Jones, Megan H. et al. (2009): Teaching about the Paleocene-Eocene Thermal Maximum (PETM); an inquiry-based, data-rich case study in abrupt climate change for a variety of undergraduate settings

Leg/Site/Hole:
Identifier:
2010-086616
georefid

Creator:
Jones, Megan H.
North Hennepin Community College, Geology Department, Brooklyn Park, MN, United States
author

Leckie, R. Mark
University of Massachusetts, United States
author

St. John, Kristen
James Madison University, United States
author

Pound, Kate S.
Saint Cloud State University, United States
author

Krissek, Lawrence
Ohio State University, United States
author

Identification:
Teaching about the Paleocene-Eocene Thermal Maximum (PETM); an inquiry-based, data-rich case study in abrupt climate change for a variety of undergraduate settings
2009
In: Anonymous, Geological Society of America, 2009 annual meeting
Geological Society of America (GSA), Boulder, CO, United States
41
7
93
Adapted as part of an NSF CCLI Phase 1 grant (# 0737335) on "Building Core Knowledge and Reconstructing Earth History", this guided inquiry-based module provides students an opportunity to grapple with a variety of authentic paleoceanographic and paleoclimatic proxies just as scientists do. It is designed to: (a) enable students to construct their own knowledge about a significant past climate change event, (b) provide rigorous practice in making observations, interpretations, and forming hypotheses using foundational earth science concepts, (c) create opportunities for student pre-/mis-conceptions to be revealed and resolved and (d) encourage students to make connections between past climate change events and what we know about present and potential future climate change today. This three-part module is based on sediment archive records from nine IODP/ODP ocean drilling sites in four regions: Walvis Ridge (SE Atlantic), Shatsky Rise (NW Pacific), Maud Rise (Southern Ocean) and the Equatorial Atlantic. In Part 1, students, individually or as a small group, observe and interpret site specific biostratigraphic, magnetic susceptibility, color reflectance, % CaCO (sub 3) , and oxygen and carbon isotope data. For Part 2, students reflect on and discuss their site--specific findings with students assigned a different site from the same geographic region. Part 3 consists of a brief student presentation of regional findings to the full class, which then serves as a framework for an instructor-facilitated class synthesis on the variation and uncertainty of, assumptions behind, and implications of their results on the PETM records from a global perspective. Student worksheets provide a framework for students to concisely record observations, interpretations, hypotheses posed and reflections on what they have done. The site to region approach allows them to scaffold their understanding before attempting to consider it in a global perspective. Along with detailed answer keys, the instructor guide includes alternative strategies and timeframes for implementing all or parts of the module, allowing instructors greater flexibility in considering how best to use this exercise in their course. This exercise, piloted in a 2008 focus group, is currently being tested at several undergraduate institutions in a variety of formats.
English
Coverage:Geographic coordinates:
North:-20.0000
West:-10.0000East: 10.0000
South:-67.0000

Stratigraphy; Atlantic Ocean; Cenozoic; climate change; college-level education; education; Equatorial Atlantic; Integrated Ocean Drilling Program; marine sediments; Maud Rise; North Pacific; Northwest Pacific; Ocean Drilling Program; Pacific Ocean; paleo-oceanography; Paleocene-Eocene Thermal Maximum; paleoclimatology; Paleogene; sediments; Shatsky Rise; South Atlantic; Southern Ocean; Tertiary; Walvis Ridge; Weddell Sea; West Pacific;

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