S P D I S C U S S I O N PA P E R   NO. 1004




                                  54967



The Investment in Job
Training: Why Are SMEs
Lagging So Much Behind?

Rita K. Almeida and
Reyes Aterido

May 2010
                     The Investment in Job Training:
           Why Are SMEs Lagging So Much Behind?                                            1




                                          Rita K. Almeida
                                          The World Bank


                                           Reyes Aterido
                                          The World Bank


                                      This version: May, 31st 2010



This paper analyzes the link between firm size and the investment in job training by
employers. Using a large firm level data set across 99 developing countries, we show that
a strong and positive correlation in the investment in job training and firm size is a robust
statistical finding both within and across countries with very different institutions and
level of development. However, our findings do not support the view that this difference
is mostly driven by market imperfections disproportionally affecting SMEs. Rather, our
evidence is supportive of SMEs having a smaller expected return from the investment in
job training than larger firms. Therefore, our findings call for caution when designing
pro-SME policies fostering the investment in on the job training.


JEL codes: J24, D24
Keywords: On-the-job training, firm size, firm level data, developing countries.



1
  We thank the research assistance of Marta Faria at an early stage. The authors benefited from comments
provided by Andreas Bloom, T. Gindling, Yoon Cho, David Newhouse, David Margolis and Pedro
Carneiro. We also thank participants at a World Bank HDNSP seminar and at the 5th IZA-WB conference
on Employment and Development in South Africa. This project would not have been possible without the
financial support of a World Bank Development Economics Research Support Grant. Contact author: Rita
K. Almeida, World Bank (ralmeida@worldbank.org).


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1. Motivation
   The international community has long recognized the important role of small and
medium enterprise sector (SMEs) in the economies of the developing world.
Furthermore, policymakers all over the world worry with how to foster productivity and
growth among this group of firms. Moreover, in a modern economy, the investment in
human capital is crucial to foster technological adoption and, thus, achieve higher
productivity growth. This paper explores a large firm level survey across 99 countries to
document the differences in the job training provided by employers across firm size. Our
findings show that a strong and positive correlation across the investment in job training
and firm size is a robust empirical finding within and across countries with different
institutions and income levels. However, our data does not support the view that this
difference is fully explained by market imperfections and institutional failures impeding
SME development. Rather, it is supportive of SMEs having a smaller expected rate of
return from this investment. Finally, our findings call for some caution when designing
pro-SME policies tackling these imperfections to effectively remove this investment gap.
Policies addressing market imperfections will be most effective when targeting all firms,
irrespectively of firm size.
   The importance of the SME sector throughout the developing world is undeniable.
First, SMEs account for more than half of manufacturing employment in many countries
(e.g., Ayyagari et al, 2007). Second, there is also a growing recognition of the role that
SMEs play in sustained global and regional economic growth, higher employment and
poverty alleviation. Moreover, few economists disagree that SMEs face greater
constraints to their growth than large firms. Access to finance usually ranks high among
these constraints and is often pointed as the main reason behind SMEs having a smaller
capacity to invest. However, there is little systematic research supporting the various
policies in support of SMEs primarily because of the lack of data. Nevertheless,
documenting and understanding the main binding constraints to firm growth in
developing countries is crucial for the design of effective policies that promote long run
productivity growth by the private sector.
   The investment in human capital has been widely documented as a core component of
each individuals human development, firm growth and aggregate productivity growth


                                                                                        2
(Lucas, 1988). For example, Heckman et al (1998) estimate that individuals invest in
human capital over the whole life-cycle, but more than one half of lifetime human capital
is accumulated through post-schooling investments taking place on the job. Moreover,
differences in total factor productivity account for approximately half of the differences
in income across countries and are generally associated with differences in technological
progress (e.g. Hall and Jones, 1999). These differences are also large between firms
within a single country (Hsieh and Klenow, 2007) and technology adoption and
investment in human capital are shown to be a core factors in explaining how firms catch
up to the technology frontier, and for designing policies to enhance growth and
development. Surprisingly, very little research has been done on the differences across
firms in the investment in job training around the developing world and the reason also
relates to lack of data.
    This paper explores a unique firm level data set across 99 countries in the developing
world to (1) document how different are the propensities to invest in job training across
firm sizes; and to (2) investigate the reasons behind this differential. In particular, we
conjecture that SMEs could be less likely to invest in job training because of three broad
set of reasons. First, the expected return on the investment in job training might be
smaller for SMEs. This could happen if either SMEs have lower expected benefits or
higher marginal costs of the investment in job training. Second, SMEs could be more
likely to lack the financial resources to invest, in spite of the possibly large expected
returns. Third, in spite of a possibly large average returns, SMEs could have worse access
to information, face greater uncertainty regarding the returns of this investment or have
larger coordination problems with their workers than larger firms.
    We explore a large firm level data set, Enterprise Surveys, collected by the World
Bank with unique information to study these questions. First, the surveys explore an
almost standardized questionnaire across countries, and thus collect information that is
comparable across and within countries. Second, the surveys are available for 99
developing countries covering all the geographical regions of the world and income
levels. This wide range of countries covered allows us to test the extent to which the
existing differentials are explained by differences across countries in their institutions and
policies. Third, the survey collect detailed firm characteristics including variables that are



                                                                                            3
good proxies for the firms access to information and external finance, measures of the
degree of openness and technological innovation, measures of the human capital
composition of the workforce and on the perceptions regarding the investment climate.
The availability of several worker and firm characteristics will allow us to analyze the
role of different factors in explaining the correlation between the investment in job
training and firm size.
    Unfortunately, survey limitations also affect the scope of the analysis behind our
control. First, in most countries the surveys are representative of the formal sector, and
particularly of the manufacturing sector. Since in developing countries the informal
sector can reach more than half the workforce, this will naturally limit the
representativeness of the analysis to the informal or non-manufacturing sectors. Still, we
expect that most of the job training taking place in the informal sector to be more of the
type of learning-by-doing rather than formal training programs (see Johansen and Van
Adams, 2004). Second, the surveys collect only information on formal training programs,
leaving undocumented any informal job training taking place while on the job (e.g.,
learning by doing).2 Therefore, we will likely underestimate the overall investment in job
training, particularly among the smaller enterprises, where informal training is likely to
be more important (e.g., Frazer, 2006, Velenchik, 1995, Teal 1996, Monk et al, 2008).3
Nevertheless, our focus on formal training programs is still economically and policy
relevant.
    The paper documents several interesting findings. First, we find robust evidence of a
large and statistically significant positive correlation between firm size and the
investment in job training. In particular, we find that small (11-50 permanent employees),
medium (50-250 employees) and large firms (more than 250 employees) train
approximately 13, 30 and 40 percentage points more than micro firms (with 10 or less
2
  The job training supplied by the firm does not necessarily take place during the normal working period
nor is it necessarily accredited. The Enterprise Surveys explicitly refers to "formal programs" in the survey
questionnaire does ruling out any form of learning by doing. Since this is employer provided training, we
do expect that training benefits both the firm and workers simultaneously. Otherwise, one of them would
prevent form engaging in this investment.
3
  In developing countries, training in the formal manufacturing sector takes different forms. First, the
technical and vocational training; Second the apprenticeship system, which is mostly informal and has
more relevance in Western Africa and; Third, any other formal manufacturing sector training still carried
out within firms. In spite of the importance of all these strategies for skills development there is little
research in each of these topics. This paper contributes to this literature by focusing on the third channel.


                                                                                                           4
employees). Second, our findings show that these differences are robust across countries
in different geographical regions and income levels and, thus, also with different
institutional and economic backgrounds. Interestingly our findings show that the
disadvantage of micro firms relatively to large firms is greater for firms operating in the
Middle East and North Africa and in Africa, as well as for low income countries where
training incidence is very low. Moreover, within countries, this pattern is also robust to
firms with similar patterns of investment in innovation and technology adoption,
operating in the same sector of activity and located in the same city.
     Third, we find robust evidence that the differences across firm sizes in the
investment in job training are not fully explained by differences across small and large
firms in the access to information and external finance, facility in the coordination with
workers or in the degree of perceived economic uncertainty. Even though we find that the
disadvantage of SMEs in all these factors associated with market imperfections do
explain their lower provision of job training across the developing world, quantitatively,
they are not the main explanatory factor. This small explanatory power of market
imperfections is again a robust finding across geographical regions and countries with
different levels of development. We interpret this as suggestive evidence that the SMEs
smaller expected returns to the investment in job training play an important role in this
under investment. Moreover, differences across firms in the returns of investing in job
training seem to be mostly driven by SMEs facing higher expected marginal costs rather
than lower expected marginal benefits. Unfortunately, we cannot formally test this
assumption due to the lack of data.4
    It is worth stressing two features of our empirical work. First, we do not directly
address the problem of the determinants of the firm size distribution at the country level.
Rather we take the distribution of firm size as given within countries and investigate the
impact of this predetermined size structure in the investment in job training at the firm
level. Nevertheless, our data shows substantial differences in the distribution of firm sizes
across countries. And a significant part of these differences are likely to relate with

4
  Unfortunately our data has no information on the direct costs of training and thus we cannot formally
show that high marginal costs of investing in job training are an important deterrent for small firms.
Almeida and Carneiro (2009) explore data for Portugal during the 80s and find robust evidence of large
fixed costs associated with the investment in job training.


                                                                                                     5
differences across countries in institutions like product and factor regulations, or in the
fiscal policy (e.g., Kumar et al, 1999).5 However, in our empirical analysis, we will
always condition on country and sector heterogeneity and thus only explore within
country and sector variation across firm size. Moreover, we will also test the robustness
of our findings to when exploring variation within country, sector and city.
    Second, even though our main empirical findings survive a battery of tests, we cannot
ultimately rule out that the positive correlation between firm size and the investment in
job training is driven by a reverse causality argument. In particular, this will be of greater
concern if one thinks that the explanatory variable (firm size) is a leading indicator ­ not
a causal indicator ­ of the firms investment in job training.6 However, it is reassuring to
see that the differential in the investment across firm sizes is robust to several cuts in our
sample as well as to the control of many firm observed characteristics (e.g., managerial
education, contract structure within the firm or perceptions of the economic uncertainty)
or unobserved country-sector and city variables.7
    The findings in this paper have important policy implications for the design of
policies supporting the investment in job training among SMEs in the developing world.
Even though our evidence is supportive of quantitatively important differences across
firm sizes, these differences are not primarily explained by variables closely linked with
important market imperfections. We argue that the differences in the expected return of
investing across firms probably play a more important role. Therefore, simply from an


5
  In developing countries, several regulations tend to favor the existence of micro or small firms because
they apply only to firms above a certain employment threshold. Kumar et al (1999) explain differences in
firm size across countries with the role the institutions such as the judicial and the financial systems.
6
  If the direction of causality runs from the investment in job training to larger firm size, and if the decision
to invest in job training is persistent over time, then the positive correlation between firm size at a point in
time in the and the investment in job training after that could be due to the fact that the firms investing
more in job training subsequently had already larger firm sizes in the previous period. This would thus
induce an ex-post correlation in the data. We argue that this is a source of small concern because the
question posed to firms refers to job training taking place over the last two years, while firm sixe refers
only to the previous year.
7
  Unfortunately, for most countries in our sample the Enterprise Surveys lack longitudinal information on
the investment in job training. Thus we will not be able to account for firm heterogeneity in unobservable
factors by exploring time series variation in the investment in job training. Nevertheless, we conjecture that
the availability of a short panel of data would not be of much help given the likely persistency in the job
training investment. This would naturally limit the explanatory power of exploring changes in the intensity
to train (see e.g., Dearden et al, 2005).


