Some students may have been involved in recycling programs, which are basically waste separation activities. In this unit, students engage in the entire process of making new material from waste, as they turn biodegradable garbage into the gardener's "black gold"—rich compost.
In this ecology study, students learn about the composting process, and participate in the "Rot Off!” challenge, a contest that involves making the most compost from the school's kitchen and yard waste. To win the contest (and end up with something other than smelly sludge), students have to learn how to get organic material to decompose (an aerobic process) rather than rot (an anaerobic process). Win or lose, students learn from their composting experiences and use their expertise to help inform others about composting. As a final activity, the compost is used in the school or community garden and sold by the bagful as a classroom fundraiser.
View how a variety of student-centered assessments are used in the Composting: Why Bother? Unit Plan. These assessments help students and teachers set goals; monitor student progress; provide feedback; assess thinking, processes, performances, and products; and reflect on learning throughout the learning cycle.
Have students brainstorm a list of ways they can contribute to making a better tomorrow. Encourage students to write down anything that comes to mind (ideas do not have to be school or class related). Have students share their top five ideas with a partner. Have a set of partners share with another set and then have that group share with the whole class the top five ideas. Conduct a short discussion about the items on their lists. Capitalize on any waste management ideas to launch into the next step. If no related ideas are mentioned, guide the discussion to incorporate pollution and waste.
Introduce the topics of waste management and composting by holding up a jar of well-developed compost for students to examine (preferably made from household and yard biomass, refer to Internet resources for a recipe). Ask students to identify the material in the jar. Many will refer to it as dirt. Follow up with the question, What is dirt? Guide a discussion about the components or qualities of dirt to lead students to the discovery that the jar is filled with a substance we call compost, one important component of dirt, or soil. (Introducing Soil Terms* may be helpful.) Ask the question, How can this jar of dirt contribute to making a better tomorrow? Stimulate discussion with guiding questions to provoke inquiry and spark ideas. Save these questions until the end and have students see how many they can answer. Set the scene for classroom composting with the Bullfrog Films video It's Gotten Rotten* to teach the basic mechanisms of organic decomposition.
Discuss how waste is managed in your city and reasons why attempts are made to reduce the amount of waste going to landfills. Challenge students to track their garbage from the point they throw it away to its final resting place. Ask a municipal waste management specialist to visit the class and explain the economics of waste management, and the reasons for diverting waste through reuse (as with building materials), recycling (glass and plastics, made into new products), and composting. If possible, send some students to visit a local waste management facility and create a report with photos, drawings, essays, video, and audio interviews for presentation to the rest of the class. A Web fieldtrip to New York City's Fresh Kills Landfill* is edifying, too. The site was set to be closed on July 4, 2001, but it is now the repository for the debris that was the World Trade Center Towers.
Have students use the information learned from these activities to start thinking about the Unit Question, How can our community manage waste better? Introduce the student project rubric and discuss requirements and expectations for the upcoming projects. Then, organize students into groups of three and instruct them to conduct a composting survey. The syllabus provides the guidelines for the survey. Brainstorm a list of questions students might ask others about composting. Give students the opportunity to share their results and compile the information from the different surveys. Use this information to discuss a rationale for a composting program in your community.
Distribute a syllabus that outlines activities and expectations for the “Rot Off!” challenge. Explain to students that at the end of the challenge they should be able to answer the question, How can composting today benefit the future? Explain that specific examples and rationale should be included.
Challenge students to design and build a compost bin or pile that makes the most compost as efficiently as possible using the school's kitchen and yard waste. Before the challenge is launched, show the Bullfrog Films video Compost: Truth or Consequences* and have students research some of the Internet resources for more background information. Haves students take notes on what scientific factors contribute to successful composts. Factors can be added later based on experience as well.
Instruct the students on how to set up long-term experiments with multiple variables. Lead students through a mock experiment (use a different topic, such as accelerated plant growth) to demonstrate the format using the scientific process.
Divide the class into teams of four or five, and have each team divide the following tasks among themselves:
After research is complete and designs are selected, direct students to submit a written plan following the directions in the syllabus. Once the plan is approved, direct students to start acquiring materials and building their compost.
When the composts are built and students are ready to begin, help them set up a composting log to keep track of their processes. Direct students to use their syllabus to check the information they should record during this process. Instruct students in the use of Probeware*, which can be used to measure nitrogen, moisture, pH, and temperature. Temperature cycles, at a minimum, should be measured, because heat is an indicator of decomposition. Hot compost is healthy compost! Emphasize that measurement and data collection are essential parts of the experimental process. Review with students the evidence that indicates chemical changes are taking place (such as a new color, odor, new solid, new gas, emission of light, heat energy released or absorbed, and so forth). The use of probeware can also be taught before the unit begins.
In the middle of this process, ask students, How is composting an example of conservation of mass? Review the concept of the conservation of mass if necessary. Students should be able to understand that matter has not been created or destroyed, only rearranged into new substances. Further this lesson by teaching (or reviewing) the five chemical reactions:
Instruct students to observe, record, and give examples of the type of chemical reactions they think are taking place during the compost process.
Digital pictures can be taken to illustrate the process and be added to the composting log.
As the composting project gets underway, assign each team of students (or have each team choose) a research question that further supports the project and informs others of one of the topics listed in the syllabus. Have each team write a thesis or proposal describing the topic in some detail, and the media and processes they will use to present their information (oral presentation, newsletter, brochure, spreadsheets, charts and graphs, posters, photo essay or design project, Web site, electronic slideshow, or other idea). Teach students how to cite sources and organize and refine information. Tell students that this research component is to be integrated into the final presentation. Set aside time to meet with each group and conference about their progress and review their proposals.
Optional: To assist the research process and teach students how to work collaboratively, show students how to use a FURL*. Setting up* a FURL is free and an easy way for students to collect great Web sites for their topic as well as another group’s topic. Display each team’s topic so it is visible for students and set up the class FURL site accordingly.
Synthesis (Weeks 11-12, 5 periods weekly)
Invite a master gardener to judge your “Rot Off!” challenge (some are registered with the county extension service or with other local agencies). The team that diverted the most waste AND made the most thoroughly decomposed compost in 3 months is declared the winner. Consider getting press coverage of the event.
Direct student teams to synthesize their research project studies and composting experiences into a final presentation for the class or a specific interest group in the community (horticulture society, neighborhood association, and so forth). Explain that presentations must answer the questions, How can our community manage waste better? and How can composting today benefit tomorrow? Hand out the peer assessment scoring guide and explain to students that they will be assessing one another’s work. Review the scoring guide and answer any questions. Have each team choose one or more of the following methods for presenting their information:
A teacher participated in the Intel® Teach Program, which resulted in this idea for a classroom project. A team of teachers expanded the plan into the example you see here.
Background: Pennsylvania, United State
This unit is aligned to Common Core State Standards and Next Generation Science Standards.