, we collect all analyst reports for 15 analysts randomly selected from the revision sample for the year 2010. In the second (third) iteration, we randomly select 60 (100) analysts with at least twenty firm-quarters of observations for a minimum of three firms in the revision sample.
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date. The final text sample includes the remaining 7,593 analyst reports corresponding to 130
unique analysts and 509 unique firms.
3.4 Text Sample Descriptive Statistics
Panel B of Table 1 reports descriptive statistics for the text sample of 53,765 analyst-
firm-quarters. In this sample of firms, the firm meets or beats the analyst’s forecast in 70.6% of
the observations, identical to that in the revision sample. The mean value of analysts’ positive
qualitative predictions (BEAT_TEXT) is 0.106 and the mean value of analysts’ negative
qualitative predictions (MISS_TEXT) is 0.084, suggesting analysts make positive qualitative
predictions more frequently than negative qualitative predictions.11 The revisions to the share
price target, next quarter earnings, and current quarter earnings forecasts are comparable to those
in the revision sample, but the analysts in the text sample are slightly more active.
4. Research Design and Empirical Results
4.1 The Earnings Surprise and Non-Earnings Forecast Signals
4.1.1 The Analyst’s Own Earnings Surprise
We first seek to understand whether research an analyst publishes after the final current
quarter earnings forecast predicts the analyst’s own forecast error. We address this question by
regressing the analyst’s own earnings surprise on information from research the analyst publishes
after his final current quarter earnings forecast, but before the current quarter earnings
announcement date. We estimate the following model.
EarningsSurprise = β0 + β1(NonEarningsForecastSignals) + Σβi(Controls) + ε (1)
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!11 To validate our qualitative prediction variables, a research assistant read a subsample of 1,905 sentences in which the textual algorithm classified the analyst as having issued a qualitative prediction. The research assistant assessed whether the analyst clearly indicated an expectation that the firm would beat or miss expectations. We find a 0.46 (0.48) correlation between the research assistant’s coding of the sentences and the textual algorithm for those sentences classified as beat (miss), suggesting we capture the intentions of the analyst, albeit with noise.
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We use two measures of EarningsSurprise: (i) an indicator variable set equal to one
(zero) if the firm meets or beats (misses) the analyst’s own forecast (MEET_BEAT), and (ii) the
analyst’s earnings surprise, equal to the firm’s actual reported earnings per share less the
analyst’s final quarterly earnings per share forecast, scaled by price (CURR_SURP).
We use three measures of NonEarningsForecastSignals. First, we capture the analyst’s
revisions to the share price target. We set NEG_SPT (POS_SPT) equal to one if the analyst
issues a negative (positive) revision to the share price target after the final current quarter
earnings forecast date and before the current quarter earnings announcement date, and to zero
otherwise. Second, we capture the analyst’s revisions to the next quarter earnings forecast. We
set NEG_FQE (POS_FQE) equal to one if the analyst issues a negative (positive) revision to the
next quarter earnings forecast after the final current quarter earnings forecast date and before the
current quarter earnings announcement date, and to zero otherwise.
Third, we capture the analyst’s qualitative non-earnings forecast signals by analyzing the
text of analyst reports issued after the final current quarter earnings forecast date and before the
current quarter earnings announcement date. MISS_TEXT (BEAT_TEXT) is a count variable
equal to the number of times the analyst uses a synonym for “miss” (“beat”) and a synonym for
“earnings expectations” within the same sentence.12 The synonyms for miss include miss, fall
short, below, lower, worse, downside, and underperform. The synonyms for beat include beat,
exceed, outperform, better, higher, above, top, and upside. The synonyms for earnings
expectations include earnings, EPS, estimates, and expectations.
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!12 Our inferences remain unchanged if MISS_TEXT (BEAT_TEXT) is a count variable that equals the number of times the analyst uses a synonym for “miss” (“beat”) and a synonym for “earnings expectations” within five words of each other. Our inferences also remain unchanged if MISS_TEXT (BEAT_TEXT) is an indicator variable equal to one if the analyst uses a synonym for “miss” (“beat”) and a synonym for “earnings expectations” within the same sentence or within five words of each other.
17
We also include a series of control variables. PREV_SURP is the prior quarter earnings
surprise, equal to the firm’s actual prior quarter earnings per share less the analyst’s final prior
quarter earnings per share forecast, scaled by price. RET_QTR is the firm’s return for the period
beginning ninety days before the final current quarter earnings forecast date and ending at the
final current quarter earnings forecast date. MVE is the natural log of the market value of equity.
BTM is the book value of equity scaled by the market value of equity. ROA is the firm’s return
on assets, calculated as earnings before interest and taxes scaled by total assets. MVE, BTM, and
ROA are calculated as of the most recent fiscal year-end before the prior quarter earnings
announcement. FOLLOW is the natural log of analyst following. #DAYS is the natural log of the
number of days between the analyst’s final current quarter earnings forecast and the current
quarter earnings announcement date. #FORE is the natural log of the number of current quarter
earnings forecasts the analyst issued in the previous quarter. All variable definitions are detailed
in Appendix B.
Panel A of Table 2 reports the results for the revision sample from estimating equation
(1), which regresses the analyst’s own earnings surprise on the analyst’s non-earnings forecast
signals. The dependent variable is MEET_BEAT in columns (1)-(3) and CURR_SURP in
columns (4)-(6). In column (1), we estimate equation (1) without any control variables. We find
positive coefficients on POS_SPT (β=0.043) and POS_FQE (β=0.018), both significant at the
1% level. We also find a significantly negative coefficient on NEG_SPT (β=-0.017) and an
insignificant coefficient on NEG_FQE. The results indicate SPT and FQE forecasts convey
economically significant information about the probability of a firm meeting or beating the
analyst’s own earnings forecast. For example, an analyst-firm-quarter with a positive share price
18
target revision will meet or beat the analyst’s earnings forecast 6% more frequently than an
analyst-firm-quarter with a negative share price target revision.
In column (2), we include control variables for factors previously shown to affect the
probability of a firm meeting or beating earnings expectations such as firm characteristics, prior
returns, and the prior quarter earnings surprise. We find that three (four) of the four
non-earnings forecast signals are statistically significant at the 5% (10%) level, but we observe
substantial attenuation in the coefficient estimates. For instance, the coefficient estimate on
POS_SPT decreases from β=0.043 to β=0.026 after including the control variables. It is unclear
whether the coefficient estimates with or without control variables included in the model better
capture the information analysts convey to clients with non-earnings forecast signals because
investors may not incorporate predictable errors into analyst forecasts. In column (3), we also
include analyst and quarter fixed effects and obtain similar inferences to those in column (2).
In columns (4)-(6), we estimate analogous models to those in columns (1)-(3), but the
dependent variable is CURR_SURP, the analyst’s signed earnings surprise. In all three
specifications, the coefficients on POS_SPT, NEG_SPT, and POS_FQE remain statistically
significant at the 5% level, whereas the coefficient on NEG_FQE is insignificant in two
specifications and significantly negative in one specification. Thus, the evidence remains
consistent with the analyst’s non-earnings forecast signals providing information content for the
analyst’s own earnings surprise.
Panel A of Table 3 reports the results for the textual sample from estimating equation (1),
which regresses the analyst’s own earnings surprise on the analyst’s qualitative predictions. We
estimate analogous models to those presented in Panel A of Table 2, except the non-earnings
forecast signals are the qualitative predictions, BEAT_TEXT and MISS_TEXT. Thus, in column
19
(1), we regress MEET_BEAT on BEAT_TEXT and MISS_TEXT without control variables. The
coefficient on MISS_TEXT is significantly negative (β=-0.048) and the coefficient on
BEAT_TEXT is significantly positive (β=0.050). The results indicate qualitative predictions also
convey economically significant information about the probability of a firm meeting or beating
the analyst’s earnings forecast. For example, an analyst-firm-quarter with a positive qualitative
prediction will meet or beat the analyst’s earnings forecast 9.8% more frequently than an analyst-
firm-quarter with a negative qualitative prediction.
In column (2), we include the same series of control variables as in Panel A of Table 2.
We find similar coefficient estimates on MISS_TEXT and BEAT_TEXT after including these
control variables and both coefficient estimates remain statistically significant at the 1% level.
In column (3), we also include analyst and quarter fixed effects and find similar coefficient
estimates and inferences. In columns (4)-(6), we estimate analogous models to those in columns
(1)-(3), but the dependent variable is CURR_SURP, the analyst’s signed earnings surprise. The
coefficient on MISS_TEXT (BEAT_TEXT) remains negative (positive) and significant at the 1%
level in all three specifications.
4.1.2 The Consensus Earnings Surprise
In our main analysis, we examine firm performance relative to the analyst’s own forecast,
because an investor evaluating an analyst’s research product will judge the analyst on the
information in the forecasts he publishes. In this section, we examine performance relative to the
consensus forecast to examine whether non-earnings forecast signals provide incremental
information relative to the market’s expectation of earnings. To evaluate the information in
non-earnings forecast signals, we replace the analyst’s own earnings surprise in model (1) with
20
the consensus earnings surprise calculated using earnings forecasts issued after the previous
quarter’s earnings announcement. We estimate the following model:
ConsensusEarningsSurprise = β0 + β1(NonEarningsForecastSignals) + Σβi(Controls) + ε (2)
We use two measures of ConsensusEarningsSurprise: (i) an indicator variable set equal
to one (zero) if the firm meets or beats (misses) the consensus earnings forecast on the day of the
analyst’s final current quarter earnings forecast (MEET_BEAT_CON), and (ii) the consensus
earnings surprise, equal to the firm’s actual earnings per share less the consensus earnings per
share forecast on the day of the analyst’s final current quarter earnings forecast, scaled by price
(CURR_SURP_CON).
