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Democracy in Action - Student Climate Assembly

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The Student Climate Assembly Toolkit describes how we design and implementation of the program. This is not a plug and play unit plan. Instead, it is a guide with options and resources for teachers to adapt this model to their own region and classroom.  The primary audience for this toolkit is high school civics teachers, but it may be of interest to other educators.This toolkit includes: a description of SCA preparation, components and how they were presented (section 1); background information about climate science, deliberative democracy, climate justice and social emotional learning (sections 1 & 3); learning standards & student assessment (section 2); sources for teacher and student research (section 3); and examples of SCA teaching tools (section 4)

Material Type: Teaching/Learning Strategy, Unit of Study

Author: Cheryl Lydon

PEI SOLS HS Fire: Forest Management

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The students will be introduced to a historical account of global climate change and the human events that may have impacted those changes. Fire has been used by humans throughout history to modify their environment, particularly forests, for human benefit. Over time, the management of forests has changed and the result is an increase in catastrophic wildfires. This storyline explores the use of fire as a forest management tool to improve the health of forests thereby decreasing the incidence of catastrophic fires and the role fire plays in climate change. 

Material Type: Unit of Study

Authors: Hattie Osborne, Pacific Education Institute

PEI SOLS HS: Regenerative Agriculture (Eastern Washington)

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Students will be learning about the practices of regenerative agriculture and how regenerative agriculture is a solution to climate change. Embedded in the storyline are scientific concepts relating to carbon cycling and soil microbial activity. The storyline culminates with students creating an infographic that is intended for educating the community about regenerative agricultural practices. 

Material Type: Unit of Study

Authors: Hattie Osborne, Pacific Education Institute

PEI SOLS HS: Food Waste

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Food waste is a major contributor to greenhouse gas. Wasted food and the resources to produce that food are responsible for approximately 8% of global greenhouse gas emissions. In this storyline, students learn about the resources required to produce food through following the carbon cycle and discover how food waste contributes to climate change. They will also learn the farm to table transport chain as well as how to conduct a food waste assessment. Finally, the students will research solutions to the problem of food waste and, as a final project, present one solution that they have thoroughly researched that can be applicable to their community. For CTE teachers, this storyline provides the basic knowledge needed to develop a deep understanding of WHY reducing food waste is an important solution to climate change. There are several potential extensions that Family Consumer Science teachers can utilize as well as Ag teachers and even Business teachers. There is a partial list at the end of the learning progressions. 

Material Type: Unit of Study

Authors: Hattie Osborne, Pacific Education Institute

PEI SOLS HS Forests: Carbon Sequestration

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The goal of the high school carbon sequestration in forests storyline is to build on the science of carbon sequestration from the middle school storyline. In this storyline, carbon sequestration refers to the removal of carbon (in the form of carbon dioxide) from the atmosphere through the process of photosynthesis. Carbon storage refers to the amount of carbon bound up in woody material above and below ground. High school students will develop an understanding of the variables and considerations that arise from managing forests for different purposes including carbon sequestration and other ecosystem services. 

Material Type: Unit of Study

Authors: Hattie Osborne, Pacific Education Institute

PEI SOLS High School Renewable Energy: Solar

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Solar energy in the form of light is available to organisms on Earth in abundance. Natural systems and other organisms have structures that function in ways to manage the interaction with and use of this energy. Using these natural examples, humans have (in the past) and continue to design and construct homes which manage solar energy in passive and active ways to reduce the need for energy from other sources. In this storyline, students will explore passive and active solar energy management through examples in the natural world. Students will use knowledge gained to design a building that maximizes the free and abundant energy gifts of the sun.

Material Type: Unit of Study

Author: Pacific Education Institute

PEI SOLS High School Coastal Hazards: Sea Level Rise

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As the climate is changing, one of the many consequences is sea level rise, which is not a standalone factor, but is closely related to erosion and extreme weather/storm conditions. The majority of coastal houses, recreational parks, and other coastal buildings were built as sturdy but stagnant structures that do not adjust well to the changing elements. Coastal homes have been collapsing into the ocean and restaurants have been destroyed by storm waves. The economic damage has been accumulating. In this storyline, students will explore the reasons behind sea level rise looking at thermal expansion, glacial ice melt, and sea ice melt. Students will examine real scenarios of coastal damage in Washington state and evaluate current city and tribal resilience plans. Finally, students will evaluate the constraints of existing challenges and propose strategies for solving these challenges.

