0853 GMT May 22, 2018
Women are overrepresented in industries that require high levels of social skills and empathy (such as nursing, teaching and care work), where it would be difficult to replace a human worker with automation, theconversation.com reported.
Women in advanced economies also have, on average, higher levels of education and digital literacy, giving them a comparative advantage in a labor market that is continuously transformed by technological innovation.
The fear that robots could one day wipe out most of human labor is likely unjustified, as discussed in several studies. In fact, the risk of digitalization varies considerably across jobs, depending on what tasks and skills are involved.
For instance, jobs that involve physical work for longer or using fingers or hands are at a significantly higher risk of digitalization than jobs that involve presenting to or training others. Similarly, jobs that require literacy and problem solving are at lower risk than jobs that require numeracy.
Technological innovation, of which automation is a form, changes the way in which work is organized and performed across different economic sectors.
Typically, this process has resulted in a progressive shift from unskilled to skilled labor, with the former becoming more casual and disposable. At the same time, new technologies have opened up opportunities for flexible work arrangements, distance learning and training, and networking.
As a result of this transformation, certain professions that traditionally had more women (for example clerical and service occupations) grew in size, thus increasing opportunities for female employment.
While automation could also threaten jobs in other sectors with high female participation (for example assembly type manufacturing or labor-intensive agriculture), historically the effect of innovation in the work sector seems to have increased demand for female labor and participation.
Nowadays, the interaction between technological and societal changes plays a critical role. Shifts in the wage structure (for example higher demand and hence higher wages for skilled labor) combined with women attaining higher levels of education and changing marital choices, make participation in the labor force both easier and more attractive to a larger number of women. This is particularly the case in more economically developed countries.
Overall, the economic argument suggested that while some sectors where a lot of women work might be vulnerable to digitalization, women are, in general, at lower risk than men and could in fact benefit from an increase in employment opportunities.
Estimating the impact of automation on female labor participation is not an easy task. In particular, it is difficult to isolate this impact from other factors that determine participation. So, early research on this tends to rely on qualitative analysis of specific case studies.
More recently, advances in research methods and data availability have led to assessments which confirm the potential benefits of automation for female participation and employment.
The main caveat here is that often this research refers to the US and/or a relatively small group of advanced, the Organization for Economic Cooperation and Development (OECD) countries.
For instance, a 2016 study points to the fact that technological progress in the household sector is a key driver of the observed increase in married female labor force participation in the US. This is not just an improvement in appliances, but also the fact that many women do not need to stay home to raise their children. It also takes into account a change in the way we do things at home (for example frozen or delivered meals as opposed to cooked meals that take hours to prepare).
Along similar lines, an OECD study, also published in 2016, shows that after controlling for a variety of factors, the risk of jobs becoming automated is significantly lower for women than it is for men.
Another very recent contribution compares the risk of digitalization of jobs across eight advanced economies (Germany, France, United Kingdom, Italy, Russia, Turkey, Japan, and Korea). Two main conclusions emerge from the data.
First, women are at no higher risk than men and often they are at lower risk. The only exception is Japan, where the risk of digitalization for men is significantly lower.
Second, low-skilled occupations are generally most at risk. However, within these occupations, women face a significantly lower risk than men (again with the only exception of Japan, where the risk in low-skilled occupations is practically the same for men and women).
This is because, in advanced economies, women tend to be employed in occupations that require high levels of social competence and empathy (for example nursing professions) and are therefore more resistant to automation than other lower-skills occupations such as machine operators or assembly line workers.
Far from destroying all jobs, automation seems to be changing occupations in a way that benefits women more than men. This does not mean that automation alone will eliminate any form of gender gap in the labor market. However, it does mean that women have less to fear than men, and probably more to benefit, from the advent of robots.