Policies and Professional Development: An Oil Boom’s Effect on Rural Schools and Teachers

In 2008, Western North Dakota experienced an extraordinary energy boom, creating waves of new residents seeking employment in the lucrative oil fields. Resultantly, many communities in the area, which were almost exclusively isolated and rural, dramatically changed. The purpose of this qualitative single-case study was to investigate the experiences of school staff in two rural schools within the North Dakota oil boom region. Data were teacher and administrator interviews with 15 participants and classroom observations. The findings indicated that teachers faced three key challenges in their classrooms as a result of the population influx, including: changing educational space, student academic proficiency, and a lack of cultural competence and pedagogical knowledge to effectively educate new, diverse students. Implications for policies and teacher professional development in rural boomtown areas are discussed

On the Cusp: A School District and Two Communities Respond to an Oil Pre-Boom

This case study is an investigation of the attitudes, perceptions, and reactions of school staff and community members in a rural pre-boom school district. In the early stage of an oil boom, real and perceived disruptions commonly occur in the schools and communities that are affected. The preparations and responses that residents make to the changes may determine the community’s future success, so understanding the impacts in the initial pre-boom growth stage is vital. Using qualitative methods of interviews, participant observations, and document analyses, this study researched 41 participants in a rural school district and two communities. The literature review and data investigation were framed partly around the Social Disruption Hypothesis, and the analysis suggests that the oil pre-boom stage impacts space, teaching and learning, and causes social disruptions. These three affected areas contribute to and are influenced by the uncertain future that accompanies boom cycles. Individual variables seem to determine community member responses to a boom, and these participants responded to change by supporting, resisting, or deserting their communities. The school district was challenged with transient students, changes to funding, teacher workload, and teacher paradigm shifts in the way they viewed their future instruction. Community support for the schools, as well as peer acceptance of new students, remained strong. Community contexts, including history, physical location, and types of growth, may partially explain differences in residents’ preparations and reactions. Recommendations for community planning, school teaching and administration, and university preparation of pre-service teachers are provided. Key Words: oil boom, pre-boom, boomtown, Social Disruption Hypothesis, community identity, community attachment, acceptance, student transience, community contex

Suggestions for Implementing First Year Experience Learning Communities in Teacher Education Programs

This article describes the creation of a First Year Experience learning community in a teacher education program. The First Year Experience model was adopted by the university because of declining enrollment, retention, and graduation rates and has been generally successful in the education department. With little information available for teacher educators about this type of learning community, we offer recommendations for implementing and evaluating them

Engaging Middle School Students through Locally Focused Environmental Science Project-Based Learning

Increasing scientific literacy through education is one way to promote awareness of current environmental challenges, and can be enhanced through project-based learning (PBL), a pedagogical approach in which students explore authentic topics and demonstrate their learning publically. The National Science Foundation–funded GK–12 program at Iowa State University partnered doctoral-level graduate students (fellows) with middle and high school science teachers. This study analyzed results from one such middle school partnership in Iowa, where a PBL approach was implemented. Classroom practices focused on local environmental case studies of energy development, water pollution, soil science, climate change, plant biology, and ecology. Results from a student survey (n = 101), following a year with the PBL curricula, revealed significantly more positive attitudes and greater levels of engagement and confidence in scientific material relative to GK–12 peers (n = 329). Publicly submitted student letters to a government agency responsible for approving an oil pipeline project were also analyzed for scientific themes and levels of comprehension (n = 65). Overall, 60% of students demonstrated the ability to construct arguments by citing specific data and scientific evidence in the letters, and also incorporated topics covered in previous units (4–5 themes addressed on average per letter). Results demonstrate that a PBL approach in a middle school science classroom is a method to stimulate attitudes, engagement, confidence, and comprehension in the study of environmental topics. Discussion follows about improving K–12 science education to enhance public understanding and engagement around environmental policy issues

Engaging Middle School Students through Locally Focused Environmental Science Project-Based Learning

Increasing scientific literacy through education is one way to promote awareness of current environmental challenges, and can be enhanced through project-based learning (PBL), a pedagogical approach in which students explore authentic topics and demonstrate their learning publically. The National Science Foundation–funded GK–12 program at Iowa State University partnered doctoral-level graduate students (fellows) with middle and high school science teachers. This study analyzed results from one such middle school partnership in Iowa, where a PBL approach was implemented. Classroom practices focused on local environmental case studies of energy development, water pollution, soil science, climate change, plant biology, and ecology. Results from a student survey (n = 101), following a year with the PBL curricula, revealed significantly more positive attitudes and greater levels of engagement and confidence in scientific material relative to GK–12 peers (n = 329). Publicly submitted student letters to a government agency responsible for approving an oil pipeline project were also analyzed for scientific themes and levels of comprehension (n = 65). Overall, 60% of students demonstrated the ability to construct arguments by citing specific data and scientific evidence in the letters, and also incorporated topics covered in previous units (4–5 themes addressed on average per letter). Results demonstrate that a PBL approach in a middle school science classroom is a method to stimulate attitudes, engagement, confidence, and comprehension in the study of environmental topics. Discussion follows about improving K–12 science education to enhance public understanding and engagement around environmental policy issues

University Science Partnerships: What Happens to STEM Interest and Confidence in Middle School and Beyond

Increased demand for qualified students interested in science, technology, engineering, and mathematics (STEM) has created a push for greater and more authentic exposure to STEM topics among K-12 students. University science partnerships have been shown to be effective at increasing high school students’ interest and confidence in STEM fields. However, little research to date has explored the effects of these partnerships on students beyond the initial program. This study explored STEM interest and confidence in 322 middle school students involved in a GK-12 program before and immediately after the program, then followed up with the students again in high school. Results indicated that students experienced slight losses in areas of STEM interest and confidence during the program, but greater, significant losses occurred after middle school. Male and female students, however, demonstrated a narrowing STEM aspiration gender gap by high school. Implications for university partnership programs are discussed

Engaging Middle School Students through Locally Focused Environmental Science Project-Based Learning

Increasing scientific literacy through education is one way to promote awareness of current environmental challenges, and can be enhanced through project-based learning (PBL), a pedagogical approach in which students explore authentic topics and demonstrate their learning publically. The National Science Foundation–funded GK–12 program at Iowa State University partnered doctoral-level graduate students (fellows) with middle and high school science teachers. This study analyzed results from one such middle school partnership in Iowa, where a PBL approach was implemented. Classroom practices focused on local environmental case studies of energy development, water pollution, soil science, climate change, plant biology, and ecology. Results from a student survey (n = 101), following a year with the PBL curricula, revealed significantly more positive attitudes and greater levels of engagement and confidence in scientific material relative to GK–12 peers (n = 329). Publicly submitted student letters to a government agency responsible for approving an oil pipeline project were also analyzed for scientific themes and levels of comprehension (n = 65). Overall, 60% of students demonstrated the ability to construct arguments by citing specific data and scientific evidence in the letters, and also incorporated topics covered in previous units (4–5 themes addressed on average per letter). Results demonstrate that a PBL approach in a middle school science classroom is a method to stimulate attitudes, engagement, confidence, and comprehension in the study of environmental topics. Discussion follows about improving K–12 science education to enhance public understanding and engagement around environmental policy issues