Data Science, Human Geography, & Environmental Justice Youth Project (DL compatible)

Data Science, Human Geography, & Environmental Justice Youth Project

Inspired by Undesign the Redline PBLs, Rebecca Solnit’s Infinite City, and the intersectionality my students navigated every day, I resolved to honor their distance learning investment by making the ecosystem and data analysis about their new pandemic-era environment. My students wanted to learn how to help, instead of remaining silent and isolated from what science was wrestling with in reality, both in terms of research and outreach. Learning human geography in the context of how to define life during the pandemic and how to design metrics for answering scientifically testable questions was one way they could figure out how to cope with daily catastrophe and grief.

STEP ONE: SURFACE EXISTING KNOWLEDGE & ESTABLISH COMMUNITY CONTEXT.

First I asked students to mark on a blank map of San Francisco where they lived (or where they were willing to report) in relation to the school. Students noticed certain patterns and created questions about it said about the students or the school.


STEP TWO: INVITE SHARING SOMATIC OBSERVATIONS TO IDENTIFY LAYERS OF PATTERNS.

We used a padlet to share the 5 senses we could describe in our own separate neighborhoods across the city, and used that to create a summary of the communities and the questions they presented.

Students developed their own sense of purpose and curiosity when their sense of intersectionality was acknowledged and made explicit through formalized data.

Some possible prompts:

  • What kinds of places do you go to relax or be at peace? Any green spaces? How far away are they?

  • What kinds of people live near you? How would they describe themselves?

  • How do the people around you make a living?

  • What products do you or people around you use? What brand names do you see most often?

  • What medical or health needs do you notice in people around you?

  • What sounds do you hear around you?

  • What smells do you sense?


STEP THREE: IDENTIFY ISSUES.

Approach: Question Formulation Technique based on recent headlines. Gathered a Jamboard of recent headlines based on patterns identified in Step 2 and asked students to add questions. Students then discussed further in another Jamboard to talk further about experiences in the city. During physical classroom learning, students used post-it notes and others added to a padlet.

Preview (distance-learning Jamboards)


STEP FOUR: EXPLORE AND ANALYZE DIFFERENT LAYERS AND TYPES OF DATA TO INFORM FOCUS.

To further spark our ideas for identifying the issues our communities experienced, we then examined a slide deck I created of 30+ KWL slides of San Francisco maps (biological, historical, cultural, political).

Preview:


STEP FIVE: RESEARCH AND CRITIQUE A SPECIFIC STRATEGY

Template side for describing and evaluating the solution

Are the strategies used by adults addressing the problems identified?

How does the data support your analysis?

Gallery: examples of factors examined


STEP SIX: CREATE A NEW STRATEGY

Students choose from options below:

Examples of student projects

(Template for students choosing to use Slides)


STEP SEVEN: SELF-EVALUATE

Students complete this rubric and grade themselves.


Afterword

The following year, I used it to help bridge interdependent relationships (kelp, their own neighborhoods where they've identified a/biotic factors, etc. and carrying capacity (Rapa Nui, Keeling Curve, covid curve).

I feel like I can do a lot more with this and I will continue to update the slides, embedded links, and more in-depth maps. Feel free to copy and use for your own needs.

Assignment: "This is What a Scientist Looks Like" - diversity in scientific community

Preview

Ready to copy & share on Google Classroom or print.

Bilingual (English-Spanish)

Links to 4 different sources

Feel free to adapt & redistribute for educational use.

Includes self-assessment and audience feedback.

Student Instructions

  1. Sign up to research a rarely-known scientist who interests you. Use these sources to help you choose a person to research:

2. Research online for information about the scientist, the science that person studies, or if the person has been researching anything recently. Use the links above to help you get started.

3. Using complete sentences, complete the blanks below using your own research. You can also write this on paper.

4. Rehearse your explanation for why you chose this scientist. Part of your grade will depend on your audience feedback (see end of worksheet).

Sustainable Strategies (TEK) - environmental justice & indigenous knowledge

Screen Shot 2021-03-17 at 12.00.00 PM.png

Students sign up for 1 of 19 videos, articles, or websites that feature sustainability strategies that come from local knowledge, indigenous peoples, and Black philanthropists and entrepreneurs.

They analyze the source based on how it affects the ecosystem, then reflect on 3 prompts they choose from a list of 9 in Google Forms.

