This lesson sequence guides students to learn about the geography and the …
This lesson sequence guides students to learn about the geography and the unique characteristics of the Arctic, including vegetation, and people who live there. Students use Google Earth to explore the Arctic and learn about meteorological observations in the Arctic, including collecting their own data in hands-on experiments. This is the first part of a three-part curriculum about Arctic climate.
This interactive resource adapted from the National Park Service presents the key …
This interactive resource adapted from the National Park Service presents the key concepts of cave and karst systems, including how and where they form, different types, and various cave environments.
The goal of this unit is that the students will be able …
The goal of this unit is that the students will be able to: 1. work in a blended learning environment to understand climate change and its impact on the world. 2. master a basic understanding of climate change 3. work in groups to research focused questions, present their research, and propose a way to combat climate change. 4. present their completed projects to their classmates. This unit is based on a lesson plan from The Learning Network found here: http://learning.blogs.nytimes.com/2015/04/22/guest-post-climate-change-questions-for-citizen-scientists/
This activity covers the role that the oceans may play in climate …
This activity covers the role that the oceans may play in climate change and how climate change may affect the oceans. It is lesson 8 in a nine-lesson module Visualizing and Understanding the Science of Climate Change.
Approximate time to complete: 45-70 minutesThis activity can be used in place …
Approximate time to complete: 45-70 minutesThis activity can be used in place of dissecting an owl pellet. Students decide which 4 prey items the snow leopard ate, make a bar graph, make a food web and then research and locate information about snow leopards.
After studying the basics of enzyme function, students will be exposed to …
After studying the basics of enzyme function, students will be exposed to the history and evolution of lactose intolerance/lactase persistence. Both whole group and individual activities will ask students to interact with the concept. They will conduct a lab to understand the role of enzymes in lactose digestion and communicate their knowledge by creating a public health poster.
After studying the basics of enzyme function, students will be exposed to …
After studying the basics of enzyme function, students will be exposed to the history and evolution of lactose intolerance/lactase persistence. Both whole group and individual activities will ask students to interact with the concept. They will conduct a lab to understand the role of enzymes in lactose digestion and communicate their knowledge by creating a public health poster.
This lesson creates a dialogue about how human and natural ecosystems interact. Students …
This lesson creates a dialogue about how human and natural ecosystems interact. Students will compare and contrast human behaviors and changes that have been driven by COVID-19.
This activtiy utilizes stories from individual experinces in the natural world. Students describe sustainable …
This activtiy utilizes stories from individual experinces in the natural world. Students describe sustainable human behaviors and find legit sources to support student claims.
This activity relates water temperature to fishery health within inland freshwater watersheds …
This activity relates water temperature to fishery health within inland freshwater watersheds as a way to explore how environmental factors of an ecosystem affect the organisms that use those ecosystems as important habitat.
In this lab activity, students use brine shrimp as a proxy for …
In this lab activity, students use brine shrimp as a proxy for krill to study how environmental factors impact behavioral responses of krill in the unique environment of Antarctica.
Download this complete unit of instructions to conduct an ecosystem inquiry. In …
Download this complete unit of instructions to conduct an ecosystem inquiry. In this investigation, students have the opportunity to witness first-hand the dynamic relationship between Brassica butterflies and Wisconsin Fast Plants. Students are responsible for tending the butterflies and plants throughout the entire life cycles, while they explore and explain the changes that each organism goes through and the impact they have on each other. Complete kits are available from Carolina Biological for this investigation, or everything to grow Fast Plants and raise Brassica butterflies can be built or obtained locally, using the instructions available on the Fast Plants website.
In this activity from NOAA's Okeanos Explorer Education Materials Collection, learners investigate …
In this activity from NOAA's Okeanos Explorer Education Materials Collection, learners investigate how methane hydrates might have been involved with the Cambrian explosion.