In Panel B of Table 2, we estimate analogous models to those in Panel A of Table 2, but
the dependent variable is the consensus earnings surprise rather than the analyst’s own earnings
surprise. In column (1), we regress MEET_BEAT_CON on the analyst’s non-earnings forecast
signals without control variables. We find positive coefficients on POS_SPT (β=0.084) and
POS_FQE (β=0.034), and negative coefficients on NEG_SPT (β=-0.045) and NEG_FQE
(β=-0.018), all significant at the 1% level. Moreover, the coefficients are all economically larger
than the corresponding coefficients in Panel A of Table 2. In column (2), we include control
variables and in column (3) we also include analyst and quarter fixed effects. We find similar
results, all eight coefficients are statistically significant with the sign predicted by after-revision
bias and seven of the eight coefficients have a larger magnitude coefficient than the
corresponding coefficient in Panel A of Table 2. In columns (4)-(6), we continue to find all
coefficients are significant and ten of the twelve coefficient estimates are larger than the
corresponding coefficient in Panel A of Table 2.
21
In Panel B of Table 3, we estimate analogous models to those in Panel A of Table 3, but
the dependent variable is the consensus earnings surprise rather than the analyst’s own earnings
surprise. Across all six columns, we find that both BEAT_TEXT and MISS_TEXT have
coefficients statistically significant at the 1% level with coefficient magnitudes larger than
corresponding estimates using the analyst’s own earnings surprise as the dependent variable.
Collectively, the evidence indicates that analysts’ non-earnings forecast signals also provide
information content about the consensus earnings surprise.
4.2 When Do Analysts Issue Non-Earnings Forecast Signals?
Next, we exploit cross-sectional variation in the frequency of non-earnings forecast
signals to provide evidence on the incentives that generate after-revision bias. Specifically, we
test three hypotheses: (i) analysts issue non-earnings forecast signals more for positive news to
avoid increasing earnings expectations (“catering to management”), (ii) analysts issue
non-earnings forecasts more frequently for news that would have moved the analyst’s forecast
away from the consensus (“strategic herding”), and (iii) analysts issue non-earnings forecast
signals more frequently for smaller magnitude information (“frictions”).
4.2.1 Do Analysts Issue Non-Earnings Forecast Signals More Frequently for Good News?
Incorporating good news into an SPT or FQE forecast, and bad news into a CQE forecast,
increases the likelihood that management meets or beats the earnings forecast. Given analysts’
incentives to both publish forecasts that managers will meet or beat (Ke and Yu 2006; Brown et
al. 2015) and communicate information to clients (Groysberg et al. 2011; Brown et al. 2015),
mapping good and bad news into different forecasts may help analysts satisfy multiple
stakeholders.
22
We report forecast frequencies for positive and negative forecast revisions in Panel A of
Table 4. Row (1) indicates that analysts issue a positive non-earnings forecast signal (i.e., SPT
or FQE forecast revision) in 12.2% of analyst-firm-quarters, whereas they issue a negative non-
earnings forecast signal in 8.9% of analyst-firm-quarters. The 3.3% difference is statistically
significant, indicating that analysts are more likely to issue positive than negative non-earnings
forecast signals. Rows (2) and (3) indicate this relation holds separately for SPT and FQE
forecast revisions. Row (4) documents that analysts issue a positive CQE forecast revision in
12.9% of analyst-firm-quarters, whereas they issue negative CQE forecast revisions in 19.1% of
analyst-firm-quarters. The 6.2% difference is also statistically significant and indicates that
analysts are more likely to revise CQE forecasts downwards. In rows (5)-(8), we exclude
analyst-firm-quarters in which the analyst revises the current quarter earnings forecast
(REV_CQE=1). The frequency of both positive and negative non-earnings forecast signals
increases relative to rows (1)-(3), but the ratio of positive to negative revisions also increases,
thus corroborating the above results.
The evidence is consistent with analysts responding to incentives to issue forecasts that
managers will meet or beat. Conditional on positive news, analysts are less likely to revise the
CQE forecast so earnings will be compared to a static benchmark. Conditional on negative
news, managers will be compared to a benchmark that varies with performance. The systematic
correlation between the sign of the news and the forecasts analysts choose to revise suggests one
mechanism analysts use to walk-down forecasts is omitting positive news from the CQE
forecast, while responding to positive news by revising another forecast.
23
4.2.2 Do Analysts Issue Non-Earnings Forecast Signals More Frequently for Bold News?
Second, we examine whether analysts issue SPT and FQE forecast revisions more
frequently when a corresponding revision to the CQE forecast would move the analyst’s CQE
forecast towards the consensus (herding) or away from the consensus (bold). Prior research
suggests investors judge analyst forecasts relative to those of competing analysts, and analysts
face career penalties for issuing more inaccurate forecasts than their peers (Hong et al. 2000;
Groysberg et al. 2011). We argue these incentives may lead analysts to avoid issuing extreme
forecasts relative to those of their peers.13
The results are reported in Panel B of Table 4. Row (1) indicates that analysts issue a
negative non-earnings forecast signal (i.e., SPT or FQE forecast revision) in 9.4% (8.3%) of
analyst-firm-quarters when the analyst’s final CQE forecast is below (above) the consensus
forecast. Row (2) indicates that analysts issue a positive non-earnings forecast signal in 11.1%
(13.2%) of analyst-firm-quarters when the analyst’s final CQE forecast is below (above) the
consensus forecast. Thus, analysts are more likely to issue non-earnings forecast signals if a
corresponding revision to the CQE forecast would move the analyst’s forecast away from the
consensus. This finding is opposite to that predicted by the theory that analysts’ non-earnings
forecast signals are a function of their forecast error. The consensus forecast contains substantial
information about future earnings, omitted from the analyst’s own forecast. If non-earnings
forecast revision frequency increased in the prevalence of news omitted from the analyst’s
earnings forecasts, we would predict results opposite to those we find (i.e., more herding than
bold non-earnings forecast signals). Rows (3)-(6) indicate that the same relations hold for the
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!13 In a private conversation, an analyst at a prestigious bulge bracket firm commented that issuing a forecast which departs substantially from consensus draws attention. The analyst commented that without (with) a convincing reason for the deviation, the attention can damage (enhance) the analyst’s reputation.
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SPT and FQE forecast revisions separately – for both positive and negative news, non-earnings
forecast signal frequency is higher for bold forecasts than herding forecasts.
In rows (7)-(8), we present similar statistics for CQE forecasts. Row (7) documents that
analysts issue a negative CQE forecast revision in 14.7% (23.1%) of analyst-firm-quarters when
the analyst’s initial CQE forecast is below (above) the consensus forecast. Row (8) indicates
that analysts issue a positive CQE revision in 17.4% (9.4%) of analyst-firm-quarters when the
analyst’s initial CQE forecast is below (above) the consensus forecast. Thus, analysts tend to
revise the CQE forecast towards the consensus, whereas analysts are more likely to issue
non-earnings forecast signals in lieu of CQE forecast revisions that would move the analyst away
from the consensus.
4.2.3 Do Analysts Issue Non-Earnings Forecast Signals More Frequently for More
Substantial News?
Third, we examine whether the amount of earnings news during the quarter affects the
analyst’s decision to issue a non-earnings forecast signal relative to a current quarter earnings
forecast revision. If frictions limit revisions to the CQE forecast, we expect less (greater)
earnings news subsequent to the initial CQE forecast increases the likelihood the analyst issues a
non-earnings forecast signal (revises the CQE forecast) instead of revising the CQE forecast
(issuing a non-earnings forecast signal). Frictions can arise because (i) revising a forecast
imposes costs on the analyst, (ii) revising a forecast imposes costs on the analyst’s clients, which
the analyst endogenizes and thus only revises the forecast when the information is sufficiently
large, and/or (iii) the analyst ultimately judges the firm’s performance relative to his earnings
forecast, and the analyst would prefer to judge the firm relative to a static benchmark rather than
one that varies with performance. We interpret evidence of analysts revising the CQE forecast
25
(SPT of FQE forecast) when there is significant (little) earnings news during the quarter as
consistent with frictions impeding the flow of information into the CQE forecast.
The results examining how forecast frequency varies with the magnitude of the news are
reported in Panel C of Table 4. Row (1) documents that analysts revise an SPT or FQE forecast
in 21.2% (17.8%) of analyst-firm-quarters when the absolute value of the analyst’s initial
earnings surprise is below (above) the sample median. Rows (2) and (3) document similar
findings for SPT and FQE forecast revisions separately. Contrary to this, row (4) indicates that
analysts revise the CQE forecast in 25.4% (38.6%) of analyst-firm-quarters when the analyst’s
absolute earnings surprise is below (above) the median. Thus, consistent with frictions impeding
(not impeding) CQE forecasts when a small (large) amount of earnings news occurs after the
analyst’s initial CQE forecast, the analyst is motivated to revise the SPT or FQE (CQE) forecast.
4.2.4 Determinants of Non-Earnings Forecast Signals: Regression Results
Next, we examine whether our univariate results continue to hold when including other
determinants of non-earnings forecast signals as well as a series of control variables. We
estimate the following model:
NonEarningsForecastSignals = β0 + Σβi(Determinants) + Σβj(Controls) + ε (3)
We use four different independent variables. First, we use an indicator variable set equal
to one (zero) if the analyst revises (does not revise) either the SPT forecast or the FQE forecast
after the final CQE forecast (REV_TOT). Second, the indicator variable captures revisions to the
CQE forecast (REV_CQE). Third, we set an indicator variable equal to one if the analyst issues
a positive revision to either an SPT or FQE forecast (POS_TOT). Fourth, we set an indicator
variable equal to one if the analyst issues a negative revision to either an SPT or FQE forecast
(NEG_TOT).
