Title,Citation,Topic_area,Study_type,Study_evidence_rating,Outcome_effectiveness,Findings,Intervention_program,Topics,Target_population,Firm_characteristics,Geographic_setting,Original_publication_date,Original_publication_link,"Review Protocol" "Eliminating child labour in El Salvador through economic empowerment and social inclusion: Impact report","de Hoop, J., Kovrova, I., & Rosati, F. C. (2016). Eliminating child labour in El Salvador through economic empowerment and social inclusion: Impact report. Retrieved from http://www.ucw-project.org/attachment/07032017224El_Salvador_IE_07042016_web.pdf","Child Labor","Study Type: Descriptive Analysis",,,"Summary: The study’s objective was to assess the effects of a women’s entrepreneurship training program on children’s participation in school and work. The study was a regression discontinuity design, using baseline and follow-up household surveys to measure program outcomes. Households were selected into the program if they had a wealth score below a cut-off point. The authors compared the outcomes of children in households above and below the cut-off score to understand the program’s effects. The study found that selection and participation in the program was significantly associated with a decrease in the percent of children working-only and not attending school, and the number of hours that children worked per week. Selection and participation in the program was also significantly related to an increase in school attendance. This study used a regression discontinuity design and therefore was reviewed using CLEAR’s descriptive study evidence review guidelines. As such, it does not receive a causal rating.","Eliminating Child Labour in El Salvador through Economic Empowerment and Social Inclusion","Child labor","Female, Parent, Low income",,International,2016,http://www.ucw-project.org/attachment/07032017224El_Salvador_IE_07042016_web.pdf,"Child Labor Review Protocol" "STEM faculty and parental leave: Understanding an institution’s policy within a national policy context through structuration theory","Schimpf, C., Santiago, M., Hoegh, J., Banerjee, D., & Pawley, A. (2013). STEM faculty and parental leave: Understanding an institution’s policy within a national policy context through structuration theory. International Journal of Gender, Science and Technology, 5(2), 103-125.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: This study summarized the role of various factors, both within and outside a university, in shaping use of the university’s parental leave policy. The authors conducted semistructured interviews in 2009–2010 with 10 science, technology, engineering and math (STEM) faculty members (7 women and 3 men) at a Midwestern university. The interviews aimed to study the barriers STEM faculty face in using the university’s parental leave policy. The authors analyzed these data using a variety of qualitative coding techniques. The study found that faculty under-used the university’s parental leave policy for several reasons. First, the opinions of their department chairs and their peers often shaped faculty’s willingness to take parental leave. If faculty felt that their department heads, fellow faculty members, laboratory personnel, and students were supportive of parental leave policies, they were more willing to participate, because they felt less pressure to maintain their typical teaching and research workload after having a child. Additionally, the authors suggested that both knowledge of the parental leave policy and understanding of what was covered, among both the faculty themselves and their supervisors and administrators, was important to ensure that the policy was applied correctly in each specific case. The study also noted that faculty saw limitations in the university’s policy because it did not cover professional obligations outside the school, including writing and revising journal articles or managing externally funded laboratory experiments.",,"Other employer services Science, Technology, Engineering, and Math (STEM) programs","STEM professional, Parent",,"United States",2013,,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol" "Why academic STEM mothers feel they have to work harder than others on the job","Kmec, J. (2013a). Why academic STEM mothers feel they have to work harder than others on the job. International Journal of Gender, Science, & Technology, 5(2), 80-101.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: This report analyzed faculty members’ perceptions of how hard they have to work at their job based on their sex and parental status, specifically in the context of science, technology, engineering, and mathematics (STEM) disciplines that are typically characterized by a masculine work culture. The objective was to contribute to the knowledge base on gender issues in academic professions and the specific challenges that working mothers in STEM fields face. The study used data from the 2011 Faculty Caregiving and Workplace and Culture survey administered online to about 300 tenure-line faculty members in all disciplines at a large public U.S. university. The author conducted regression analyses to estimate the link between faculty members’ sex, parental status, academic discipline, and their level of agreement with the statement, “My job requires me to work very hard.” The regression controlled for several factors that might affect faculty members’ perceptions of how hard they have to work at their job, such as length of time at current institution, academic rank, perceived job demand levels, feelings of being valued, marital