Job polarization and the changing nature of international trade

To fully understand the significance of the two focal points of this paper – occupational task routineness and offshorability – we need to recognize how profoundly technological change and offshoring have shaped the European labor market structures in recent decades. In their influential paper, Goos et al. (Reference Goos, Manning and Salomons2014) provided evidence on how the growth rates of different occupations have varied greatly in Western Europe between 1993 and 2010. They noted that job growth has been concentrated not only in high-paid jobs such as professionals and managersbut also in low-paid jobs such as personal service, transport, and sales workers. By contrast, middling jobs such as craft workers, machine operators, and office clerks have seen relative declines.

Building on the task approach (Autor et al., Reference Autor, Levy and Murnane2003; Grossman and Rossi-Hansberg, Reference Grossman and Rossi-Hansberg2008; Acemoglu and Autor, Reference Acemoglu and Autor2011; Autor, Reference Autor2013), the authors observed that job growth has been analogous to the routine intensity of occupations. There has been a substantial increase in the employment of occupations that include mainly nonroutine tasks, but decline in the employment of occupations characterized by routine tasks. While the main cause of the witnessed job polarization is technological change, offshoring of routine work to countries with lower production costs is also accountable for the decline in the number of routine occupations. Together, technological change and offshoring can account for about three quarters of the witnessed job polarization in Western Europe (Goos et al., Reference Goos, Manning and Salomons2014).

Put simply, job polarization means divergence of employment opportunities and labor market risks between worker groups. Workers in occupations, whose tasks can be partly or fully replaced by a machine or a computer, are most vulnerable to technological change. However, to assess vulnerability to offshoring, it is essential to understand the changing nature and heterogeneous effects of international trade.

Traditional trade theories focus on comparative advantage at the level of sectors (Ricardo-Viner (RV) models) or at the level of factors of production (Stolper-Samuelson models). In the former (RV), the distributive conflict takes place at the level of industries. From this perspective, the labor market effects of international trade, and correspondingly the economic risks facing different groups of workers, is dependent on (a) the industries these workers belong to and (b) the extent of comparative advantage these industries enjoy in advanced economies (e.g., Gourevitch, Reference Gourevitch1986; Walter, Reference Walter2017). In the latter (SS), the effects of trade occur at the level of factors of production and are distributed according to the skill level of individual workers. Trade increases relative returns to a countryʼs abundant factors and relative fall in returns to scarce factors. As advanced economies are abundant with skilled labor, the model predicts that skilled workers benefit from trade, whereas the unskilled workers face more economic hardships in these countries (Feenstra and Hanson, Reference Feenstra and Hanson1999; Kriesi et al., Reference Kriesi, Grande, Lachat, Dolezal, Bornschier and Frey2008; Dancygier and Walter, Reference Dancygier, Walter, Pablo Beramendi, Kitschelt and Kriesi2015).

While micro-level studies have given partial support for both of the traditional theories (Dancygier and Walter, Reference Dancygier, Walter, Pablo Beramendi, Kitschelt and Kriesi2015), their explanatory power has been increasingly questioned for several reasons. First, empirical firm-level research has provided evidence of substantial within-industry variation in productivity and wage levels, which is neglected in sectoral models (Walter, Reference Walter2017). Second, there is considerable heterogeneity in the distributional consequences of trade even among workers with nominally the same skill levels (Walter, Reference Walter2017; Rodrik, Reference Rodrik2018), which is contrary to what factor-endowment models predict. Third and most importantly, trade today takes place in a world of, and increasingly, fragmented production chains, which crosscut industrial sectors and skill-specific factors. As bits of value are being added in many different locations, trade is better characterized as ‘trade in tasks’ instead of trade in final goods and services (Grossman and Rossi-Hansberg, Reference Grossman and Rossi-Hansberg2008, p. 1978.). For instance, an Apple iPhone is designed in the USA, with its components sourced from different suppliers produced in Japan and South Korea and finally assembled in China before being exported to the test of the world (The Economist, 2011).

