Background

There are five main routes for migrants who aim to reach Europe: Western Mediterranean, Central Mediterranean, Western Balkans, Eastern Balkans, and the Eastern Borders.Footnote ¹⁸ The Central Mediterranean and Eastern Balkan routes have the most migrants. Most migrants coming to Europe via the former route originate in African countries, especially Tunisia, Eritrea, and Guinea; they are overwhelmingly economic migrants.Footnote ¹⁹ Most migrants coming through the Eastern Balkans are from Syria and Afghanistan, and most have refugee status.Footnote ²⁰

Following an increase in the number of migrants from Africa, on 30 August 2008 then-president of Italy Silvio Berlusconi signed the Treaty on Friendship, Partnership and Cooperation (also known as the Benghazi Treaty) with Libya. Article 19 of the treaty committed both parties to collaborate through bilateral and regional initiatives to prevent illegal immigration. This entailed implementing previous agreements and protocols on immigration as well as joint patrols of the approximately 2,000 kilometers of Libyan coast on patrol boats provided by Italy.Footnote ²¹ Libyan land borders were also to be controlled by a satellite detection system jointly financed by Italy and the European Union.

The Benghazi Treaty was suspended in February 2011, after the start of the Libyan uprising, which was part of a series of revolutions in North African and Middle Eastern countries referred to as the Arab Spring.Footnote ²² In August of that year rebel forces launched an offensive on the government-held coast of Libya, backed by a wide-reaching NATO bombing campaign, and captured the capital city of Tripoli. On 16 September the UN recognized the National Transitional Council as the legal representative of Libya, replacing the Gaddafi government. Gaddafi was captured and killed in Sirte on 20 October.

Although the National Transitional Council declared the liberation of Libya and the official end of the war on 23 October 2011, the political situation has remained unstable since the collapse of Gaddafi's regime, and in 2014 the transition to democracy evolved into a new civil war. As a result of this political vacuum, migration flows from Libya through the Mediterranean intensified and reached unprecedented levels after 2011 (Figure 1). In the empirical analysis, we leverage the variation over time depicted in the figure to explore the effect of the surge in migration on firms’ profitability.Footnote ²³

FIGURE 1. Number of migrants from the Central Mediterranean route (level and growth), 2008–2016

Conceptual Framework

Our framework is based on two assumptions. First, African migrants face a substantial risk of job–skill mismatch. Several recent studies have found that educated immigrants are often forced to accept jobs that require a lower educational/skill attainment, indicating skill downgrading in occupations.Footnote ²⁴ For the purposes of our argument, the skill-downgrading effect implies that African migrants are, on average, treated as low-skilled workers in the receiving European labor markets even though they may be more skilled than natives. In other words, if natives and migrants have the same skill level, migrant workers face higher labor market friction.Footnote ²⁵

Our second assumption is that many European countries have a shortage of low-skilled workers. This assumption is in line with the logic of the comparative-advantage model, which maintains that developed economies are rich in capital and poor in labor. It also squares with evidence that there is a limited demand for low-paid jobs among European workers, who sort into higher-paid and generally more attractive occupations.Footnote ²⁶

Armed with these two assumptions, we posit that low-productivity firms are more likely than productive firms to hire migrants for two main reasons. The first reason is in line with the logic of Helpman, Itshoki, and Redding.Footnote ²⁷ Because firms cannot directly observe workers’ ability, they screen applicants in an attempt to select more able employees. As more productive firms realize higher returns from screening, they can screen more intensively and hire more skilled employees than less productive firms. Remember that migrants are typically perceived as low-skilled regardless of their actual skill levels because they face higher labor market friction than natives. Since higher-ability workers (whether perceived or actual) are more costly to replace, more productive firms pay higher wages.

