2. Research context

As a theoretical consideration of fertility choice, the quality–quantity tradeoff proposed by Becker and Lewis (Reference Becker and Lewis1973) explains that higher-income families stop having multiple children to guarantee the quality of their child. This concept has predominated the economic analysis on fertility for many decades, but some recent empirical literatures have suggested mixed relationships in the industrialized countries [Black et al. (Reference Black, Devereux and Salvanes2005); Angrist et al. (Reference Angrist, Lavy and Schlosser2010); Mogstad and Wiswall (Reference Mogstad and Wiswall2016); Bagger et al. (Reference Bagger, Birchenall, Mansour and Urzúa2021)]. As Doepke (Reference Doepke2015) suggested, this is because public support for high-quality schooling or the restriction of child labor influences the household fertility decision. On the contrary, as some literatures empirically support, the U-shape relationship between fertility and women's education is observed in recent trends in the US. That is, high-skilled or high-income families increase their fertility, dissenting from the traditional theoretical thoughts. Some works of literature [e.g., Hazan and Zoabi (Reference Hazan and Zoabi2015); Bar et al. (Reference Bar, Hazan, Leukhina, Weiss and Zoabi2018)] suspect that this trend relies on the “marketization hypothesis” [Freeman and Schettkat (Reference Freeman and Schettkat2005)]; that is, higher-income or higher-skilled mothers purchase the housekeeping or babysitting service, in which the lower-skilled immigrants often serve, to reduce their parental burden, and they enable to have more children.

However, the relationship between fertility and the outsourcing of housekeeping and childcare to lower-skilled immigrants is theoretically complex. As mentioned, the employment of FDWs is expected to relieve the monetary and psychological burden on couples rearing children, especially women. Some studies [e.g., Blau and Robins (Reference Blau and Robins1989); Balbo et al. (Reference Balbo, Billari and Mills2013); Furtado (Reference Furtado2016)] suggest that several mechanisms may be at work when we consider the effect of outsourcing housework on fertility decisions. First, a positive effect on fertility is expected because of relaxing the time budget constraint for couples. By hiring FDWs, couples in effect earn more hours that can be spent on child-rearing activities, and this may lead to an increase in the number of children. Second, a negative effect on fertility is also expected because with an FDW at home, women who used to perform housework full-time now have a higher opportunity cost of staying home and may decide to enter the labor market. That is, at the extensive margin, these women may engage in labor activities and increase labor hours, which is expected to have negative effects on fertility choice. Furthermore, a negative effect on fertility is also expected for women who had been working before the employment of an FDW. Because hiring an FDW allows them to work longer hours, they may have a higher chance of being promoted or more desire to pursue higher positions. This effect at the intensive margin is expected to negatively affect the number of children.

Although other studies have shown that lowering the costs of child-rearing by outsourcing is beneficial for female participation in local labor markets [Cortés and Tessada (Reference Cortés and Tessada2011); Cortés and Pan (Reference Cortés and Pan2013)], the literature explains that the flow of low-skilled foreign workers into the childcare sector influences the fertility choice in local households, which is our main research interest. Hazan and Zoabi (Reference Hazan and Zoabi2015) explain that highly educated women are likely to bear more children by substituting their time spent on housekeeping services and child-rearing. Furtado (Reference Furtado2016) uses US census data to show that immigrant inflows are indeed associated with native women's increased likelihood of having a baby, and positive responses come from married women and women with a graduate degree. Bar et al. (Reference Bar, Hazan, Leukhina, Weiss and Zoabi2018) suggest that the relationship between income and fertility flattened between 1980 and 2010 in the United States, a time of increasing inequality, as high-income families increased their fertility. According to the authors, this was because of the marketization of parental time costs, which is supplied by low-skilled foreign workers. Using survival analysis and data from the German Socioeconomic Panel, Raz-Yurovich (Reference Raz-Yurovich2016) demonstrates that outsourcing housework is positively associated with an early second birth among German women. Forlani et al. (Reference Forlani, Lodigiani and Mendolicchio2020) find that the local availability of household care service, which female immigrants mainly engage in, positively impacts fertility choice, especially in households with skilled women in Germany. Although it cannot evaluate the direct and significant effect on fertility, Romiti's (Reference Romiti2018) study suggests that immigrants in the childcare sector affect female labor supply without a fertility tradeoff using panel data from the United Kingdom. However, no studies examine the direct effects of outsourcing housework on the quantum of fertility choice (i.e., number of children) using the employment status of housekeepers based on micro-level household data. Moreover, as most existing research is focused on the United States and Europe, we cannot verify its external validity in Asia.