status, age of children, household/family responsibilities, and degree to which household responsibilities are perceived to affect job performance. The study found that mothers in STEM fields were more likely to strongly agree that they have to work very hard at their job, compared to fathers in both STEM and non-STEM fields and mothers in non-STEM fields, after controlling for a number of factors related to perceptions of effort required. Specifically, fathers in STEM and non-STEM fields were 84 percent and 92 percent less likely, respectively, to strongly agree that they have to work very hard at their job than mothers in STEM fields. Similarly, mothers in non-STEM fields were about 81 percent less likely than mothers in STEM fields to agree that they have to work very hard at their job.",,"Science, Technology, Engineering, and Math (STEM) programs Other disparities or discrimination in employment and earnings","Female, Male, STEM professional, Parent",,"United States",2013,,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol" "From the shop floor to the kitchen floor: Maternal occupational complexity and children’s reading and math skills","Yetis-Bayraktar, A., Budig, M., & Tomaskovic-Devey, D. (2013). From the shop floor to the kitchen floor: Maternal occupational complexity and children’s reading and math skills. Work and Occupations, 40(1), 37-64.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: The authors sought to determine whether the complexity of a mother’s occupation (or the quality of employment as defined by its task complexity, autonomy, and authority) affected her 6- to 13-year-old children’s math and reading test scores. The study considered both the complexity of the mother’s occupation when her children were ages 6 to 13 as well as the complexity of her occupation in her children’s earliest years (birth to age 3). The authors analyzed data from the 1984–1996 Panel Study of Income Dynamics and its 1997 Child Development Supplement to determine the relationship between maternal occupational complexity and children’s scores on the Revised Woodcock-Johnson Test of Achievement. The analysis first accounted for traits associated with mothers’ employment status, that is, whether the mother was employed. Assuming the mother was employed, the authors then assessed the association between the complexity of the mother’s occupation and her children’s performance on the reading and math sections of the test. The study found that a one-point increase on the maternal white collar occupational complexity scale was associated with a 2.49-point increase in children’s test scores, whereas a one-point increase on the blue collar occupational complexity scale corresponded to a 1.01-point gain in test scores. Maternal occupational complexity during the child’s first three years also was associated with increased test scores later in life; a one-point gain in white collar occupational complexity in the first three years of the child’s life was associated with a 3.7-point increase in test scores when the child was ages 6 to 13.",,"Other employment and reemployment","Employed, Female, Parent",,"United States",2013,,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol" "Increasing opportunities for low-income women and student parents in science, technology, engineering, and math at community colleges","Costello, C. (2012). Increasing opportunities for low-income women and student parents in science, technology, engineering, and math at community colleges. Washington, DC: Institute for Women’s Policy Research.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: This study examined the enrollment patterns for low-income women and students with children (including mostly mothers and some fathers, collectively referred to as student parents) in STEM fields at community colleges in the United States, comparing outcomes for 2000–2001 to 2008–2009. In addition, the study presented examples of promising strategies to encourage low-income women and student parents to participate in STEM education at community colleges. To assess the involvement of low-income women and student parents in STEM fields at community colleges, the author analyzed publicly available data, including data from the U.S. Department of Labor and the National Center for Education Statistics at the U.S. Department of Education. The author also completed a review of existing programs at community colleges that encourage low-income women and student parents to participate in STEM fields, and consulted with 16 experts to formulate suggestions for additional programs to support these students in STEM fields. The study found that in the 2008–2009 school year, women earned 22 percent of associate’s degrees awarded in STEM fields—a 7 percentage point reduction in the proportion of STEM associate degrees earned by women eight years earlier. The study also found that, in 2008, roughly one-third of community college students were parents and student parents with children younger than 12 who ultimately earned a baccalaureate or master’s degree in a STEM field were more likely to have attended a community college at some point than students without young children. Given the decline in women’s share of STEM associate degrees earned over the study observation period, as well as the high proportion of student parents in STEM fields who attend community colleges (compared with students without young children), the author highlighted potential strategies to increase and improve the involvement of low-income women and student parents in STEM fields at community