Welcome to The Go Green project

Lesson Plan

Picture	Title	Subjects
	Biodiversity in your area Can you create a biodiversity walking trail in your school grounds?	Agricultural Science, Art, Biology, Engineering, Geography, Graphics , Literature, Technology
	History of climate change and policy can we learn from the past Can the history of climate change and policy help society resolve the climate change and sustainability challenges ?	Agricultural Science, History, Literature, Math, Philosophy, Politics & Society
	Microclimate measurements; air temperature and rainwater volumes, seasonal trends What trends in air temperature can occur during a certain time period? What are the trends in rain fall volumes during a certain time period? Can society understand the impacts of climate change by tracking trends of air temperature and rainwater volumes?	Chemistry, Geography, Graphics , Literature, Math, Technology
	Linear and Circular Economy The challenge to be solved through the lesson plan is to encourage students to apply the concepts they've learned about linear and circular economies to their own school environment. Students are tasked with identifying opportunities to make their school more like a circular economy by reducing waste, reusing resources, and adopting sustainable practices. They are asked to brainstorm and propose concrete ideas for how their school can implement circular economy principles, such as minimizing single-use items, extending the lifespan of materials, and finding innovative ways to recycle or repurpose resources.	Agricultural Science, Biology, Engineering, Ethics, Geography, Technology
source	A sustainable school is for everybody How can we support a school which can reduce differences and provide an education to global citizenship? Write a report to be sent to Antonio Guterrez, the Secretary General for the International Day of Education.	Economics, History, Literature, Economic Geography, Information Technology, Foreign Languages
Source	Sustainable Ecotourism How can we increase sustainable ecotourism in our region?	Agricultural Science, Chemistry, Economics, Geography, Math, Physical Education, Languages
	Reduce, Reuse and Recycle This lesson is focused on the explanation of the 3Rs (Reduce, Reuse, Recycle) trough engaging activities in class.	Biology, Chemistry, Engineering, Ethics, Home Economics, Literature, Technology
	Life on land This lesson focuses on Sustainable Development Goal 15 - Life on land. Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss.	Agricultural Science, Biology, Ethics, Geography, Literature
	Sustainability and Waste Do you waste your Waste?	Chemistry, Economics, Geography, Math, Philosophy, Physics, Languages
Source	Sustainable Cities/Towns At what extent is your city/town a sustainable one?	Chemistry, Economics, Math, Physics, Languages
Source	The personal budget: from money to saving Are you longing for acquiring a new more performing device: evaluate if your spending is sustainable on an ecological level, economic and social.	Economics, Ethics, Geography, History, Literature, Math, Religious studies, Technology , Law
	Flood risk management How can we manage the flood risk at own town? Aim: This lesson will address the main characteristics of flood events, their nature and necessity, in order to reflect on the measures that can be developed to manage their negative effects. Objectives: To focus on Sustainable Development Goals – 3, 4, 6, 11, 13, 17 To understand that floods are natural phenomena To consider that the alteration and occupation of the river area causes considerable economic damage, risk to people and loss of life and property. To know and develop strategies to enable students to cope with increasingly recurrent and extreme phenomena.	Biology, Engineering, History, Technology
Source	Waste Management – Organic waste valorization What can we do reduce waste production and promote recycling? Aim This lesson/project will address the characterization of the waste fractions produced at home/school and the recycling of the organic waste fraction. Objectives To focus on Sustainable Development Goals – 4, 11, 12, 13, 15 To associate the production and composition of household waste to the consumption pattern based on a historical approach. To identify the impacts associated with the waste management model and its relationship with socio-environmental issues. To know and develop strategies for the management of household waste. To acquire the knowledge and skills for material valorisation of the organic fraction and the production of compost.	Art, Technology , Physics, Math, Home Economics, History, Geography, Ethics, Engineering, Economics, Chemistry, Biology, Politics & Society
	Sustainability in the Science Lab/Class Can you reduce energy use and production of chemical and other (notably plastic) waste in practical experiments in science lessons in your school?	Agricultural Science, Biology, Physics
Source	Energy Literacy – School strategy to save energy What can we do to save energy in our school? Aim: This lesson/project will address the main characteristics of energy production and consumption system to develop a strategy to promote energy saving at school. Objectives: To focus on Sustainable Development Goals – 4, 7, 10, 11, 12, 13, 17 To associate fossil based energy sources to economic growth and climate change. To identify the environmental and social impacts associated with the use of fossil based energy sources. To know and develop strategies for feasible and fair energy transitions. To acquire the knowledge and skills for confronting the descent in energy availability.	Biology, Technology , Physics, Math, Home Economics, History, Graphics , Geography, Ethics, Engineering, Economics, Chemistry, Politics & Society