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efficiency perspective, a pro-SME intervention in this market is not necessarily needed or
desirable. However, the SME investment in job training could be supported for other
reasons. First, this investment could create positive externalities on aggregate growth if it
leads to higher innovation and technological adoption and, thus, potentially foster market
competition. Second, it could also support poverty alleviation if SMEs are more labor
intensive than other firms and on the job training fosters growth. To our knowledge there
is little empirical evidence supporting both the causal link between SMEs and innovation
on the one hand and on the SMEs higher labor intensity on the other hand.
   Finally, our findings are supportive of policy interventions targeting the access to
information and external finance, the facility in coordination between firms and workers
and mitigating the perceived uncertainty in the investment climate generating higher
incentives to invest across all firm sizes. Moreover, institutional and policy reforms
fostering the integration of firms in the global markets and leading to more technological
innovations (e.g., through lower regulations on firm entry/exit) will also foster the
investment in job training across all firm sizes. The fact that this type of interventions
does not overwhelmingly benefit SMEs relatively to larger firms has been supported by
others looking at different interventions (e.g., Ibarraran, Maffioli and Stucchi, 2009).
Even though improving institutions and the investment climate is an effective way of
relaxing some constraints firms face, institution building is a long term process.
Meanwhile, improving the access to credit, reducing economic uncertainty or promoting
the access to information about training opportunities could yield modest but positive
returns.
   Our paper relates with two strands of the literature. First we relate to the literature
analyzing the patterns and determinants of the investment in job training. In spite of the
importance of the topic for both individuals and firms, the systematic empirical evidence
based on micro data on on-the-job training in the developing world is still scant.
Exceptions include the work by Frazer, 2006, Teal, 1996, Velenchik, 1995, Lopez-
Acevedo and Tan, 2003, Rosholm et al, 2007, Pierre and Scarpetta, 2004, Almeida and




                                                                                           7
Aterido, 2008.8 Some interesting patterns have been documented at the firm level for
developed countries, including the advantage of large firms in this investment (e.g., Black
and Lynch, 2001, Lillard and Tan, 1986, Leuven and Oosterbeek, 1999, Royalty, 1996,
and Bassanini et al, 2005, for OECD countries). However, to our knowledge, no
empirical work to date has documented the robustness of in this difference within and
across countries with many institutional and economic differences. Moreover, to our
knowledge no other papers to date have analyzed the determinants of these differences in
the investment patterns across firm size looking especially at developing countries.
    Second, we relate to the empirical literature looking at the growth constraints facing
SMEs in the developing world. Some papers analyze the differences between small and
large firms in their growth and productivity and on how these relate to differences in the
general business environment (e.g., Van Biesebroeck, 2005, Ibarraran, et al, 2009,
Aterido, Hallward-Driemeier and Pages, 2010). A particularly large strand of this
literature looks at differences across firm sizes in the access to external finance (e.g,
Beck, Demirgüç-Kunt and Maksimovic, 2005, Galindo and Micco, 2007). Some papers
have also analyzed differences across small and large firms in other performance
indicators like the investment in innovation and technological adoption (De Mel,
McKenzie and Woodruff, 2009). While it is unquestionable that SMEs play an important
role in the developing world, most analysis do not lend foundation for policies supporting
SMEs (e.g., through subsidizing SMEs investments). However, most of micro analyses
have been criticized for being country or region specific. Moreover, to our knowledge no
previous work has investigated the empirical determinants of the lower investment by
SMEs in job training. We follow Beck et al, (2005) and Ibarraran et al, (2009) and ask
whether cross-country evidence provides an empirical basis for pro-SME policies.9

8
  Middleton et al (1993) and Johanson and Van Adams (2004) have interesting discussions on the
investment in job training around the developing world. However, they resort mostly to anecdotal evidence
based on country case studies.
9
  There is a large debate around the benefits and costs of SME based policies. The micro evidence at the
country level does not provide much support for the view that SMEs have a greater effect on productivity,
employment and growth than large firms. In particular, the bulk of the firm-level evidence does not support
the contention that SMEs are particularly effective job creators (Rosenzweig, 1988; Brown et al., 1990,
Little, et al., 1987). Furthermore, research also does not universally support the claim that SMEs foster
particularly innovation (Pagano and Schivardi, 2003; Pack and Westphal, 1986). Finally, while some firm-
level studies find that SMEs intensify competition, there is little direct evidence on the positive effects of


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        The rest of the paper proceeds as follows. Section 2 briefly describes the data set
used. Section 3 discusses alternative reasons why SMEs could be less likely to invest in
job training than larger firms. Section 4.1 documents the differences across firm sizes in
the intensity to train and section 4.2 analyzes the heterogeneity of these findings across
alternative samples within and across countries. Section 5.1 discusses the extent to which
training differences across firm sizes could relate to differences in the return of this
investment or in the role of different market imperfections impeding SME development.
Section 5.2 discusses the empirical evidence supporting each factor. Section 6 concludes
and draws policy implications.


2. Data
        Our analysis explores a large firm level data set, the Enterprise Survey, collected
by the World Bank across several developing countries. For each of the 99 countries in
our sample, we select the most recent wave of data available. The only exception relates
to a few countries where we have included a previous wave to the most recent one to
insure a more comprehensive coverage of the relevant variables explored in our analysis.
The final data set covers more than 48,000 firms operating in 99 developing countries
and surveyed between 2002 and 2007.
The Enterprise Surveys are one of the best data sets to analyze the employer provided job
training across developing countries. First, the surveys collect comparable information
for several firm characteristics across all the countries. This comparability allows us to
document cross country and within country profiles of firms offering job training.
Second, the survey collects information on training intensity at the firm level as well as
several other firm and workforce characteristics. These include the firm size and age,
human capital composition of the workforce, measures of R&D and technology adoption
and firm openness. In addition, there is also detailed information on the firms
geographical location and its sector of activity (2-digit-ISIC classification). Third, the


SME policy on productivity growth. One reason could relate with firm size not being an exogenous
determinant of growth so that SME policies could distort firm size and hurt economic efficiency (Kumar, et
al., 2001, Caves et al., 1980). Alternatively, policies promoting a sound business environment (through low
entry/exit barriers, well defined property rights, and effective contract enforcement) could be more
conducive to market competition but the benefits are not only restricted to SMEs.


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surveys reach a substantial number of countries across all the regions of the world. Table
A1 reports the country and regional coverage of the sample (22% of the sample is in
Africa, 20.7% of the sample in East Asia, 17.4% in Eastern Europe, 21% in Latin
America, 9% in MENA and 9% in South Asia). This wide coverage allow us to document
several cross country correlations between the investment in job training and country
level indicators as the countrys level of development, institutional quality or general
educational attainment. Finally, the surveys have the advantage of collecting information
on the training flows. This information is likely to be a more accurate measure of recent
job training than in surveys attempting to measure the stock of training at the firm level
(see e.g., Bassanini et al, 2005).10 In sum, the Enterprise Surveys are an excellent source
of micro data on employer provided training but also of cross country statistics. They are
by far one of the most comprehensive sources of comparable firm level data in the
developing world (see e.g., Aterido, Hallward-Driemeier and Pages, 2011, Almeida and
Fernandes, 2008, Ibarraran et al, 2009). Moreover, even when comparing with data for
developed countries (e.g., as in Black and Lynch, 2001, for the US) they have the
advantage of having a high response rates on information for job training and have the
advantage of not exploring recall information. Moreover, because the data is collected at
the firm level, it contains information simultaneously for firm and some worker level
characteristics.11
        We measure training intensity at the firm level by computing a dummy variable
that equals one when the firm reports having supplied formal training to their workers.
The exact question in the survey is: "Do you offer formal (beyond "on-the-job") training
to your permanent employees?". On average, 39% of the firms in the sample report


10
   The Enterprise Surveys also collect information on the extensive training margin for some countries,
including the percentage of skilled and unskilled workers trained at the firm level as well as some
information on the training hours. We have also found robust size training premiums for the share of both
skilled and unskilled workers (not reported but available on request).
11
   The Enterprise Surveys have been used in the study closely related topics by Pierre and Scarpetta (2004),
Almeida and Aterido (2008), Almeida and Fernandes (2008), Rosholm et al (2007) or Almeida (2009). A
previous version of this survey was also used by Frazer (2006) and Teal (1996) for Ghana and by
Kahyarara and Teal (2008) for Tanzania (World Bank Regional Program on Enterprise Development).
They have also been extensively used in studying the related topic on how the business environment affects
firm growth and performance (e.g., Dollar, Hallward-Driemeier and Megistae, 2005, Aterido, Hallward-
Driemeier and Pages, 2011)


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offering job training to their employees. However, figure 1 illustrates well the wide
dispersion across regions of the world and countries. Firms in Africa and in South Asia
are the ones training the least in our sample, while firms in Latin America are among the
highest trainers. Table A2 in the appendix defines all the variables used in the paper.
Some firms in the data report missing information on job training. This could raise some
concerns regarding some biases on misreporting.12
It is worth discussing firms could differ significantly in how they define a formal job
training program, across countries, sectors and possibly even firm sizes. While all the
training events refer to formal programs supplied by the firm, they are likely to differ in
content, organization and financing.13 For example, even though all programs are
provided by the firm, the training is not necessarily financed equally by the firm and their
workers. In some firms, workers might be willing to support part of the cost, either
directly or indirectly (e.g., through lower wages). The training might also have a more
general or firm specific content or it can differ depending on whether it is delivered by

12
   Table A3 in the appendix presents a simple model documenting whether the firms with missing data on
the question on whether they provide job training differ systematically from other firms. The findings show
that firms with missing data are, on average, smaller, younger and have some share of public ownership.
Firms are also located in the capital city and have a more skilled workforce than firms reporting non-
missing information on job training. Firms operating in non-manufacturing sectors (like retail or services)
are also more likely to report missing data than firms in manufacturing. Even though this could be a source
of concern, we have analyzed our main findings assuming two extreme scenarios: first assuming all the
missing reporting is associated either with no investments in job training; second, assuming all the missing
reporting is associated with investing in job training. Reassuringly, the point estimates in these two
scenarios would remain qualitatively and quantitatively very similar to our main results (tables 3 through
5). Under the first scenario de point estimates for the baseline specification (table 3, column 3) would
become 11.5, 29.2 and 38.2 for small, medium and large sized firms, while in the second scenario the point
estimates would become 15.3, 33.8 and 43.1 percentage points, respectively. Moreover, also reassuringly,
there would not be significant differences in the relative importance of the factors discussed throughout
sections 4 and 5 in the paper.
13
   Since we explore a firm level survey, we assume this question relates to the acquisition of skills required
for work. However, the characteristics of the training supplied by each firm are likely to differ. First,
trainings could take place inside or outside the normal working period. Second, it can be formally or
informally accredited. Third, it can be offered within or outside the firm. From the precise question asked
being asked it is unclear the type of training being offered. However, since the survey covers mostly
formal sector firms and the question refers to formal training ("beyond on the job"), we assume that the
survey captures mostly formal training episodes taking place off the working period. This comes in
opposition to the informal training, which tends to take place during the working period and usually does
not result in a specific qualification. The latter is more difficult to measure. Nevertheless, and
independently of the training type, we do expect the training to benefit jointly firms and workers through
higher productivity and/or wages. Otherwise, one of the parties would not be willing to engage in it.


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the firm itself or by a (private or public) training institute. Nevertheless, independently of
these differences, the training provided is likely to be productivity enhancing for both
firms and workers. This heterogeneity in the service provided illustrates well the
complexity of comparing training incidence across countries. We assume that these
differences in training content become less relevant, and eventually vanish, when
comparing firms within the same country, city and sector of activity. This will be our
main strategy throughout the empirical work.
       The final sample covers more than 48,000 firms with non-missing training data
across all the regions of the world. Table A1 in the appendix reports the country
composition of the final sample. The final sample covers both manufacturing (78%) and
non-manufacturing (22%) sectors. Within manufacturing the sample covers: Food and
beverages (17%), Chemicals and Plastics (14%), Electronics (8%), Textiles (10%),
Garments and Leather (20%), Metals and Machinery (19%), Paper, wood and furniture
(10%) and Other (3%). Because the Enterprise Surveys cover in a more consistent way
the manufacturing sectors across all the countries, in the empirical work that follows we
will test the robustness of our main results to the exclusion of this group. This is of
particular concern when we compute the correlation between training and productivity
due to the well known problems of measuring productivity in non-manufacturing sectors
(e.g., Griliches, 1994).
       Figure 1 reports training incidence at the country level in our sample. Incidence is
captured by the share of firms having provided on-the-job training. The dispersion in this
figure is sticking. Developing world is very heterogeneous regarding the job training
outcomes. Countries located in South Asia, Middle East and in Africa are among the ones
supplying fewer job training. In particular, firms in Pakistan and Senegal report training
incidence as low as 11% and 15%, respectively. Rather, firms in Eastern Europe, East
Asia and in Latin America report higher training intensities. At least 70% of the firms in
Slovakia, Chile and Thailand offer job training programs to their workforce.
Nevertheless, one must be cautious when comparing these cross country incidences as
they are likely to be affected by measurement error.
Table 1 reports the summary statistics for the main variables used in the paper. On
average there are 30% of micro firms (up to 10 permanent employees), 37% of small



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firms (between 11 and 50 permanent vemployees), 19% of medium firms (between 50
and 250 permanent employees) and 7.7% of large firms (more than 250 permanent
employees). The average firm in the sample is 16.5 years old and has a 51% probability
of being located in the capital or in a large city. On average, workers have 7 years of
schooling (equivalent to incomplete secondary). In addition, 24.5% of the firms in the
sample export, 11.8% have at least 10% of foreign capital and 54% have recently adopted
new technology. Finally, most of the firms in the sample are in the manufacturing sector.
Among these only 23% of the firms operate in high technology sectors like Electronics,
Chemicals and Pharmacy, auto equipment and machinery. The remaining 77% operate in
low technology sectors like Textiles, Garments, Agro-industry, wood and furniture, and
plastics.
        Table 2 reports interesting correlations across firm profiles and training incidence.
We divide the sample into training and non-training firms and summarize the main
variables of interest. The evidence supports the common view that training firms tend to
be larger, more open and older than non-training firms. They also operate in more capital
intense sectors, have higher labor productivity and pay higher wages. Furthermore, they
have a more skilled workforce and invest more in technology than non-training firms.


