Authors: Beth Bisson1, Medea Steinman2, and Esperanza Stancioff2
1Maine Sea Grant
2University of Maine Cooperative Extension
Grade level: 4-12
Themes: Phenology, climate change
Activity type: Hypothesizing and prediction, field observation and data collection, evidence-based thinking, peer-group collaboration
Setting: Classroom or outdoors
Students use Signs of the Seasons (SOS) phenology observation protocols and data sheets to monitor plants or animals on their school grounds or in a local park. They partner with another school or youth program in another region of Maine to compare findings. The groups select one or more common species for comparison, decide when and how often they will make observations, and set up a means of regular communication.
Students are encouraged to hypothesize and make predictions, infer meaning from the comparisons (e.g., with respect to climate change and ecological principles), engage in speculation, and learn to articulate and support claims and conclusions. They have the opportunity to share what they learn by giving presentations at school. This can be used as a basis for classroom discussion in order to explore lines of inquiry and help students make meaning out of their observations.
A1 Unifying Themes – Systems
3-5. Students explain interactions between parts that make up whole man-made and natural things.
6-8. Students describe and apply principles of systems in man-made things, natural things, and processes.
9-Diploma. Students apply an understanding of systems to explain and analyze man-made and natural phenomena.
A3 Unifying Themes – Constancy and Change
3-5 a. Recognize patterns of change including steady, repetitive, irregular, or apparently unpredictable change.
6-8. Students describe how patterns of change vary in physical, biological, and technological systems.
B1 Skills and Traits of Scientific Inquiry
3-5 a. Pose investigable questions and seek answers from reliable sources of scientific information and from their own investigations.
6-8. Students plan, conduct, analyze data from, and communicate results of investigations, including simple experiments.
C1 The Scientific and Technological Enterprise – Understandings of Inquiry
3-5 a. Describe how scientists answer questions by developing explanations based on observations, evidence, and knowledge of the natural world.
9-diploma. Students describe key aspects of scientific investigations: that they are guided by scientific principles and knowledge, that they are performed to test ideas, and that they are communicated and defended publicly.
E2 The Living Environment – Ecosystems
3-5. Students describe ways organisms depend upon, interact within, and change the living and non-living environment as well as ways the environment affects organisms.
6-8. Students examine how the characteristics of the physical, non-living (abiotic) environment, the types and behaviors of living (biotic) organisms, and the flow of matter and energy affect organisms and the ecosystem of which they are part.
Expectations and Misconceptions: It’s important to mention to students that they probably will not find changes in the timing of all events. They may not find changes in the timing of any events. The goal is to know which have changed, which haven’t, and why.
Guard against the notion that, “If I see changes in timing, that’s climate change. If I don’t see them, then the climate is not changing.” Remind them that the climate is changing, that some things are impacted more than others, and that things are impacted differently.
Note: see Resources section below for links to these items on the Web
And, depending on what species will be monitored:
(See the Resources section below for links to SOS/NPN websites and materials)
Reflection: Ask participants to describe their investigation and reflect on what worked well and what they could do differently next time. Ask them to talk about any ways their predictions were or were not supported. Can they speculate about possible reasons or causes? How much can they infer and what other evidence/information would they need to make any claims about causes?
Formative assessment: Collect the students’ science notebooks or journals to see how well they recorded their initial predictions and the data they collected through their species observations. Were they able to make connections between what they saw and their original predictions? Do they understand the process of collecting evidence that either supports or does not support their predictions? Save examples of student work for reference next time you try this activity. Work that shows a range from solid understanding to common misconceptions is particularly helpful.
If they turned up interesting findings, offer guidance in preparing a presentation to a local nature center, library or in another public setting. Have the students build on the exercise by searching records or asking experts about how plant and animal phenology may have been different in each locale or between the two locales in the past. What inferences or conclusions can they draw about these changes and how can they support their claims?
Signs of the Seasons (http://umaine.edu/signs-of-the-seasons)
USA National Phenology Network (http://www.usanpn.org)
Communicating and collaborating with your Sister Team:
Free websites and wikis:
Google Sites (http://www.google.com/sites/help/intl/en/overview.html)
Free, private, online video-sharing:
Getting set up with Signs of the Seasons:
SOS Field Guide (http://umaine.edu/signs-of-the-seasons/resources-for-observers/)
SOS Indicator Species (http://umaine.edu/signs-of-the-seasons/indicator-species/)
USA-NPN Nature’s Notebook (https://www.usanpn.org/user?destination=MyNPN)
To get started, follow instructions in the Field Guide for selecting a site and choosing species and individual plants to observe. Then register an account with Nature’s Notebook. Once you do that and enter your site(s) and species list, you’ll be able to access the Data Sheets for downloading and printing. These can be used outdoors when recording your observations.
For assistance contact:
Esperanza Stancioff, Climate Change Educator
University of Maine Cooperative Extension/Maine Sea Grant
207.832.0343; 1.800.244.2104 (in Maine); email@example.com
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