26
We use different specifications and variables to test each of our three hypotheses. We
test whether analysts revise non-earnings forecast signals (CQE forecasts) more for good (bad)
news by including as a regressor returns in the ninety days before the final CQE forecast of the
quarter. Because analysts do not incorporate all of the news from returns into forecasts
(Abarbanell and Bernard 1992), these returns predict error in forecasts. We expect that analysts
will be more likely to respond to the error by issuing a non-earnings forecast signal when it is
positive, leading to the prediction of a positive coefficient on QTR_RET in column (1), when
REV_TOT is the dependent variable. We expect analysts will be more likely to issue a CQE
revision when the news is negative, leading to a prediction of a negative coefficient on
QTR_RET in column (2), when REV_CQE is the dependent variable.
We test whether analysts issue more non-earnings forecast (CQE) revisions for bold
(herding) revisions, those that would move the CQE forecast away from (towards) the consensus,
by regressing the signed indicators (POS_TOT, NEG_TOT) on an indicator for whether the
analyst forecast is above the consensus (ABOVE_CON). If analysts forecast strategically to
avoid bold CQE revisions, we expect being above the consensus will make the analyst less
(more) likely to issue a negative (positive) non-earnings forecast signal. Thus, we predict a
negative (positive) coefficient on ABOVE_CON in column (3) (column (4)).
We test whether analysts are more likely to issue CQE forecast revisions in response to
more significant news by including the absolute value of the initial earnings surprise
(ABS[CURR_SURP_IN]). The frictions hypothesis predicts ABS(CURR_SURP_IN) will be
positively associated with REV_CQE in column (2) and negatively or insignificantly associated
with REV_TOT in column (1).
27
In addition to the control variables included in Table 2, we also include a series of
variables to capture analyst characteristics. ABS(PREV_SURP) is the absolute value of the
analyst’s prior quarter earnings surprise. EXPERIENCE is the natural log of the number of years
since the analyst’s first earnings forecast in I/B/E/S.14 BROKER_SIZE is the natural log of the
number of analysts at the corresponding analyst’s firm. ALLSTAR is an indicator variable set
equal to one if the analyst finished first, second, third, or honorable mention in the Institutional
Investor all-star rankings during the calendar year of the quarterly forecast, and to zero
otherwise.15
The results from estimating equation (3) are reported in Table 5. Consistent with analysts
using non-earnings forecasts to issue positive news, we find a highly statistically significant
positive coefficient on QTR_RET in column (1), when the dependent variable is REV_TOT.
Conversely, analysts issue more CQE forecasts in response to negative news as evidenced by the
significantly negative coefficient on QTR_RET in column (2). This suggests that at least a
portion of the walk-down arises because analysts are less likely to revise the CQE forecast in
response to positive news.
Consistent with analysts using non-earnings forecast signals to avoid bold forecasts, the
coefficient on ABOVE_CON is negative and statistically significant in column (3), when the
dependent variable is NEG_TOT, and is positive and statistically significant in column (4), when
the dependent variable is POS_TOT.
Also consistent with the frictions explanation, the coefficient on ABS(CURR_SURP_IN)
is positive and statistically significant in column (2), when the dependent variable is REV_CQE,
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!14 Our inferences remain unchanged if we define EXPERIENCE as the analyst’s firm-specific experience as opposed to the analyst’s total experience. 15 To avoid a substantial reduction in sample size due to missing observations, we apply zero-order regression by setting ALLSTAR equal to zero if missing, and including an indicator variable set equal to one for these observations, ALLSTAR_DUM.
28
and it is negative and marginally significant in column (1), when the dependent variable is
REV_TOT. Thus, analysts issue CQE revisions (non-earnings forecast signals) more frequently
when the absolute value of the initial forecast error is higher (lower).
We also note that a number of analyst forecast characteristics have significant
associations with REV_TOT. The coefficients on ABS(PREV_SURP) and EXPERIENCE are
significantly negative and the coefficients on BROKER_SIZE and ALLSTAR are significantly
positive. Thus, non-earnings forecast signals tend to be issued by analysts who are more
accurate, less experienced, at larger brokerages, and all-star analysts. If issuing a non-earnings
forecast signal reduces accuracy by omitting information from the forecast, these relations
suggest correlations between forecast accuracy and analyst characteristics may be affected by
strategy in addition to skill (Clement and Tse 2003).
4.3 When Do Earnings Forecast Signals Convey More Information Content?
In the prior section, we test for cross-sectional variation in non-earnings forecast signal
frequency to study when after-revision bias is most pronounced. However, if more frequent
revisions also have less information content, the increased frequency would not necessarily
imply greater after-revision bias. To test for incremental information content, we estimate
modified versions of equation (1):
EarningsSurprise = β0 + β1(NEG_TOT) + β2(POS_TOT) + Σβi(Controls) + ε (4a)
EarningsSurprise = β0 + β1(NEG_TOT_ABOVE) + β2(NEG_TOT_BELOW) +
β3(POS_TOT_ABOVE) + β4(POS_TOT_BELOW) + Σβi(Controls) + ε (4b)
In equation (4a), the independent variables include NEG_TOT and POS_TOT, which
capture negative and positive non-earnings forecast signals, respectively. We then test whether
the absolute value of the coefficient on POS_TOT is significantly greater than the absolute value
29
of the coefficient on NEG_TOT. In equation (4b), the independent variables also capture
whether the analyst’s final CQE forecast was above or below the consensus earnings forecast.
NEG_TOT_ABOVE (NEG_TOT_BELOW) is an indicator variable set equal to one if the analyst
issues a negative SPT or FQE revision and the analyst’s final CQE forecast was above (below)
the consensus earnings forecast. POS_TOT_ABOVE (POS_TOT_BELOW) is an indicator
variable set equal to one if the analyst issues a positive SPT or FQE revision and the analyst’s
final CQE forecast was above (below) the consensus earnings forecast. We then test whether the
absolute value of the coefficient on NEG_TOT_BELOW is significantly greater than the absolute
value of the coefficient on NEG_TOT_ABOVE, as well as whether the absolute value of the
coefficient on POS_TOT_ABOVE is significantly greater than the absolute value of the
coefficient on POS_TOT_BELOW. As in equation (1), the dependent variable is either
MEET_BEAT or CURR_SURP in equations (4a) and (4b).
Panel A of Table 6 reports the results from estimating equation (4a). In column (1), the
dependent variable is MEET_BEAT. As expected, the coefficient on NEG_TOT is significantly
negative (β=-0.009) and the coefficient on POS_TOT is significantly positive (β=0.040). More
importantly, the absolute value of the coefficient on POS_TOT is significantly greater than the
absolute value of the coefficient on NEG_TOT. This indicates that positive non-earnings
forecast signals provide more information content about the analyst’s earnings surprise relative
to negative non-earnings forecast signals. We include control variables in column (2), as well as
analyst and quarter fixed effects in column (3). The absolute value of the coefficient on
POS_TOT remains significantly greater than the absolute value of the coefficient on NEG_TOT
in both specifications. In columns (4)-(6), the dependent variable is CURR_SURP. The absolute
value of the coefficient on POS_TOT is greater than the absolute value of the coefficient on
30
NEG_TOT in all three columns, but significantly so only in column (4). Overall, the evidence is
consistent with positive non-earnings forecast signals providing more information content about
the analyst’s earnings surprise relative to negative non-earnings forecast signals.
Panel B of Table 6 reports the results from estimating equation (4b). In column (1), the
dependent variable is MEET_BEAT. The absolute value of the coefficient on
NEG_TOT_BELOW (β=-0.016) is greater than the absolute value of the coefficient on
NEG_TOT_ABOVE (β=-0.012), but the difference is not statistically significant. The absolute
value of the coefficient on POS_TOT_ABOVE (β=0.048) is greater than the absolute value of the
coefficient on POS_TOT_BELOW (β=0.043), but the difference also is not statistically
significant. In column (2), we include a series of control variables, and in column (3) we also
include analyst and quarter fixed effects. The coefficient on POS_TOT_ABOVE is marginally
statistically greater than the coefficient on POS_TOT_BELOW in both specifications, and the
absolute value of the coefficient on NEG_TOT_BELOW is greater than that on
NEG_TOT_ABOVE in both specifications, but only statistically greater in column (3). In
columns (4)-(6) the dependent variable is CURR_SURP. In all three specifications, the
coefficient on POS_TOT_ABOVE is significantly greater than the coefficient on
POS_TOT_BELOW, and the absolute value of the coefficient on NEG_TOT_BELOW is
significantly greater than that on NEG_TOT_ABOVE.
Collectively, the evidence is consistent with analysts’ non-earnings forecast signals
having more information content about the earnings surprise when a corresponding CQE forecast
would move the analyst away from the consensus.
31
4.4 Non-Earnings Forecast Signals and the Analyst’s Stock Recommendation
Next, we examine how an analyst’s stock recommendation affects (i) the degree to which
the analyst walks down the CQE forecast, and (ii) how the analyst maps positive and negative
information into the CQE forecast. If an analyst has a positive recommendation on a stock, we
might expect the analyst to have a positive outlook on the firm’s earnings. However, optimistic
earnings expectations could lead the firm to miss earnings estimates, which could have negative
consequences for both the share price and the manager’s human capital (Matsunaga and Park
2001; Skinner and Sloan 2002). Given the importance of meeting or beating earnings estimates,
analysts with buy recommendations may have a vested incentive in helping the firm meet or beat
earnings expectations by walking down their forecasts. More specifically, one mechanism
analysts could use to walk down their forecasts is to omit positive information from the CQE
forecasts and include such positive information in the SPT or FQE forecasts.
