The Australian Marine Debris Initiative . Live Virtual Field Trip with Tangaroa Blue

March 4, 2019 8:00 PM
(EST)

Summary

Hosted by Jodi Jones, marine debris is a global issue and one we need to be innovative and practical in solving the problem, working with the Australian Marine debris database is interesting as she can see how much Australians care for our environment and she is always inventing ways to use our data to drive change and reduce plastic pollution in our environment.

Jodi lives coastal central Queensland in a small town, Boyne Island at the southern end of the Great Barrier Reef. Her home is surrounded by an amazing environment and quite a lot of industry (which the town is more known for).

Having worked in conservation fields for more than 15 years she is passionate about making a difference to our environment and protecting wildlife from the human impacts particularly that of our marine life, she started working with the Tangaroa Blue foundation in 2018 as one of the database administration team it has been a fantastic 12 months and she is really looking forward to connecting more people with the AMDI program and seeing less pollution in our environment.

Join us for this live interactive virtual field trip where we will learn more about the plastics plaguing our oceans and what we can do to help with this global crisis!

Panelists

Jodi Jones

Hosted by Jodi Jones, marine debris is a global issue and one we need to be innovative and practical in solving the problem, working with the Australian Marine debris database is interesting as she can see how much Australians care for our environment and she is always inventing ways to use our data to drive change and reduce plastic pollution in our environment.

Jodi lives coastal central Queensland in a small town, Boyne Island at the southern end of the Great Barrier Reef. Her home is surrounded by an amazing environment and quite a lot of industry (which the town is more known for).

Having worked in conservation fields for more than 15 years she is passionate about making a difference to our environment and protecting wildlife from the human impacts particularly that of our marine life, she started working with the Tangaroa Blue foundation in 2018 as one of the database administration team it has been a fantastic 12 months and she is really looking forward to connecting more people with the AMDI program and seeing less pollution in our environment.

Classroom Resources

PlasticSeas: Microbeads, A Major Problem

As the name suggests, microbeads are very small (microscopic) beads of plastic. Since they are particles of less than 1mm, they are almost impossible to capture as they enter household drains. This leaves these small, solid balls of plastic to enter our aquatic ecosystems where they are ingested by organisms and accumulated within the food web. In this activity, students are challenged to design and construct their own device to extract microplastics from cosmetic products such as facial cleansers, body wash, and toothpaste.

Waste Stream
Marine Debris

PlasticSeas: ReThink Your Plastic

Students will follow the engineering design process to explore solutions to the overwhelming plastic packaging problem. They will develop sustainable designs that will consider alternatives to plastic packaging in items like juice boxes, plastic straws, bin liners, and single-use take-away/take-out containers.

PlasticSeas: Product Life Cycle

In this investigation, students describe the life cycle of man-made products that include or originate from plastic to evaluate how they may impact the environment. Students use a basic life cycle assessment – similar to assessments used by process engineers – that allows them to identify and order the different steps in the life cycle of a product. Using their analyses to compare the impacts of different products, students develop ideas to reduce the environmental impact of the production process or lifecycle of the product.

Waste Stream
Rethinking Waste

PlasticSeas Reduce Your Plastic Use Calendar 2019

This calendar has been created by the EarthEcho International Youth Leadership Council. These youth, aged 16-22, designed this calendar to increase awareness and inspire behavior change to protect our collective future. The YLC invites you to use this calendar track and change your habits and, hopefully, provide monthly ideas to help you live a more sustainable, conscientious lifestyle.

PlasticSeas

EarthEcho Expeditions: PlasticSeas - Engaging videos, STEM career close-ups and more!

STEM Design Challenges:

Plastic, Sort It Out!: In this investigation, students will design and create a Recycling Sorting Machine to eliminate the amount of waste that is incorrectly being sent to landfill. Students will use basic resources (recycled and/or reused items in the classroom, home, or their community) to engineer a solution to the growing problem of waste in our schools.

