ED31F-06
PARTNERS IN EARTH SYSTEM SCIENCE: A FIELD, LABORATORY AND CLASSROOM BASED PROFESSIONAL DEVELOPMENT PROGRAM FOR K-12 TEACHERS DESIGNED TO BUILD SCIENTIFIC AND PEDAGOGICAL UNDERSTANDINGS OF TEACHING CLIMATE CHANGE.
Wednesday, 16 December 2015: 09:15
303 (Moscone South)
William Slattery1, Suzanne Lunsford1, Alfred Diedrick2 and Cynthia Crane3, (1)Wright State University Main Campus, Dayton, OH, United States, (2)Paint Valley Local Schools, Bainbridge, OH, United States, (3)Aurora Fossil Museum, Aurora, NC, United States
Abstract:
The purpose of the Partners in Earth System Science summer and academic year professional development program for Ohio K-12 teachers is to build their understandings of the scientific observations, methods and resources that scientists use when studying past and present climate change. Participants then use these tools to develop inquiry-based activities to teach their K-12 students how the scientific method and data are used to understand the effects of global climate change. The summer portion of the program takes teachers from throughout Ohio to the Duke University Marine Laboratory in Beaufort, North Carolina. There they engage in a physical and biological exploration of the modern and ancient ocean. For example, they collect samples of sediment and test water samples collected from modern coastal environments and connect their findings with evidence of the fauna living in those environments. Then, using observations from the geological record of the Eocene through Pleistocene sediments exposed in eastern North Carolina and inferences from observations made from the modern ocean they seek to answer scientifically testable questions regarding the physical and biological characteristics of the ocean during Cenozoic climate change events. During the academic year participants connect with each other and project faculty online to support the development of inquiry based science activities for their K-12 students. These activities focus on how evidence and observations such as outcrop extent, sediment type and biological assemblages can be used to infer past climates. The activities are taught in participant’s classrooms and discussed with other participants in an online discussion space. Assessment of both teachers and K-12 students document significant positive changes in science knowledge, their confidence in being able to do science and a clearer understanding of how oceans are impacted by global climate change.