Second, low-productivity firms are more likely to hire migrants due to the shortage of low-skilled workers in some occupations. Regardless of their level of education, migrants are less competitive for higher-paid jobs than natives due to the labor market frictions discussed earlier. Thus, migrants sort into low-paid jobs for which the competition with natives is lighter. Put differently, since low-productivity firms face labor shortages significantly more often than productive firms, low-productivity firms are more likely than high-productivity firms to take advantage of the surge of low-skilled migrants. Recent findings in economics lend empirical support to this claim.Footnote ²⁸

How exactly do migration flows from Africa affect firms’ performance in the EU? The sudden increase in low-skilled labor from Africa affects them in two ways. First, it reduces the cost of labor. Since low-productivity firms are more likely than high-productivity firms to hire unskilled workers, the former experience a larger reduction in the average cost per worker than the latter (labor cost channel). Moreover, low-productivity firms, which experienced a labor shortage due to the low supply of unskilled workers before the migration flow, have the opportunity to expand their economic activities by employing migrants, who are willing to accept low-wage jobs (employment channel). Thus, low-productivity firms benefit disproportionally more than high-productivity firms from a surge of unskilled workers, which reduces their costs and increases economic activities by expanding the labor pool. In turn, lower production costs and an expansion of labor increase profits more for low-productivity firms than for high-productivity firms in areas with a large presence of migrants (and low-productivity firms in areas with a small presence of migrants).Footnote ²⁹

We link these firm-level dynamics to attitudes toward migration, leveraging variation in the geographical distribution of low-productivity firms. We expect that after the migration flow, areas with a large share of migrants and low-productivity firms will develop more positive attitudes toward migrants compared to areas with a large share of migrants and few low-productivity firms. Put differently, we hypothesize that areas with a large share of low-productivity firms (and a large share of migrants) perform better than those with a small share of low-productivity firms (and a large share of migrants) after the migration flow. In turn, people in areas made better-off by migrants will update their beliefs that migrants have a positive impact on the economy.

Our main hypothesis is that migration flows improve economic conditions in areas with a large share of migrants and low-productivity firms (because those firms can more easily employ cheap labor), which generates more favorable attitudes toward migration.

Since our argument hinges on migrants’ differential effects on firms’ performance, we explore the economic microfoundations of this attitudinal shift using firm-level evidence. In particular, we anticipate that after the migration flow (1) low-productivity firms in areas with a large share of migrants perform better than those in areas with a small share of migrants (overall effect); (2) the cost of labor for low-productivity firms in areas with a large share of migrants decreases compared to those in areas with a small share of migrants (labor cost channel); and (3) workers’ employment in low-productivity firms in areas with a large share of migrants increases compared to workers’ employment in low-productivity firms in areas with a small share of migrants (employment channel). On the other hand, we expect that productive firms are not significantly affected by the migration flow, since their labor market does not depend on African migrants. This is a second set of hypotheses that we will test in the empirical analysis.

Data

We test our argument using a reduced-form approach. In this section we describe the sample and main variables.

Empirical Strategy

Our approach to identification is a triple DiD.Footnote ³⁹ We compare the evolution of attitudes toward migration across individuals and NUTS 2 regions before and after 2011 for different levels of migrants’ stock and different shares of low-productivity firms.

Since the stock of African migrants in each NUTS 2 region was measured at baseline in 2001, it varies across only geographical units. In our setting, the treatment varies by intensity, since each NUTS 2 region has a different (always positive) number of migrants from Africa. The dummy variable, which scores 1 after the collapse of Gaddafi's regime, captures the pre-and-post effects of migration flow, and it is responsible for much of the variation over time. The variable capturing the share of low-productivity firms mediates the effect of the pre-and-post-migration flow on attitudes toward migration. More formally, we estimate this baseline model:

