How are migrants portrayed in the news and media? Who gets to tell the story of migration, and what aspects of the story tend to go underreported? How do these stories, and the perspectives from which they’re told, impact our own perceptions of migration?
In this unit, students learn to identify underreported stories of migration, and what is missing from mainstream media representations of migrants’ experiences. They analyze nonfiction texts and images, practice identifying perspectives in media, and synthesize their learning to form a new understanding of migration. In their final project, students communicate how their perspective on migration has grown or changed through a creative project, original news story, or existing news story edited to provide a more holistic picture of migration.

This book’s title tells its intent. It is written to help you understand media and culture. The media and culture are so much a part of our days that sometimes it is difficult to step back and appreciate and apprehend their great impact on our lives. The book’s title, and the book itself, begin with a focus squarely on media. Think of your typical day. If you are like many people, you wake to a digital alarm clock or perhaps your cell phone. Soon after waking, you likely have a routine that involves some media. Some people immediately check the cell phone for text messages. Others will turn on the computer and check Facebook, email, or websites. Some people read the newspaper. Others listen to music on an iPod or CD. Some people will turn on the television and watch a weather channel, cable news, or Sports Center. Heading to work or class, you may chat on a cell phone or listen to music. Your classes likely employ various types of media from course management software to PowerPoint presentations to DVDs to YouTube. You may return home and relax with video games, television, movies, more Facebook, or music. You connect with friends on campus and beyond with text messages or Facebook. And your day may end as you fall asleep to digital music. Media for most of us are entwined with almost every aspect of life and work. Understanding media will not only help you appreciate the role of media in your life but also help you be a more informed citizen, a more savvy consumer, and a more successful worker. Media influence all those aspects of life as well.

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The focus on soil in this unit is accomplished by browsing and reading or browsing (in some detail) information from nine websites as well as a book chapter. This effort will help students to understand issues relating to soil erosion, the state factors of soil formation, methods of soil description and classification in the field, soil orders, soil surveys and threats to soil. Questions are posed that require written responses and the in-class activity involves a web-based soil survey using the Natural Resources Conservation Service Web Soil Survey. This activity can be accomplished individually or by groups and should involve a short report of findings.

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The term "Earth system science" is typically used to describe the science (especially quantitative modeling) of the interactions between the atmosphere, hydrosphere, and cryosphere, and biosphere---the addition of lithosphere to that list provides all of the main generalized components ("spheres") of the Critical Zone.
In this lesson, students will consider basic concepts of system science (studying complex systems), specifically as it can be applied to Critical Zone science. Students will engage in developing a qualitative systems model graphic of the Critical Zone. The knowledge gained here will be applied later in the semester to more in-depth systems thinking of the Critical Zone.

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Unit 1 introduces foundational concepts in geoscience, emergency management, and political science that are critical for developing a systems thinking approach and for achieving the learning objectives in the storm module. More specifically, within Unit 1, students acquire a vocabulary related to storm systems and risk, engage in practical exercises on event probability and frequency, and complete written activities and oral presentations that reinforce these concepts, using their own community and two case studies as examples. The activities include: a pre-and post-Unit survey on natural hazard risk, an optional concept map exercise to identify associations of risk in major storms, an exercise on probability and frequency of natural hazards in general and major storms in particular, an exercise using hazard vulnerability analysis (HVA) and the HVA's findings, and a synthesis assignment that requires analysis of an assigned hazard mitigation plan (HMP) and development of a proposal to improve mitigation plans.

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In this introductory unit, students will learn about the fundamental role of observation by viewing photographs of both agricultural and non-agricultural (natural) landscapes and making independent observations. They will learn how to relate physiographic features to land use by drawing conclusions about how the physiography of the land affects or is affected by various land use practices. They will then discuss their observations in small groups, organize their thoughts, and explain their conclusions in a classroom oral presentation. Finally, students will consider landscape features in the context of Earth systems and discuss how these systems are impacted by human activity.

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This unit introduces the hydrological cycle to provide context for the module as a whole. It particularly focuses on those portions of the hydrological cycle that take place on land and that form the basis for water that is used by society. Students conduct a stakeholder analysis to better understand societal issues around water. Then the scientific exercise of the unit emphasizes quantitative approaches to describing the critical portions that humans have access to: surface water and shallow ground water. Students calculate residence times and fluxes between reservoirs and track water particles on an annual basis. They also explore available data sets for specific reservoirs such as snowpack and rivers.

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Online-adaptable: This exercise could be converted to online whole-class discussions/lectures and a breakout group activity. Would be best done synchronously.

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This unit is designed to function as three days of instruction in an introductory urban planning, environmental science/studies or public health course.

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This unit will introduce methods and data from Critical Zone observatories as well as methods that scientists use in their research. These activities will provide an introduction to methods used in later units and help students develop a research proposal for the summative assessment activity.
In this unit, students will be introduced to basic scientific methods such as:

How to create an effective annotated bibliography.
How to use software such as MS Excel to graph, analyze, and interpret data.

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Students will learn about geoscience-specific methods used to analyze data in the Critical Zone from data-driven activities and short presentations by their peers. The topics include the use of carbon isotopes, rock and soil profile weathering rates, stream discharge, demographics, and soil carbon. Activities will build data analysis and communication skills while using real data to interpret Critical Zone processes and begin to think about human interactions in the Critical Zone. Students will use geoscience-specific methods when developing their research proposal for the summative assessment activity.