Like the West, Hong Kong has also faced a low fertility rate for complex reasons. The fertility rate in the city was 5.01 in 1965. However, it has gradually decreased due to economic growth, stagnating at 1.03 in 2000, 1.13 in 2010, and 1.20 in 2015 (Figure 1). Although many women in Hong Kong intend to bear children in their life-cycle [Wong et al. (Reference Wong, Tang and Ye2011)], as Basten (Reference Basten, Rindfuss and Choe2015) claims, they face a potential obstacle for low fertility, namely, a financial disincentive for childbearing and the inflexibility of time allocation to work and child-rearing. First, higher housing and child-rearing costs are crucial issues in the city because properties are so expensive that young families cannot afford to own a house. In addition, childcare costs are said to be higher because parents expect their children to succeed academically. Moreover, to gain a livelihood, couples need to work for longer hours (more than 49 h per week on average). These working environments create tremendous pressure, especially for women, to combine work and child-rearing. We observe these causes and tendencies not only in Hong Kong but worldwide.

Figure 1. Trend of total fertility rate in Hong Kong. Edited by the author.

Source: World Development Indicators.

Hong Kong has admitted FDWs into local families for approximately half a century. In 1973, the Hong Kong government introduced a temporary visa for live-in FDWs to release local women from housework and allow them to join the labor market. Since then, the number of FDWs has increased exponentially (Figure 2). For instance, it was 164,000 in 1996 and doubled to 352,000 in 2016. FDWs are typically from the Philippines (54%) and Indonesia (42%), and 98% are women. Of the households that employ live-in FDWs in 2016, 73.9% are married couples with children; thus, FDWs are recognized as crucial components for childcare [Legislative Council Secretariat (2017a)]. One of the reasons is that the female labor participation rate among the working-age population has increased in the past two decades from 47.8% in 1996 to 54.8% in 2016 [HKSAR (2019a); see Figure 2]. Further, in Hong Kong, it is a criminal offense to leave children under 16 years alone at home [HKSAR (2013)]; hence, FDWs are regarded as important guardians on behalf of working parents. The government sets the criteria for employing FDWs for local families, including a minimum household income (HK$15,000) to guarantee the minimum hourly wage of Hong Kong (HK$37.5) and the provision of one room for them to live in the house, although many live-in FDWs share a room with the children of their employers [Chan (Reference Chan2005)]. Moreover, the government permits a two-year contract for each employee and issues visas for FDWs based on each contract. Changing employers in Hong Kong within the two-year contract is prohibited, and the employed FDWs are once required to return to their place of origin at the end of the two-year contract even if they extend their contracts [HKSAR (2018)]. Finally, although some studies have demonstrated that FDWs in Hong Kong affect female labor participation [Cortés and Pan (Reference Cortés and Pan2013)] and educational performance among children [e.g., Tang and Yung (Reference Tang and Yung2016)], the literature on the relationship between FDWs and fertility behavior in Hong Kong is scarce.

Figure 2. The number of FDWs and the trend of labor force participation rate among females. Edited by the author.

Source: Social Data Collected by the General Household Survey for FDWs from 1987 to 1991. Hong Kong Annual Digest Statistics for FDWs at 1992 hereafter. World Development Indicators for LFPR.

3. Data

We obtain governmental permission to use a 5% random sample of the 2016 bi-census provided by the Census and Statistics Department in Hong Kong. In the sample, 131,434 households and 366,619 individuals are recorded. To control the characteristics of the sample, we limit the population as follows and constructed the dataset accordingly. First, to trace the fertility history of each household precisely, we keep only households with one married woman aged 20–45 years and omit those without such a woman and those with two or more married women (e.g., households living together with a sister and a mother in the age cohort). Moreover, we consider an adequate income level in our survey. Figure 3 depicts the income distribution of households with women in the targeted age cohort. In this dataset, the variance of the income distribution is significant: some households earn more than HK$150,000 monthly, but the median monthly income in 2016 for the targeted age group is just HK$19,000. As some research related to the FDWs in Hong Kong focuses on the low- and middle-income households too [e.g., Tang and Yung (Reference Tang and Yung2016)], this study also focuses on relatively low- and middle-income households, and we limit the monthly income of households to HK$15,000 to HK$58,000. There are two reasons for limiting these income thresholds. Firstly, the Hong Kong government limits the minimum threshold to employ one FDW in each household as HK$15,000, as mentioned in section 2. Secondly, the maximum income for multi-person households to apply for the government's housing ownership scheme (HOS), which we use the beneficiary status in our estimation strategy (details in section 4), is HK$58,000. Considering the possibility of benefitting from employing the FDWs and applying the housing scheme, we assume that limiting this income range is reasonable for our estimation.