The new trade models that study the heterogeneous labor market consequences of trade at the occupational level build on the task approach (Autor et al., Reference Autor, Levy and Murnane2003; Grossman and Rossi-Hansberg, Reference Grossman and Rossi-Hansberg2008) and are thus arguably better suited for analysing trade in the setting of fragmented production chains. Since each occupation consists of a bundle of tasks (Owen and Johnston, Reference Owen and Johnston2017; Frey and Osborne, Reference Frey and Osborne2017) of which each occupationʼs task structure is largely different from another occupationʼs, a trade in task approach suggests that the effects of international trade are distributed at the level of occupations. The approach acknowledges that people move across occupations, but relaxes the assumption of full labor mobility, since there are costs and hurdles associated with changing jobs (Ritter, Reference Ritter2014; Owen and Johnston, Reference Owen and Johnston2017). Some occupations require licensing and accreditation and others long occupational tenure (Kambourov and Manovskii, Reference Kambourov and Manovskii2008). Because human capital is to some degree skill-specific, skills are not easily transferable between occupations (Kambourov and Manovskii, Reference Kambourov and Manovskii2009). Changing an occupation destroys occupation-specific human capital (Ritter, Reference Ritter2014), which may push workers either to occupations with lower wage or to occupations, which have comparatively similar task content to the previous occupation.

The occupational approach suggests that the effects of international trade crosscut industrial sectors and skill-specific factors. The key takeaway in terms of distributional conflict is that the occupational task content determines whether and how individuals benefit from or are hurt by trade. In countries that have comparative advantage in routine production, trade should benefit people in routine-intensive occupations. Correspondingly, in countries that have comparative advantage in abstract and cognitive tasks – such as the advanced capitalist countries of Western Europe – trade in tasks should benefit people in nonroutine occupations (Owen and Johnston, Reference Owen and Johnston2017).

The argument and hypotheses

To sum up our theoretical expectations, we argue that labor market risks and prospects associated with occupational characteristics shape peopleʼs views on immigration. From the perspective of labor market risks, the expected implications of technological change are rather evident: routine-biased technological change should increase labor market risks in occupations whose task content is high. Therefore, we expect individuals to become more sceptical about economic consequences of immigration as their occupational task routineness increases.

The impact of offshorability on labor market risks and, thus, political preferences is more heterogeneous. Workers in offshorable occupations face more competition from foreign workers than workers in nonoffshorable occupations, but are not necessarily more vulnerable. The degree of vulnerability depends on a workerʼs comparative advantage in the global market. Offshorability provides opportunities to high-skilled workers who perform mostly nonroutine tasks (Rommel and Walter, Reference Walter2017), but increases risks of low-skilled workers who perform mostly routine tasks (Hummels et al., Reference Hummels, Jørgensen, Munch and Xiang2014).

Therefore, we expect higher occupational offshorability to increase scepticism toward the economic benefits of immigration in high-routine occupations, but higher offshorability to also increase optimism toward immigration in low-routine occupations.

As technological change is considered to shape labor markets more profoundly than offshoring (Goos et al., Reference Goos, Manning and Salomons2009, Reference Goos, Manning and Salomons2014), we expect that the association between task routineness and immigration attitudes to be stronger than the association between occupational offshorability and immigration attitudes.

Data description and empirical strategy

We test our hypotheses using cross-sectional and cross-national data from the European Social Survey (Rounds 1–7). There are three main strengths of the European Social Survey (ESS). Firstly, it maintains a consistent battery of questions measuring respondents’ attitudes toward immigration, which allows the operationalization of our dependent variable. Secondly, these questions are phrased similarly across questionnaires for each country. Thirdly, it classifies respondents according to their occupational categories using the International Standard Classification of Occupation (ISCO) 1988 and 2008 systems across all ESS rounds. The availability of detailed occupational categories at the 4-digit level across ESS rounds allows us to construct the two explanatory variables used in this study – (a) the potential of occupational offshorability and (b) the level of task routineness of occupations. To synchronize the two ISCO classification systems, we used the crosswalk provided by Ganzeboom and Treiman (Reference Ganzeboom and Treiman2010) to downgrade the occupations coded in ISCO-08 to ISCO-88.

