TY - JOUR
T1 - Faculty self-reported use of quantitative and data analysis skills in undergraduate geoscience courses
AU - McFadden, Rory R.
AU - Viskupic, Karen
AU - Egger, Anne E.
N1 - Publisher Copyright:
© 2019 National Association of Geoscience Teachers.
PY - 2021
Y1 - 2021
N2 - Quantitative literacy is a foundational component of success in STEM disciplines and in life. Quantitative concepts and data-rich activities in undergraduate geoscience courses can strengthen geoscience majors’ understanding of geologic phenomena and prepare them for future careers and graduate school, and provide real-world context to apply quantitative thinking for non-STEM students. We use self-reported teaching practices from the 2016 National Geoscience Faculty Survey to document the extent to which undergraduate geoscience instructors emphasize quantitative skills (algebra, statistics, and calculus) and data analysis skills in introductory (n = 1096) and majors (n = 1066) courses. Respondents who spent more than 20% of class time on student activities, questions, and discussions, taught small classes, or engaged more with the geoscience community through research or improving teaching incorporated statistical analyses and data analyses more frequently in their courses. Respondents from baccalaureate institutions reported use of a wider variety of data analysis skills in all courses compared with respondents from other types of institutions. Additionally, respondents who reported using more data analysis skills in their courses also used a broader array of strategies to prepare students for the geoscience workforce. These correlations suggest that targeted professional development could increase instructors’ use of quantitative and data analysis skills to meet the needs of their students in context.
AB - Quantitative literacy is a foundational component of success in STEM disciplines and in life. Quantitative concepts and data-rich activities in undergraduate geoscience courses can strengthen geoscience majors’ understanding of geologic phenomena and prepare them for future careers and graduate school, and provide real-world context to apply quantitative thinking for non-STEM students. We use self-reported teaching practices from the 2016 National Geoscience Faculty Survey to document the extent to which undergraduate geoscience instructors emphasize quantitative skills (algebra, statistics, and calculus) and data analysis skills in introductory (n = 1096) and majors (n = 1066) courses. Respondents who spent more than 20% of class time on student activities, questions, and discussions, taught small classes, or engaged more with the geoscience community through research or improving teaching incorporated statistical analyses and data analyses more frequently in their courses. Respondents from baccalaureate institutions reported use of a wider variety of data analysis skills in all courses compared with respondents from other types of institutions. Additionally, respondents who reported using more data analysis skills in their courses also used a broader array of strategies to prepare students for the geoscience workforce. These correlations suggest that targeted professional development could increase instructors’ use of quantitative and data analysis skills to meet the needs of their students in context.
KW - data analysis skills
KW - Quantitative skills
KW - undergraduate geoscience education
KW - workforce preparation
UR - http://www.scopus.com/inward/record.url?scp=85076916835&partnerID=8YFLogxK
U2 - 10.1080/10899995.2019.1700595
DO - 10.1080/10899995.2019.1700595
M3 - Article
AN - SCOPUS:85076916835
SN - 1089-9995
VL - 69
SP - 373
EP - 386
JO - Journal of Geoscience Education
JF - Journal of Geoscience Education
IS - 4
ER -