Figure 3. Income distribution of the random 5% sample (the households with one married woman aged 20–45 years old).

After refining the sample, we keep 20,391 households in our dataset. Table 1 shows the descriptive statistics. We separate households that had employed FDWs at the time of the survey from those that had not. A t-test shows significant differences between the two groups for several of the variables. Households that employ FDWs are richer, have more family members and 5–10-year-old children, are likely to live in cities, and have more rooms in their houses. Women in households with FDWs have a higher education, earn a high income, contribute more to the household income, and are likely to live without their husbands. Moreover, the first child in households with FDWs is likely to be a daughter. To estimate the pure effect of the employment of FDWs, we control for some socioeconomic characteristics in our estimation.

Table 1. Descriptive statistics

Note: +P < 0.10, * P < 0.05, ** P < 0.01, *** P < 0.001.

4. Estimation strategy

We aim to investigate the impact of outsourcing housekeeping and childcare to FDWs on the household's fertility behavior. Based on the literature review, we hypothesize that the employment of FDWs increases the number of childbirths in households in Hong Kong. As we use observational data instead of experimental data, we employ econometric methods for the analysis to identify a causal relationship and ensure internal validity. To test this hypothesis, we examine the following equation in the simplest form as follows:

(1)$$\matrix{ {{\boldsymbol y}_{\boldsymbol i} = \beta {\boldsymbol FDWemploymen}{\boldsymbol t}_{\boldsymbol i} + \lambda {\vector X}_{\boldsymbol i} + {\boldsymbol \mu }_{\boldsymbol i}} \cr } , \;$$

where y_i denotes the number of infants (under five yearsFootnote ²) in the ith household, and FDWemployment_i equals 1 if the ith household employs an FDW and 0 otherwise. X_i is the vector of the characteristics including log of household income, the number of children aged over five years and of elderly people, an island residence dummy, the income ratio,Footnote ³ the age and educational experience of women, the first child's sex dummy (Female = 1), and the marriage status dummy (Divorce/Separate/Widow = 1).Footnote ⁴ μ_i is the error term in the main model.

First, we conduct OLS estimations. However, we suspect that fertility outcomes may be influenced by factors that also affect the employment status of FDWs in households, which leads to an endogeneity problem. Our descriptive statistics show systematic differences between households that employ FDWs and those that do not. Thus, we employ two other methods. Firstly, to reduce potential self-selection bias based on the observable characteristics, we use the IPWRA estimator for the causal inference. This estimator is known as a “doubly robust” estimator because it is a consistent estimate if either the treatment model or the outcome model is correctly specified. Under this method, the inverse of the propensity score is used as weights to run regressions of the outcome variable [Wooldridge (Reference Wooldridge2007)]. As we estimate the average treatment effects on the treated (ATT), we employ a weight equal to 1 for treated observations and ps(x)/(1-ps(x) for control observations, where ps refers to the propensity score, and estimate the treatment effects by comparing the averages of the two groups [Hirano et al. (Reference Hirano, Imbens and Ridder2003)]. The IPWRA estimator can yield causal estimates of the ATT under the assumption that there is only selection on the observables.

Moreover, to reduce endogeneity due to unobserved factors that affect both the employment of FDW and birth choices, we apply the IV approach. A valid excluded IV, z, should be correlated with the endogenous variable [cov (x_endo, z) ≠ 0] and not be correlated with the error term in the main model [cov (z,μ) = 0]. We use the following two IVs: (1) a dummy variable for winning the random ballot for the HOS organized by the Hong Kong Housing Authority and (2) a dummy variable for whether households receive housing subsidies from the government. Below, we explain how these instruments satisfy the necessary conditions for the IVs.

As mentioned above, households in Hong Kong face a chronic scarcity of housing because of high market prices, which have increased since 2004 following the Asian financial crisis and the SARS epidemic. The price index of domestic properties was 150.9 in 2010 and 296.8 in 2015 compared with the 1999 index of 100 [HKSAR (2020)]. Moreover, housing prices in Hong Kong surpass those in other large cities such as Singapore, Shanghai, Los Angeles, and New York [CBRE (2019)]. Thus, families, especially young families, struggle to afford a house. To support local families, the government offers a housing scheme for inhabitants to rent or own their houses at a lower price.