In Table 7, we examine the effect of the analyst’s stock recommendation on (i) the
likelihood that the firm meets or beats the analyst’s earnings forecast, (ii) the relative frequency
of positive vs. negative CQE forecast revisions, and (iii) the relative frequency of positive vs.
negative SPT and FQE forecast revisions. In column (1), we regress MEET_BEAT on an
indicator variable set equal to one if the analyst’s stock recommendation is buy or strong buy
(BUY). The coefficient on BUY is positive and statistically significant (β=0.019). In column (2),
the dependent variable is the earnings surprise, calculated using the analyst’s first CQE forecast
during the quarter (MEET_BEAT_IN). The coefficient on BUY is still positive and statistically
significant (β=0.013), but only 68% of the coefficient in column (1), suggesting analysts with a
buy rating walk down their forecasts more aggressively during the quarter. In columns (3)-(5),
we capture the relative frequency of positive vs. negative CQE, SPT, and FQE forecast revisions.
32
DEV_CQE (DEV_SPT, DEV_FQE) is set equal to positive one (negative one) if the analyst
positively (negatively) revises the CQE (SPT, FQE) forecast, and zero otherwise. The
coefficient on BUY is insignificant when DEV_CQE and DEV_FQE are the dependent variables,
but it is significantly positive when DEV_SPT is the dependent variable, suggesting analysts with
a buy recommendation are more likely to issue positive SPT forecast revisions.
In columns (6)-(10), we estimate analogous models to those in columns (1)-(5), but we
include a series of control variables as well as analyst and quarter fixed effects. The coefficient
on BUY is significantly positive in column (1), when the dependent variable is MEET_BEAT, but
it is insignificant in column (7), when the dependent variable is MEET_BEAT_IN. This again
suggests that analysts with a positive stock recommendation walk down the forecast more
aggressively during the quarter. The coefficient on BUY is significantly negative in column (8),
when the dependent variable is DEV_CQE, consistent with these analysts issuing more negative
CQE forecast revisions. The coefficient on BUY is significantly positive in column (9), when the
dependent variable is DEV_SPT, consistent with these analysts issuing more positive SPT
forecast revisions. The coefficient on BUY is insignificant in column (10), when the dependent
variable is DEV_FQE.
4.5 Non-Earnings Forecast Signals and Returns
4.5.1 Do Non-Earnings Forecast Signals Predict Earnings Announcement Returns?
In our next set of tests, we examine whether non-earnings forecast signals predict
earnings announcement returns. We conduct these tests for two reasons. First, examining the
effect of non-earnings forecast signals on price formation illustrates a potential consequence of
after-revision bias. Second, one possible explanation for the existence of after-revision bias is
analysts wanting to limit the dissemination of their information to clients (“tipping”). A
33
necessary but not sufficient condition for the tipping explanation is a finding of significant
returns, enabling clients to capture a larger share of the analyst’s informational rents. We
estimate the following model:
RET_ANN = β0 + β1(NonEarningsForecastSignals) + Σβi(Controls) + ε (5)
RET_ANN is the firm’s market-adjusted returns compounded over the three-day trading
window beginning the trading day before the earnings announcement date and ending the trading
day after the earnings announcement date. For earnings announcements occurring after 4:00
P.M. Eastern Time, we use the next trading day as the earnings announcement date. We include
the same series of control variables as in equation (1).
Table 8 reports the results from estimating equation (5). In columns (1)-(2), we present
estimates using the revision sample. In column (1), we present our base model without control
variables. The coefficient on POS_SPT is significantly positive (β=0.002), but the coefficients
on NEG_SPT, NEG_FQE, and POS_FQE are insignificant. Our results suggest that positive
share price target revisions predict earnings announcement returns, but the other revisions do not.
In column (2), we include a series of control variables and the results are very similar. Columns
(3)-(4) report the results from estimating equation (5) on the text sample. In column (3), we
regress earnings announcement returns on BEAT_TEXT and MISS_TEXT without control
variables. The coefficient on BEAT_TEXT is significantly positive (β=0.005) and the coefficient
on MISS_TEXT is significantly negative (β=-0.007). In column (6), we include the same series
of control variables and the results are very similar.
4.5.2 The Market Response to Analysts’ Non-Earnings Forecast Signals
Finally, we examine whether the market responds to analysts’ non-earnings forecast
signals. This analysis provides descriptive evidence on the amount of the market reaction to the
34
announcement of non-earnings forecast signals. Table 9 reports the firm’s returns when the
analyst issues a non-earnings forecast signal. Specifically, RET_SPT (RET_FQE, RET_TEXT) is
the firm’s market-adjusted return cumulated over the three-day period centered on the date of the
analyst’s SPT forecast revision (FQE forecast revision, qualitative prediction). Rows (1) and (2)
report that the market responds negatively to downward share price target revisions
(RET_SPT=-0.014) and positively to upward share price target revisions (RET_SPT=0.015). It is
worth noting that these average returns are much lower than returns found in the extant literature,
which do not exclude revisions accompanying earnings announcements. Rows (3) and (4) report
that the market responds negatively to downward next quarter earnings forecast revisions
(RET_FQE=-0.005) and positively to upward next quarter earnings forecast revisions
(RET_FQE=0.006). Rows (5) and (6) report that the market responds negatively to downward
qualitative predictions (RET_TEXT=-0.006) and positively to upward qualitative predictions
(RET_TEXT=0.009).
5. Conclusion
We identify a novel bias in analyst forecasts, after-revision bias, which we identify by
examining an analyst’s reports after his final earnings forecast of the quarter. Reviewing the text
of analyst reports, we find explicit examples of analysts stating that they expect firms to beat or
miss their own earnings forecast. We regard this as anecdotal evidence that analysts
communicate news about current quarter earnings without revising their current quarter
forecasts.
We provide large sample evidence on the means, determinants, and consequences of
disseminating news about current quarter earnings after the final forecast of the current quarter.
35
Specifically, we document that qualitative predictions in the text of analyst reports, share price
target revisions, and revisions to future quarter earnings forecasts (collectively, non-earnings
forecast signals) predict the analyst’s own forecast error. We also find non-earnings forecast
signals are (i) more prevalent for positive news than negative news, consistent with analysts
responding to incentives to issue forecasts managers will meet or beat, (ii) more prevalent when
a corresponding revision to the CQE forecast would move the analyst away from the consensus,
consistent with herding behavior, and (iii) issued more frequently when the absolute value of
forecast error is low, consistent with frictions limiting revisions to the current quarter earnings
forecast when the amount of news is low. Overall, the evidence is more consistent with an
intentional, as opposed to unintentional, explanation for after-revision bias.
Our findings demonstrate that the importance of the earnings forecast leads to a decrease
in the information flowing through that forecast. Such behavior by analysts has critical
implications for academic researchers who use analysts’ current quarter forecasts (either
individually or in a consensus) to proxy for investor expectations in a variety of widely studied
contexts. For example, earnings response coefficients measured using the consensus forecast to
capture earnings surprise will tend to be based on overestimated surprise, thus providing one
reason why measured earnings response coefficients are generally smaller than valuation models
imply. Implied cost of capital estimates that rely on analysts’ forecasts of future earnings to
solve for an estimated cost of capital are also distorted by analysts not updating their forecasts to
reflect their updated expectations of earnings. Similarly, higher moments of the distribution of
analyst forecasts are also subject to misinterpretation if it is assumed each analyst’s forecast
reflects his true beliefs when it may not. For example, some of the variance in the distribution of
forecasts about a given firm will be due to some analysts holding back information rather than to
36
uncertainty or disagreement. Our findings that analysts respond to positive news by revising an
SPT or FQE forecast more frequently than revising a CQE forecast suggests a managerial
preference for meeting or beating earnings estimates decreases the flow of positive news into the
CQE forecast. As a result, a portion of the walk-down likely arises out of a hesitancy to revise
the forecast upward rather than a willingness to revise the forecast downward.
37
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41
Figure 1: Timeline
Black text denotes revisions required for inclusion in the sampleBlue text denotes revisions not required for inclusion in the sampleRed text denotes date windows
FQEinitial SPTinitial
365 days before last CQE forecast
Non-EarningsForecast Signalst
EAt-1 EAt
CQEfirst CQEsecond
42
Appendix A: Sample Selection Revision Sample Criteria Observations All analyst-firm-quarters in the I/B/E/S unadjusted detail file, subject to the following constraints: (1) The analyst issued a forecast of the prior quarter’s earnings. (2) Actual earnings and the earnings announcement date are available for current quarter earnings and prior quarter earnings. (3) The firm's share price, outstanding shares, and the cumulative factor to adjust price at the prior quarter earnings announcement are available on CRSP. (4) The firm's cumulative factor to adjust price at the current quarter earnings announcement is available on CRSP. (5) The firm's fiscal quarter end date occurs during the period 1999Q1 to 2015Q2. I/B/E/S began coverage of share price target forecasts in 1999 and I/B/E/S data was available through 2015Q2 at the time of download.
2,293,778
Less: Analyst-firm-quarters without a current quarter earnings forecast between the prior quarter earnings announcement date and the current quarter earnings announcement date.
917,272
Less: Analyst-firm-quarters without a share price target forecast either with the final current quarter earnings forecast or in the 365 days before the final current quarter earnings forecast date.
359,227
Less: Analyst-firm-quarters without a future quarter earnings forecast either with the final current quarter earnings forecast or in the 365 days before the final current quarter earnings forecast date.
149,856
Less: Analyst-firm-quarters with a stock split or a stock dividend between the prior quarter earnings announcement date and the current quarter earnings announcement date.