(1)$$\!\!\!\eqalign{ Y_{irt} & = \alpha + \gamma _t + \gamma _r + \gamma_r \,\ast\, {\rm wave} + \beta _1\,{\rm \smallcaps SHARE} \ {\rm \smallcaps O}{\rm \smallcaps F} \ {\rm \smallcaps LOW {\hbox -} \smallcaps PRODUCTIVITY} \ {\rm \smallcaps FIRMS}_{i{\rm (}r{\rm )}} \cr & + \beta _2\, {\rm \smallcaps SHARE} \ {\rm \smallcaps O}{\rm \smallcaps F} \ {\rm \smallcaps LOW {\hbox -} \smallcaps PRODUCTIVITY} \ {\rm \smallcaps FIRMS}_{i{\rm (}r{\rm )}} \times {\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps MIGRANTS}\apos\ {\rm \smallcaps STOCK}_r \cr & + \beta _3\,{\rm \smallcaps SHARE} \ {\rm \smallcaps O}{\rm \smallcaps F} \ {\rm \smallcaps LOW}{\hbox -}{\rm \smallcaps PRODUCTIVITY} \ {\rm \smallcaps FIRMS}_{i{\rm (}r{\rm )}} \times {\rm \smallcaps POST}\hyphen 2011_{\it t} \cr &{\vskip4pt} + \beta _4\,{\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps MIGRANTS}\apos\ {\rm \smallcaps STOCK}_r \times {\rm \smallcaps POST}\hyphen 2011_{\it t} \cr & + \beta _5\,{\rm \smallcaps SHARE} \ {\rm \smallcaps O}{\rm \smallcaps F} \ {\rm \smallcaps LOW} {\hbox -} {\rm\smallcaps PRODUCTIVITY} \ {\rm \smallcaps FIRMS}_{i(r{\rm )}} \times {\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps MIGRANTS}\apos\ {\rm \smallcaps STOCK}_r \cr & \times {\rm \smallcaps P}{\rm \smallcaps O}{\rm \smallcaps S}{\rm \smallcaps T}\hyphen 2011_{\it t} + {\rm \epsilon }_{\it irt}} $$

where Y _irt is the dependent variable, capturing individual attitudes toward migration. share of low-productivity firms, African migrants' stock, post-2011, and their interactions are the main independent variables. The function i(r) maps each individual to its NUTS 2 region, the level at which we observe both share of low-productivity firms and African migrants' stock. β ₁ to β ₅ are the coefficients. The key coefficient of interest is β ₅, which we expect to be positive after 2011 since attitudes in favor of economic migrants increase more in areas with a large share of migrants and low-productivity firms. γ _t and γ _r are wave and NUTS 2 region fixed effects, respectively. Wave fixed effects capture and control for overall trends in individuals’ attitudes toward migration and absorb the coefficient of post-2011, which cannot be estimated alone. NUTS 2 region fixed effects net out time-invariant differences across regions; these absorb African migrants' stock, which does not vary over time. $\gamma_r*{\rm wave}$ are region-specific trends, which are included to validate the parallel-trends assumption. α is the constant, and $\epsilon _{irt}$ accounts for all residual determinants of the dependent variable.

Our augmented models include age, education, and gender.Footnote ⁴⁰ These controls are interacted with post-2011, share of low-productivity firms, and African migrants' stock (including triple interactions). We also include the growth of the native population at the NUTS 2 level to account for internal migration.Footnote ⁴¹ We interact this variable with share of low-productivity firms and post-2011. We run ordinary least squares (OLS) regressions with standard errors clustered at the NUTS 2 region level.

There are at least four concerns about our identification strategy. First we must consider a possible violation of the parallel-trends assumption. Figure A28 in Appendix B displays individual attitudes toward migration for regions with low and high levels of African migrant stock (below and above the median). There is no evidence of violation of the parallel-trends assumption. Importantly, our estimates include region-specific time trends. In some model specifications, we report the coefficient of each wave before and after Gaddafi's fall in 2011. This is the most transparent way to detect pre-trends.

