Astin, A. W. (1993). What matters in college? Four Critical Years Revisited. Jossey-Bass.
Barefoot, B. O. (2000). The first-year experience. About Campus, 4(6), 12-18.
Barlow, A. E., & Villarejo, M. (2004). Making a difference for minorities: Evaluation of an educational enrichment program. Journal of Research in Science Teaching, 41(9), 861-881.
Beasley, M. A., & Fischer, M. J. (2012). Why they leave: the impact of stereotype threat on the attrition of women and minorities from science, math and engineering majors. Social Psychology of Education, 15(4), 427-448.
Bonous-Hammarth, M. (2000). Pathways to success: Affirming opportunities for science, mathematics, and engineering majors. Journal of Negro Education, 92-111.
Burton, N. W., & Ramist, L. (2001). Predicting success in college: SAT studies of classes graduating since 1980. New York: College Entrance Examination Board.
Carter, F. D., Mandell, M., & Maton, K. I. (2009). The influence of on-campus, academic year undergraduate research on STEM Ph. D. outcomes: Evidence from the Meyerhoff scholarship program. Educational Evaluation and Policy Analysis, 31(4), 441-462.
Cohn, E., Cohn, S., Balch, D. C., & Bradley Jr, J. (2004). Determinants of undergraduate GPAs: SAT scores, high school GPA and high school rank. Economics of Education Review, 23(6), 577-586.
Chang, M. J., Cerna, O., Han, J., & Saenz, V. (2008). The contradictory roles of institutional status in retaining underrepresented minorities in biomedical and behavioral science majors. The Review of Higher Education, 31(4), 433-464
Chang, M. J., Eagan, M. K., Lin, M. H., & Hurtado, S. (2011). Considering the impact of racial stigmas and science identity: Persistence among biomedical and behavioral science aspirants. The Journal of Higher Education, 82(5), 564.
Chang, M. J., Sharkness, J., Hurtado, S., & Newman, C. B. (2014). What Matters in College for Retaining Aspiring Scientists and Engineers From Underrepresented Racial Groups. Journal of Research in Science Teaching.
Choy, S. P., Horn, L. J., Nuñez, A. M., & Chen, X. (2000). Transition to College: What Helps At‐Risk Students and Students Whose Parents Did Not Attend College. New Directions for Institutional Research, 2000(107), 45-63.
Cooper, C. R., Chavira, G., & Mena, D. D. (2005). From pipelines to partnerships: A synthesis of research on how diverse families, schools, and communities support children’s pathways through school. Journal of Education for Students Placed at Risk, 10(4), 407-430.
Crisp, G., Nora, A., & Taggart, A. (2009). Student characteristics, pre-college, college, and environmental factors as predictors of majoring in and earning a STEM degree: An analysis of students attending a Hispanic Serving Institution. American Educational Research Journal, 46(4), 924-942.
DeAngelo, L. & Hasson, T. (2009). Quantifying Success: Using Control Groups to Measure Program Effectiveness. Council of Undergraduate Research, 29(3), 39-45.
Derting, T. L., & Ebert-May, D. (2010). Learner-centered inquiry in undergraduate biology: positive relationships with long-term student achievement. CBELife Sciences Education, 9(4), 462-472.
Duncan, H., & Dick, T. (2000). Collaborative workshops and student academic performance in introductory college mathematics courses: A study of a Treisman model math excel program. School Science and Mathematics, 100(7), 365-373.
Eagan Jr., M.K., Hurtado, S., Chang, M.J., Garcia, G.A, Herrera, F.A. & Garibay, J.C. (2013) Making a difference in science education: The impact of undergraduate research programs. American Educational Research Journal, 50(4), 683-713.
Elliott, R., Strenta, A. C., Adair, R., Matier, M., & Scott, J. (1996). The role of ethnicity in choosing and leaving science in highly selective institutions. Research in Higher Education, 37(6), 681-709.
Fries‐Britt, S. L., Younger, T. K., & Hall, W. D. (2010). Lessons from high‐achieving students of color in physics. New Directions for Institutional Research, 148, 75-83.
Gasiewski, J. A., Eagan, M. K., Garcia, G. A., Hurtado, S., & Chang, M. J. (2012). From gate-keeping to engagement: A multi-contextual, mixed method study of student academic engagement in introductory STEM courses. Research in Higher Education, 53(2), 229-261.
Graham, M. J., Frederick, J., Byars-Winston, A, Hunter, A., & Handeslman, J. (2013). Increasing Persistence of College Students in STEM. Science, 341, 1455-1456.
Handelsman, M. M., Briggs, W. L., Sullivan, N., & Towler, A. (2005). A measure of college student course engagement. The Journal of Educational Research, 98(3), 184-192.
Heckman, J.J. (1979) Sample selection bias as a specification error. The Econometric Society. 47, 153-161.
Hira, R. (2010). US Policy and the STEM workforce system. American Behavioral Scientist, 53(7), 949-961.
Hurtado, S., Eagan, K., & Chang, M. (2010). Degrees of success: Bachelor’s degree completion rates among initial stem majors. Higher Education Research Institute at UCLA, January.
Johnson, A.C. (2007). Unintended consequences: How science professors discourage women of color. Science Education, 91(5), 805-821.
Koenig, R. (2009). Minority Retention Rates in Science Are Sore Spot for Most Universities. Science, 324, 1386-87.