Unsplash	The hidden Soil: Unveiling the Secrets Beneath Our Feet Challenge driving question Can we diagnose and restore soil health to ensure more sustainable communities? Challenge description Soil is a complex living interface -among the atmosphere, biosphere, hydrosphere, and lithosphere- and a vital non renewal natural resource that is crucial to Europe’s ecosystems, agriculture, and economy. It is the foundation upon which food is grown, water is filtered, and biodiversity thrives. However, soil degradation has become a growing concern, posing serious environmental, social, and economic challenges. In this unit, students will be tasked with investigating soil's health importance, its relation to SDGs, historical perspectives and hands-on data analysis. Furthermore, students will be challenged to formulate actionable measures aimed at conserving and restoring soil health within their local community, aligning with sustainability competences.	Agricultural Science, Biology, Chemistry, Geography, Graphics , History, Politics & Society
	One Health: Health for One, Health for All How can we protect our health and the planetary health at the same time?	Agricultural Science, Biology, Economics, Ethics, Geography, History, Math
	Biodiversity loss: The Sixth Mass Extinction How can we increase the biodiversity near our school?	Biology, Chemistry, Economics, Engineering, Geography, History, Math, Technology
	Repurposing Plastics Can you find a way to repurpose plastics and play your part in reducing the problems with plastic waste?	Art, Biology, Chemistry, Ethics, Geography, Graphics , Technology
Wikimedia Commons	Engineering in Sustainability What are the features or solutions to Sustainability we would like to see in modern sustainable cities of the future? What are the steps we could start implementing now? Understanding how Engineering can assist Sustainability and solving environmental challenges.	Engineering, Ethics, Math, Technology
	Economics in Sustainability An existing factory in your area is proposing to convert its power source from the national power supply to incinerating garbage. This will divert garbage from land fill. This factory provides jobs in the area and needs to do this to cost cut to ensure the factory is viable into the future. Should this development go ahead? What factors would you consider when making this decision? Understanding the relationship between Economics and Economic Activity in Sustainability	Businness Studies, Economics, Ethics, Math
source	A Healthy Day How can we promote food education among young people?	Art, Biology, Literature, Math, Philosophy, Physical Education, Law
Source	Grow Your Own Chestnut Business How can you turn your family chestnut production more sustainable?	Agricultural Science, Biology, Chemistry, Economics, Geography, Math, Physics
source	The ecological footprint How do you promote virtuous behaviours to reduce your ecological footprint? What do you do in your daily life to give a significant contribution to envision a more sustainable future? Compare at least 5 of the recommended sources and write a handbook of virtuous practices. Objectives: Focus on Sustainable Development Goals 11, 12 ,13, 14 and 15 Management of resources Critical analysis of consumption models which are proposed by the media Selection ability	Biology, Economics, Geography, History, Literature, Math, Religious studies, Law
source	Shall we make the difference? Let’s make waste sustainable! How can we make our students fully aware of their role in sustainable development? If they adopt a regular separate collection, their role will be fundamental in this field Aim: this lesson will educate students to waste reduction, reuse, recycle and recovery and will make them more respectful of the environment. Objectives Focus on Sustainable Development Goals 3, 4, 6, 7, 11, 12, 13, 15 and 16 Education to conscious citizenship Learn to learn Be aware of waste value Management of resources Critical analysis of consumption models which are proposed by the media Selection ability	Art, Biology, Economics, Geography, History, Math, Religious studies
source	Light Pollution Hunters Understanding the concept of light pollution, it’s environmental impact, risks and facts	Engineering, Ethics, Geography, Graphics , Home Economics, Math, Physics
Source	Human impact on water Exploring the relationship between Humans and Water. Understanding Our Water Footprint.	Agricultural Science, Biology, Economics, Ethics, Geography, Technology
	Water Scarcity & Quality How do human activities affect water scarcity & quality?	Biology, Chemistry, Economics, Geography, Math, Physical Education, Religious studies
This Photo by Unknown Author is licensed under CC BY-NC-ND	Ethics in Sustainability – Class Topics Your family is considering installing solar panels on the roof of your house, which would generate clean energy but require a significant investment. You have the option of continuing to rely on non-renewable energy sources. What factors would you consider when making this decision?	Economics, Ethics, Home Economics, Math, Physics
source	Climate change - Empowering Young People to Face the Problem What can we do in order not to increase the world temperature by 2 ^oC in comparison to preindustrial times? Aim: This lesson/project will address the causes and consequences of climate change and the solutions to combat it. Objectives: To focus on Sustainable Development Goals – 4, 7, 10, 11, 12, 13 To foresee different future scenarios depending on current human activities based on the interpretation of graphical data. To assess and reflect on the impact everyday actions have on the emission of greenhouse gases and to search for alternatives to reduce them collectively To identify the historical contribution of different countries to greenhouse gas emissions and to reflect on their fairness. To analyse whether the decisions taken in different international conventions (e.g., COP21, COP26) have hit the target.	Biology, Math, Home Economics, History, Graphics , Geography, Ethics, Economics, Chemistry, Politics & Society