3. The Differential in Job Training by Firm Size: Modeling the Determinants
        We consider next a simple empirical model to document the size-job training
differential. Assume that firm i in industry j and in country c decides whether or not to
train its workers if the present value of expected profits from this investment (future
benefits minus costs) is positive.

                               1 if  ijc  0
                                     *

                     Trainijc  
                               0 otherwise                                      (1)

                                                            *
Even though we cannot observe the expected profit             ijc
                                                                    (latent variable) in our data, we
do observe whether the firm offers job training to its employees. We assume that the
firm´s profit of investing in job training is linear function of the firm size and of other
firm        observable    characteristics X ijc ,   its   country-sector       of     activity    cj
                                                                                                       :
 *  Sizeijc  X ijc  cj   ijc where             ijc captures the firm unobservable characteristics
  ijc
                            ,


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correlated with the return of investing in job training. Given this latent functional form,
the probability that firm i offers job training is given by:
                Pr(Trainijc  1)  Pr( ijc  Sizeijc  X ijc  cj )                           (2)

Equation (2) can be estimated by maximum likelihood assuming that the error term is
normally distributed (probit model). Variable Sizeijc includes four firm size dummies:

micro (up to 10 employees), small (11-50 employees), medium (51-250 employees) and
large (more than 250 employees).14 In X ijc we include proxy measures for the degree of

firm openness (dummy variable when the firm exports more than 10% of total sales or
has more than 10% of foreign owned capital), public capital ownership, intensity of
technology adoption and for the human capital of the workforce.  cj are the country and

3-digit ISIC interaction sector dummy variables.15 Standard errors are clustered at the
country and sector level to capture any auto-correlation of the residuals across firms
within countries and sectors.
     The main coefficients of interest in equation (3) are the  s for each of the size
dummies. In the empirical work the omitted category will always be micro firms,
therefore the  reports the percentage point difference in the training incidence for small,
medium and large firms relatively to micro firms. It is worth highlighting that we always
control for country and sector fixed effects. Accounting for country fixed effects is
important since countries differ in the strength of their institutions and investment
climate, and this is likely to simultaneously influence the incentives of firms in providing
on the job training as well as the firm size distribution in the economy. For example, we
expect that countries with regulatory institutions favoring larger firms to have a size
distribution of firms that is more skewed towards bigger firms, which in turn might offer
more training. Furthermore, allowing for country and 3-digit sector fixed effects accounts
for differences across firms (within countries) in the capital intensity of their technology
14
   The threshold for firm size dummies are somewhat arbitrary and often differ across countries and studies.
Our definition follows Aterido et al (2010) and differentiates small firms from micro firms. It is reassuring
to see that our results go through with alternative definitions.
15
   We have a total of 1,089 dummy variables for the 99 countries and eleven three- digit ISIC sectors of
activity (including Food and Agro-industry, Textiles, Garments and leather, Metal and Machinery,
Electronics, Chemicals and Plastics, Construction, Retailing, Services, Wood, Furniture and Paper and
Other industries).



                                                                                                         14
which will also simultaneously affect training intensity and the size distribution in the
economy. Therefore, we are confident that our results are not driven simply by the sector
composition within countries or to the cross country variation in institutions. Rather with
our reduced form, our findings will be driven by comparing differences across firms in
the training intensity within the same country and detailed (3-digit ISIC) sector of
activity. This decision reflects the fact that both firm size and the intensity to train (as
well as the several dimensions of the business environment that we will explore in next
section) have substantial variation within countries and sectors. Moreover, controlling for
a set of interaction dummies by country and sector also accounts for potential omitted
variables and possible measurement errors across countries.


4. Empirical Findings
     4.1. Main Results
     Table 3 reports the point estimates for the different variables in equation (2). The
specifications across different columns differ in the controls included. In column (1) we
just control for firm size and country dummies, in column (2) we add a proxy for the
degree of firm openness (dummy variable for whether firm exports and has some foreign
owned capital), age of the firm, public ownership and share of skilled workers in the
workforce. Column (3) includes in addition to the variables in column (2) a proxy for
technological innovation and column (4) includes country-city fixed effects.16
The findings in column (1) show that there is a statistically significant and quantitatively
important positive correlation between the investment in job training and firm size. In
particular, small, medium and large firms are 16.1, 36.7 and 49.0 percentage points more
likely to invest in job training than micro firms, respectively. These differences are
slightly reduced, although remain quantitatively important and statistically significant, as
across columns, we include additional control variables, like firm observable
characteristics in columns (2) and (3) and country-city and sector unobservable
characteristics, in column (4).

16
   The Enterprise Surveys report information on whether the firm is located in the capital city or in cities
with more than 1 million workers. The country-city fixed effects include in column (4) of table 3 are the
interaction of this city dummy with the country dummies. This specification also controls for sector 3 digit
fixed effects.


                                                                                                         15
    One reason why larger firms could be more likely to train their workers in column (1)
could relate to their larger integration into global markets (both through exports and FDI)
or through differences in the shares of capital publically owned, age of the firm, or in the
education of the workforce. Moreover, larger firms are also more likely to invest in new
technology than smaller firms and this could also lead them to invest more in job training.
The findings in columns (2) and (3) of table 3 show that, although the investment in job
training is complementary to the skills of the workforce, with the degree of openness and
with technological innovation, the magnitude and statistically significance of the job
training premium is important after controlling for differences across firms in these
characteristics.
    Large firms could also systematically differ in their intensity to train due to their
geographical location. We conjecture that firms located outside the capital city or in very
large cities (with more than 1 million inhabitants) could benefit from more developed
institutions or to worse access to information than firms located in larger cities (even
within the same country). To the extent that small firms disproportionally locate outside
the capital city, as we actually see in our sample, the firms regional location could be
partly driving the differences across small and large firms in their training intensity. The
findings in column (4) of table 3 control for these within country differences.
Reassuringly, the point estimates in column (4) are almost unchanged from the column
(3). Therefore, we will take the specification in column (3) as our baseline specification.
Table A4 in the appendix tests the robustness of the findings reported in table 3 by
exploring alternative proxies for the stock of human capital of the workforce and for the
degree of innovation and technological adoption. In column (1) we add to the baseline
specification reported in column (3) of table 3 the mean years of schooling of the
workforce, in column (2) we add to the baseline specification the share of investment in
R&D as a share of total sales, in column (3) we add to the baseline specification whether
the firm has an International Organization for Standardization (ISO) certification and in
column (4) we add over the baseline specification the firm capacity utilization.
Reassuringly the point estimates associated with the different firm sizes remain
quantitatively similar and statistically significant.




                                                                                          16
     Interesting to discuss are also the signs of the estimates for the control variables in
table 3. First, the findings suggest a strong complementarity between the investment in
job training of the workforce and the stock of human capital of the workforce, measured
by the share of skilled workers in the firm. This finding is supportive of the idea that, the
more educated is the workforce in the firm, the higher is the return to this investment,
regardless of firm size. This is fully aligned with the empirical evidence exploring
household level surveys where more educated workers have higher returns and are more
likely to receive job training than less educated workers (see e.g., Tan and Lopez-
Acevedo, 2003, Johansen and Van Adams, 2004). Second, the findings also suggest a
strong complementarity between the investment in job training and the degree of firm
openness, on the one hand and between the investment in job training and technological
adoption on the other hand (see e.g. Bee and Batra, 1998).17 Third, we do not find strong
support of the view that all else constant older and publically owned firms are more likely
to invest in job training.
         Table 4 tests whether the positive correlation across firm size and the investment
in job training is driven by other factors related with the firm geographical location and
the sector of activity. First, we test whether within each country, the positive correlation
across firm size and the investment in job training could be driven by the fact that larger
firms disproportionally locate in the country capital or in other very large cities.18 And,
we conjecture that firms located in the capital or in large cities could have better
institutions, a better access to information on the quality of trainings or possibly face
lower training costs, due to the proximity to training centers. Therefore, larger firms
could be, all else constant, more likely to invest in on the job training simply because of
their geographical location. Column (1) of table 4 reports the estimates for the baseline
specification when restricting the sample only to firms located outside the capital city.




17
   It is also interesting to note that, in column (3) of table 3, the positive correlation between the investment
in job training on the one hand and the degree of firm openness on the other hand is not solely explained by
differences across firms in their technological innovation. Notice that these point estimates are still large
and statistically significant in columns (3) and (4) after controlling for differences across firms in the
degree of technological adoption.
18
   In particular, in our sample 40% of the micro and 45% of the small firms are located in the capital or in
other very large city, while 50% for the large firms are located there.


                                                                                                             17
Reassuringly the point estimates remain positive and statistically strong than the ones
reported in column (3) of table 3.
     We investigate next, whether the positive correlation between firm size and the
investment in job training could be driven by the sector of activity. This is plausible since
small and large firms are likely to differ in the technology use, which in turn is also likely
to determine the demand for investing in job training. Even though in the baseline
specification reported in column (3) of table 3, we already control for differences across
firms in the sector of activity (with country-sector dummies) it is possible that the returns
to the investment are different by sector of activity. If the latter holds, we would expect
the results to be different across different samples with differing technologies, levels of
technological adoption and/or capital/labor rations. Moreover, since in our sample micro
and small firms are more concentrated in non-manufacturing sectors, this sector
composition could also be driving the results. 19 Column (2) reports the findings for the
baseline specification when restricting the sample only to manufacturing firms, which
account for 73% of the sample. Reassuringly the magnitude and significance of the point
estimates are almost not affected. In columns (3) and (4) we also analyze whether our
findings are systematically different across low-tech and high-tech sectors, respectively.20
In our sample, the low-tech manufacturing sectors have a larger share of smaller firms
than the high ­tech sectors, probably due to the large fixed costs of starting up high-tech
activities. Reassuringly, restricting the sample across these two groups still yields
quantitatively large and statistical significant differences in the intensity to train across
firm sizes in the two the manufacturing sectors. However, the point estimates in columns
(3) and (4) show that the differences across firm sizes are slightly larger for firms
operating in the low-tech sectors than for those firms in the high ­tech sectors. Finally,
one could argue that the differences across firms in the technology used are still not
adequately captured by the sector composition of firms. In particular, there is robust

19
   We also worry more with the possible non-representativeness of the Enterprise Surveys in the non-
manufacturing sectors than for the manufacturing sectors. Moreover, in most countries, the Enterprise
Surveys do not cover so exhaustively the non-manufacturing sectors.
20
   We follow Parisi et al (2006) and consider high technology manufacturing sectors the following 3-digit
ISIC sectors: Auto or Auto-component, Chemical and Pharmaceutical, Electronics or Metals and
Machinery industries. The low technology manufacturing sectors are the Beverages, Food, Garment and
Leather, Non-metallic/Plastic Materials, Wood and Paper, Textiles.


                                                                                                      18
evidence that there is wide dispersion in productivity even within narrowly defined
sectors (e.g., Eslava et al. 2004; Foster, Haltiwanger; and Syverson, 2008), so that the
returns to the investment in job training could be more directly related to the stock of
physical capital. We test the robustness of our baseline specification to controlling for
differences across firms in the capital intensity of their technology (captured by the
capital labor ratio). The findings, reported in column (5) of table A4 again show that the
main coefficients of interest remain robust.21 Also interestingly, our findings do not differ
significantly if we were to break the sample by the age cohort of firms (not reported but
available upon request). The latter is suggestive that the differences across small and
large firms in the intensity to train are also not explained by the fact that larger firms tend
to be on average older.