13,648
Less: Analyst-firm-quarters without CRSP or Compustat data for control variables. 134,402 719,373 Text Sample Criteria Observations All Revision Sample analyst-firm-quarters. 719,373 Less: Analyst-firm-quarters relating to analysts other than the 175 randomly selected analysts. We collect analyst reports from ThomsonOne Banker for 175 randomly selected analysts in the revision sample detailed above. We collect the analyst reports over three iterations. In the first iteration, we collect all analyst reports for 15 randomly selected analysts in the revision sample for the year 2010. In the second (third) iteration, we randomly select 60 (100) analysts with at least twenty firm-quarters of observations for a minimum of three firms in the revision sample.
(653,834)
Less: Analyst-firm-quarters for analysts we could not identify in ThomsonOne Banker. We are able to identify 142 of the 175 analysts in ThomsonOne Banker.
(11,774)
53,765
43
Appendix B: Variable Definitions Non-Earnings Forecast Signal Variables and Current Quarter Forecast Revision Variables Name Definition Data Source NEG_SPT (POS_SPT)
Indicator variable that equals one if the analyst issues a negative (positive) revision to the share price target forecast at least two days after the analyst’s final forecast of the current quarter’s earnings and before the firm’s quarterly earnings announcement, zero otherwise.
I/B/E/S
REV_SPT Indicator variable that equals one if NEG_SPT=1 or POS_SPT=1, zero otherwise.
I/B/E/S
DEV_SPT POS_SPT less NEG_SPT. I/B/E/S NEG_FQE (POS_FQE)
Indicator variable that equals one if the analyst issues a negative (positive) revision to a future quarter earnings forecast at least two days after the analyst’s final forecast of the current quarter’s earnings and before the firm’s quarterly earnings announcement, zero otherwise.
I/B/E/S
REV_FQE Indicator variable that equals one if NEG_FQE=1 or POS_FQE=1, zero otherwise.
I/B/E/S
DEV_FQE POS_FQE less NEG_FQE. I/B/E/S NEG_TOT Indicator variable that equals one if NEG_SPT=1 or NEG_FQE=1, zero
otherwise. I/B/E/S
POS_TOT Indicator variable that equals one if POS_SPT=1 or POS_FQE=1, zero otherwise.
I/B/E/S
REV_TOT Indicator variable that equals one if NEG_TOT=1 or POS_TOT=1, zero otherwise.
I/B/E/S
NEG_CQE (POS_CQE)
Indicator variable that equals one if the analyst's final current quarter earnings forecast negatively (positively) revises a previous current quarter earnings forecast made after the prior quarter’s earnings announcement, zero otherwise.
I/B/E/S
REV_CQE Indicator variable that equals one if NEG_CQE=1 or POS_CQE=1, zero otherwise.
I/B/E/S
DEV_CQE POS_CQE less NEG_CQE. I/B/E/S NEG_TOT_ABOVE Indicator variable that equals one if NEG_TOT=1 and
ABOVE_CON=1, zero otherwise. I/B/E/S
NEG_TOT_BELOW Indicator variable that equals one if NEG_TOT=1 and ABOVE_CON=0, zero otherwise.
I/B/E/S
POS_TOT_ABOVE Indicator variable that equals one if POS_TOT=1 and ABOVE_CON=1, zero otherwise.
I/B/E/S
POS_TOT_BELOW Indicator variable that equals one if POS_TOT=1 and ABOVE_CON=0, zero otherwise.
I/B/E/S
MISS_TEXT (BEAT_TEXT)
Count variable that equals the number of times the analyst uses a synonym for miss (beat) and a synonym for earnings expectations within the same sentence. The synonyms for miss include miss, fall short, below, lower, worse, downside, and underperform. The synonyms for beat include beat, exceed, outperform, better, higher, above, top, and upside. The synonyms for earnings expectations include earnings, EPS, estimates, and expectations. Included reports must meet the sample selection criteria detailed in Appendix A.
ThomsonOne Banker
! !
44
Earnings and Return Variables Name Definition Data Source MEET_BEAT Indicator variable that equals one (zero) if the firm meets or beats
(misses) the analyst’s final forecast of the current quarter’s earnings. I/B/E/S
MEET_BEAT_CON Indicator variable that equals one (zero) if the firm meets or beats (misses) the consensus earnings forecast as of the analyst's final forecast of the current quarter's earnings.
I/B/E/S
MEET_BEAT_IN Indicator variable that equals one if the firm meets or beats the analyst’s first forecast of the current quarter’s earnings after the prior quarter's earnings announcement, zero otherwise.
I/B/E/S
CURR_SURP Current quarter earnings surprise, equal to the firm’s quarterly earnings per share less the analyst’s final forecast of the current quarter's earnings per share, scaled by price.
I/B/E/S, CRSP
CURR_SURP_CON Current quarter earnings surprise, equal to the firm’s quarterly earnings per share less the consensus earnings forecast as of the analyst’s final forecast of the current quarter's earnings per share, scaled by price.
I/B/E/S, CRSP
CURR_SURP_IN The initial current quarter earnings surprise, equal to the firm’s quarterly earnings per share less the analyst’s first forecast of the current quarter's earnings per share after the prior quarter’s earnings announcement, scaled by price.
I/B/E/S, CRSP
PREV_SURP Previous quarter earnings surprise, equal to the firm’s quarterly earnings per share less the analyst’s final forecast of the previous quarter's earnings per share, scaled by price.
I/B/E/S, CRSP
ABS(CURR_SURP_IN) Absolute value of CURR_SURP_IN. I/B/E/S, CRSP ABS(PREV_SURP) Absolute value of PREV_SURP. I/B/E/S, CRSP RET_ANN The firm’s returns compounded over the three day trading window
beginning the trading day before the earnings announcement date and ending the trading day after the earnings announcement date less the market return over the same period. For earnings announcements occurring after 4 pm, we use the next trading day as the earnings announcement date.
CRSP
RET_QTR The firm's returns compounded over the period beginning ninety days before the final current quarter earnings forecast and ending at the final current quarter earnings forecast date less the market return over the same period.
CRSP
RET_SPT The firm’s returns compounded over the three day trading window beginning the trading day before the share price target forecast revision date and ending the trading day after the share price target forecast revision date less the market return over the same period.
CRSP
RET_FQE The firm’s returns compounded over the three day trading window beginning the trading day before the future quarter earnings forecast revision date and ending the trading day after the future quarter earnings forecast revision date less the market return over the same period.
CRSP
RET_TEXT The firm’s returns compounded over the three day trading window beginning the trading day before the analyst's text report date and ending the trading day after the analyst's text report date less the market return over the same period.
CRSP
! !
45
Other Variables Name Definition Data Source MVE Natural log of the market value of equity. Compustat BTM Book value of equity scaled by the market value of equity. Compustat ROA Earnings before interest and taxes scaled by total assets. Compustat FOLLOW Natural log of analyst coverage. I/B/E/S #DAYS Natural log of the number of days between the analyst's final forecast of
the current quarter's earnings and the current quarter's earnings announcement.
I/B/E/S
#FORE Natural log of the number of times the analyst forecasted the previous quarter's earnings.
I/B/E/S
ABOVE_CON Indicator variable that equals one (zero) if the analyst’s final forecast of the current quarter's earnings is above (below) the consensus earnings forecast.
I/B/E/S
EXPERIENCE Natural log of the number of years since the analyst's first forecast in I/B/E/S.
I/B/E/S
BROKER_SIZE Natural log of the number of analysts at the analyst's brokerage. I/B/E/S BUY Indicator variable that equals one if the analyst's stock recommendation
is buy or strong buy, zero otherwise. I/B/E/S
ALLSTAR Indicator variable that equals one if the analyst finished first, second, third, or honorable mention in the institutional investor all-star rankings during the calendar year of the quarterly forecast.