Material Type: Unit of Study

Authors: Pacific Education Institute, Washington OSPI OER Project

PEI SOLS High School Food Waste (Spanish)

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El desperdicio de comida es uno de los principales contribuyentes a los gases de efecto invernadero. Los alimentos desperdiciados y los recursos para producirlos son responsables de aproximadamente el 8% de las emisiones mundiales de gases de efecto invernadero. En este caso, los estudiantes aprenden sobre los recursos necesarios para producir alimentos a través del ciclo del carbono y descubren cómo el desperdicio de alimentos contribuye al cambio climático. También aprenderán la cadena de transporte de la granja a la mesa y cómo llevar a cabo una evaluación de desperdicio de comida. Finalmente, los estudiantes investigarán soluciones al problema del desperdicio de comida y, como proyecto final, presentarán una solución que han investigado a fondo que puede ser aplicable a su comunidad. Para los maestros de CTE, este caso proporciona el conocimiento básico necesario para desarrollar una comprensión profunda de POR QUÉ reducir el desperdicio de comida es una solución importante para el cambio climático. Hay varias extensiones potenciales que los maestros de ciencias del consumo familiar pueden utilizar, así como los maestros de Agricultura e incluso los maestros de Negocios. Hay una lista parcial al final de las progresiones de aprendizaje.

Material Type: Unit of Study

Author: Pacific Education Institute

PEI SOLS High School Fire: Forest Management (Spanish)

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Se presentará a los estudiantes un relato histórico del cambio climático global y las acciones humanas que pueden haber afectado esos cambios. El fuego ha sido utilizado por los seres humanos a lo largo de la historia para modificar su entorno, en particular los bosques, en beneficio de los seres humanos. Con el tiempo, el manejo de los bosques ha cambiado y el resultado es un aumento de incendios forestales catastrófico. Este caso explora el uso del fuego como una herramienta de manejo forestal para mejorar la salud de los bosques, disminuyendo así la incidencia de incendios catastróficos y el papel que juega el fuego en el cambio climático.

Material Type: Unit of Study

Author: Pacific Education Institute

PEI SOLS HS Forests: Carbon Sequestration

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El objetivo del caso de la captura del carbono en los bosques a nivel escuela preparatoria es basarse en la ciencia de la captura de carbono del caso de la escuela secundaria. En este caso, la captura de carbono se refiere a la eliminación de carbono (en forma de dióxido de carbono) de la atmósfera a través del proceso de fotosíntesis. El almacenamiento de carbono se refiere a la cantidad de carbono unido al material leñoso por encima y por debajo del suelo. Los estudiantes de preparatoria desarrollarán una comprensión de las variables y consideraciones que surgen del manejo de los bosques para diferentes propósitos, incluida la captura o secuestro de carbono y otros servicios del ecosistema. 

Material Type: Unit of Study

Author: Pacific Education Institute

Using the Washington Tracking Network to Study Climate Impacts

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These five modules introduce secondary science teachers to a powerful resource, from the Washington State Department of Health, entitled the “Washington Tracking Network” (WTN).  This is a tool for mapping (a) the distribution of numerous factors that influence public health, and (b) the inequitable distribution of health outcomes. This wonderful system naturally invites us to inquire about the intersections of biological, societal, and environmental issues. The overarching goal of these five  modules is to support teachers to design student activities that (1) inspire and connect students to real world health & environmental data, and each other, (2) promote clean air, land, and water, (3) promote the use of the Washington Tracking Network data mapping system, (4) support equitable, 3-dimensional learning, including the use of community wisdom to solve public health issues, and (5) use science for student action and leadership in response to current and historical misuses of science. These modules were created in collaboration with epidemiologists and communications professionals from the Washington Department of Health.

Material Type: Module

Author: Cheryl Lydon

USDA BioPreferred Standards Context Lesson Plan

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Students will compare the basis of the derivatives for different plastics in order to determine their expected carbon-14 content. They will then compare ratios of carbon-14 to carbon-12 in plastic samples and categorize the sample according to its percent bio-based composition. Teacher Background Information: This lesson is more of a context design to be used with an existing nuclear chemistry lesson plan. The goal is for students to see the applicability of nuclear chemistry beyond carbon-dating by showing how carbon-dating can be used to determine the carbon sources of products.  Students will need a basic understanding of the carbon cycle, and nuclear equations. The lesson will need students to learn about half-lives halfway through the lesson and that is left open to teach as you wish. There is room for extension to mass spectrometry if you want to incorporate it here for AP Chemistry or as an honors extension. I would suggest using the Flinn POGIL on Mass Spectrometry.   