 

For each slide, student answers these questions:

Screen Shot 2021-03-17 at 11.57.50 AM.png
Screen Shot 2021-03-17 at 11.58.18 AM.png

1. What people and groups are involved and what is their goal?

2. What does this source tell you about the cultural values about food, land, and community? How does one generation trade knowledge with the other?

3. List the crops, organisms, and methods mentioned/shown.

4. How do these people blend past and present knowledge to heal the future? How effective do you think they are or will be?

 

Strategies included are:

Screen Shot 2021-03-17 at 11.59.32 AM.png
  1. Returning Condors to the PNW (Yurok)

  2. Indigenous fire management

  3. Improving farming with biodiversity in Peruvian cassava

  4. Water Poisoning in Japan, First Nations, and San Francisco

  5. Mayan Forest Garden

  6. Urban Farm: Detroit

  7. Science for a Hungry World

  8. Black Philanthropists Tackle Hunter in the Pandemic

  9. Urban Farm: Dallas

  10. Blossoms of Hope, Oregon

  11. 'Homecoming' trailer

  12. Heritage Crops in New Mexico

  13. First Nations students in Sustainability Careers

  14. Ash trees - Akwesasne Mohawk

  15. Salmon - Lummi Nation

  16. Water - Campo Kumeyaay Nation

  17. Wild Rice - Leech Lake Ojibwe

  18. White Earth Land Recovery Project

  19. American Indian Foods Guide

 

Reflection

Reflection: Students choose 1 from 3 sets of prompts.

Reflection: Students choose 1 from 3 sets of prompts.

Students choose 1 from 3 sets of prompts.

Reebops Nursery (gender-inclusive independent assortment)

Adapted to be more inclusive from slides created by Laura Funk (staff profile page) by modifying “mom” to egg-giver and “dad” to sperm-giver, and adding UDL supports for students with cognitive differences.

Instructional note: I find it best to give these to students without explanation, so that they must derive what the components of the Reebops model are. Also, HS students are unusually protective over their Reebops. In-person, I put their completed models into plastic slips with their “birth certificate” ie. worksheet.

See steps below and the questions for the assessment at the end.

NGSS Works towards HS-LS3-1. Follow up with meiosis and HS-LS3-2.

Step 1: Flip a coin and highlight the capital or lowercase letter for that row.

Step 1: Flip a coin and highlight the capital or lowercase letter for that row.

Step 2: Combine the results from Step 1 to create a genotype (two letters).

Step 2: Combine the results from Step 1 to create a genotype (two letters).

Step 3: Use the third slide to decode the phenotype.

Step 3: Use the third slide to decode the phenotype.

Step 4: Build the reebop based on the phenotype.

Step 4: Build the reebop based on the phenotype.

Screen Shot 2021-03-17 at 11.39.54 AM.png

Assessment: Answer the questions in the Google Form.

0. Attach completed Reebops Nursery from your Drive.

1. Name your Reebop

2. What do you think each letter represents in the model?

3. What do you think combining the letters represents in the model?

4. All models are wrong. Some models are useful. What are some things missing from this model? List as many as you can think of.

5. Gametes (egg & sperm cells) contain 1 pair of chromosomes (n = haploid), the other body cells contain 2 pairs of chromosomes (2n=diploid). Is your baby reebop haploid or diploid?





Unit: Mitosis & Cancer (DL-friendly)

In this 5-lesson (75m each) distance-learning unit on mitosis, students begin by drawing onion root tip cells on screen, review their preconceptions of cancer, analyze graphs of cancer statistics, learn about how cancer cells behave differently due to 2 types of mutations.

At the end, SWBAT

  • explain how the cell cycle relates to cancer and

  • use a manual of treatments, cancer stages, and randomly-assigned pathology reports from patients to identify and explain how 2 treatments might affect cell activity in the patient and the pros/cons of each.

NGSS: Builds towards HS-LS3-2 and HS-LS1-4. Lesson 1’s checkpoints builds towards HS-LS1-1.

Prior to unit: distribute Cancer Consent Form to identify students who may need alternate assignment (Go Go Stem Cells! worksheet) or to be excused from specific portions.