Hand Collected
46
Table 1: Descriptive Statistics Panel A: Revision Sample Descriptive Statistics
Variable N Mean StdDev P25 Median P75 NEG_SPT 719,373 0.048 0.213 0.000 0.000 0.000 POS_SPT 719,373 0.083 0.276 0.000 0.000 0.000 REV_SPT 719,373 0.131 0.337 0.000 0.000 0.000 NEG_FQE 719,373 0.056 0.230 0.000 0.000 0.000 POS_FQE 719,373 0.060 0.238 0.000 0.000 0.000 REV_FQE 719,373 0.117 0.321 0.000 0.000 0.000 NEG_TOT 719,373 0.089 0.284 0.000 0.000 0.000 POS_TOT 719,373 0.122 0.327 0.000 0.000 0.000 REV_TOT 719,373 0.195 0.396 0.000 0.000 0.000 NEG_CQE 719,373 0.191 0.393 0.000 0.000 0.000 POS_CQE 719,373 0.129 0.335 0.000 0.000 0.000 REV_CQE 719,373 0.320 0.466 0.000 0.000 1.000 MEET_BEAT 719,373 0.706 0.456 0.000 1.000 1.000 CURR_SURP 719,373 0.048 0.769 -0.045 0.052 0.211 MEET_BEAT_CON 687,458 0.642 0.479 0.000 1.000 1.000 CURR_SURP_CON 687,458 0.008 0.788 -0.074 0.045 0.200 PREV_SURP 719,373 0.017 0.824 -0.057 0.050 0.205 RET_QTR 719,373 0.002 0.191 -0.099 -0.002 0.096 MVE 719,373 7.908 1.721 6.655 7.837 9.117 BTM 719,373 0.494 0.368 0.243 0.412 0.659 ROA 719,373 0.019 0.034 0.007 0.020 0.035 FOLLOW 719,373 17.400 10.448 9.000 16.000 24.000 #DAYS 719,373 61.812 33.708 28.000 76.000 91.000 #FORE 719,373 4.964 3.567 2.000 4.000 7.000 This table reports descriptive statistics for the revision sample. N is the number of observations, StdDev is the standard deviation, P25 (P75) is the 25th (75th) percentile of the variable's distribution. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
47
Panel B: Text Sample Descriptive Statistics Variable N Mean StdDev P25 Median P75 MISS_TEXT 53,765 0.084 0.491 0.000 0.000 0.000 BEAT_TEXT 53,765 0.106 0.579 0.000 0.000 0.000 NEG_SPT 53,765 0.054 0.226 0.000 0.000 0.000 POS_SPT 53,765 0.089 0.285 0.000 0.000 0.000 NEG_FQE 53,765 0.061 0.240 0.000 0.000 0.000 POS_FQE 53,765 0.064 0.245 0.000 0.000 0.000 NEG_CQE 53,765 0.215 0.411 0.000 0.000 0.000 POS_CQE 53,765 0.153 0.360 0.000 0.000 0.000 MEET_BEAT 53,765 0.706 0.455 0.000 1.000 1.000 CURR_SURP 53,765 0.054 0.678 -0.041 0.054 0.210 MEET_BEAT_CON 52,165 0.644 0.479 0.000 1.000 1.000 CURR_SURP_CON 52,165 0.010 0.723 -0.068 0.046 0.197 PREV_SURP 53,765 0.025 0.720 -0.050 0.051 0.202 RET_QTR 53,765 0.003 0.174 -0.090 0.001 0.092 MVE 53,765 8.207 1.668 6.996 8.170 9.384 BTM 53,765 0.503 0.358 0.258 0.426 0.669 ROA 53,765 0.022 0.029 0.008 0.021 0.035 FOLLOW 53,765 18.802 10.671 10.000 17.000 25.000 #DAYS 53,765 57.829 34.508 22.000 67.000 90.000 #FORE 53,765 5.660 4.171 3.000 5.000 8.000 This table reports descriptive statistics for the text sample. N is the number of observations, StdDev is the standard deviation, P25 (P75) is the 25th (75th) percentile of the variable's distribution. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
48
Table 2: Relation Between the Earnings Surprise and the Analyst's Non-Earnings Forecast Signals
Panel A: The Analyst's Own Earnings Surprise MEET_BEAT MEET_BEAT MEET_BEAT CURR_SURP CURR_SURP CURR_SURP NEG_SPT -0.017*** -0.010** -0.009** -0.038*** -0.020*** -0.013**
(0.001) (0.028) (0.017) (0.000) (0.007) (0.048)
POS_SPT 0.043*** 0.026*** 0.021*** 0.042*** 0.020*** 0.014***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
NEG_FQE 0.000 -0.006* -0.001 -0.007 -0.011*** -0.006
(0.963) (0.093) (0.642) (0.133) (0.005) (0.133)
POS_FQE 0.018*** 0.012*** 0.015*** 0.023*** 0.016*** 0.015***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
PREV_SURP
0.054*** 0.045***
0.188*** 0.169***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.114*** 0.115***
0.158*** 0.146***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.005** 0.019***
0.006** 0.008**
(0.048) (0.000)
(0.041) (0.014)
BTM
-0.061*** -0.034***
-0.044* -0.056***
(0.000) (0.000)
(0.050) (0.009)
ROA
0.625*** 0.340***
-0.243* -0.313**
(0.000) (0.000)
(0.065) (0.011)
FOLLOW
0.051*** 0.026***
0.022*** 0.015**
(0.000) (0.000)
(0.001) (0.041)
#DAYS
0.002 -0.008***
-0.006*** -0.008***
(0.228) (0.000)
(0.009) (0.001)
#FORE
-0.019*** -0.010***
0.001 -0.001
(0.000) (0.000)
(0.730) (0.843)
CONS 0.702*** 0.565*** 0.652*** 0.045*** -0.019 0.079**
(0.000) (0.000) (0.000) (0.000) (0.471) (0.020)
Fixed Effects None None
Analyst & Quarter None None
Analyst & Quarter
Observations 719,373 719,373 719,373 719,373 719,373 719,373 Adjusted R-squared 0.001 0.033 0.071 0.000 0.047 0.063 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's own earnings forecast (MEET_BEAT) or the signed earnings surprise relative to the analyst's own earnings forecast (CURR_SURP). The explanatory variables include the analyst's share price target revisions (NEG_SPT, POS_SPT) and future quarter earnings forecast revisions (NEG_FQE, POS_FQE). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
49
Panel B: The Consensus Earnings Surprise
MEET_BEAT_CON MEET_BEAT_CON MEET_BEAT_CON CURR_SURP_CON CURR_SURP_CON CURR_SURP_CON NEG_SPT -0.045*** -0.037*** -0.024*** -0.057*** -0.034*** -0.013
(0.000) (0.000) (0.000) (0.000) (0.001) (0.150)
POS_SPT 0.084*** 0.035*** 0.029*** 0.077*** 0.022*** 0.012***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.008)
NEG_FQE -0.018*** -0.034*** -0.030*** -0.015** -0.026*** -0.022***
(0.000) (0.000) (0.000) (0.013) (0.000) (0.000)
POS_FQE 0.034*** 0.014*** 0.010*** 0.036*** 0.018*** 0.010**
(0.000) (0.000) (0.001) (0.000) (0.000) (0.034)
PREV_SURP
0.048*** 0.040***
0.176*** 0.159***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.330*** 0.319***
0.419*** 0.395***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.015*** 0.026***
0.015*** 0.020***
(0.000) (0.000)
(0.000) (0.000)
BTM
-0.058*** -0.036***
-0.119*** -0.125***
(0.000) (0.000)
(0.000) (0.000)
ROA
0.386*** 0.239***
-0.221 -0.288**
(0.000) (0.002)
(0.128) (0.046)
FOLLOW
0.041*** 0.008
0.028*** 0.010
(0.000) (0.107)
(0.001) (0.274)
#DAYS
0.040*** 0.031***
0.023*** 0.023***
(0.000) (0.000)
(0.000) (0.000)
#FORE
-0.003 -0.003
0.004 -0.004
(0.432) (0.266)
(0.519) (0.335)
CONS 0.636*** 0.281*** 0.301*** 0.003 -0.231*** -0.203***
(0.000) (0.000) (0.000) (0.817) (0.000) (0.000)
Fixed Effects None None
Analyst & Quarter None None
Analyst & Quarter
Observations 687,458 687,458 687,458 687,458 687,458 687,458 Adjusted R-squared 0.004 0.050 0.085 0.001 0.057 0.079 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the consensus earnings forecast (MEET_BEAT_CON) or the signed earnings surprise relative to the consensus earnings forecast (CURR_SURP_CON). The explanatory variables include the analyst's share price target revisions (NEG_SPT, POS_SPT) and future quarter earnings forecast revisions (NEG_FQE, POS_FQE). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
50
Table 3: Relation Between the Analyst's Own Earnings Surprise and the Analyst's Qualitative Predictions
Panel A: The Analyst's Own Earnings Surprise MEET_BEAT MEET_BEAT MEET_BEAT CURR_SURP CURR_SURP CURR_SURP MISS_TEXT -0.048*** -0.048*** -0.048*** -0.034*** -0.036*** -0.033***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
BEAT_TEXT 0.050*** 0.045*** 0.043*** 0.043*** 0.037*** 0.036***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
PREV_SURP
0.058*** 0.052***
0.174*** 0.165***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.122*** 0.123***
0.189*** 0.170***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.009*** 0.018***
0.006* 0.004
(0.004) (0.000)
(0.082) (0.354)
BTM
-0.063*** -0.029***
-0.020 -0.030
(0.000) (0.002)
(0.422) (0.289)
ROA
0.398*** 0.293**
-0.105 0.055
(0.005) (0.044)
(0.671) (0.837)
FOLLOW
0.046*** 0.026***
0.029*** 0.019
(0.000) (0.002)
(0.004) (0.212)
#DAYS
0.005 -0.002
-0.003 -0.001
(0.162) (0.543)
(0.422) (0.734)
#FORE
-0.017*** -0.006
0.006 0.006
(0.001) (0.147)
(0.444) (0.416)
CONS 0.705*** 0.534*** 0.603*** 0.052*** -0.068* -0.011
(0.000) (0.000) (0.000) (0.000) (0.083) (0.794)
Fixed Effects None None
Analyst & Quarter None None
Analyst & Quarter