Material Type: Lesson

Authors: Carissa Haug, Johanna Brown, Saskia van Bergen

Introduction to Systems

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The development of systems and network concepts for students can begin with this highly interactive inquiry into cell phone networks. Cell phones serve as a handy knowledge base on which to develop understanding. Each cell phone represents a node, and each phone’s address book represents an edge, or the calling relationships between cell phones. Students conceptualize the entire cell phone network by drawing a graphic that depicts each cell phone in the class as a circle (node) connected by directional lines (edges) to their classmate’s cell phones in their address book. Students are queried on the shortest pathway for calling and calling pathways when selected phones are knocked out using school and classroom scenarios. Students then use a simulation followed by Cytoscape, visually graphing software, to model and interrogate the structure and properties of the class’s cell phone network. They investigate more advanced calling relationships and perturb the network (knock out cell towers) to reexamine the adjusted network’s properties. Advanced questions about roaming, cell towers and email focus on a deeper understanding of network behavior. Both the paper and software network exercises highlight numerous properties of networks and the activities of scientists with biological networks. Target Audience: This is an introductory module that we recommend teaching before each of our other modules to give students a background in systems. This module can be applied easily to any content area and works best as written for students between 6th and 12th grades but can be adapted for other ages. The lessons work best when in-person with students. If you are looking for an Introduction to Systems for remote learning, please use our Systems are Everywhere module.

Material Type: Activity/Lab, Homework/Assignment, Interactive, Lesson, Lesson Plan, Module, Simulation, Student Guide, Unit of Study

Authors: Baliga Lab, Camille Scalise, Claudia Ludwig, Dan Tenenbaum, Gregory Alvarado, Institute for Systems Biology, Jeannine Sieler, John Thompson, Kathee Terry, Megan Meislin, Nitin S. Baliga (Institute for Systems Biology;), Patrick Ehrman (Institue for Systems Biology;), Paul Shannon, Rich Bonneau, Sarah Nehring, Simin Marzanian, Stephanie Gill, Systems Education Experiences

Our Invisible Forest: What's in a Drop of Seawater?

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Take a breath — where does the oxygen you inhaled come from? In our changing world, will we always have enough oxygen? What is in water that supports life? What is known? How do we know what we know about our vast oceans? These are just a few of the driving questions explored in this interactive STEAM high school curriculum module. Students in marine science, environmental science, physics, chemistry, biology, integrated science, biotechnology and/or STEAM courses can use this curriculum module in order to use real-world, big data to investigate how our “invisible forest” influences ocean and Earth systems. Students build an art project to represent their new understanding and share this with the broader community. This 4-week set of lessons is based on the oceanographic research of Dr. Anne Thompson of Portland State University in Oregon, which focuses on the abundant ocean phytoplankton Prochlorococcus. These interdisciplinary STEAM lessons were inspired by Dr. Thompson’s lab and fieldwork as well as many beautiful visualizations of Prochlorococcus, the ocean, and Earth. Students learn about the impact and importance of Prochlorococcus as the smallest and most abundant photosynthetic organism on our planet. Through the lessons, students act as both scientists and artists as they explore where breathable oxygen comes from and consider how to communicate the importance of tiny cells to human survival. This module is written as a phenomenon-based, Next Generation Science Standards (NGSS) three-dimensional learning unit. Each of the lessons below also has an integrated, optional Project-Based Learning component that guides students as they complete the PBL process. Students learn to model a system and also design and evaluate questions to investigate phenomena. Students ultimately learn what is in a drop of ocean water and showcase how their drop contributes to our health and the stability and dynamics of global systems.

Material Type: Module

Authors: Amanda Cope, Anne W. Thompson, Baliga Lab, Barbara Steffens, Claudia Ludwig, Emily Borden, Institute for Systems Biology, Jeannine Sieler, Linnea Stavney, Mari Knutson Herbert, Mark Buchli, Michael Walker, Nitin S. Baliga, Portland State University, Uzma Khalil

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