     4.2. Heterogeneity Around the Developing World
     In this section we discuss whether the positive correlation across firm size and the
investment in job training holds across different geographical regions of the world and
income levels. We discussed in section 2 that there is a large heterogeneity in the
intensity to provide job training across countries and regions of the world. Table A1 in
the appendix shows that firms operating in Africa or in South Asia have a lower share of
firms offering job training than firms located elsewhere. In particular, a firm in Thailand
or in Brazil is, on average, more than four times more likely to offer job training than a
firm in Mozambique or in Gambia. Table 3 showed that some of this variation is
explained by differences in the observable characteristics of firms across countries.
However, there is still a large unexplained variation related with the firms geographical
location.22
     Table 5 reports the baseline specification when restricting the sample to firms
operating in Africa in column (1), in East Asia in column (2), in Eastern Central Europe

21
   The robustness of our results reported in table A4 in the appendix is reassuring but some of the
specifications have significantly less observations than our baseline specification because some measures
have not been consistently collected across all countries.
22
   Running a regression of training intensity in firm size, not accounting for country fixed effects, yields an
R-squared of 0.09 and larger point estimates than the ones reported in column (1) of table 3. In particular
we find that small, medium and large firms are 17.3, 38.3 and 48.4 percentage points more likely to train
than micro firms. Thus, differences across firms in their geographical location explain approximately half
of the observed variation in training intensity across firm size.


                                                                                                           19
in column (3), in Latin America in column (4), in Middle East and North Africa in
column (5) and in South Asia in column (6). Firms operating within each of these broad
regions of the world have arguably a more similar institutional environment, including
the cultural and socio-economic characteristics. In particular, we are interested in
understanding how the results could be driven by the specific training policy for the
manufacturing sector in Africa. The importance of the apprenticeships particularly in
West Africa has been well documented and is predominant among smaller firms (see e.g.
Frazer, 2006, Bas, 1989 or Velenchik, 1985).23 Even though we believe that this type of
more informal training schemes is outside the scope of our data, it is important to test the
extent to which results could be driven by these institutional differences across regions.24
Again, our point estimates show quantitatively important differences across all regions of
the world. Two facts are worth highlighting, though. First, differences in the intensity to
train for Africa and in the Middle East and North Africa (MENA henceforth) are slightly
larger than those in our baseline specification. In particular, larger firms are 47
percentage points and 45.7 percentage points more likely to train than micro firms
(omitted category) in Africa and MENA. These are regions were training intensity is,
according to our sample, one of the lowest in the world. Second, East Asia is the region
of the world with smaller dispersion across firm sizes. There small, medium and large
firms are 6.8, 23.6 and 32.1 percentage points more likely to train than micro firms,
respectively.
     Finally, table 6 analyzes the heterogeneity of the main findings by the countrys
income level. Column (1) reports the baseline specification for firms operating in low
income countries, column (2) for firms in middle-low and column (3) in middle-high
                     25
income countries.         Interestingly, the point estimates still show statistically significant


23
   Frazer (2006) describes that apprenticeships are periods of approximately three years during which an
apprentice learns a trade. At the end of this period, the apprentice may be hired by the firm where the
apprenticeship took place, or start a job elsewhere (including self-employment). Apprenticeships occur
most often, but not exclusively, in smaller firms, and the master is often the owner of the firm.
24
   Apprentenships are often criticized for offering informal training methods and lacking theoretical
foundations that are needed in the complex technical demands of the formal sector. The main advantages
are that it is not government funded (with cost being borne by the apprentice and/or firm) and that they
provide an option for youth who would otherwise be unemployed.
25
   The group of middle-high income countries include: Botswana, Chile, Costa Rica, Croatia, Czech
Republic, Estonia, Hungary, Latvia, Lebanon, Lithuania, Malaysia, Mauritius, Oman, Poland, Russia,
Slovakia and South Africa.


                                                                                                     20
and quantitatively important differences in the intensity to train by firm size, across all
income levels. However, when comparing the results to the baseline specification
reported in table 3 for all income groups, we find that the dispersion in training associated
with larger firms is greater for low income countries, and the one associated with for
small and medium sized firms is greater for middle-high income countries.
   Our findings in tables 3, 4 and 5 show that large firms provide less on-the-job training
than smaller firms around the developing world and that quantitatively the differences are
important. The findings also show that these differences in training intensity across firm
sizes are not fully explained by differences across firms in their average human capital of
the workforce, the degree of firm openness and technological adoption. Moreover, they
are also prevalent across all regions of the world and income levels, although differences
tend to be larger for firms operating in low-tech sectors, in regions with overall lower
incidences and in low income countries.
   One point is still worth highlighting. Even though we estimate a strong and positive
differential in the intensity to train across firm sizes, we will not be able to ultimately
disentangle correlation from causality. In particular, it is possible that the positive
coefficients are driven by reverse causality where firm size is a leading indicator ­ not a
causal indicator ­ of the firms investment in job training. We argue that the precise
question in the survey is likely to mitigate this problem as it recalls information on
training incidence over the last two years while the information on firm size refers only to
the previous year. Furthermore, it is reassuring to see that the differential in the
investment in job training across firm sizes is robust to several cuts in our sample, as well
as to the control of several observable and unobservable characteristics, like the degree of
firm openness and technological adoption, the skills of the workforce or country-sector
unobservable characteristics. Nevertheless, most likely the investment in job training will
be linked to higher firm productivity and possibly also with more employment. One way
to mitigate this problem is to control for the initial firm size, hoping that employment
growth is more likely to be a more exogenous variable. Unfortunately we do not have a
good reason to justify this nor is this information available in our data set.


5. Why do SMEs Invest Less in Job Training?



                                                                                          21
     5.1. Reasons Behind Differences
     The relevant policy question is thus, what prevents SMEs from engaging in this
investment and how could policies be better designed to foster this investment. In some
countries, the Enterprise Surveys collected some additional information on the main
reasons why firms do not offer job training.26 Unfortunately, this information is collected
for a much smaller set of countries and is subjective (self-reported) which prevents us
from using it in our empirical analysis. Figures 2 through 5 report this information for
Brazil, China and a set of Central American countries, respectively. The three most
important reasons for not offering job training relate to managers thinking that informal
training (e.g., through learning by doing) is enough investment to foster productivity, the
possibility to hire trained workers from other firms (or the poaching of workers) and the
lack of financing opportunities. Nevertheless, these factors are the most important
irrespective of firm size. This anecdotal evidence also shows that small firms are more
likely to report the poaching of workers/labor turnover, the lack of knowledge or the
skepticism about training effectiveness and lack of access to finance than larger firms.
Lack of financing comes up as a more important reason not to offer job training for
smaller firms than in larger firms in Central America and in Sri Lanka. Also, larger firms
are less likely to report lack of knowledge or no need for offering job training than
smaller firms.
     Even though this evidence is interesting, it is subjective and self reported by those
firms not engaging in job training, thus making it difficult to explore as a reliable source
of information on the different types of market failures facing all firms. In this section,
we will explore the richness in our data set to obtain measurable proxies of the market
imperfections impeding this investment. We consider the role of alternative factors
discussed above and related with the firms access to information, the access to firm


26
   The exact question posed is differs slightly across countries and for countries in Central America is: "If
your plant does not to offer formal training (neither internal or external), please indicate the three principal
reasons for not doing so?" (1) New workers become proficient in the job through learning by doing; (2) In-
house training is considered adequate; (3) Lack knowledge about training techniques and training
programs; (4) Training is not affordable due to my firm's limited resources; (5) Skilled workers can be
readily hired from other firms; (6) Skills that workers learn in school are adequate to our needs; (7)
Skeptical about the benefits of training and (8) Training is costly because of high labor turnover. Based on
this set of options, we have created a dummy variables.


                                                                                                            22
external finance or the perceived uncertainty in the returns. The empirical work in this
section will try to isolate the importance of each of these factors.
       First, SMEs could be less likely to provide on the job training if the expected rate of
return is smaller for SMEs than for larger firms (and this return is, in turn, below the
return on alternative investments like the investment in physical capital). One could
conjecture different reasons why this could happen. On the one hand, SMEs could face a
lower return because the expected benefits of this investment (ultimately translating into
higher productivity) are smaller for SMEs than for larger firms. The higher returns for
SMEs could relate to the complementarity of the investment in job training with stock if
human capital of the workforce, which could be higher (or less heterogeneous) among
larger firms. To the extent that the workforce in small firms is on average less educated,
or has a more heterogeneous human capital composition than the workforce in large
firms, the lower investment could simply be driven by the lack of complementary inputs.
The same argument could be done regarding the complementarity of the investment in
job training on the one hand and the investment in new technologies or in R&D, on the
other. To the extent that these activities are less common among small firms than in large
firms (as documented by Almeida and Fernandes, 2008 and De Mel et al, 2009) this
would also lead to a smaller investment in job training among smaller firms.
Alternatively, one could conjecture that the expected return of the investment is smaller
among SMEs because smaller firms have, on average, a smaller time horizon to recover
this investment than larger firms. This could happen if on average labor turnover is
higher among SMEs due to their contractual arrangements. Finally, the returns to the
investment in job training could be smaller in small firms if there are large fixed costs of
training. In this case the marginal cost of investing in job training will be smaller in larger
firms leading to a higher expected marginal return of this investment.27 Almeida and
Carneiro (2009) argue that the foregone productivity cost of training accounts for only


27
     The total marginal cost of the investment in job training is a function of the direct cost of training and on
the foregone productivity cost of training. There are few data sets with information on the direct costs of
training (e.g., training materials). Almeida and Carneiro (2009) are one exception. They find that this is a
more important component of the total marginal costs than the foregone productivity (which they proxy by
the marginal product of workers time).



                                                                                                               23
25% of the total costs of training and that the direct costs of training (related to the set up
costs of acquiring training materials or hiring training faculty) are a more important
component of total costs. Unfortunately, there is little empirical evidence on the
magnitude of the training costs both for developed and developing countries mostly due
to the lack of data (Machin and Vignoles, 2001).
      Second, smaller firms could be less likely to invest in job training if they lack the
needed financial resources to invest, in spite of the possibly large expected returns. This
could happen if small firms are less profitable or more credit constrained than larger
firms. There is a large literature on differences across firms in access to external finance.
For example, Beck et al, (2005) show that smaller firms finance a lower proportion of
their overall investment externally, because they make smaller use of external bank
finance.       They also find that in countries with better property rights, small firms
disproportionally resort more to more external finance. These results underline the
importance of improving the institutional environment for increasing the access of small
firms to external finance.28
           Finally, SMEs might face larger informational asymmetries and more uncertainty
regarding the returns of the investment, in spite of possibly large ex-post returns. These
problems could arise if small firms have less access to information than larger firms due,
for example, to the lower human capital/experience of their management or due to a more
remote location (where information flows less fluently). Moreover, SMEs could
disproportionally face more uncertainty on the quality (or availability) of the investment
in job training than large firms. For example, if in countries with a larger SME sector
there is also more economic uncertainty or lower quality of institutions, it will be more
difficult for firms to access the return of the invest in human capital. This could yield a
negative correlation between firm size and the investment in human capital. Finally,
SMEs could also face larger coordination problems across firms and workers (see e.g.,
Pischke, 2005) making it more difficult to invest in job training. Since the benefits of
training need to be shared between firms and workers, if there are coordination problems,

28
     They also find that informal financing does little to relax financial constraints faced by small firms in
developing economies. Moreover, small firms do not use disproportionately use more leasing or trade
finance compared to larger firms.



                                                                                                           24
each party individually might only see part of the total benefit of training.                        And
investment decisions could be less coordinated among SMEs. Alternatively this could
also be due to the "poaching externality" (Stevens, 1994).


     5.2. Empirical Evidence
        We investigate next the extent to which the lower intensity to train among SMEs
could be driven by each of the reasons discussed above. In particular we take proxies in
our data set to measure the extent to which firms differ in the magnitude of the returns to
the investment or if there is any evidence of market failures related with lack of
information, difficulties in coordination, restricted access to finance or economic
uncertainty. The findings are reported in columns (1) through (7) of table 7. For ease in
comparing, we replicate our baseline specification (in column (3) of table 3) in column
(1) of table 7.
        First we conjecture that SMEs could have a reduced access to information on
available training programs and their quality than larger firms. This could be driven by
SMEs having a more remote location relatively to the city center than larger firms or due
to lower human capital of their management. Reassuringly, our findings are robust to
controlling for within country differences in firm location (as discussed in column (4) of
table 3). Moreover, the magnitude of the point estimates remains very close even after
excluding from our sample those firms in the capital city, with arguable better access to
information (in column (1) of table 4). Furthermore, we also assume that the level of
education of the manager is much correlated with the set of information available to the
firm and test the robustness of the results to controlling for differences across firms in
managerial education. In column (2) of table 7 we report the results of estimating the
baseline specification (in column 3 of table 3) augmented with a dummy variable that
equals one when the manager has received tertiary education. Although smaller, the point
estimates are still quantitatively important and statistically significant.29
        Second, we investigate whether the differences in training intensity could be
driven by differences across firms in how easy is the coordination of this investment with
29
  The smaller point estimates are in part also explained by the lack of data on the managers education for
several countries. Replicating our baseline specification in column (1) but for the sample of countries in
column (2) would yield coefficients for small, medium and large firms of 10.3, 30.6 and 38.3, respectively.