Observations 53,765 53,765 53,765 53,765 53,765 53,765 Adjusted R-squared 0.004 0.031 0.059 0.001 0.042 0.053 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's own earnings forecast (MEET_BEAT) or the signed earnings surprise relative to the analyst's own earnings forecast (CURR_SURP). The explanatory variables include the analyst's qualitative predictions (MISS_TEXT, BEAT_TEXT). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
51
Panel B: The Consensus Earnings Surprise
MEET_BEAT_CON MEET_BEAT_CON MEET_BEAT_CON CURR_SURP_CON CURR_SURP_CON CURR_SURP_CON MISS_TEXT -0.055*** -0.053*** -0.053*** -0.048*** -0.045*** -0.040***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
BEAT_TEXT 0.061*** 0.052*** 0.048*** 0.053*** 0.042*** 0.039***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
PREV_SURP
0.053*** 0.046***
0.163*** 0.153***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.362*** 0.351***
0.469*** 0.434***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.013*** 0.023***
0.015*** 0.017***
(0.000) (0.000)
(0.000) (0.001)
BTM
-0.072*** -0.042***
-0.103*** -0.111***
(0.000) (0.001)
(0.003) (0.003)
ROA
0.113 0.058
-0.040 0.047
(0.451) (0.696)
(0.869) (0.862)
FOLLOW
0.051*** 0.020**
0.047*** 0.016
(0.000) (0.032)
(0.000) (0.330)
#DAYS
0.033*** 0.027***
0.020*** 0.025***
(0.000) (0.000)
(0.000) (0.000)
#FORE
0.002 0.004
-0.003 -0.003
(0.741) (0.405)
(0.823) (0.763)
CONS 0.642*** 0.291*** 0.238*** 0.008 -0.274*** -0.336***
(0.000) (0.000) (0.000) (0.534) (0.000) (0.000)
Fixed Effects None None
Analyst & Quarter None None
Analyst & Quarter
Observations 52,165 52,165 52,165 52,165 52,165 52,165 Adjusted R-squared 0.006 0.050 0.076 0.002 0.054 0.077 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the consensus earnings forecast (MEET_BEAT_CON) or the signed earnings surprise relative to the consensus earnings forecast (CURR_SURP_CON). The explanatory variables include the analyst's qualitative predictions (MISS_TEXT, BEAT_TEXT). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
52
Table 4: Cross-Sectional Variation in Non-Earnings Forecast Signals
Panel A: Positive vs. Negative Non-Earnings Forecast Signals
Sample Variable N % Positive % Negative Difference t-stat Full REV_TOT 719,373 12.20% 8.90% 3.30% 66.982 Full REV_SPT 719,373 8.30% 4.80% 3.50% 83.183 Full REV_FQE 719,373 6.00% 5.60% 0.40% 10.572 Full REV_CQE 719,373 12.90% 19.10% -6.20% -92.648 REV_CQE=0 REV_TOT 489,400 14.60% 9.90% 4.70% 71.819 REV_CQE=0 REV_SPT 489,400 10.30% 5.50% 4.80% 85.931 REV_CQE=0 REV_FQE 489,400 6.90% 6.10% 0.80% 14.755 REV_CQE=0 REV_CQE 489,400 0.00% 0.00% 0.00% N/A This table reports the frequencies of positive vs. negative share price target revisions, future quarter earnings forecast revisions, and current quarter earnings forecast revisions (SPT, FQE, and CQE, respectively). TOT refers to either an SPT or FQE revision. Rows 1-4 include the full revision sample. Rows 5-8 include all quarters without a current quarter earnings forecast revision (REV_CQE=0). N is the number of observations. % is the percentage of observations for which the analyst issues the corresponding forecast revision. Two-tailed t-statistics report whether the corresponding difference is significantly different from zero. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
Panel B: Above vs. Below Consensus
Sample Variable N Below
Consensus N Above
Consensus % Below
Consensus % Above
Consensus Difference t-stat Full NEG_TOT 343,339 344,119 9.40% 8.30% 1.10% 15.418 Full POS_TOT 343,339 344,119 11.10% 13.20% -2.10% -26.217 Full NEG_SPT 343,339 344,119 5.10% 4.30% 0.80% 16.006 Full POS_SPT 343,339 344,119 7.40% 9.20% -1.80% -26.893 Full NEG_FQE 343,339 344,119 6.00% 5.40% 0.60% 11.434 Full POS_FQE 343,339 344,119 5.60% 6.50% -0.90% -15.311 Full NEG_CQE 316,651 358,861 14.70% 23.10% -8.40% -88.582 Full POS_CQE 316,651 358,861 17.40% 9.40% 8.00% 97.655 This table reports the frequencies of positive and negative share price target revisions, future quarter earnings forecast revisions, and current quarter earnings forecast revisions (SPT, FQE, and CQE, respectively) for observations above and below the consensus earnings forecast. TOT refers to either an SPT or FQE revision. In rows 1-6 the consensus is as of the analyst's final earnings forecast during the quarter and in rows 7-8 the consensus is as of the analyst's initial earnings forecast during the quarter. N is the number of observations. % is the percentage of observations for which the analyst issues the corresponding forecast revision. Two-tailed t-statistics report whether the corresponding difference is significantly different from zero. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
53
Panel C: Above vs. Below Median of the Analyst's Initial Earnings Surprise
Variable N Below Median
ABS(CURR_SURP_IN) N Above Median
ABS(CURR_SURP_IN) % Below Median
ABS(CURR_SURP_IN) % Above Median
ABS(CURR_SURP_IN) Difference t-stat REV_TOT 359,692 359,681 21.10% 17.80% 3.30% 36.062 REV_SPT 359,692 359,681 14.30% 11.80% 2.50% 31.334 REV_FQE 359,692 359,681 12.60% 10.70% 1.90% 26.050 REV_CQE 359,692 359,681 25.40% 38.60% -13.20% -121.473 This table reports the frequencies of share price target revisions, future quarter earnings forecast revisions, and current quarter earnings forecast revisions (SPT, FQE, and CQE, respectively) for observations above and below the median of the absolute value of the analyst's initial earnings surprise (as of the analyst's initial earnings forecast during the quarter). TOT refers to either an SPT or FQE revision. N is the number of observations. % is the percentage of observations for which the analyst issues the corresponding forecast revision. Two-tailed t-statistics report whether the corresponding difference is significantly different from zero. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
54
Table 5: Determinants of Non-Earnings Forecast Signals
REV_TOT REV_CQE NEG_TOT POS_TOT
ABOVE_CON 0.001 -0.043*** -0.009*** 0.010***
(0.352) (-10.193) (-6.300) (9.394)
ABS(CURR_SURP_IN) -0.001* 0.048*** 0.001 -0.002***
(-1.678) (16.326) (0.690) (-3.331)
ABS(PREV_SURP) -0.005*** -0.019*** -0.001 -0.004***
(-6.058) (-9.976) (-1.588) (-5.676)
EXPERIENCE -0.020*** -0.022*** -0.011*** -0.013***
(-16.932) (-10.076) (-11.697) (-11.513)
BROKER_SIZE 0.020*** 0.009*** 0.010*** 0.013***
(15.615) (8.907) (11.650) (12.000)
ALLSTAR 0.014*** 0.005 0.007* 0.005
(2.900) (1.163) (1.782) (1.334)
ALLSTAR_DUM -0.027*** -0.020** -0.017* -0.012
(-3.222) (-2.344) (-1.804) (-1.546)
PREV_SURP 0.002** 0.003*** 0.001* 0.001
(2.105) (3.093) (1.744) (1.350)
RET_QTR 0.031*** -0.044*** -0.103*** 0.135***
(3.055) (-3.875) (-10.656) (16.322)
MVE 0.010*** 0.006*** 0.004*** 0.007***
(7.748) (3.390) (4.767) (6.746)
BTM 0.002 0.028*** 0.000 0.001
(0.582) (5.640) (0.133) (0.194)
ROA 0.024 0.338*** 0.005 -0.005
(0.656) (6.137) (0.169) (-0.196)
FOLLOW 0.020*** 0.022*** 0.013*** 0.010***
(6.648) (4.240) (5.790) (4.050)
#DAYS 0.109*** -0.317*** 0.047*** 0.073***
(35.898) (-139.810) (16.035) (21.989)
#FORE 0.049*** 0.066*** 0.023*** 0.034***
(15.028) (18.426) (9.071) (12.268)
CONS -0.466*** 1.342*** -0.204*** -0.321***
(-24.283) (73.103) (-12.835) (-16.817)
Observations 680,172 680,172 680,172 680,172
Adjusted R-squared 0.066 0.411 0.030 0.051
This table reports OLS regression results. The dependent variables include: a dummy variable set equal to one if the analyst revises a share price target or a future quarter earnings forecast (REV_TOT), a dummy variable set equal to one if the analyst revises the current quarter earnings forecast (REV_CQE), and dummy variables set equal to one for negative and positive revisions to a share price target forecast or a future quarter earnings forecast (NEG_TOT and POS_TOT, respectively). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B. ! !