The original Native American story component lesson was developed as part of an …
The original Native American story component lesson was developed as part of an Office of Superintendent of Public Instruction (OSPI) and Washington State Leadership and Assistance for Science Education Reform (LASER) project funded through an EPA Region 10 grant. The stories were told by Roger Fernandes of the Lower Elwha Klallam tribe. Mr. Fernandes has been given permission by the tribes to tell these stories.As these lessons and stories were shared prior to the adoption of the Washington State Science Learning Standards in 2013, there was a need to align these stories with the current science standards. This resource provides a current alignment and possible lesson suggestions on how these stories can be incorporated into the classroom. This alignment work has been funded by the NGSS & Climate Science Proviso of the Washington State Legislature as a part of North Central Educational Service District's award.
In this curriculum module, students in high school life science, marine science, …
In this curriculum module, students in high school life science, marine science, and/or chemistry courses act as interdisciplinary scientists and delegates to investigate how the changing carbon cycle will affect the oceans along with their integral populations.
The oceans cover 70 percent of the planet and play a critical role in regulating atmospheric carbon dioxide through the interaction of physical, chemical, and biological processes. As a result of anthropogenic activity, a doubling of the atmospheric CO2 concentration (to 760 ppm) is expected to occur by the end of this century. A quarter of the total CO2 emitted has already been absorbed by the surface oceans, changing the marine carbonate system, resulting in a decrease in pH, a change in carbonate-ion concentrations, and a change in the speciation of macro and micronutrients. The shift in the carbonate system is already drastically affecting biological processes in the oceans and is predicted to have major consequences on carbon export to the deep ocean with reverberating effects on atmospheric CO2. Put in simple terms, ocean acidification is a complex phenomenon with complex consequences. Understanding complexity and the impact of ocean acidification requires systems thinking – both in research and in education. Scientific advancement will help us better understand the problem and devise more effective solutions, but executing these solutions will require widespread public participation to mitigate this global problem.
Through these lessons, students closely model what is occurring in laboratories worldwide and at Institute for Systems Biology (ISB) through Monica Orellana’s research to analyze the effect CO2 has on ocean chemistry, ecosystems and human societies. Students experiment, analyze public data, and prepare for a mock summit to address concerns. Student groups represent key “interest groups” and design two experiments to observe the effects of CO2 on seawater pH, diatom growth, algal blooms, nutrient availability, and/or shell dissolution.
In this unit, students will explore how global climate change impacts marine …
In this unit, students will explore how global climate change impacts marine ecosystems (especially kelp forests and coral reefs) and the survival and migration patterns of species within marine ecosystems. Students will examine how marine resources and fisheries upon which humans depend (especially marginalized and vulnerable human populations) are being affected by ocean warming and what we can learn from Indigenous peoples on how to mitigate the effects of ocean warming. Lastly, students will learn about innovative solutions to addressing the impacts of ocean warming and propose their own solution to the problem.
Take a breath — where does the oxygen you inhaled come from? …
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.
Patterns Biology is the culminating course in the 3-year high school Patterns …
Patterns Biology is the culminating course in the 3-year high school Patterns Science sequence. Patterns Biology focuses on three-dimensional (3D) learning through culturally responsive, phenomena-based storylines that intertwine the disciplinary core ideas of biology with the scientific and engineering practices and crosscutting concepts as described in the Next Generation Science Standards (NGSS).
The Patterns High School Science Sequence (https://hsscience4all.org/) is a three year course pathway and curriculum aligned to the Next Generation Science Standards (NGSS).
Each course utilizes: - Common instructional strategies - Real world phenomena - Design challenges to engage students and support their learning.
For more information, contact us at info@pdxstem.org.
The curriculum is a combination of teacher-generated and curated open-content materials. The Teacher-generated materials are shared freely under a Attribution-NonCommercial-Sharealike Creative Commons License.
In this EarthLabs activity, learners explore the concepts of coral bleaching, bleaching …
In this EarthLabs activity, learners explore the concepts of coral bleaching, bleaching hot spots and degree-heating weeks. Using data products from NOAA's Coral Reef Watch, students identify bleaching hot spots and degree-heating weeks around the globe as well as in the Florida Keys' Sombrero Reef to determine the impact higher-than-normal sea surface temperatures have on coral reefs.
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