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In this activity, the student groups organized at the end of Unit 3.1 will prepare presentations representing different stakeholder positions. This artifact -- Part I of the Module Summative Assessment (Microsoft Word 2007 (.docx) 25kB Sep4 16) -- can be part of a presentation to the instructor, to a panel of faculty/students, or to a "board" representing some decision-making unit (Community Council, University Board of Trustees, City/County Planning Commission). At the conclusion of this unit, students will be prompted to reflect, individually, on an ecosystem services approach to natural resources management -- Part II of the Module Summative Assessment (Microsoft Word 2007 (.docx) 23kB Sep4 16) .

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Over the course of one week, students will apply and evaluate concepts in the context of their local community, culminating in the formulation and evaluation of Hazard Mitigation Plan recommendations presented in stakeholder position papers. These position papers, which will also serve as the summative assessment of the Major Storms and Community Resilience Module, will be presented and assessed during a Town Hall Meeting. In this role-playing activity, students apply and evaluate concepts in the context of assigned stakeholder positions from their local community. Over the course of the week, students formulate and evaluate Hazard Mitigation Plan recommendations for major storms, and then present those recommendations in a town hall-style meeting. These assignments demonstrate students' ability to develop strategies and recommendations to mitigate local community vulnerabilities to storms with specific emphasis on different sectors and/or stakeholders in that community. Instructors will assess student achievement of the learning goals through a formal oral presentation and a team policy position paper. As such, the culmination of Unit 3 in the Town Hall Meeting serves as the summative assessment for the Major Storms module.

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In the capstone, Unit 3, students are provided a real-world example of local community action to address the challenge of "healthy food access." The 2015 Leon County (Florida) Sustainable Communities Summit highlights the results of communities working together to promote environmental and food justice. By the end of Unit 3, instructors can deliver a call to action to empower students to be participatory citizens in their communities. The summative assessment will evaluate the students' ability to synthesize the module learning objectives and demonstrate the use of science practices.

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Students will identify potential stakeholders and assess the importance of communication and interaction among these groups to make recommendations on how to define and develop prepared communities.

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Landslides can have profound societal consequences, such as did the slide that occurred near Oso, Washington in 2014. Forty-three people were killed and entire rural neighborhood was destroyed. In this unit, students consider the larger-scale tectonic and climatic setting for the landslide and subsequently use lidar and SRTM (Shuttle Radar Topography Mission) hillshade images, topographic maps, and InSAR (interferometric synthetic aperture radar) to determine relationships between landscape characteristics and different types of mass-wasting events. They conclude by considering the societal costs of such a disaster and ways that communities in similar situations may mitigate their risk.

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Online-adaptable: The exercises in unit are completely digital and thus at a logistical level it can be switched to online fairly easily. However, due to the relative complexity of the data investigations and group discussions, there will still be a fair bit of instructor support needed and/or extended small group that should be arranged.

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In this unit, student groups will evaluate different environmental case studies to critically investigate qualitative and quantitative data analysis, collection, and inquiry. Students will begin to consider different forms of sensory-related data collection and how experiential knowledge informs the ways in which one forms analytical, evaluative questions. Student expert groups are provided one case study (different expert groups will examine at least two different cases) that has a number of different kinds of resources that students will examine (e.g. journalistic, scientific, narrative, visual, auditory). Students will use cooperative learning methods to engage with problem-based inquiry rather than have the case study information delivered via instructor-based lecture. Given that students across disciplinary contexts may not have been exposed to scientific methods of investigation, this unit encourages systems thinking alongside other methods of investigation. As students consider the variety of perceptions that occur within a group of people sharing an environmental experience, students are able to consider the impact that different types of data have on one's perception of data collection and its analysis. This exercise also demonstrates the utility of interdisciplinary thinking -- by examining data sets from multiple academic disciplines, students gain a more complete understanding of the case study compared to what they would have understood by examining data from a single research approach. The activity also provides students with an opportunity to practice interdisciplinary thinking and collaboration skills. The cases address several key environmental challenges: soil contamination, water resources, and the impacts of industrial agriculture.
A collaborative learning method is used in conjunction with guided class and group discussion to critically examine different types of data and encourage consistency of data analysis between student groups. This unit uses a group exploration and presentation activity to ensure equal distribution of materials and accountability among class participants. In essence, the students teach each other about the case studies with the instructor providing questions to elicit depth and synthesis between groups as well as to ensure that critical data analysis is undertaken.

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Building on the work they did in Unit 3, students will perform an "ecocritical" rhetorical reading (the theoretical lens for examining the way that literary texts engage with climate and climate issues) in order to analyze a short story chosen from several provided by the instructor. They will utilize literary terminology in discussing this text and generating a rhetorical analysis of it.

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In this unit, students construct and present a standards-based, K -- 8 Soils, Systems, and Society Kit that consists of lessons and supporting materials around a locally and broadly relevant societal issue that involves soils. After learning about the Kit assignment and choosing their societal issue, students have at least two weeks outside of classwork time to develop a kit that integrates soils content with interdisciplinary systems taught through scientific practices. After completing their Kits, students present them to the class for review and final summative assessments.

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Units 3 and 4 of this module explored how water resources are used for agriculture in the United States and how this can vary depending on location. In Unit 5, students explore how agricultural practices can affect the water quality in streams, rivers, lakes, and coastal areas. Important concepts in this unit include processes that transport suspended material (e.g., sediment) and dissolved material (e.g., nutrients) away from crop fields and into regional water bodies. The effects of dissolved nutrients on the health of the water ecosystems will be presented with examples of hypoxic zones in coastal areas and lake eutrophication. This last unit is well-suited to foster student advancement in systems thinking.

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