55
Table 6: Relation Between the Earnings Surprise and the Analyst's Non-Earnings Forecast Signals Panel A: Positive vs. Negative News
MEET_BEAT MEET_BEAT MEET_BEAT CURR_SURP CURR_SURP CURR_SURP NEG_TOT -0.009** -0.009** -0.005* -0.026*** -0.017*** -0.010**
(0.024) (0.029) (0.060) (0.000) (0.001) (0.016)
POS_TOT 0.040*** 0.024*** 0.022*** 0.042*** 0.023*** 0.018***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
PREV_SURP
0.054*** 0.045***
0.188*** 0.169***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.115*** 0.116***
0.158*** 0.147***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.005** 0.019***
0.006** 0.008**
(0.048) (0.000)
(0.041) (0.014)
BTM
-0.061*** -0.034***
-0.044** -0.056***
(0.000) (0.000)
(0.050) (0.009)
ROA
0.626*** 0.341***
-0.243* -0.313**
(0.000) (0.000)
(0.065) (0.011)
FOLLOW
0.051*** 0.026***
0.022*** 0.015**
(0.000) (0.000)
(0.001) (0.042)
#DAYS
0.002 -0.008***
-0.006*** -0.008***
(0.232) (0.000)
(0.008) (0.001)
#FORE
-0.019*** -0.010***
0.002 -0.001
(0.000) (0.000)
(0.717) (0.849)
CONS 0.702*** 0.566*** 0.652*** 0.045*** -0.019 0.079**
(0.000) (0.000) (0.000) (0.000) (0.474) (0.019)
F-test p=0.000 p=0.001 p=0.000 p=0.006 p=0.315 p=0.137
Fixed Effects None None Analyst &
Quarter None None Analyst &
Quarter Observations 719,373 719,373 719,373 719,373 719,373 719,373 Adjusted R-squared 0.001 0.033 0.071 0.000 0.047 0.063 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's own earnings forecast (MEET_BEAT) or the signed earnings surprise relative to the analyst's own earnings forecast (CURR_SURP). The explanatory variables include negative/positive revisions to the analyst's share price target or future quarter earnings forecast (NEG_TOT, POS_TOT). P-values are reported to test whether the sum of the coefficients on NEG_TOT and POS_TOT are significantly different from zero. Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
56
Panel B: Above vs. Below the Consensus MEET_BEAT MEET_BEAT MEET_BEAT CURR_SURP CURR_SURP CURR_SURP NEG_TOT_ABOVE -0.012** -0.009* -0.004 -0.016** -0.006 0.001
(0.030) (0.083) (0.296) (0.017) (0.348) (0.824)
NEG_TOT_BELOW -0.016*** -0.016*** -0.013*** -0.043*** -0.035*** -0.027***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
POS_TOT_ABOVE 0.048*** 0.030*** 0.027*** 0.060*** 0.039*** 0.034***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
POS_TOT_BELOW 0.043*** 0.024*** 0.021*** 0.034*** 0.011** 0.004
(0.000) (0.000) (0.000) (0.000) (0.014) (0.229)
ABOVE_CON -0.137*** -0.142*** -0.146*** -0.166*** -0.171*** -0.176***
(0.000) (0.000) (0.000) (0.000) (0.000) (0.000)
PREV_SURP
0.053*** 0.044***
0.186*** 0.168***
(0.000) (0.000)
(0.000) (0.000)
RET_QTR
0.156*** 0.156***
0.202*** 0.189***
(0.000) (0.000)
(0.000) (0.000)
MVE
0.005** 0.020***
0.005* 0.008**
(0.048) (0.000)
(0.098) (0.016)
BTM
-0.065*** -0.035***
-0.043* -0.053**
(0.000) (0.000)
(0.052) (0.012)
ROA
0.626*** 0.327***
-0.266** -0.348***
(0.000) (0.000)
(0.047) (0.007)
FOLLOW
0.047*** 0.018***
0.017** 0.006
(0.000) (0.000)
(0.020) (0.430)
#DAYS
0.006*** -0.004***
-0.001 -0.003
(0.001) (0.004)
(0.629) (0.165)
#FORE
-0.018*** -0.010***
0.002 -0.000
(0.000) (0.000)
(0.619) (0.967)
CONS 0.773*** 0.631*** 0.702*** 0.131*** 0.070*** 0.151***
(0.000) (0.000) (0.000) (0.000) (0.009) (0.000)
NEG_TOT F-test p=0.467 p=0.133 p=0.059 p=0.000 p=0.000 p=0.000 POS_TOT F-test p=0.200 p=0.062 p=0.065 p=0.001 p=0.000 p=0.000
Fixed Effects None None Analyst &
Quarter None None Analyst &
Quarter Observations 687,458 687,458 687,458 687,458 687,458 687,458 Adjusted R-squared 0.023 0.055 0.095 0.012 0.058 0.075 This table reports OLS regression results. The dependent variable is a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's own earnings forecast (MEET_BEAT) or the signed earnings surprise relative to the analyst's own earnings forecast (CURR_SURP). The explanatory variables include negative/positive revisions to the analyst's share price target or future quarter earnings forecast apportioned by whether the analyst's final earnings forecast is above or below the consensus earnings forecast (NEG_TOT_ABOVE, NEG_TOT_BELOW, POS_TOT_ABOVE, POS_TOT_BELOW). P-values are reported to test whether the coefficients on NEG_TOT_ABOVE and NEG_TOT_BELOW are significantly different, as well as whether the coefficients on POS_TOT_ABOVE and POS_TOT_BELOW are significantly different. Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
! !
57
!
Table 7: Analysts' Stock Recommendations and Non-Earnings Forecast Signals MEET_BEAT MEET_BEAT_IN DEV_CQE DEV_SPT DEV_FQE BUY 0.019*** 0.013*** -0.004 0.006** -0.001
(5.505) (3.415) (-0.931) (2.306) (-0.520)
CONS 0.695*** 0.645*** -0.057*** 0.031*** 0.006
(123.354) (87.722) (-5.580) (3.979) (1.583)
Fixed Effects None None None None None Observations 582,626 582,626 582,626 582,626 582,626 Adjusted R-squared 0.000 0.000 0.000 0.000 -0.000
MEET_BEAT MEET_BEAT_IN DEV_CQE DEV_SPT DEV_FQE BUY 0.009*** -0.001 -0.019*** 0.008*** -0.001
(4.444) (-0.387) (-8.195) (3.266) (-0.915)
PREV_SURP 0.044*** 0.042*** 0.008*** 0.001 -0.001
(17.318) (15.068) (3.650) (1.180) (-1.438)
RET_QTR 0.114*** 0.288*** 0.492*** 0.204*** 0.064***
(16.639) (22.430) (23.289) (17.361) (12.559)
MVE 0.018*** 0.021*** 0.008*** 0.003*** -0.001
(8.251) (8.918) (2.918) (3.007) (-1.041)
BTM -0.036*** -0.044*** -0.035*** -0.001 -0.004*
(-5.153) (-5.866) (-5.044) (-0.264) (-1.833)
ROA 0.371*** 0.279*** -0.122* 0.095*** -0.027
(5.741) (4.230) (-1.857) (3.954) (-1.007)
FOLLOW 0.026*** 0.014*** -0.008* -0.002 -0.002
(6.443) (2.950) (-1.770) (-1.414) (-1.005)
#DAYS -0.007*** 0.049*** 0.051*** 0.026*** 0.003
(-4.287) (17.907) (5.782) (4.261) (1.214)
#FORE -0.010*** -0.010*** 0.004 0.001 -0.003**
(-4.914) (-4.809) (1.079) (0.791) (-2.161)
CONS 0.632*** 0.291*** -0.350*** -0.090*** 0.041***
(34.136) (17.249) (-14.594) (-3.800) (3.683)
Fixed Effects
Analyst & Quarter
Analyst & Quarter
Analyst & Quarter
Analyst & Quarter
Analyst & Quarter
Observations 582,626 582,626 582,626 582,626 582,626 Adjusted R-squared 0.072 0.089 0.068 0.053 0.009 This table reports OLS regression results. The dependent variables include: a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's final earnings forecast (MEET_BEAT), a dummy set equal to one if the firm’s reported earnings equal or exceed the analyst's initial earnings forecast (MEET_BEAT_IN), the difference between POS_CQE and NEG_CQE (DEV_CQE), the difference between POS_SPT and NEG_SPT (DEV_SPT), and the difference between POS_FQE and NEG_FQE (DEV_FQE). The explanatory variables include a dummy variable set equal to one if the analyst's stock recommendation is buy or strong buy (BUY). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
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Table 8: Relation Between Earnings Announcement Returns and the Analyst's Non-Earnings Forecast Signals
RET_ANN RET_ANN RET_ANN RET_ANN
NEG_SPT 0.000 0.000
(0.778) (0.653)
POS_SPT 0.002*** 0.002***
(0.006) (0.001)
NEG_FQE 0.001* 0.001
(0.087) (0.130)
POS_FQE 0.001 0.001
(0.186) (0.195)
MISS_TEXT
-0.007*** -0.007***
(0.000) (0.000)
BEAT_TEXT
0.005*** 0.005***
(0.000) (0.000)
PREV_SURP
-0.001***
-0.002***
(0.000)
(0.000)
RET_QTR
0.001
0.002
(0.846)
(0.638)
MVE
0.000
0.000
(0.776)
(0.720)
BTM
0.001
-0.001
(0.293)
(0.635)
ROA
0.059***
0.035*
(0.000)
(0.053)
FOLLOW
-0.000
0.000
(0.911)
(0.920)
#DAYS
-0.000
0.000
(0.660)
(0.985)
#FORE
-0.000
0.000
(0.619)
(0.697)
CONS 0.001 -0.001 0.001* -0.001
(0.132) (0.823) (0.071) (0.714)
Sample Full Full Full Full
Observations 716,566 716,566 53,581 53,581
Adjusted R-squared 0.000 0.001 0.002 0.003 This table reports OLS regression results. The dependent variable is the earnings announcement return (RET_ANN). The
explanatory variables include the analyst's share price target revisions (NEG_SPT, POS_SPT) and the analyst's future quarter earnings forecast revisions (NEG_FQE, POS_FQE), or the analyst's qualitative predictions (MISS_TEXT, BEAT_TEXT). Robust standard errors are clustered by firm and quarter. P-values are reported in parentheses. ***, **, and * denote statistical significance at the 1%, 5%, and 10% levels for two-tailed tests, respectively. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.
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Table 9: Non-Earnings Forecast Signal Announcement Returns
Sample Variable N Mean t-stat
NEG_SPT=1 RET_SPT 33,490 -0.014 -39.122
POS_SPT=1 RET_SPT 58,028 0.015 75.439
NEG_FQE=1 RET_FQE 39,371 -0.005 -17.833
POS_FQE=1 RET_FQE 42,472 0.006 28.423
MISS_TEXT=1 RET_TEXT 2,429 -0.006 -4.604
BEAT_TEXT=1 RET_TEXT 2,927 0.009 8.238
This table reports mean announcement returns at the issuance of a share price target revision, a future quarter earnings forecast revision, and a qualitative prediction (RET_SPT, RET_FQE, RET_TEXT, respectively). Row 1 (2) reports mean returns for negative (positive) share price target revisions. Row 3 (4) reports mean returns for negative (positive) future quarter earnings forecast revisions. Row 5 (6) reports mean returns for negative (positive) qualitative predictions. Two-tailed t-statistics are reported to test whether the mean returns are significantly different from zero. Sample selection procedures are reported in Appendix A. Variable definitions are reported in Appendix B.