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Full-Text Articles in Education
Analysis Of Skills Sought By Employers Of Bachelors-Level Geoscientists, Gregory Shafer, Karen Viskuptic, Anne E. Egger
Analysis Of Skills Sought By Employers Of Bachelors-Level Geoscientists, Gregory Shafer, Karen Viskuptic, Anne E. Egger
Geological Sciences Faculty Scholarship
Bachelors-level geoscientists make up the majority of the geoscience workforce, and positions for entry-level geoscientists are expected to grow rapidly over the next decade, with some jobs anticipating upward of 10% growth (National Center for O*NET Development, 2021). Are geoscience departments adequately preparing undergraduate students to succeed in these positions?
Integrating Geoscience Into Undergraduate Education About Environment, Society, And Sustainability Using Place-Based Learning: Three Examples, David Gosselin, Steven Burian, Tim Lutz, Julie Maxson
Integrating Geoscience Into Undergraduate Education About Environment, Society, And Sustainability Using Place-Based Learning: Three Examples, David Gosselin, Steven Burian, Tim Lutz, Julie Maxson
Department of Earth and Atmospheric Sciences: Faculty Publications
From water to energy, and from climate change to natural hazards, the geosciences (marine, Earth, and atmospheric science) have an important role to play in addressing a wide range of societal issues, with particular relevance to how humans can live sustainably on Earth. Although arguably important to developing solutions for many societal issues, more often than not, students have limited exposure to the geosciences in high school or college. To address this geoscience literacy problem, the Interdisciplinary Teaching of Geoscience for a Sustainable Future (InTeGrate) Talent Expansion Center has engaged members of the geoscience community and their colleagues in allied …
Integrating Upper Level Content With Introductory Material For Better Learning, With An Example From Mineralogy, Charles W. Carrigan, Priscilla Field Skalac
Integrating Upper Level Content With Introductory Material For Better Learning, With An Example From Mineralogy, Charles W. Carrigan, Priscilla Field Skalac
Faculty Scholarship – Geology
At the start of upper-level courses, many students have difficulty with advanced material that requires a base knowledge of essential concepts in geology and supporting disciplines, along with critical thinking skills. Students have difficulty in 1) recalling introductory course material and connecting it to deeper content, and 2) integrating concepts from supporting courses. We advocate incorporating a broadening concept review into upper level courses. Emphasis is on mastery of introductory material needed to acquire advanced concepts that follow.
Relevance First: How To Engage Preservice Elementary (K-8) Teacher Candidates In A Required Geoscience Course, Priscilla Field Skalac
Relevance First: How To Engage Preservice Elementary (K-8) Teacher Candidates In A Required Geoscience Course, Priscilla Field Skalac
Faculty Scholarship – Geology
Many preservice elementary teacher candidates enter the required science content classroom with poor self-efficacy attitudes. We should take an approach that will both lead our students towards an understanding of the relevance of the content, as well as self-confidence in their ability to teach geoscience. In one of four required science content courses, Earth and Space Science for Elementary Teachers, we are achieving positive outcomes by redefining our students as our apprentices.
Weaving The Curriculum Tapestry: Modifying Upper Level Courses To Facilitate Integration Across The Geology Program, Charles W. Carrigan, Priscilla Field Skalac
Weaving The Curriculum Tapestry: Modifying Upper Level Courses To Facilitate Integration Across The Geology Program, Charles W. Carrigan, Priscilla Field Skalac
Faculty Scholarship – Geology
Having observed students' frequent struggles to acquire mastery of content and skills in upper-level geology courses, we noted students fail to weave together the diverse strands that produce a well-educated geoscientist. After observing students’ struggles to keep up with new content and skills, we determined a course of action that includes application of best pedagogy based on educational research. We incorporate a technique of spiraling basic content and skills across the geology curriculum: content and skills introduced in the entry-level geology course are intentionally reviewed and referenced in each upper-level course.
Facilitating Integration Across The Geology Program: Applying "Weaving The Curriculum" To Petrology And Structural Geology Courses, Charles W. Carrigan, Priscilla Field Skalac
Facilitating Integration Across The Geology Program: Applying "Weaving The Curriculum" To Petrology And Structural Geology Courses, Charles W. Carrigan, Priscilla Field Skalac
Faculty Scholarship – Geology
Students often encounter difficulty with advanced material in upper-level geology courses. We identified several trends that arise at the beginning of upper-level courses including difficulty in connecting introductory course material to deeper content, integrating skills and knowledge from supporting courses, and integrating material between upper-level courses. Redesigning upper-level courses, we intentionally incorporate relevant material from introductory geoscience courses into upper-level courses, such that students are re-exposed to fundamental concepts they need to master as more advanced concepts are taught.