Second, regions with a small share of migrants at baseline could be different from those with a large share. We demonstrate that they are balanced with respect to individual-level characteristics such as age, education, gender, and ideology, as well as shares of natives, and unemployment. Importantly, they are also balanced with respect to shares of low-productivity firms (see Table B1 in Appendix B). Moreover, we rerun our main models on a balanced sample, using the weights obtained by entropy balancing.Footnote ⁴²

Third, we implement a two-period analysis to reduce concerns about the negative-weights problem in the staggered DiD with multiple periods.Footnote ⁴³ Fourth, we may be concerned about two macro confounders: the role of the 2008 global financial crisis, which affects the period prior to the migration flow; and the role of refugees from the Middle East, and especially from Syria, who arrived in Europe at about the same time as the collapse of Gaddafi's regime. To sharpen the identification strategy, we look at a longer pre-treatment period and break down the stock of migrants by nationality to make sure that migrants from Africa are driving the results.

Firm-Level Evidence

In this section, we test the economic microfoundations of the attitudinal shift related to migration that we observed at the individual level. We explore whether after 2011, the performance of low-productivity firms in areas with large shares of African migrants increases more than that of low-productivity firms in areas with small shares of African migrants.

Empirical strategy

Our triple-DiD approach to identification is in line with the individual-level analysis. We compare the evolution of profit margin across NUTS 2 regions and firms before and after 2011 for different levels of migrant stock and firm productivity. Firm productivity varies across firms but not with time. In other words, firms enter the data set with a given productivity level, which is assumed to be exogenous and remains constant.Footnote ⁶⁰

Recall that the stock of African migrants in each NUTS 2 region is at the baseline 2001 value, so they only vary across geographical units. In our setting, the treatment intensity varies, since NUTS 2 regions have a different and always positive number of migrants from Africa. The only time-varying variable in the triple-interaction term is the dummy coded 1 after the collapse of Gaddafi's regime. More formally, we estimate this baseline model:

(2)$$\eqalign{{\rm \smallcaps PROFIT\ MARGIN}_{\,firt} & = \alpha + \gamma _t + \gamma _r + \gamma _i + \gamma_r*{\rm year} + \beta _{1} {\rm \smallcaps TFPR}_{\,fi{\rm (}r{\rm )}} \cr & + \beta _2\, {\rm \smallcaps TFPR}_{\,fi{\rm (}r{\rm )}} \times {\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps M}{\rm \smallcaps I}{\rm \smallcaps G}{\rm \smallcaps R}{\rm \smallcaps A}{\rm \smallcaps N}{\rm \smallcaps T}{\rm \smallcaps S}\apos\ {\rm \smallcaps S}{\rm \smallcaps T}{\rm \smallcaps O}{\rm \smallcaps C}{\rm \smallcaps K}_r \cr & + \beta _3\, {\rm \smallcaps TFPR}_{\,fi{\rm (}r{\rm )}} \times {\rm \smallcaps P}{\rm \smallcaps O}{\rm \smallcaps S}{\rm \smallcaps T}\hyphen 2011_{\it t} \cr &{\vskip4pt} + \beta _4\, {\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps M}{\rm \smallcaps I}{\rm \smallcaps G}{\rm \smallcaps R}{\rm \smallcaps A}{\rm \smallcaps N}{\rm \smallcaps T}{\rm \smallcaps S}\apos\ {\rm \smallcaps S}{\rm \smallcaps T}{\rm \smallcaps O}{\rm \smallcaps C}{\rm \smallcaps K}_r \times {\rm \smallcaps P}{\rm \smallcaps O}{\rm \smallcaps S}{\rm \smallcaps T}\hyphen 2011_{\it t} \cr & + \beta _5\, {\rm \smallcaps TFPR}_{\,fi(r{\rm )}} \times {\rm A}{\rm \smallcaps F}{\rm \smallcaps R}{\rm \smallcaps I}{\rm \smallcaps C}{\rm \smallcaps A}{\rm \smallcaps N}\ {\rm \smallcaps M}{\rm \smallcaps I}{\rm \smallcaps G}{\rm \smallcaps R}{\rm \smallcaps A}{\rm \smallcaps N}{\rm \smallcaps T}{\rm \smallcaps S}\apos\ {\rm \smallcaps S}{\rm \smallcaps T}{\rm \smallcaps O}{\rm \smallcaps C}{\rm \smallcaps K}_r \times {\rm \smallcaps P}{\rm \smallcaps O}{\rm \smallcaps S}{\rm \smallcaps T}\hyphen 2011_{\it t} \cr & + {\rm \epsilon }_{\,firt}} $$