Nurdle Know-How: Students examine the nature of the problem and work collaboratively to create solutions to the issue of nurdles becoming evermore present in our oceans. Nurdles are small plastic resin pellets which are used to make many of the plastics we use every day. Unfortunately, they end up where they are not supposed to and cause a wide range of problems.  Nurdle Know-How is a series of activities that will ultimately prepare students to design and build a nurdle capture system to clean up their local bay, harbor, or coastal waters.

Microbeads, A Major Problem:
As the name suggests, microbeads are very small (microscopic) beads of plastic.  Since they are particles of less than 1mm, they are almost impossible to capture as they enter household drains. This leaves these small, solid balls of plastic to enter our aquatic ecosystems where they are ingested by organisms and accumulated within the food web.  In this activity, students are challenged to design and construct their own device to extract microplastics from cosmetic products such as facial cleansers, body wash, and toothpaste.

ReThink Your Plastic: Students will follow the engineering design process to design and create solutions to plastic packaging problems. They will create and adapt suitable and sustainable designs that will consider alternatives to plastic packaging for example juice boxes, plastic straws, straw wrappers, bin liners, and single-use containers.

Product Lifecycle: In this investigative assessment, students describe the life cycle of man-made products that include or originate from plastic and other materials, and evaluate how they may impact the environment. Students use a basic life cycle assessment – similar to assessments used by process engineers – that allows them to identify and order the different steps in the life cycle of a product. Using their analyses to compare the impacts of different products,
students develop ideas to reduce the environmental impact of the production process or lifecycle of the product.

Reduce Your Plastic Use Calendar 2019:  A calendar created by the EarthEcho International Youth Leadership Council.  These youth, aged 16-22, designed this calendar to increase awareness and inspire behavior change to protect our collective future. The YLC invites you to use this calendar track and change your habits and, hopefully, provide monthly ideas to help you live a more sustainable, conscientious lifestyle.

Science Standards

NGSS:

MS-PS1-3 Matter and its Interactions

Gather and make sense of information to describe that synthetic materials come from natural resources and impact society.

MS-ESS3-3 Earth and Human Activity

Apply scientific principles to design a method for monitoring and minimizing a human impact on the environment.*

MS-ETS1-1 Engineering Design

Define the criteria and constraints of a design problem with sufficient precision to ensure a successful solution, taking into account relevant scientific principles and potential impacts on people and the natural environment that may limit possible solutions.

MS-ETS1-2 Engineering Design

Evaluate competing design solutions using a systematic process to determine how well they meet the criteria and constraints of the problem.

MS-ETS1-3 Engineering Design

Analyze data from tests to determine similarities and differences among several design solutions to identify the best characteristics of each that can be combined into a new solution to better meet the criteria for success.

MS-ETS1-4 Engineering Design

Develop a model to generate data for iterative testing and modification of a proposed object, tool, or process such that an optimal design can be achieved.

Australian Standards:

Science

›   ST2‑4WS investigates their questions and predictions by analyzing collected data, suggesting explanations for their findings, and communicating and reflecting on the processes undertaken

›   ST2‑5WT applies a design process and uses a range of tools, equipment, materials, and techniques to produce solutions that address specific design criteria

›   ST2‑13MW identifies the physical properties of natural and processed materials, and how these properties influence their use

›   ST2‑14BE describes how people interact within built environments and the factors considered in their design and construction

Mathematics

›   MA2‑1WM uses appropriate terminology to describe, and symbols to represent mathematical ideas

›   MA2‑2WM selects and uses appropriate mental or written strategies, or technology, to solve problems

›   MA2-5NA  uses mental and written strategies for addition and subtraction involving two-, three-, four- and five-digit numbers

›   MA2-6NA  uses mental and informal written strategies for multiplication and division

›   MA2‑9MG measures, records, compares and estimates lengths, distances, and perimeters in meters, centimeters, and millimeters, and measures compare and records temperatures

›   MA2‑10MG measures, records, compares and estimates areas using square centimeters and square meters

›   MA2-18SP selects appropriate methods to collect data, and constructs compare, interprets and evaluates data displays, including tables, picture graphs, and column graphs