Kohn, M.G., Mansk, C.F. and Mundel, D.S. (1976) An empirical investigation of factors which influence college-going behavior. Annals of Economic and Social Measurement. 5(4), 391-419.
Labov, J. B. (2004). From the National Academies: the challenges and opportunities for improving undergraduate science education through introductory courses. Cell Biology Education, 3(4), 212-214.
Lopatto, D. (2007). Undergraduate research experiences support science career decisions and active learning. CBELife Sciences Education, 6(4), 297-306.
Maton, K. I., Domingo, M. R. S., Stolle-McAllister, K. E., Zimmerman, J. L., & Hrabowski III, F. A. (2009). Enhancing the number of African-Americans who pursue STEM PhDs: Meyerhoff Scholarship Program outcomes, processes, and individual predictors. Journal of Women and Minorities in Science and Engineering, 15(1).
Matsui, J., Liu, R., & Kane, C. M. (2003). Evaluating a science diversity program at UC Berkeley: more questions than answers. Cell Biology Education, 2(2), 117-121.
McCarron, G. P., & Inkelas, K. K. (2006). The gap between educational aspirations and attainment for first-generation college students and the role of parental involvement. Journal of College Student Development, 47(5), 534-549.
Museus, S. D. (2011). Generating Ethnic Minority Student Success (GEMS): A qualitative analysis of high-performing institutions. Journal of Diversity in Higher Education, 4(3), 147.
Museus, S. D., & Quaye, S. J. (2009). Toward an intercultural perspective of racial and ethnic minority college student persistence. The Review of Higher Education, 33(1), 67-94.
Nakagawa, S. (2004) A farewell to Bonferroni: the problems of low statistical power and publication bias. Behavioral Ecology, 15(6), 1044-1045.
National Academy of Sciences, National Academy of Engineering and Institute of Medicine (2011). Expanding Underrepresented Minority Participation: America’s Science and Technology Talent at the Crossroads. Washington, DC: National Academies Press. www.nap.edu.
National Board of Sciences. (2010). Preparing the Next Generation of STEM Innovators: Identifying and Supporting Our Nation’s Human Capital. Arlington, VA: NSF Publications. Retrieved from: http://www.nsf.gov/nsb/publications/2010/nsb1033.pdf
National Science Foundation. (2012). Women, Minorities, and Persons with Disabilities in Science and Engineering: Data Tables. Retrieved from www.nsf.gov/statistics/wmpd/tables.cfm
Ong, M., Wright, C., Espinosa, L. L., & Orfield, G. (2011). Inside the double bind: A synthesis of empirical research on undergraduate and graduate women of color in science, technology, engineering, and mathematics. Harvard Educational Review, 81(2), 172-209.
Perneger, T. V. (1998) What’s wrong with Bonferroni adjustments. BMJ, 316, 1236-1238.
Peterfreund, A. R., Rath, K. A., Xenos, S. P., & Bayliss, F. (2007). The impact of supplemental instruction on students in STEM courses: Results from San Francisco State University. Journal of College Student Retention: Research, Theory and Practice, 9(4), 487-503.
President’s Council of Advisors on Science and Technology. (2012). Engage to Excel: Producing One Million Additional College Graduates with Degrees in Science, Technology, Engineering and Mathematics. Executive Office of the President.
Reason, R. D. (2009). An examination of persistence research through the lens of a comprehensive conceptual framework. Journal of College Student Development, 50(6), 659-682.
Reason, R. D., Terenzini, P. T., & Domingo, R. J. (2006). First Things First: Developing Academic Competence in the First Year of College. Research in Higher Education, 47(2), 149-175.
Shadish, W., Cook, T., & Campbell, D. (2002). Experimental and Quasi-Experimental Designs for Generalized Causal Inference. Belmont, CA: Wadworth Cengage Learning.
Stolle-McAllister, K., Domingo, M. R. S., & Carrillo, A. (2011). The Meyerhoff way: How the Meyerhoff scholarship program helps black students succeed in the sciences. Journal of Science Education and Technology, 20(1), 516.
Summers, M. F. & Hrabowski III, F. A. (2006). Preparing Minority Scientists and Engineers. Science, 311, 1870-1871.
Terenzini, P. T., Springer, L., Yaeger, P. M., Pascarella, E. T., & Nora, A. (1996). First-generation college students: Characteristics, experiences, and cognitive development. Research in Higher Education, 37(1), 122.
Tinto, V. (1987). Leaving College: Rethinking the Causes and Cures of Student Attrition. Chicago, IL: University of Chicago Press.
Tinto, V. (1997). Classrooms as Communities. Journal of Higher Education, 68(6), 599-623.
Tinto, V. (2005). Taking student success seriously: Rethinking the first year of college. In Ninth Annual Intersession Academic Affairs Forum, California State University, Fullerton (pp. 05-01).
Treisman, P. U. (1992). Studying students studying calculus: A look at the lives of minority mathematics students in college. College Mathematics Journal, 23(5), 362-372.
Walton, G. M., & Cohen, G. L. (2011). A brief social-belonging intervention improves academic and health outcomes of minority students. Science, 331(6023), 1447-1451.
White, J. L., Altschuld, J. W., & Lee, Y. F. (2008). Evaluating minority retention programs: Problems encountered and lessons learned from the Ohio science and engineering alliance. Evaluation and Program Planning, 31(3), 277-283.