Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities

Sarah D. Castle; W. Carson Byrd; Benjamin P. Koester; Meaghan I. Pearson; Emily Bonem; Natalia Caporale; Sonja Cwik; Kameryn Denaro; Stefano Fiorini; Yangqiuting Li; Chris Mead; Heather Rypkema; Ryan D. Sweeder; Montserrat B. Valdivia Medinaceli; Kyle M. Whitcomb; Sara E. Brownell; Chantal Levesque-Bristol; Marco Molinaro; Chandralekha Singh; Timothy A. McKay; Rebecca L. Matz

doi:10.1186/s40594-024-00474-7

Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities

Sarah D. Castle, W. Carson Byrd, Benjamin P. Koester, Meaghan I. Pearson, Emily Bonem, Natalia Caporale, Sonja Cwik, Kameryn Denaro, Stefano Fiorini, Yangqiuting Li, Chris Mead, Heather Rypkema, Ryan D. Sweeder, Montserrat B. Valdivia Medinaceli, Kyle M. Whitcomb, Sara E. Brownell, Chantal Levesque-Bristol, Marco Molinaro, Chandralekha Singh, Timothy A. McKayRebecca L. Matz

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Large introductory lecture courses are frequently post-secondary students’ first formal interaction with science, technology, engineering, and mathematics (STEM) disciplines. Grade outcomes in these courses are often disparate across student populations, which, in turn, has implications for student retention. This study positions such disparities as a manifestation of systemic inequities along the dimensions of sex, race/ethnicity, income, and first-generation status and investigates the extent to which they are similar across peer institutions. Results: We examined grade outcomes in a selected set of early STEM courses across six large, public, research-intensive universities in the United States over ten years. In this sample of more than 200,000 STEM course enrollments, we find that course grade benefits increase significantly with the number of systemic advantages students possess at all six institutions. The observed trends in academic outcomes versus advantage are strikingly similar across universities despite the fact that we did not control for differences in grading practices, contexts, and instructor and student populations. The findings are concerning given that these courses are often students’ first post-secondary STEM experiences. Conclusions: STEM course grades are typically lower than those in other disciplines; students taking them often pay grade penalties. The systemic advantages some student groups experience are correlated with significant reductions in these grade penalties at all six institutions. The consistency of these findings across institutions and courses supports the claim that inequities in STEM education are a systemic problem, driven by factors that go beyond specific courses or individual institutions. Our work provides a basis for the exploration of contexts where inequities are exacerbated or reduced and can be used to advocate for structural change within STEM education. To cultivate more equitable learning environments, we must reckon with how pervasive structural barriers in STEM courses negatively shape the experiences of marginalized students.

Original language	English (US)
Article number	14
Journal	International Journal of STEM Education
Volume	11
Issue number	1
DOIs	https://doi.org/10.1186/s40594-024-00474-7
State	Published - Dec 2024
Externally published	Yes

Keywords

Course grades
Generation status
Grade anomaly
Income
Introductory courses
Race/ethnicity
Sex
STEM
Systemic advantage index
Undergraduate

ASJC Scopus subject areas

Education

Access to Document

10.1186/s40594-024-00474-7

Cite this

Castle, S. D., Byrd, W. C., Koester, B. P., Pearson, M. I., Bonem, E., Caporale, N., Cwik, S., Denaro, K., Fiorini, S., Li, Y., Mead, C., Rypkema, H., Sweeder, R. D., Valdivia Medinaceli, M. B., Whitcomb, K. M., Brownell, S. E., Levesque-Bristol, C., Molinaro, M., Singh, C., ... Matz, R. L. (2024). Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities. International Journal of STEM Education, 11(1), Article 14. https://doi.org/10.1186/s40594-024-00474-7

Castle, SD, Byrd, WC, Koester, BP, Pearson, MI, Bonem, E, Caporale, N, Cwik, S, Denaro, K, Fiorini, S, Li, Y, Mead, C, Rypkema, H, Sweeder, RD, Valdivia Medinaceli, MB, Whitcomb, KM, Brownell, SE, Levesque-Bristol, C, Molinaro, M, Singh, C, McKay, TA & Matz, RL 2024, 'Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities', International Journal of STEM Education, vol. 11, no. 1, 14. https://doi.org/10.1186/s40594-024-00474-7

@article{22dae079d5814f0a99e48ee045b77992,

title = "Systemic advantage has a meaningful relationship with grade outcomes in students{\textquoteright} early STEM courses at six research universities",

abstract = "Background: Large introductory lecture courses are frequently post-secondary students{\textquoteright} first formal interaction with science, technology, engineering, and mathematics (STEM) disciplines. Grade outcomes in these courses are often disparate across student populations, which, in turn, has implications for student retention. This study positions such disparities as a manifestation of systemic inequities along the dimensions of sex, race/ethnicity, income, and first-generation status and investigates the extent to which they are similar across peer institutions. Results: We examined grade outcomes in a selected set of early STEM courses across six large, public, research-intensive universities in the United States over ten years. In this sample of more than 200,000 STEM course enrollments, we find that course grade benefits increase significantly with the number of systemic advantages students possess at all six institutions. The observed trends in academic outcomes versus advantage are strikingly similar across universities despite the fact that we did not control for differences in grading practices, contexts, and instructor and student populations. The findings are concerning given that these courses are often students{\textquoteright} first post-secondary STEM experiences. Conclusions: STEM course grades are typically lower than those in other disciplines; students taking them often pay grade penalties. The systemic advantages some student groups experience are correlated with significant reductions in these grade penalties at all six institutions. The consistency of these findings across institutions and courses supports the claim that inequities in STEM education are a systemic problem, driven by factors that go beyond specific courses or individual institutions. Our work provides a basis for the exploration of contexts where inequities are exacerbated or reduced and can be used to advocate for structural change within STEM education. To cultivate more equitable learning environments, we must reckon with how pervasive structural barriers in STEM courses negatively shape the experiences of marginalized students.",