To operationalize occupational offshorability, we referred to the index provided by Blinder (Reference Blinder2009) which assigned a value to each of the 817 occupational categories listed in the Standard Occupation Classification (SOC) 2000. As a crosswalk to ISCO 08 only exists for the newer SOC 2010, we first crosswalked SOC 2000 to its newer classification index SOC 2010. Most of the ISCO 08 categories had a one-to-one fit with the SOC 2010 categories. Some ISCO 08 categories were however composed of multiple SOC 2010 categories. To get around this, we use the weighted mean value of potential offshorability of the component SOC 2010 categories. The weights are obtained in proportion to the number of workers in each SOC 2010 category obtained from Labour Force Statistics from the Current Population Survey conducted by the Bureau of Census for the Bureau of Labour Statistics in the USA.Footnote ¹

The Blinder index assigns values of potential offshorability on two criteria: (1) does the worker in this occupation need to be physically close to a specific work location and (2) does the worker in this occupation need to be physically close to the work unit? (Blinder, Reference Blinder2009, p. 18). Higher values on the Blinder index indicate a greater potential of offshorability. Blinder however cautioned against treating the scale as cardinal. Instead, he recommended it to be used as a categorical classification system in which values ranging from: (a) 76–100 indicate that an occupation is potentially highly offshorable, (b) 51–75 indicate that an occupation is potentially offshorable, (c) 26–50 indicate that an occupation is potentially non-offshorable, and (d) 0–25 indicate that an occupation is potentially highly non-offshorable. For the purposes of this study, we collapsed the index into two categories similarly to Owen and Johnston (Reference Owen and Johnston2017). Our variable measuring potential offshorability is thus a dummy with 0 indicating that an occupation is potentially non-offshorable and 1 indicating that an occupation is potentially offshorable.

To measure task routineness, we used the routine task intensity index (RTI) from Acemoglu and Autor (Reference Acemoglu and Autor2011). The RTI assigns occupations scores according to the level of routineness in their constituent tasks. It is constructed by subtracting the sum of log of abstract and the log of manual tasks from the log of routine tasks from the O*NET database. Higher values on the RTI indicate higher levels of occupational task routineness. We assigned RTI values to each of the ISCO categories at the 4-digit level using data from Owen and Johnston (Reference Owen and Johnston2017) (see Appendix Table A2). The centered values range from −2.12 (religious professionals) to 2.49 (metal moulders and coremakers).

Our theory suggests that the effect of task routineness and offshorability should be conditional on the countryʼs comparative advantage on supplying these tasks. Thus, the difference between routine and nonroutine workers should be more pronounced the richer the country is. We therefore use the 16 richest countries in the ESS data based on their GDP per capita.Footnote ² Another reason to focus on the richest countries in the sample is that because they are relatively advanced, they should be similarly affected by overriding transnational forces.

Our main dependent variable is the ESS question ‘Is immigration bad or good for countryʼs economy’, which is a scale from zero to ten. While this variable may reflect all kinds of economic concerns over immigration, it is more likely to be associated with concerns over fiscal burden than labor market competition (Dustmann and Preston, Reference Dustmann and Preston2006).

We use ordinary least squares models, include country and year dummies and cluster the standard errors by country. The data are weighted by the design weights and the population size weights. We include standard controls used in the literature of policy preferences in our models. These include age, gender, income,Footnote ³ education,Footnote ⁴ position on left-right scale, and whether the respondent belongs to a minority group (see Appendix Table A3). We include only the respondents who have been in paid work in the last seven days before the interview, because our proxies of occupational threat are only relevant for those who have a job.

Formally, we estimate the following regression:

(1)$${Y_{i,c,t}} = {\beta _0} + {\beta _1}RT{I_{i,c,t}} + {\beta _2}OF{F_{i,c,t}} + {\beta _3}RT{I_{i,c,t}}*OF{F_{i,c,t}} + {\beta _4}{Z_{i,c,t}} + {\varepsilon _{i,c,t}}$$

Here, Y_i,c,t measures the attitudes toward immigration of individual i in country c in the year t, RTI_i,c,t is the occupational task routineness, OFF_i,c,t is a dummy for offshorability, RTI_i,c,t * OFF_i,c,t is the interaction term of task routineness and offshorability, and Z_i,c,t is a vector of control variables.