                                                                                                        25
their workers or in the time during which firms can on average recover this investment in
the human capital of their workers. In column (3), we proxy the flexibility in the firms
contractual arrangements with the share of the workforce with temporary contracts. In
column (4), we proxy the difficulties in coordination between workers and firms with the
share of the workforce that is unionized. The sign of the point estimates on temporary
contracts is not clear cut, though. On the one hand, firms resorting more to the use of
temporary contracts could have a lower incentive to invest in job training if employers
face a smaller horizon to recover this investment. On the other hand, temporary contracts
could serve as a stepping stone to hire workers into permanent contracts. Therefore,
employers might take the period of the temporary contract to train workers and thus be
able to screen their workers performance and unveil their quality while performing on
the job. Empirical evidence exploring individual level data has been found on both
directions (see e.g., Arulampalam and Booth, 1998, or Autor, 2004).30 Our findings in
columns (3) and (4) of table 7 show that the positive correlation in training intensity and
firm size are almost unchanged relatively to the ones reported in column (1). In these two
specifications, the point estimates for medium and large firms increase slightly relatively
to the baseline specification, suggesting that differences across small and large firms in
the share of both temporary contracts and unionization, contribute to smaller correlations
in the intensity to train and firm size. Also, interestingly, we find that there is a very small
but positive correlation between job training on the one hand, and the use of temporary
contracts and the share of unionized workers on the other. This finding is supportive of
the view that temporary contracts at the firm level could be used as a screening
mechanism to access worker quality and productivity (see Autor, 2004). It is also
supportive of the view that unions could play a role in helping workers obtain a share of
the training benefits (when training is firm specific), and thus avoiding poaching



30
   Most of the literature looking at this topic for developed countries has found that temporary workers
receive less job training than permanent workers although the effects are small (see e.g., Bassanini et al,
2005). Almeida and Aterido (2008) tackle a related topic of how training intensity differs with the
enforcement of country labor code. They find that reforms in the labor code that simultaneously accelerate
the flexibility in hiring (through fewer hiring regulations and more flexible working schedules) and
increase the protection of permanent workers tend to generate negative effects on the on the investment in
human capital by firms.


                                                                                                        26
problems.31 Nevertheless, it should be noted that the point estimates for these two
variables are very small, suggesting that they have a small explanatory power when
comparing incidence across firms operating within the same country, city and detailed
sector of activity.32
         Third, we investigate whether the positive correlation could be driven by SMEs
being less profitable or having a lower access to external finance than larger firms. In our
data we observe the share of reinvested profits and the access to external finance and see
that SMEs have lower shares of reinvested profits and also lower access to finance.33
Both firm-level and industry-level studies suggest that small firms do relatively better
compared to large firms in countries with better-developed financial institutions (see e.g.,
Beck et al, 2008).34 The point estimates in column (5) and (6) of table 7 shows that the
positive correlations in the intensity to train and the firm size are robust to controlling for
these differences across firms. Moreover, we always find a robust positive correlation
between incidence of job training on the one hand and the share of reinvested profits and
access to external finance on the other. This finding shows that improving the access to
finance matters to foster the investment in human capital independently of firm size.
Moreover, controlling for these differences in columns (5) and (6) leaves almost
unchanged the differences cross small and large firms in the intensity to train reported in
column (1).
         Finally, we investigate whether SMEs are less likely to invest in job training due
to the greater uncertainty on the quality of the investment in job training and thus on the

31
   In theory, the effect of trade unions on job training depends on whether the effect is through the wage
structure (where more unionization leads to higher wages and arguable lower investments) or through the
direct negotiation of training. Booth et al(2003) and Bassanini et al (2005) discuss this in detail. The
empirical work has also found mixed results. Our findings are in line with Lynch and Black, (1998), Green
and Lemieux (2007) who find almost no link between unions and the provision of job training.
32
   The surveys also collect information that allow us to compute labor turnover. However, the sample size
falls dramatically, invalidating the comparison with a broader sample. As with the share of temporary
contracts the evidence is supportive of firms facing higher turnover also investing more.
33
   We measure access to external finance with a dummy variable equal to one when the firm reports
financing its working capital with bank loans and overdrafts at commercial banks or with leasing
arrangements.
34
   With financial development, small firms grow faster since their financing constraints are relaxed to a
greater extent. Furthermore, industrial sectors that naturally should have a disproportionately large number
of small firms also grow faster with greater financial development, suggesting that it is the small firms that
benefit the most.


                                                                                                          27
returns. If uncertainty is a problem hitting particularly micro and small firms, then these
could be less likely to invest in spite of the potentially large ex-post returns. To account
for differences across firms in economic uncertainty, we follow Aterido et al (2011) and
explore information on how managers rank the importance of the uncertainty in the
economic and regulatory policy relatively to other obstacles.35 Our prior is that for firms
reporting that economic uncertainty is more of an obstacle than other factors, they will be
less likely to invest in job training. And, because firms differ significantly in the level of
perception on how important these different economic factors are, we also control for
differences across firms in the a group of indicators (including perceptions regarding the
economic and regulatory policy uncertainty, macroeconomic instability, corruption,
crime, theft and disorder, anti-competitive or informal practices, legal system/conflict
resolution). Column (7) reports the results of this regression. Reassuringly the point
estimates remain very similar to the ones reported in column (1). Again this suggests that
although facing higher levels of economic uncertainty seems to matters for this
investment, this does not disproportionally explain why SMEs train less than larger firms.
        A possible concern with the findings in table 7 relates to the potential endogeneity
of the explanatory variables in columns (2) through (7). If the investment in job training
within the firm leads to higher employment growth as well as to greater access to finance,
or to a greater share of reinvested profits, then the point estimates could be biased
upwards. We follow Aterido et al (2011) and construct proxies for each of the factors
discussed in table 7 but based instead on the responses of the average firm located in the
same country, location, sector and size cell (excluding the observation related to the own
firm).36 Matching the mean response for each firm is a two step approach. To illustrate,

35
   The exact question in the Enterprise Surveys is "Please tell us if any of the following issues are a
problem for the operation and growth of your business. If an issue poses a problem, please judge its
severity as an obstacle on a four-point scale: Telecommunications, Electricity, Transportation, Access to
Land, Tax rates, Tax administration, Customs and Trade Regulations, Labor Regulations, Skills and
Education of Available Workers, Business Licensing and Operating Permits, Access to Financing, Cost of
Financing, Economic and Regulatory Policy Uncertainty, Macroeconomic Instability, Corruption, Crime,
theft and disorder, Anti-competitive or informal practices, Legal system/conflict resolution. Rankings vary
between 1 and 5. Some papers have explored this information to relate levels in perceptions with firm
performance (e.g., Ayyagari et al. 2008; Beck et al. 2005; Pierre and Scarpetta 2006).
36
   To ensure adequate numbers of firms in each cell average we drop one dimension of the cell until an
adequate number is reached, i.e. first substituting by country-location-size averages, then by country-
sector-size averages, etc. Aterido (2011) also explore this approach.


                                                                                                        28
take the information that firms report about access to credit. First, when constructing the
mean access to finance at the country-location-sector-size average we use as measure of
firm size the firm,,s average size (between period t-3 and t) rather than the current firm
size. The latter is arguably more exogenous to the firms current investment in job
training than the former (especially if we worry with reverse causality). Second, we
match the averaged indicators to each firm based on the firm initial size, not the current
size. We estimate the same model as the one reported in table 7 but based on these
variables and report the findings in table A5. It is reassuring to see that the relation
between the investment in job training and each measure of market imperfection are
qualitatively very similar than the ones in table 7. The main differences relate with the
lack of statistical significance of one of the variables proxing access to capital (share of
reinvested profits) and with the variable proxying the perceived uncertainty of the
economic environment. 37


6. Conclusion and Policy Implications
The importance of the SME sector for growth in the developing world is consensual and
policymakers all over the world worry with how to foster productivity and growth among
this group of firms. Moreover, in a modern economy, the investment in human capital is
crucial to foster technological adoption and, thus, achieve higher productivity growth.
This paper explores a unique firm level data set across 99 countries in the developing
world to (1) document how different are the propensities to invest in job training across
firm sizes; and to (2) investigate the reasons behind the large differences in the
investment in job training. We conjecture that SMEs could be less likely to invest in job
training because of three broad set of reasons. First, the expected return on the investment
in job training might be smaller for SMEs. This could happen if either SMEs have lower
expected benefits or higher marginal costs of the investment in job training. Second,

37
  We have also tested the robustness of our findings by averaging the responses of firms: (1) Considering
the current firm size (instead of the initial size); (2) Excluding the size dimension (i.e., computing means by
country, sector and location). Reassuringly the results (not reported but available on request) are
supportinve of the low explanatory power of the proposed variables in explaining the large training gaps
across firm size within countries and sectors. Moreover, the qualitative results for each of the proposed
explanatory variables remains very similar to the ones reported in table 7.



                                                                                                           29
Second, SMEs could be more likely to lack the financial resources to invest, in spite of
the possibly large expected returns of investing. Third, in spite of a possibly large average
returns, SMEs could have worse access to information, face greater uncertainty regarding
the returns of this investment or have larger coordination problems with their workers
than larger firms.
   Our findings show that a strong and positive correlation across the investment in job
training and firm size is a robust empirical finding within and across countries with
different institutions and income levels. However, our data does not support the view that
the difference in investment in job training across firm size is mostly explained by market
imperfections and institutional failures impeding SME development. Rather, they most
likely point to the smaller expected returns from this investment. Therefore, our findings
call for some caution when designing pro-SME policies tackling these imperfections with
the ultimate objective of abolish this gap. Simply from an efficiency perspective, a pro-
SME intervention in this market is not necessarily needed or desirable.
   Finally, our findings are supportive of policy interventions improving the general
access to information and external finance, the coordination between firms and workers
and mitigating the uncertainty in the investment climate producing positive effects on
training incidence in the developing world. Moreover, institutional and policy reforms
fostering the integration of firms in the global markets and leading to more technological
innovations should also foster the investment in job training across all firm sizes.
However, we do not find much support that this type of interventions will significantly
improve the incentives to invest among SMEs relatively to larger firms.




                                                                                          30
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                                                                                   36
Table 1. Summary Statistics
                                                              N                  Mean                 S.D.                Min           Max

Share of Firms Training                                    48,580                0.396               0.489                  0            1
Small Firms                                                47,612                 0.37                0.48                  0            1
Medium Firms                                               47,612                 0.22                0.41                  0            1
Large Firms                                                47,612                 0.12                0.32                  0            1
Age of the Firm                                            46,325                 16.5                15.9                  1           193
Capital City Dummy                                         42,653                0.515               0.500                  0            1
Public Ownership                                           47,043                0.054               0.227                  0            1
Exporter                                                   47,984                0.246               0.431                  0            1
Foreign Ownership                                          47,269                0.119               0.323                  0            1
Technological Innovation                                   34,478                0.544               0.498                  0            1
R&D Intensity                                              21,067                0.273               0.446                  0            1
ISO Technlogical Certification                             29,021                0.191               0.393                  0            1
Managerial Terciary Education                              18,818                0.728               0.445                  0            1
Share Skilled Workers                                      38,743                0.708               0.291                  0            1
Av. Years Education Workforce                              30,897                7.720               3.401                  0            14
High Technology Industries                                 48,376                0.233               0.423                  0             1
Access to Finance                                          43,703                0.650               0.477                  0             1
Capacity Utilization                                       40,405               72.826              22.079                  0           100

Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: Table reports summary statistics of the main variables in the paper. All the variables are defined in table A2 in the appendix.
Table 2: Descriptive Statistics, by Training Intensity

                                                                    Training Firms          Non-Training Firms

Number of Firms                                                          19,260                      29,320
Micro                                                                      0.15                        0.39
Small                                                                      0.33                        0.40
Medium                                                                     0.28                        0.14
Large                                                                      0.13                        0.04
Foreign Ownership                                                          0.18                        0.08
Public Ownership                                                           0.09                        0.03
Age Firm                                                                  18.62                       15.06
Share of Skilled Workers                                                   0.68                        0.73
Managerial Terciary Education                                              0.82                        0.64
Technology Adoption                                                        0.65                        0.45
Investment R&D                                                             0.38                        0.18
ISO Technlogical Certification                                             0.32                        0.09
Value added per employee (log)                                             2.14                        1.48
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: Table reports characteristics of firms by training intensity. All the variables are definied in Table A.2. in the
appendix.
Table 3: Determinants of Size-Job Training Differential: Role of Skills and Technological Complementarities
                                              (1)                 (2)                (3)               (4)
Small Firms                                 0.171                0.164              0.144             0.136
                                         [0.0120]***         [0.0103]***        [0.0114]***      [0.0143]***
Medium Firms                                0.378                0.359              0.328             0.317
                                         [0.0198]***         [0.0130]***        [0.0148]***      [0.0184]***
Large Firms                                 0.498                0.468              0.421             0.412
                                         [0.0270]***         [0.0137]***        [0.0157]***      [0.0207]***
Openness                                       -                 0.114              0.104            0.0968
                                                            [0.00765]***       [0.00870]***     [0.00905]***
Age of the Firm (Log)                          -               0.00377            0.00432           0.00409
                                                              [0.00445]          [0.00499]        [0.00505]
Public Ownership                               -                 0.006             0.0034          -0.00289
                                                               [0.0167]           [0.0177]         [0.0283]
Share of Skilled Workers                       -                 0.101             0.0854             0.078
                                                             [0.0138]***        [0.0146]***      [0.0169]***
Technological Innnovation                      -                   -                0.173             0.172
                                                                               [0.00800]***     [0.00963]***