keywords = "Course grades, Generation status, Grade anomaly, Income, Introductory courses, Race/ethnicity, Sex, STEM, Systemic advantage index, Undergraduate",

author = "Castle, {Sarah D.} and Byrd, {W. Carson} and Koester, {Benjamin P.} and Pearson, {Meaghan I.} and Emily Bonem and Natalia Caporale and Sonja Cwik and Kameryn Denaro and Stefano Fiorini and Yangqiuting Li and Chris Mead and Heather Rypkema and Sweeder, {Ryan D.} and {Valdivia Medinaceli}, {Montserrat B.} and Whitcomb, {Kyle M.} and Brownell, {Sara E.} and Chantal Levesque-Bristol and Marco Molinaro and Chandralekha Singh and McKay, {Timothy A.} and Matz, {Rebecca L.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s40594-024-00474-7",

language = "English (US)",

volume = "11",

journal = "International Journal of STEM Education",

issn = "2196-7822",

publisher = "Springer Open",

number = "1",

}

TY - JOUR

T1 - Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities

AU - Castle, Sarah D.

AU - Byrd, W. Carson

AU - Koester, Benjamin P.

AU - Pearson, Meaghan I.

AU - Bonem, Emily

AU - Caporale, Natalia

AU - Cwik, Sonja

AU - Denaro, Kameryn

AU - Fiorini, Stefano

AU - Li, Yangqiuting

AU - Mead, Chris

AU - Rypkema, Heather

AU - Sweeder, Ryan D.

AU - Valdivia Medinaceli, Montserrat B.

AU - Whitcomb, Kyle M.

AU - Brownell, Sara E.

AU - Levesque-Bristol, Chantal

AU - Molinaro, Marco

AU - Singh, Chandralekha

AU - McKay, Timothy A.

AU - Matz, Rebecca L.

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/12

Y1 - 2024/12

N2 - Background: Large introductory lecture courses are frequently post-secondary students’ first formal interaction with science, technology, engineering, and mathematics (STEM) disciplines. Grade outcomes in these courses are often disparate across student populations, which, in turn, has implications for student retention. This study positions such disparities as a manifestation of systemic inequities along the dimensions of sex, race/ethnicity, income, and first-generation status and investigates the extent to which they are similar across peer institutions. Results: We examined grade outcomes in a selected set of early STEM courses across six large, public, research-intensive universities in the United States over ten years. In this sample of more than 200,000 STEM course enrollments, we find that course grade benefits increase significantly with the number of systemic advantages students possess at all six institutions. The observed trends in academic outcomes versus advantage are strikingly similar across universities despite the fact that we did not control for differences in grading practices, contexts, and instructor and student populations. The findings are concerning given that these courses are often students’ first post-secondary STEM experiences. Conclusions: STEM course grades are typically lower than those in other disciplines; students taking them often pay grade penalties. The systemic advantages some student groups experience are correlated with significant reductions in these grade penalties at all six institutions. The consistency of these findings across institutions and courses supports the claim that inequities in STEM education are a systemic problem, driven by factors that go beyond specific courses or individual institutions. Our work provides a basis for the exploration of contexts where inequities are exacerbated or reduced and can be used to advocate for structural change within STEM education. To cultivate more equitable learning environments, we must reckon with how pervasive structural barriers in STEM courses negatively shape the experiences of marginalized students.

AB - Background: Large introductory lecture courses are frequently post-secondary students’ first formal interaction with science, technology, engineering, and mathematics (STEM) disciplines. Grade outcomes in these courses are often disparate across student populations, which, in turn, has implications for student retention. This study positions such disparities as a manifestation of systemic inequities along the dimensions of sex, race/ethnicity, income, and first-generation status and investigates the extent to which they are similar across peer institutions. Results: We examined grade outcomes in a selected set of early STEM courses across six large, public, research-intensive universities in the United States over ten years. In this sample of more than 200,000 STEM course enrollments, we find that course grade benefits increase significantly with the number of systemic advantages students possess at all six institutions. The observed trends in academic outcomes versus advantage are strikingly similar across universities despite the fact that we did not control for differences in grading practices, contexts, and instructor and student populations. The findings are concerning given that these courses are often students’ first post-secondary STEM experiences. Conclusions: STEM course grades are typically lower than those in other disciplines; students taking them often pay grade penalties. The systemic advantages some student groups experience are correlated with significant reductions in these grade penalties at all six institutions. The consistency of these findings across institutions and courses supports the claim that inequities in STEM education are a systemic problem, driven by factors that go beyond specific courses or individual institutions. Our work provides a basis for the exploration of contexts where inequities are exacerbated or reduced and can be used to advocate for structural change within STEM education. To cultivate more equitable learning environments, we must reckon with how pervasive structural barriers in STEM courses negatively shape the experiences of marginalized students.

KW - Course grades

KW - Generation status

KW - Grade anomaly

KW - Income

KW - Introductory courses

KW - Race/ethnicity

KW - Sex

KW - STEM

KW - Systemic advantage index

KW - Undergraduate

UR - http://www.scopus.com/inward/record.url?scp=85185924944&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85185924944&partnerID=8YFLogxK

U2 - 10.1186/s40594-024-00474-7

DO - 10.1186/s40594-024-00474-7

M3 - Article

AN - SCOPUS:85185924944

SN - 2196-7822

VL - 11

JO - International Journal of STEM Education

JF - International Journal of STEM Education

IS - 1

M1 - 14

ER -

Systemic advantage has a meaningful relationship with grade outcomes in students’ early STEM courses at six research universities

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this