where the log of the profit margin is the dependent variable, and tfpr, African migrants' stock, post-2011, and their interactions are the main independent variables. The function fi(r) maps each firm to its NUTS 2 region. β ₁ through β ₅ are the coefficients. The key coefficient of interest is β ₅, which we expect to be negative. γ _t, γ _r, and γ _i are year, NUTS 2 region, and industry fixed effects, respectively. Year fixed effects capture and control for overall trends in firms’ profits and absorb the coefficient of post-2011, which cannot be estimated alone. Industry and NUTS 2 region fixed effects net out time-invariant differences across industries and regions; the latter set of fixed effects absorbs African migrants' stock, which does not vary over time. $\gamma_r*{\rm year}$ are region-specific trends, which are included to validate the parallel-trends assumption. α is the constant, and $\epsilon _{firt}$ accounts for all residual determinants of the dependent variable.

Our augmented models include standard firm-level and industry controls: size proxied by the number of employees and asset value, as well as firm age and its squared value (AGE ²). We also include industry-level controls: preferential tariff cuts (import and export), the labor–capital ratio, and market concentration (measured using the Herfindahl–Hirschman index of revenue). In some estimates, we include regional controls such as the amount of foreign direct investment (inflow and outflow), the share of unskilled workers, export growth, and the growth of the native population. All of these controls are interacted with post-2011; the industry- and region-level controls are also interacted with tfpr.

We run OLS regressions with standard errors clustered at the NUTS 2 region level. Because our data set includes more than half a million private and public manufacturing firms for a period of eight years, we have more than a million observations in our baseline models. Note that the Amadeus database reports only the main industry in which firms operate. Thus, each firm compares only once in each year.

Concerns about possible violations of the parallel-trends assumption are similar to those discussed before. Importantly, our results are robust to the inclusion of region-specific time trends. In some model specifications, we report the coefficient for each year before and after Gaddafi's fall in 2011 to transparently rule out the presence of pre-trends.Footnote ⁶¹

Results

Main findings

Table 6 reports the main results of our analysis.Footnote ⁶² The key coefficient is African migrants' stock × post-2011 × tfpr, which is always negative and significant. Simply put, as a result of the surge of migration from Africa after 2011, low-productivity firms increase their profit margin more than high-productivity firms. Or, more precisely, low-productivity firms in regions with a large share of African migrants increase their profit margin more than low-productivity firms in regions with a small share of African migrants. African migrants' stock × post-2011 does not affect high-productivity firms. These results are virtually unchanged when we include country-year fixed effects (model 2), industry- and firm-level controls (model 3), a first set of region-level controls (model 4), or a second set of region-level controls (model 5).Footnote ⁶³

TABLE 6. Main results: the economic microfoundations of attitudes toward migration

Notes: OLS, with bootstrapped standard errors clustered by NUTS 2 region in parentheses. The unit of observation is firm-region-year. The outcome variable in all models is profit margin. Sources: Amadeus data set, Eurostat, German Federal Statistical Office. Robust standard errors in parentheses * p < .10; ** p < .05; *** p < .01.

Figure 6 plots the effect of the triple-interaction term. It reports the marginal effect of African migrants' stock × post-2011 for different levels of firm productivity. After 2011, the profit margins of low-productivity firms in regions with a large influx of African migrants are twice those of low-productivity firms in regions with a small stock of African migrants. Productive firms’ profit margins are unchanged by the surge of migration from African countries, which is in line with the argument that such firms are unlikely to employ low-skilled workers.

FIGURE 6. Effect of migrants on firms’ profit margins for different levels of productivity

Although all of our estimates control for region-specific trends, there may still be concerns about the validity of the parallel-trends assumption. As we did for the individual-level analysis, we interact African migrants' stock with a dummy for each year of our analysis. Figure 7 depicts the marginal effect of each interaction on the profit margin for low- and high-productivity firms.