We examine two major schemes: public rental housing (PRH) and the HOS. The Hong Kong Housing Authority provides PRH for low-income families based on eligibility criteria. Demand for PRH exceeds supply; for example, in 2016, there were more than 153,000 applicants for approximately 12,000 flats [Legislative Council Secretariat (2017b)]. Applicants receive an offer of rental housing by random computer batching based on characteristics such as family size and choice of district [Hong Kong Housing Authority (2020)]. On average, applicants have to wait four years for the first offer of houses [Legislative Council Secretariat (2017b)]. Although computer batching is conducted in groups classified by characteristics, the variation in waiting time is similar regardless; thus, some households can move into the offered flat within three years, whereas others wait for six years or more [Hong Kong Housing Authority (2019)]. In 2019, the average waiting period was 5.4 years [Hong Kong Housing Authority (2019)].

Meanwhile, the HOS has been offered since 1978, although there was a moratorium period from 2003 to 2012 [Legislative Council (2011); Li (Reference Li2016)]. It provides homeownership opportunities to families unable to buy houses in the private sector. If applicants satisfying the conditions win the annual lottery, they can purchase the houses provided by the government at a discounted price (usually 30–40% of the market price). The Hong Kong Housing Authority has many applications every year. For example, 135,000 households applied at the sale in December 2014, the first HOS sale after the moratorium, and this number of applications is 62.5 times larger than the number of sales flats [Forrest and Yip (Reference Forrest and Yip2015)]. Although the number of applications and flats fluctuates, competition is high [HKSAR (2019b)]. There are other schemes through which the Hong Kong Housing Authority and Hong Kong Housing Society lease or sell subsidized flats, such as the Tenants Purchase Scheme, Private Sector Participation Scheme, and Flats for Sale Scheme, which mainly follow the ballot method (see the eligibility criteria of the HOS and PRH in Appendix A).Footnote ⁵

We use these two variables for homeownership through the HOS and receiving a housing subsidy as our IVs. For our first condition for valid IVs, FDW employment is likely to be strongly correlated with the housing support variables because the number of rooms is an important FDW employment condition. For the second condition, there are two major concerns. The first is whether self-selection bias exists in the application of these support schemes because households that apply for these schemes and those that do not may be systematically different. However, as demand for these schemes is exceptionally high in Hong Kong, this suggests that most sample households will apply. Although the proportion of young and married applicants for subsidized housing schemes is unknown, demand is extremely high. Li (Reference Li2016) discusses the housing market and policy instruments in Hong Kong and finds that the cohort born after 1980, the target sample in this research, has faced the most difficulties obtaining housing. Furthermore, according to a survey by the Chinese University of Hong Kong [CUHK (2019)], the housing affordability ratio among Hong Kong citizens has fallen as low as −6.13 in 2015, −5.06 in 2016, and −6.62 in 2017 compared with 4.35 in 2002. This result indicates strong demand for housing support in Hong Kong. Moreover, households that receive support are selected by random ballots. Thus, there is no opportunity for the Hong Kong Housing Authority to assess households based on their characteristics or preferences. Considering these suggestions, we do not expect selection bias in applications, while selection into the housing subsidy schemes is also random in our context.Footnote ⁶

The second concern may be the violation of the exclusion restriction assumption, that is, receiving a housing subsidy from these schemes may affect birth choice directly aside from the effect through hiring FDWs (e.g., via increased wealth due to subsidies).Footnote ⁷ While this is difficult to test, we address this concern by conducting the sensitivity test proposed by Conley et al. (Reference Conley, Hansen and Rossi2012) to examine whether the IV estimates provide important information even when the exclusion restriction is violated. We report the results of the bound estimation under the assumption that the instruments have non-zero effects on the outcome.

Based on the above discussion, we model the structural equations for the two-stage least squares (2SLS) using cross-sectional data. The first-stage model is as follows:

(2)$$\matrix{ {{\boldsymbol FDWemploymen}{\boldsymbol t}_{\boldsymbol i} = {\boldsymbol \gamma }_1{\boldsymbol Z}_1 + {\boldsymbol \gamma }_2{\boldsymbol Z}_2 + \varphi {\vector X}_{\boldsymbol i} + {\boldsymbol \varepsilon }_{\boldsymbol i}} \cr } , \;$$

where each IV Z_i is the dummy variable for whether the ith household owns a house by winning ballots or is subsidized for housing by the government in addition to the vector X_i used in equation (1). Equation (1) is applied to the second stage of 2SLS estimation.

