During Activity 2.2, students download, organize, and analyze geoscience data sets of sea level trends, terrestrial ice sheet trends, and intensity of tropical cyclones as well as forecast models of atmospheric CO2 and temperature trends and sea level rise. Students utilize the methods of geoscience such as systems thinking and using multiple lines of evidence to determine possible relationships and feedbacks among the data sets. Students use this data to construct their argument from evidence for a position paper in Activity 2.3.

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In Activity 2.3, students make an argument from evidence to address the problem: "To what extent should we build or rebuild coastal communities?" Students work as a team to complete a graphic organizer. This task helps them organize an evidence-based position paper. Each student writes his or her own position paper.

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Field-based research projects are the focal point for my course in sedimentary geology. For each offering of the course, projects are selected which will enable students to engage in authentic research and learn fundamental principles of sedimentary geology at the same time. Projects have addressed problems as diverse as sedimentologic processes, paleoenvironmental interpretation, stratigraphic correlation between outcrops and the nature of contacts between units. Each semester, the specific content of the course, how the content is organized, which readings are chosen and selection of laboratory experiences are dictated by the nature of the specific project and are planned to support students in their work on the project. Less content may be "covered" with this approach and topics may not follow a "traditional" order (see syllabus), but students' depth of understanding, skills in scientific reasoning, sense of accomplishment, and growth in confidence are greatly enhanced. Class projects from half of the past four offerings of the course culminated in the presentation of three posters at regional GSA conferences. Results of the other two semesters were not submitted for presentation because the instructor failed to identify problems of adequate significance for the class to investigate. However, these projects did yield data which may be useful in future projects.

Field projects must be chosen carefully so that they a) have the potential to yield results of scientific significance, and b) can be completed within the time-frame of one semester. In addition, it is essential to provide students with experiences that enable them to develop the expertise necessary to gather and make sense of the data. To ensure these conditions, the faculty member should be involved actively as a collaborator in the project. Therefore it is mutually beneficial if the class project is related to the faculty member's research or to a topic of interest to him/her. Guidelines for the development of successful projects are available in the Instructor's Notes file.

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This unit provides pre-service teachers in methods courses with resources for teaching geoscience content and utilizing the methods of geoscience. Pre-service teachers will prepare an annotated bibliography of instructional resources in the areas of geology, meteorology/climatology, oceanography, and astronomy. They will select one of these resources and prepare a full lesson plan based on the resource that emphasizes the methods of geoscience and also incorporates interdisciplinary material from either biology, chemistry, physics, or the social sciences.

In this in-class activity, students are challenged to identify rock units and geologic features and determine the relative ages of these features without prior instruction in the classical methods of relative age determination.

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This activity introduces geoscientific thinking to a primarily non-geoscience audience. This is the introductory activity of a module designed for pre-service secondary science teachers in a secondary science teaching methods course. Initially, students explore their conceptions of the scientific method. Through readings and discussion, the activity attempts to broaden the students' view of the nature of science by showing how geoscience methods differ from stereotypical experimental science. This introductory activity uses a seminar format (writing/reading/discussing/writing).

In this lab activity, students make observations on four assemblages of fossils, identify the major groups represented, interpret ecological roles and interactions and use this information to reconstruct environmental conditions.

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In this field project, students describe two lithologic units in terms of lithology, texture, sedimentary structures and faunal content. From these observations, they reconstruct paleoenvironments and determine how these environments changed through time.

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In this exercise, sudents write a series of three stories that explain and/or illustrate rock-forming processes. As an alternative, they may write a single story that addresses the rock cycle. Describing these processes at a level appropriate for their target audience (second graders) requires an adequate understanding of the geologic processes involved and can reveal problems or misconceptions in the students' ideas of how rocks are formed. Teacher's notes and rubrics for teacher and peer review are provided.

In this activity, students investigate convection as it applies to Earth processes. They will assemble a model using a bread pan to view convection in two paired cells. They will also investigate the strengths and weaknesses of the model thay have constructed and answer some questions about what they are seeing.

This is an introductory laboratory excercise that familiarizes students with the general appearance of fossils and the multiple modes of preservation that are possible.