colleges, including targeted recruitment, financial support, child care services, strong developmental education options, and specific counseling and academic support for women. These recommendations were informed by information gathered from existing programs and consultation with experts.",,"Community college education and other classroom training Science, Technology, Engineering, and Math (STEM) programs","Female, Male, Parent, Low income",,"United States",2012,http://www.iwpr.org/initiatives/student-parent-success-initiative/increasing-op…,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol" "Mothers of invention: Gender, motherhood, and new dimensions of productivity in the science profession","Whittington, K. (2011). Mothers of invention: Gender, motherhood, and new dimensions of productivity in the science profession. Work and Occupations, 38(3), 417-456.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: The study's objective was to determine whether women, specifically mothers, in STEM academic or industry jobs were less likely to participate in the patenting process than fathers and childless men in the same field. In addition, the study sought to examine whether previous experience with patenting reduced gender or motherhood inequalities in patenting participation. The study analyzed survey data from the April 1995 and April 2001 waves of the Survey of Doctorate Recipients, a longitudinal study of research doctorates conducted by the National Science Foundation. The author restricted the sample to scientists in four-year colleges and in business or industry who worked in computer and mathematical sciences, life sciences, physical sciences, and engineering; were active in applied and basic research, development, or design; and worked full time. Respondents were asked if they had been named as an inventor on a U.S. patent application in the past five or six years. The author estimated logistic regression models to determine whether females, and specifically mothers, were less likely to have received a patent in the past five or six years. The author also conducted additional analyses to determine if previous experience with patenting affected patenting participation. The study found that in academia, among those surveyed at both rounds, mothers were no less likely to patent than males, including fathers, or childless females after controlling for prior patenting experience. In industry, among those surveyed in both rounds, married, childless women were less likely to patent than childless women, even after controlling for prior patenting experience. The authors estimated numerous other models that found mixed effects of gender, marital status, and parenthood on the likelihood of scientists participating in patenting activities.",,"Science, Technology, Engineering, and Math (STEM) programs Other disparities or discrimination in employment and earnings","Female, STEM professional, Parent",,"United States",2011,,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol" "The links between parent behaviors and boys’ and girls’ science achievement beliefs","Bhanot, R.T., & Jovanovic, J. (2009). The links between parent behaviors and boys’ and girls’ science achievement beliefs. Applied Developmental Science, 13(1), 42-59.","Women in Science, Technology, Engineering, & Math (STEM)","Study Type: Descriptive Analysis",,,"Summary: The study's objective was to examine the relationship between parents’ and middle school students’ perceptions of science education and whether that relationship varied based on the gender of the parent or child. Specifically, the study looked at links between parents’ attitudes toward science and participation in their children’s science education and the child’s opinion of the utility of science (called science task-value) and perception of his or her own science ability. The study, conducted in four school districts in Illinois, used student survey data collected at the start and end of the school year and parent survey data collected in the middle of the school year. The authors analyzed changes in students’ perceptions from the beginning to end of the year, by gender, as well as differences in parents’ perceptions and behavior by the gender of the child and parent. The authors also conducted a series of regression analyses by gender to determine the relationship between parents’ involvement in their children’s science education and their children’s end-of-year perceptions. The study found that boys had higher perceptions of their own science ability at the end of the school year than girls, though there was no difference in actual performance. Compared with parents of girls, parents of boys also had higher perceptions of the child’s science ability and of the value of science and were more likely to encourage an interest in science. There were some positive correlations between parents’ beliefs and actions and girls’ perceptions of science; however, some actions taken by mothers were found to be negatively correlated with boys’ perceptions of their science ability and their task-value beliefs about science. Even after controlling for mothers’ behaviors, mothers’ perceptions of their children’s science ability was a significant predictor of the children’s perceptions of their own ability. The study found that the links between fathers’ actions and children’s perceptions did not vary by the child’s gender.",,"Youth programs Science, Technology, Engineering, and Math (STEM) programs","Youth, Parent",,"United States",2009,,"Women in Science, Technology, Engineering, & Math (STEM) Review Protocol"