Country Fixed Effects?                          Yes                 No                  No                 No
Country-Sector Fixed Effects?                   No                  Yes                 Yes                No
Country -City-Sector Fixed Effects?             No                  No                  No                 Yes

Observations                                   47,612             35,644              29,644             29,817
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable
that equals 1 when the firm reports providing on the job training. Standard errors are clustered at the country and
sector level. Column (1) includes country fixed effects, column (2) includes country and sector interactions and
column (4) includes country-sector and city interactions. We consider 3 city categories - capital cities and those
with a population above one million, and cities below 1 million people. Column (1) includes size dummies;
column (2) includes in addition to the variables in column (1), firm openness, log age of the firm, the share of
capital owned by public sources and the share of skilled workers in the firm. Column (3) adds a technological
innovation dummy and column (4) replicates column (3) but controlling for country-city-sector dummies. We
refer to the specification in column (3) of this table as the baseline specification. All the variables are defined in
Table A.2. in the appendix.
Table 4: The Size- Job Training Differential: Heterogenity Within Countries
                                       Firms Outside                               Firms Low Tech        Firms High Tech
              Sample                                       Firms Manufacturig
                                        Capital City                                Manufacturing         Manufacturing
                                              (1)                 (2)                    (3)                   (4)

Small Firms                                  0.138                 0.131                  0.13                 0.124
                                          [0.0144]***           [0.0188]***           [0.0199]***           [0.0379]***
Medium Firms                                 0.344                 0.326                 0.335                 0.301
                                          [0.0185]***           [0.0229]***           [0.0270]***           [0.0389]***
Large Firms                                  0.462                 0.417                 0.438                 0.372
                                          [0.0174]***           [0.0222]***           [0.0257]***           [0.0366]***

Baseline Specification?                       Yes                   Yes                   Yes                   Yes
Country Fixed Effects?                        Yes                   Yes                   Yes                   Yes
Sector Fixed Effects?                         Yes                   Yes                   Yes                   Yes

Observations                                16,774                17,772                11,665                 6,045
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable that
equals 1 when the firm reports providing on the job training. Standard errors are clustered at the country and sector level.
Columns (1) through (4) report the results of estimating the baseline specification - reported in column (3) of table 3 - for
different samples. Column (1) considers only firms located outside the capital city, column (2) considers only
manufacturing firms, column (3) considers only low-tech firms and column (4) considers only high-tech firms All the
variables are defined in Table A.2. in the appendix.
Table 5: The Size-Job Training Differential: Heterogenity Around the Developing World
                                                                         Eastern Central                       Middle East and
               Sample                   Africa            East Asia                          Latin America                          South Asia
                                                                             Europe                             North Africa
                                          (1)                (2)                (3)                (4)               (5)                  (6)
Small Firms                              0.0987            0.0683             0.202              0.147              0.0996            0.113
                                      [0.0247]***        [0.0366]*         [0.0236]***        [0.0141]***        [0.0227]***       [0.0208]***
Medium Firms                              0.292             0.236             0.325              0.367               0.202            0.268
                                      [0.0424]***       [0.0392]***        [0.0254]***        [0.0187]***        [0.0415]***       [0.0336]***
Large Firms                                0.47             0.321             0.393              0.423               0.458            0.409
                                      [0.0569]***       [0.0374]***        [0.0290]***        [0.0157]***        [0.0526]***       [0.0447]***

Baseline Specification?                  Yes                Yes                Yes                Yes                Yes                 Yes
Country Fixed Effects?                   Yes                Yes                Yes                Yes                Yes                 Yes
Sector Fixed Effects?                    Yes                Yes                Yes                Yes                Yes                 Yes

Observations                             2,671              7,317             6,615              8,873              2,192                3,222
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable that equals 1 when the firm

reports providing on the job training. Standard errors are clustered at the country and sector level. Columns (1) through (6) report the results of

estimating the baseline specification (column 3 of table 3) for different regional samples. Column (1) includes only firms in Africa, column (2)

includes firms in East Asia, column (3) includes firms in Eastern Europe, column (4) includes firms in Latin America, column (5) includes firms in

Middle East and North Africa and column (6) includes firms in South Asia. All the variables are defined in Table A.2. in the appendix.
Table 6: Size-Training Premium: Robustness by Income Groups

         Sample                 Low Income          Middle -Low Income Middle High Income

                                     (1)                       (2)                   (3)

Small Firms                        0.128                    0.11                    0.219
                                [0.0180]***             [0.0153]***              [0.0198]***
Medium Firms                       0.305                   0.293                    0.384
                                [0.0292]***             [0.0205]***              [0.0194]***
Large Firms                        0.432                   0.392                    0.405
                                [0.0353]***             [0.0223]***              [0.0158]***

Baseline Specification?             Yes                        Yes                   Yes
Country Fixed Effects?              Yes                        Yes                   Yes
Sector Fixed Effects?               Yes                        Yes                   Yes

Observations                        7,040                  17,317                   5,287
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a
dummy variable that equals 1 when the firm reports providing on the job training. Standard
errors are clustered at the country and sector level. Columns (1) through (3) report the results of
estimating the baseline specification (in column (3) of table 3) for different samples. Column
(1) includes only firms in low income countries, column (2) includes only countries in low-
middle income countries and column (3) includes only firms in high-middle income countries.
All the variables are defined in Table A.2. in the appendix.
Table 7: Determinants of the Size-Job Training Differential: Role of Information, Contracts and Uncertainty
                                            (1)                (2)              (3)              (4)                  (5)               (6)               (7)
Small Firms                                0.144              0.0831            0.157             0.136             0.148             0.142             0.154
                                        [0.0114]***        [0.0216]***       [0.0106]***       [0.0119]***       [0.0161]***       [0.0112]***       [0.0113]***
Medium Firms                               0.328              0.278             0.345             0.344             0.326             0.327              0.35
                                        [0.0148]***        [0.0287]***       [0.0134]***       [0.0181]***       [0.0197]***       [0.0146]***       [0.0152]***
Large Firms                                0.421              0.352             0.439             0.453             0.411             0.419             0.439
                                        [0.0157]***        [0.0277]***       [0.0135]***       [0.0187]***       [0.0203]***       [0.0158]***       [0.0153]***
Managerial Terciary Education                -                0.132               -                 -                 -                 -                  -
                                                           [0.0151]***
Share Temporary Contracts                     -                  -             0.00189               -                 -                 -                 -
                                                                            [0.000248]***
Share Unionized Workers                       -                  -                -              0.000924              -                 -                 -
                                                                                              [0.000255]***
Share of Profits Reinvested                   -                  -                 -                 -             0.000853              -                 -
                                                                                                                [0.000131]***
Access to External Finance                    -                  -                 -                 -                 -              0.0463               -
                                                                                                                                   [0.0104]***
Uncertainty Economic Policy                   -                  -                 -                 -                 -                 -             -0.0328
                                                                                                                                                     [0.0127]***

Baseline Specification?                     Yes                Yes               Yes               Yes               Yes               Yes               Yes
Country - Setctor Fixed Effects?            Yes                Yes               Yes               Yes               Yes               Yes               Yes

Observations                              29,644             12,892            29,644            19,050            18,997            28,677            21,617
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable that equals 1 when the firm reports providing on

the job training. Standard errors are clustered at the country level. Columns (1) reports the baseline specification as in column (3) of table 3. Column (2) through

(6) report different robustness based on alternative firm characteristics. In addition to column (1), we have controls for the managerial tertiary education (column

2), share of temporary contracts (column 3), share of unionized workers (column 4), share of profits reinvested (column 5), access to external finance (column 6)