Lesson 0 (slides)

Goal: Draw cells dividing and learn about how mitosis leads us to grow, then calculate how much time cells spend in each phase of mitosis

Screen Shot 2021-03-17 at 11.10.52 AM.png

1. Opening

Spotlight: James West

2. How do we grow and develop?

Task - Onion Root Tips (5pts)

3. Count & Calculate:
% of cells in Pass Me a Taco!

=break=

4. Pass Me A Taco (A & B) Typing Test (8pts)

5. Closing

 

Lesson 1 (slides)

Goal: Self-assess our preconceptions about cancer. Compare cancerous vs. noncancerous cells.

1. Opening - Check In & Consent

Video: Do cell phones cause cancer?

Spotlight: Yamicia Connor

2. Graphing Cancer

Incidence/Frequency

Income Inequality

3. What do we know about cancer? T/F

=break=

4. Practice Draw: Anaphase & Telophase

5. Independent Time

Closing

 

Lesson 2 (slides) (student assignment)

Goal: Examine how cells respond to programming & learn about 2 major mechanisms for cancer

Screen Shot 2021-03-17 at 11.09.02 AM.png

1. Opening

Graph: Breast Cancer

Review: Mitosis, Stem Cells

2. How do cancer cells behave differently?

3. What causes cancer?

Proto-oncogene

Tumor suppressor

break

4. Independent Time

Closing

 

Lesson 3 (slides) (student group assignment) (oncology intern handbook)

Goals: Learn about diagnostic tools & treatments. Diagnose & explain a treatment plan.

Screen Shot 2021-03-17 at 11.28.57 AM.png

1. Opening

Review: #7 of Homework; student ideas about cancer & cell cycle

SEL: An Ocean of Feelings

2. What is Pathology?

a. Stages of Breast Cancer

b. Diagnostic Tests

3. Get to know your patient & their cancer

c. Treatments

=break=

4. Independent Time

5. Presenting Rounds

6. Closing

Patient Sign-Up Slide. 2 students per patient.

Patient Sign-Up Slide. 2 students per patient.

Instructions for group assignment: Copy & share group assignment with class period and ask students to sign up for a patient. on slide 2 (see left). Randomly selected student presents for each slide at end.

Assignment includes links to resources, instructions, and oncology intern handbook (see images for more)

Sample answer page w/ explanations.

Sample answer page w/ explanations.

Sample pathology report with blank prompts (linked to other slides in the deck that give instructions)

Sample pathology report with blank prompts (linked to other slides in the deck that give instructions)

Screen Shot 2021-03-17 at 11.17.18 AM.png

Google Form Quiz: Evidence/Inference

I made a form for reviewing evidence-inference, independent/dependent variables, and change in biotic factors on Rapa Nui.

All answers have explanatory feedback and/or youtube video explaining more. Feel free to copy/change/adapt/share as always.

Sources: Has some biology of stress on executive function stuff & how rituals lower cortisol, as well as YPAR institutional change scenarios. I think I put a reforestation link in there somewhere but I'm tired.

120225698_10112402136196441_4747692984969145686_n.jpg
120291428_10112402134120601_3778738219014299536_n.jpg
120439511_10112402135572691_2406791568366613502_n.jpg
120268897_10112402135887061_3243674183322218070_n.jpg

Multi-level Trophic Pyramid Simulation Webquest

Multi-level Trophic Pyramid Simulation Webquest

Contains instructions for setting up a trophic pyramid, with screenshots and questions.

At the end of this group synchronous activity, students write an individual CER for a claim around carrying capacity.

Option to tie to logarithmic/exponential population growth & covid-19 ("what's the limiting factor for covid-19?").

120493222_10112404486246921_2862221156392734612_o.jpg

Google Form Quiz & Slides: Observe A/Biotic factors & evaluate CER of 2 mask-wearing-CO2 arguments

I made a Google Forms that asks Ss to:

  1. 1) identify a/biotic factors (shows video & asks students what they think of different models),

  2. interacting,

  3. in their neighborhood.

It then asks copypaste for a CER analysis of 2 covid-19 mask-CO2 arguments. The only ones with pts have Feedback that automatically responds with the correct answer.

(English & Spanish.)

Screen Shot 2020-09-20 at 10.29.59 AM.png

Template: Distance Learning Syllabus

I wrote this fall syllabus for teaching my 10th grade biology class 100% distance learning this year and other teachers wanted to use it. I’ve taken out most of the identifying information and highlighted stuff, but feel free to use my policies as well or change them, and pass it on for those who find it helpful.