Further, to eliminate the potential reverse causality between the employment of FDWs and outcomes, we also conduct estimations based on a subsample that only includes households that have not moved for five years and redefine FDWemployment_i as hiring an FDW who has the same address five years before the data collection (5yearsFDWemployment_i). In the bi-census in 2016, respondents were asked where household members, including FDWs, lived five years ago. We take advantage of this question to ensure that FDWs were working in the house before the children were born. This approach can eliminate the possibility of reverse causality in the model using the same instruments.Footnote ⁸ Also, we employ the probit and IV-probit models with a dummy variable of whether the households have more than two infants or not ( = 1 if they have two or more infants in the household) as the outcome variable to check the probability of having multiple children.

In addition to the 2SLS, we employ the IV-Tobit model, particularly when the dependent variable, the number of infants in each household, which is not infinite, is observed only over some interval of its support [Cameron and Trivedi (Reference Cameron and Trivedi2010)]. According to our descriptive statistics, the highest number of infants in each household is four. If we use 2SLS under this condition, the results, especially the coefficients, may be upward-biased; hence, we adopt the IV-Tobit model.Footnote ⁹ We use robust standard errors and report 95% confidence intervals because the sample size is large [Wasserstein and Lazar (Reference Wasserstein and Lazar2016)].

The first-stage estimation for each instrument in the models shows that the excluded variables are significant at the 0.1% level and strongly correlated with the endogenous variable in the benchmark model (FDWemployment_i in Appendix B). There is a difference in the signs of the coefficients between two excluded variables: positive for winning the HOS and negative for receiving housing support. This is attributed to the number of rooms provided in the scheme; that is, the average number of rooms is different between the HOS (3.73 rooms) and the housing scheme (3.06 rooms), while the average number of rooms in the full sample is 3.27 rooms. Cortés and Pan (Reference Cortés and Pan2013) suggest that the number of rooms affects the decision to employ FDWs because of the governmental regulation in Hong Kong. Therefore, as the housing scheme affects the number of rooms, it also affects the decision to employ FDWs. Although the dummy variable for winning for HOS is not significant in the first stage of the limited-sample model (5yearsFDWemployment_i in Appendix B), we find that the F-test for the excluded variables is statistically significant. Moreover, the p-values of the Anderson–Rubin Wald F-test of both models are under 0.01. Thus, these instruments are appropriate for our estimation with the endogenous variable (see the first-stage estimation in Appendix B).

Using the large micro-level household dataset from the census, we can also examine the individual impacts of FDWs on fertility choice. Thus, in addition to the estimation using all the samples in the dataset, we conduct subgroup analyses based on the socioeconomic characteristics of the samples to examine the heterogeneous treatment effects. We examine the effects of women's educational level and income, the income ratio, and household income, which are likely to affect FDW outcomes [Hazan and Zoabi (Reference Hazan and Zoabi2015); Furtado (Reference Furtado2016)]. Tables 2–5 present the summary statistics of each subgroup based on these characteristics. Regarding the educational attainment of women (Table 2), we divide the sample into five levels: primary school, lower secondary school, higher secondary school, associate degree, and bachelor/graduate level. The mean educational attainment in the full sample is 11.851 years, which represents a higher secondary school level. Furthermore, we investigate the heterogeneity in household income in two strata: low and high, and in five groups: 0–20%, 21–40%, 41–60%, 61–80%, and 81–100% of the mean (Table 3). The mean monthly income of the sample is HK$32,341 and the median monthly income is HK$30,500; thus, the income distribution is upward-biased. Similar to the household income subgroup analysis, women's income is divided into two strata and five groups based on income rank (Table 4). About 32.9% of women in our sample have no income (i.e., they do not perform market activities outside the home). On the contrary, 54.8% earn more than HK$10,000 per month. Finally, we investigate the heterogeneous treatment effects of the income ratio (Table 5). An income ratio of zero suggests that women do not earn outside the home; on the contrary, an income ratio of one implies that only the women, mainly single parents, contribute to household income. In our sample, 7,579 women (37.2%) contribute more than half of household income.

Table 2. Descriptive analysis for educational attainment sub-group (unit: year)

Table 3. Descriptive analysis for household income level sub-group (unit: HK$)

Table 4. Descriptive analysis for ladies' income level sub-group (unit: HK$)

Table 5. Descriptive analysis for income ratio between a couple level sub-group (unit: HK$)