and uncertainty on the regulatory environment (column 7). All the variables are defined in Table A.2. in the appendix.
Table A1: Sample Composition and the Provision of Job Training
                            Share Firms Share in Overall                                      Share Firms   Share in Overall                               Share Firms Share in Overall
    country       N. obs.                                      country           N. obs.                                          country        N. obs.
                             Training       Sample                                             Training         Sample                                      Training       Sample
     AFRICA                                                      EAST EUROPE                                                       EAST ASIA
Angola2006         329         0.20           0.68         Albania2005             198           0.47            0.41          Cambodia2003  503              0.22           1.04
Benin2004          184         0.35           0.38         Armenia2005             329           0.35            0.68          China2003         3,900        0.73           8.03
Botswana2006       216         0.25           0.44         Azerbaijan2005          290           0.16             0.6          Indonesia2003      596         0.24           1.23
BurkinaFaso2006     51         0.43           0.10         Belarus2008             84            0.38            0.17          Laos2005           245         0.28            0.5
Burundi2006        238         0.13           0.49         BiH2005                 180           0.46            0.37          Malaysia2002       897         0.42           1.85
Cameroon2006       118         0.42           0.24         Bulgaria2005            279           0.32            0.57          Mongolia2004       195         0.47            0.4
CapeVerde2006       47         0.43           0.10         Croatia2005             207           0.58            0.43          Philippines2003    667         0.22           1.37
DRC2006            253         0.09           0.52         Czech2005               262            0.6            0.54          Thailand2004      1,385        0.76           2.85
Ethiopia2002       412         0.22           0.85         Estonia2005             191           0.63            0.39          Vietnam2005       1,642        0.55           3.38
Gambia2006         159         0.14           0.33         FYROM2005               174           0.37            0.36          TOTAL EA          10,030                      20.7
Ghana2007          616         0.27           1.27         Georgia2008             118           0.14            0.24
Guinea2006         239         0.15           0.490        Hungary2005             559           0.39            1.15               LATIN AMERICA
GuineaBissau2006 149           0.08           0.310        Kazakhstan2005          559           0.29            1.15          Argentina2006      650         0.48           1.34
Kenya2007          520         0.31           1.070        Kyrgyzstan2005          185           0.47            0.38          Bolivia2006        365         0.57           0.75
Lesotho2003         69         0.25           0.140        Latvia2005              178           0.52            0.37          Brazil2003        1,639        0.67           3.37
Madagascar2005     293         0.48           0.600        Lithuania2005           175           0.49            0.36          Chile2004          945         0.72           1.95
Malawi2005         155         0.50           0.320        Moldova2005             335           0.33            0.69          Colombia2006       633          0.5            1.3
Mali2007           619         0.16           1.270        Montenegro2003          100           0.31            0.21          CostaRica2005      343         0.46           0.71
Mauritania2006     204         0.14           0.420        Poland2005              937           0.48            1.93          Dom.Rep.2005       225         0.53           0.46
Mauritius2005       197        0.62            0.41       Romania2005              582           0.32             1.2          Ecuador2006        362         0.66           0.75
Mozambique2007 599             0.18            1.23       Russia2005               539           0.36            1.11          ElSalvador2003     465         0.5            0.96
Namibia2006         205        0.28           0.42        Serbia&Mont2005          259           0.46            0.53          Guatemala2003      455         0.54           0.94
Niger2005           125        0.34            0.26       Slovakia2005             194           0.79             0.4          Guyana2004         154         0.34           0.32
Nigeria2007        1,444       0.22            2.97       Tajikistan2008           116           0.23            0.24          Honduras2003       450         0.54           0.93
Rwanda2006          187        0.09            0.38       Turkey2008               851           0.39            1.75          Jamaica2005         89         0.62           0.18
Senegal2007         626        0.15            1.29       Ukraine2008              480           0.29            0.99          Mexico2006        1,118        0.32           2.3
SouthAfrica2007 1,057          0.41            2.18       Uzbekistan2008           121           0.23            0.25          Nicaragua2003      452         0.41           0.93
Swaziland2006       192        0.30             0.4       TOAL EE                 8,482                          17.47         Panama2006         239         0.42           0.49
Tanzania2006        338        0.33             0.7             MIDDLE EAST                                                    Paraguay2006       380         0.46           0.78
Uganda2006          405        0.28            0.83       Algeria2002              537           0.32            1.11          Peru2002           575         0.54           1.18
Zambia2007          603        0.19            1.24       Egypt2004                975           0.12            2.01          Uruguay2006        360         0.35           0.74
TOTAL AFR         10,849                      22.33       Jordan2006               351           0.24            0.72          Venezuela2006      494         0.49           1.02
      SOUTH ASIA                                          Lebanon2006              354           0.68            0.73          Total LAC         10,393                      21.4
Bangladesh2002 965             0.27            1.99       Morocco2004              846           0.19            1.74
India2006          2,154       0.16            4.43       Oman2003                 325           0.21            0.67
Pakistan2002        965        0.11            1.99       Syria2003                527           0.22            1.08
SriLanka2004        427        0.33            0.88       WBankGaza2006            400           0.26            0.82
TOTAL SA           4,511                       9.29       TOTAL ME                4,315                          8.88          TOTAL             48,580                      100
Source: Author's calculation based on Enterprise Surveys
Note: Table reports the sample composition for each country and the mean training intensity
Table A.2. Variables Definitions
Variable                                   Definition
Training                                   Dummy variable equal to 1 if the firm provides internal or external training to its workers.
Micro Firms                                Dummy variable equal to 1 if the firm has less than 11 employees
Small Firms                                Dummy variable equal to 1 if the firm has between 11 and 50 employees
Medium Firms                               Dummy variable equal to 1 if the firm has between 51 and 250 employees
Large Firms                                Dummy variable equal to 1 if the firm has more than 250 employees
Age of the Firm                            Year of the survey minus the year when the firm started operations.
Capital City Dummy                         Dummy variable equal to 1 if the firm is located in the country's capital city
Public Ownership                           Dummy variable equal to 1 if 10% or more of the firm's capital owned by the government
Exporter                                   Dummy variable equal to 1 if the firm exports directly or indirectly 10% or more.
Foreign Ownership                          Dummy variable equal to 1 if 10% or more firm's capital is owned by foreigners.
Openness                                   Dummy variable equal to 1 if the firm exports more than 10% of its sales or has more than 10% of foreign capital.
Technological Innovation                   Dummy variable equal to 1 if the firm introduced a new technology that substantially changed the way the main product was produced in the
                                           three years prior to the survey.
ISO Technlogical Certification             Dummy if the firm has an ISO certification.
Managerial Terciary Education              Dummy variable equal to 1 if the manager has tertiary education
Share Skilled Workers                      Firm's workforce that are managers, professionals, skilled production and non-production workers as a percentage of skilled and unskilled
R&D Intensity                              production workers
                                           Dummy variable equal to 1 if the firm has design and R&D expenditures (e.g., labor costs with R&D personnel, materials or subcontracting
                                           costs).
High Technology Industries                 Auto and auto-components, chemicals and pharmaceuticals, electronics, and metals and machinery.
Low-Technology Industries                  Beverages, food, garments, leather, non-metallic and plastic materials, paper, other manufacturing, textiles, and wood and furniture. These
                                           definitions follow Parisi et al. (2006).
Access to Finance                          Dummy variable equal to 1 if a firm finances its investments through commercial banks or leasing arrangements.
Capacity Utilization                       Percentage of firm's capacity being used in production
Value Added per employee (log)             Sales minus inputs divided by total number of workers (in 2005 USD)
Mean Wages (log)                           Annual wage compensation divided by total number of workers (in 2005 USD)
                                           Share of firms in the coutry, 3-digit sector and city (capital city; city with more than 1 mln ind.; city with 250k-1mln ind.; city with 50k-250k
Mean Training in Coutry-City -Sector       ind.; city with less than 50k ind. and a dummy for unknown city dimension) that offer formal training programs.
Unionization                               Dummy variable equal to 1 if more than 50% of the workforce in the firm is unionized.
Share Females Workforce                    Share of female workers in the workforce
Av. Years of Education                     Average years of schooling of the workforce.
Source: Enterprise Surveys (World Bank).
Table A.3. Characteristics of Firms with Missing Training Information
                                                 (1)                (2)                  (3)
Small Firms                                   -0.0273            -0.0318               -0.015
                                          [0.00325]***       [0.00374]***         [0.00332]***
Medium Firms                                  -0.0293            -0.0342              -0.0168
                                          [0.00246]***       [0.00261]***         [0.00204]***
Large Firms                                   -0.0275            -0.0308              -0.0142
                                          [0.00229]***       [0.00228]***         [0.00206]***
Openness                                      0.00165            0.00125             -0.00303
                                            [0.00366]          [0.00413]            [0.00244]
Age of the Firm (Log)                         -0.0012           -0.00155            -0.000119
                                            [0.00200]          [0.00227]            [0.00100]
Public Ownership                             -0.00566           -0.00706             -0.00562
                                            [0.00569]          [0.00622]           [0.00260]**
Share of Skilled Workers                       0.0221             0.0277              0.0142
                                           [0.00897]**        [0.0112]**            [0.00964]
Technological Innnovation                         -              0.00682             0.00131
                                                              [0.00363]*            [0.00178]

Country-Sector Fixed Effects?                   Yes                 Yes                No
Country -City-Sector Fixed Effects?             No                  No                 Yes

Observations                                   14,900             12,530             18,462
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is

a dummy variable that equals 1 when the firm reports providing on the job training. Standard

errors are clustered at the country level. We refer to the specification in column (3) of this

table as the baseline specification. All the variables are definied in Table A.2. in the appendix.
Table A4: Determinants of the Size-Job Training Differential: Robustness Firm Characteristics
                                          (1)               (2)              (3)              (4)                  (5)
Small Firms                                0.148            0.151             0.155             0.145             0.15
                                       [0.0128]***       [0.0170]***       [0.0145]***       [0.0112]***      [0.0133]***
Medium Firms                               0.331            0.317             0.325             0.332            0.364
                                       [0.0159]***       [0.0220]***       [0.0181]***       [0.0149]***      [0.0181]***
Large Firms                                0.418            0.412             0.395             0.429            0.474
                                       [0.0172]***       [0.0238]***       [0.0190]***       [0.0158]***      [0.0182]***
Av. Education of the Workforce            0.0265              -                 -                 -                 -
                                      [0.00754]***
Investment R&D                               -              0.191               -                 -                 -
                                                         [0.0146]***
ISO certification                            -                -               0.228               -                 -
                                                                           [0.0139]***
Capacity Utilization                         -                 -                -             0.00231               -
                                                                                           [0.000862]***
Capital-Labor Ratio                                                                                              0.0119
                                                                                                              [0.00309]***

Baseline Specification?                    Yes               Yes               Yes              Yes               Yes
Country-Sector Fixed Effects?              Yes               Yes               Yes              Yes               Yes

Observations                              23,458            17,003           23,178            28,183            22,574
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable that equals 1

when the firm reports providing on the job training. Standard errors are clustered at the country and sector level. Columns (1)

through (5) report different specifications. In addition to the baseline specification (in column 3 of table 3) we include av.

education of the workforce (captured by years of schooling) (column 1), Investment in R&D (column 2), ISO certification

(column 3), capacity utilization (column 4). All the variables are defined in Table A.2. in the appendix.
Table A5: Robustness on Determinants of the Size-Job Training Differential: Mean Explanatory Variables
                                              (1)              (2)              (3)              (4)                        (5)        (6)
Small Firms                                     0.0638            0.151             0.125             0.144             0.139         0.154
                                             [0.0208]***       [0.0110]***       [0.0131]***       [0.0149]***       [0.0121]***   [0.0115]***
Medium Firms                                    0.234             0.337             0.317             0.322             0.318         0.343
                                             [0.0309]***       [0.0140]***       [0.0213]***       [0.0183]***       [0.0162]***   [0.0155]***
Large Firms                                     0.309             0.432             0.409             0.411             0.411         0.436
                                             [0.0331]***       [0.0142]***       [0.0254]***       [0.0186]***       [0.0174]***   [0.0157]***
Mean Managerial Terciary Education              0.299               -                 -                 -                 -             -
                                             [0.0668]***
Mean Share Temporary Contracts                     -             0.00176               -                 -                   -          -
                                                              [0.000706]**
Mean Share Unionized Workers                      -                 -              0.00105               -                   -          -
                                                                                 [0.000545]*
Mean Share of Profits Reinvested                  -                  -                -             0.000838                 -          -
                                                                                                   [0.000558]
Mean Access to External Finance                   -                  -                 -                -              0.0819            -
                                                                                                                      [0.0428]*      -0.0647
Mean Uncertainty Economic Policy                  -                  -                 -                 -                -         [0.0519]


Baseline Specification?                         Yes                Yes               Yes               Yes                  Yes       Yes
Country - Setctor Fixed Effects?                Yes                Yes               Yes               Yes                  Yes       Yes

Observations                                   13,932            29,511            22,768            23,238            29,503       23,391
Source: Author's calculations are based on the Enterprise Suveys (World Bank)
Note: * significant at 10%; ** significant at 5%; *** significant at 1%. Dependent variable is a dummy variable that equals 1 when the firm
reports providing on the job training. Standard errors are clustered at the country and 3-digit sector level. Column (1) through (6) report
alternative specifictions of columns (2) through (6) of table 7 but computing the LHS variables with withs of firms located in the same country-
sector-location-size bin. Column (1) controls for the share of firms with managerial tertiary education, Column (2) for the mean share of
temporary contracts, column (3) for the mean share of unionized workers, column (4) for the mean share of reinvested profits, column (5) for the
share of firms with access to external finance and column (6) for the share of firms reporting uncertainty on the regulatory environment a high
constraint to growth. The construction of these variables follows Aterido et al (2011) and details are given in the text.
   Share of
                         Figure 1. International Comparison of Training Incidence
Training Firms
0.9

0.8
                                                         SVK
0.7                                  THA
                               CHN                              CHL
                                                               BRA ECU           LBN
0.6
                     MUS                    EST                        JAM
                                           CZE
                                              HRV             BOL
0.5                                  VNM                              HND
                                                                    GTM PER
                                                  LVA             DOM
                      MWI                        LTU POL         COL        SLV
                                                                              VEN
                 MDG              MNG ALBBIH    KGZ          ARG
0.4                                                     SRB       CRI      PRY
        BFACPV
          CMR                ZAF MYS                                     PAN
                                                                         NIC
                                          BLR HUN MKD TUR
0.3    BEN             NER TZA        ARM              RUS
                                                                     GUY     URY
                                         BGR      MDA ROM               MEX DZA        LKA
                KEN       SWZ                       MNE
                      NAM UGA LAO              KAZ         UKR
0.2          GHA                                                                     BGD
                                                                                    WBG
        BWA      LSO            IDN                                             JOR
            ETH         NGA     KHM PHL                     UZB
                                                          TJK                      SYR
      AGO                                                                         OMN
                   MOZ        ZMB                                                 MAR
0.1           GIN MLI
              GMB MRT SEN
                                        AZE
                                             GEO
                                                                                      IND
       BDI                                                                     EGY      PAK
               GNB      RWA ZAR
  0
                                           Source: Enterprise Surveys
  1        Figure 2. Reasons for Not Training in Brazil, by Firm Size
0.9
0.8                                                                       All
0.7                                                                       Small
0.6                                                                       Medium
0.5                                                                       Large

0.4
0.3
0.2
0.1
  0




                               Enterprise Surveys
                    (small 1-49; medium 50-99; large 100+)

 1
      Figure 3. Reasons for Not Training in Central America, by Firm Size
0.9
0.8                                                             All
0.7                                                             Small
0.6                                                             Medium
0.5                                                             Large
0.4
0.3
0.2
0.1
 0




                                  Enterprise Surveys
                       (small 1-49; medium 50-99; large 100+)


0.8              Figure 4. Reasons for Not Training in China, by Firm Size
0.7
                                                                            All
0.6
                                                                            Small
0.5                                                                         Medium
0.4                                                                         Large
0.3
0.2
0.1
  0




                              Enterprise Surveys
                   (small 1-49; medium 50-99; large 100+)

0.9       Figure 5. Reasons for Not Training in Sri Lanka, by Firm Size
0.8
                                                                  All
0.7
                                                                  Small
0.6
                                                                  Medium
0.5
                                                                  Large
0.4
0.3
0.2
0.1
 0




                                   Enterprise Surveys
                        (small 1-49; medium 50-99; large 100+)
               Social Protection Discussion Paper Series Titles

No.    Title

1004   The Investment in Job Training: Why Are SMEs Lagging So Much Behind?
       by Rita K. Almeida and Reyes Aterido, May 2010 (online only)

