Post on 05-Jan-2016
Carbon in the Classroom
A teacher’s perspective
A Perspective
Calculating Carbon Sequestration
ProcessOutcome
Carbon Storage Role CardGOALS: to create a user-friendly way for students and teachers to
measure and calculate the carbon stored in school yard trees (MOR) and accruing in newly planted trees (P4C)
KEY FEATURES (Assumptions):
• DBH• Tree species • Biomass Calculator from Natural Resources Canada• Generates biomass for branches, foliage, wood and bark. • (For roots multiply by 1.26)• Multiply by 0.5 to convert to carbon (IPCC, 1996)• Multiply by 3.7 to calculate the amount of carbon dioxide sequestered by
the tree (Colombo et al. 2007)
The Dragon Academy
• Urban Setting• G 7-12• 42 trees
growing along the avenue.
• Historical Data (1991)
Ontario Curriculum Opportunities• Understanding Life Systems: Grade 1 – Needs and
Characteristics of Living; Grade 3 – Growth and changes in Plants; Grade 4 – Habitats and Communities; Grade 6 – Biodiversity; Grade 7 – Interactions in the Environment.
• Biology: Grade 9 – Sustainable Ecosystems; Grade 11 – Diversity of Living Things; Plants: Anatomy, Growth and Function; Plants in the Natural Environment.
• Environmental Science – Grade 11
• Math
Grade 9 Class lesson breakdown
Our Data – what does it mean?Setting our baseline (2013)
– Carbon currently stored – 14,565 kg or 14.5 Tonnes– Carbon dioxide sequestered– 53,890kg or 54 Tonnes
From the historical data (1991)one tree has increased DBH from 11cm to 48.5cm an increase in
580kg of carbon= 2700kg of carbon dioxide = not quite 2 of us getting to London and back
The Future
• Year-on-Year measurement• Add to ACER’s database for
Measuring our Resources.
• Process: collecting data on students engagement and relationships