FIGURE 7. Effect of migrants on firms’ profit margins for different levels of productivity and different years

The upper panel displays the effects for low-productivity firms. The effect is near zero and not significant in 2009 or 2010, but it is positive and significant between 2011 and 2014, which coincides with the largest increase in the number of migrants from Libya. The effects fade away in 2015 and 2016.Footnote ⁶⁴ We note that the economic effect lasts a shorter time than the attitudinal effect found in the individual-level analysis. The lower panel shows no significant effect on high-productivity firms during the sample period.

Mechanisms

To shed light on the mechanisms, we run two auxiliary tests: the labor cost channel and the employment channel. For both, we rely on the model formalized in Equation (2), replacing profit margins with the log of the average cost of employees and the log of the number of employees, respectively.

First, after 2011 the average cost per employee of low-productivity (but not high-productivity) firms decreases more in areas with a high concentration of African migrants than in those with a low concentration (Figure 8).Footnote ⁶⁵

FIGURE 8. Effect of migrants on firms’ labor costs for different levels of productivity

This result is in line with the argument that the flow of African migrants, who are treated as low-skilled workers in European labor markets, increases the supply of labor available to low-productivity firms and thus reduces their labor costs. In short, the rise in profits is driven by a reduction of labor costs experienced by low-productivity firms operating in regions with large shares of migrants.

Second, after 2011, the (log of) employment increases more in areas with a high concentration of African migrants than in those with a low concentration for low-productivity firms (Figure 9). There is no differential effect for high-productivity firms.Footnote ⁶⁶

FIGURE 9. Effect of migrants on firms’ employment for different levels of productivity

This result is also in line with the argument that the flow of African migrants reduces the shortage of low-skilled workers, giving low-productivity firms the opportunity to hire more employees. Thus, part of the increase in profit is driven by expanding the production of low-productivity firms operating in regions with a large share of migrants due to labor becoming more available.

Additional evidence

We perform further tests to rule out some potential confounding factors in our analysis (see Appendix D for details). We explore the role of the 2008 global financial crisis, and we account for the role of Syrian refugees, who are not economic migrants, arriving in Europe. Our main results remain unchanged when considering these potential confounders (Tables D3, D4, and D5).

We also check that firm size does not drive our results (Table D6). When we interact African migrants' stock and post-2011 with a dummy for small firms (defined by the variable compcat in Amadeus), our main results remain unchanged. However, there is evidence that after 2011 small firms in areas with a large share of African migrants increase their profits more than small firms in areas with a small share of African migrants. Our results are similar if we use a two-period analysis (pre- and post-2011) rather than a multiple-year analysis, as we did for the individual-level models (Table D7). We also test another implication of our argument: we show that after 2011 total assets per employee in low-productivity firms decrease more in areas with a high concentration of African migrants than in areas with a low concentration (Appendix D). This suggests a capital–labor substitution effect among low-productivity firms in areas with a large share of African migrants (Table D8).

The case of Sweden

We complete our analysis by concentrating again on Sweden. Using Swedish firm-level data, which are uniquely rich, we explore what happens to the employment of African migrants and native workers, as well as that of skilled and unskilled workers, in less productive and more productive firms, after 2011. We describe the data, discuss our empirical strategy, and report the results of this analysis in Appendix E. The fine-grained analysis allows us to pin down a key mechanism highlighted by our conceptual framework: after the migration flow, cheap African and unskilled workers are more likely to be employed in low-productivity firms in areas with a large share of African migrants than in high-productivity firms in areas with a large share of African migrants. Furthermore, we find no evidence of a displacement effect—that is, that African workers are being hired in low-productivity firms at the expense of native workers. If anything, migrants have an indirect positive effect on native employment and income by directly increasing firms’ profitability. All these results shed light on why attitudes toward migration improve in areas with a large share of both African migrants and low-productivity firms. These areas, and the natives living in them, are better-off as a result of the migration flow.