1003   Disability and International Cooperation and Development: A Review of Policies
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       by Janet Lord, Aleksandra Posarac, Marco Nicoli, Karen Peffley, Charlotte
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1002   Toolkit on Tackling Error, Fraud and Corruption in Social Protection Programs
       by Christian van Stolk and Emil D. Tesliuc, March 2010 (online only)

1001   Labor Market Policy Research for Developing Countries: Recent Examples from
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       by Maria Laura Sanchez Puerta, January 2010 (online only)

0931   The Korean Case Study: Past Experience and New Trends in Training Policies
       by Young-Sun Ra and Kyung Woo Shim, December 2009 (online only)

0930   Migration Pressures and Immigration Policies: New Evidence on the Selection of
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       by Johanna Avato, December 2009 (online only)

0929   Ex-Ante Methods to Assess the Impact of Social Insurance Policies on Labor
       Supply with an Application to Brazil
       by David A. Robalino, Eduardo Zylberstajn, Helio Zylberstajn and
       Luis Eduardo Afonso, December 2009 (online only)

0928   Rethinking Survivor Benefits
       by Estelle James, December 2009 (online only)

0927   How Much Do Latin American Pension Programs Promise to Pay Back?
       by Alvaro Forteza and Guzmán Ourens, December 2009 (online only)

0926   Work Histories and Pension Entitlements in Argentina, Chile and Uruguay
       by Alvaro Forteza, Ignacio Apella, Eduardo Fajnzylber, Carlos Grushka, Ianina
       Rossi and Graciela Sanroman, December 2009 (online only)

0925   Indexing Pensions
       by John Piggott and Renuka Sane, December 2009 (online only)

0924   Towards Comprehensive Training
       by Jean Fares and Olga Susana Puerto, November 2009
0923   Pre-Employment Skills Development Strategies in the OECD
       by Yoo Jeung Joy Nam, November 2009

0922   A Review of National Training Funds
       by Richard Johanson, November 2009

0921   Pre-Employment Vocational Education and Training in Korea
       by ChangKyun Chae and Jaeho Chung, November 2009

0920   Labor Laws in Eastern European and Central Asian Countries: Minimum Norms
       and Practices
       by Arvo Kuddo, November 2009 (online only)

0919   Openness and Technological Innovation in East Asia: Have They Increased the
       Demand for Skills?
       by Rita K. Almeida, October 2009 (online only)

0918   Employment Services and Active Labor Market Programs in Eastern European
       and Central Asian Countries
       by Arvo Kuddo, October 2009 (online only)

0917   Productivity Increases in SMEs: With Special Emphasis on In-Service Training
       of Workers in Korea
       by Kye Woo Lee, October 2009 (online only)

0916   Firing Cost and Firm Size: A Study of Sri Lanka's Severance Pay System
       by Babatunde Abidoye, Peter F. Orazem and Milan Vodopivec, September 2009
       (online only)

0915   Personal Opinions about the Social Security System and Informal Employment:
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       by Valeria Perotti and Maria Laura Sánchez Puerta, September 2009

0914   Building a Targeting System for Bangladesh based on Proxy Means Testing
       by Iffath A. Sharif, August 2009 (online only)

0913   Savings for Unemployment in Good or Bad Times: Options for Developing
       Countries
       by David Robalino, Milan Vodopivec and András Bodor, August 2009 (online
       only)

0912   Social Protection for Migrants from the Pacific Islands in Australia and New
       Zealand
       by Geoff Woolford, May 2009 (online only)
0911   Human Trafficking, Modern Day Slavery, and Economic Exploitation
       by Johannes Koettl, May 2009

0910   Unemployment Insurance Savings Accounts in Latin America: Overview and
       Assessment
       by Ana M. Ferrer and W. Craig Riddell, June 2009 (online only)

0909   Definitions, Good Practices, and Global Estimates on the Status of Social
       Protection for International Migrants
       by Johanna Avato, Johannes Koettl, and Rachel Sabates-Wheeler, May 2009
       (online only)

0908   Regional Overview of Social Protection for Non-Citizens in the Southern
       African Development Community (SADC)
       by Marius Olivier, May 2009 (online only)

0907   Introducing Unemployment Insurance to Developing Countries
       by Milan Vodopivec, May 2009 (online only)

0906   Social Protection for Refugees and Asylum Seekers in the Southern Africa
       Development Community (SADC)
       by Mpho Makhema, April 2009 (online only)

0905   How to Make Public Works Work: A Review of the Experiences
       by Carlo del Ninno, Kalanidhi Subbarao and Annamaria Milazzo, May 2009
       (online only)

0904   Slavery and Human Trafficking: International Law and the Role of the World
       Bank
       by María Fernanda Perez Solla, April 2009 (online only)

0903   Pension Systems for the Informal Sector in Asia
       edited by Landis MacKellar, March 2009 (online only)

0902   Structural Educational Reform: Evidence from a Teacher's Displacement
       Program in Armenia
       by Arvo Kuddo, January 2009 (online only)

0901   Non-performance of the Severance Pay Program in Slovenia
       by Milan Vodopivec, Lilijana Madzar, Primoz Dolenc, January 2009 (online
       only)

0838   Investing for the Old Age: Pensions, Children and Savings
       by Vincenzo Galasso, Roberta Gatti and Paola Profeta, December 2008 (online
       only)
0837   Can the Introduction of a Minimum Wage in FYR Macedonia Decrease the
       Gender Wage Gap?
       by Diego F. Angel-Urdinola, December 2008 (online only)

0836   Highly Labor-Intensive Public Works in Madagascar: Issues and Policy Options
       by Nirina Haja Andrianjaka and Annamaria Milazzo, October 2008 (online only)


0835   Can Conditional Cash Transfer Programs Play a Greater Role in Reducing
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       by Lucy Bassett, October 2008

0834   The Performance of Social Pensions in India: The Case of Rajasthan
       by Puja Vasudeva Dutta, July 2008 (online only)

0833   Labor Regulations in Developing Countries: A Review of the Evidence and
       Directions for Future Research
       by Tito Boeri, Brooke Helppie, Mario Macis, October 2008 (online only)

0832   The Incentives to Invest in Job Training: Do Strict Labor Codes Influence this
       Decision?
       by Rita K. Almeida and Reyes Aterido, October 2008

0831   Reforming the Pension Reforms: The Recent Initiatives and Actions on
       Pensions in Argentina and Chile
       by Rafael Rofman, Eduardo Fajnzylber and German Herrera, May 2008
       (online only)

0830   Community-based Risk Management Arrangements: An Overview and
       Implications for Social Fund Programs
       by Ruchira Bhattamishra and Christopher B. Barrett, October 2008

0829   Work History and the Access to Contributory Pensions in Uruguay: Some
       Facts and Policy Options
       by Marisa Bucheli, Alvaro Forteza and Ianina Rossi, May 2008 (online only)

0828   A Theory of Contribution Density and Implications for Pension Design
       by Salvador Valdés-Prieto, July 2008 (online only)

0827   On the Financial Sustainability of Earnings-Related Pension Schemes with
       "Pay-As-You-Go" Financing
       by David A. Robalino and András Bodor, July 2008 (online only)

0826   An Ex-Ante Evaluation of the Impact of Social Insurance Policies on Labor
       Supply in Brazil: The Case for Explicit Over Implicit Redistribution
       by David A. Robalino, Eduardo Zylberstajn, Helio Zylberstajn and Luis
       Eduardo Afonso, July 2008 (online only) ­ REVISED AND PUBLISHED AS
       SP DISCUSSION PAPER NO. 0929

0825   The Portability of Pension Rights: General Principals and the Caribbean Case
       by Alvaro Forteza, May 2008 (online only)

0824   Pension Systems and Reform Conceptual Framework
       by Robert Holzmann, Richard Paul Hinz and Mark Dorfman, September
       2008 (online only)

0823   Mandated Benefits, Employment, and Inequality in a Dual Economy
       by Rita Almeida and Pedro Carneiro, August 2008 (online only)

0822   The Return to Firm Investments in Human Capital
       by Rita Almeida and Pedro Carneiro, June 2008 (online only)

0821   Population Aging and the Labor Market: The Case of Sri Lanka
       by Milan Vodopivec and Nisha Arunatilake, August 2008 (online only)

0820   China: Improving Unemployment Insurance
       by Milan Vodopivec and Minna Hahn Tong, July 2008 (online only)

0819   Management Information Systems in Social Safety Net Programs: A Look at
       Accountability and Control Mechanisms
       by Cesar Baldeon and Maria D. Arribas-Baños, August 2008 (online only)

0818   Guidance for Responses from the Human Development Sectors to Rising
       Food Prices
       by Margaret Grosh, Carlo del Ninno and Emil Daniel Tesliuc, June 2008
       (revised and published as a non-SP Discussion Paper)

0817   Levels and Patterns of Safety Net Spending in Developing and Transition
       Countries
       by Christine Weigand and Margaret Grosh, June 2008 (online only)

0816   Labor Regulation and Employment in India's Retail Stores
       by Mohammad Amin, June 2008 (online only)

0815   Beyond DALYs: Developing Indicators to Assess the Impact of Public
       Health Interventions on the Lives of People with Disabilities
       by Daniel Mont and Mitchell Loeb, May 2008

0814   Enforcement of Labor Regulation and Firm Size
       by Rita Almeida and Pedro Carneiro, May 2008 (online only)
0813   Labor Markets Lending and Analytical Work at the World Bank: FY2002-
       2007
       by Milan Vodopivec, Jean Fares and Michael Justesen, May 2008

0812   Risk and Vulnerability Analysis in the World Bank Analytic Work: FY2000-
       2007
       by Valerie Kozel, Pierre Fallavier and Reena Badiani, May 2008

0811   Pension Lending and Analytical Work at the World Bank: FY2002-2007
       by Richard Hinz, Melike Egelmelzer and Sergei Biletsky, May 2008 (online
       only)

0810   Social Safety Nets Lending and Analytical Work at the World Bank:
       FY2002-2007
       by Margaret Grosh and Annamaria Milazzo, May 2008

0809   Social Funds as an Instrument of Social Protection: An Analysis of Lending
       Trends - FY2000-2007
       by Samantha De Silva and June Wei Sum, July 2008

0808   Disability & Development in the World Bank: FY2000-2007
       by Jeanine Braithwaite, Richard Carroll, and Karen Peffley, May 2008

0807   Migration, Labor Markets, and Integration of Migrants: An Overview for
       Europe
       by Rainer Münz, April 2008 (online only)

0806   Is the Window of Opportunity Closing for Brazilian Youth? Labor Market
       Trends and Business Cycle Effects
       by Michael Justesen, April 2008

0805   Disability and Poverty: A Survey of World Bank Poverty Assessments and
       Implications
       by Jeanine Braithwaite and Daniel Mont, February 2008

0804   Poverty Traps and Social Protection
       by Christopher B. Barrett, Michael R. Carter and Munenobu Ikegami,
       February 2008

0803   Live Longer, Work Longer: Making It Happen in the Labor Market
       by Milan Vodopivec and Primoz Dolenc, February 2008 (online only)

0802   Disability in Kazakhstan: An Evaluation of Official Data
       by Ai-Gul S. Seitenova and Charles M. Becker, February 2008 (online only)
0801      Disability Insurance with Pre-funding and Private Participation: The Chilean
          Model
          by Estelle James, Augusto Iglesias and Alejandra Cox Edwards, January
          2008


 To view Social Protection Discussion papers published prior to 2008, please visit
                            www.worldbank.org/sp.
                                               Summary Findings

                       This paper analyzes the link between firm size and the investment in
                       job training by employers. Using a large firm level data set across 99
                       developing countries, we show that a strong and positive correlation
                       in the investment in job training and firm size is a robust statistical
                       finding both within and across countries with very different institutions
                       and level of development. However, our findings do not support the
                       view that this difference is mostly driven by market imperfections
                       disproportionally affecting SMEs. Rather, our evidence is supportive
                       of SMEs having a smaller expected return from the investment in job
                       training than larger firms. Therefore, our findings call for caution when
                       designing pro-SME policies fostering the investment in on the job
                       training.




                                       HUMAN DEVELOPMENT NETWORK




About this series...
Social Protection Discussion Papers are published to communicate the results of The World Bank's work to the
development community with the least possible delay. The typescript manuscript of this paper therefore has not been
prepared in accordance with the procedures appropriate to formally edited texts. The findings, interpretations, and
conclusions expressed herein are those of the author(s), and do not necessarily reflect the views of the International
Bank for Reconstruction and Development / The World Bank and its affiliated organizations, or those of the Executive
Directors of The World Bank or the governments they represent. The World Bank does not guarantee the accuracy
of the data included in this work.

For free copies of this paper, please contact the Social Protection Advisory Service, The World Bank, 1818 H Street,
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