Climate change has been identified as one of the world’s most wicked problems. However, most governments have been slow to respond to the challenge of climate change. This course will help you to understand the size of the problem and policy options that could start to make a difference.
You will develop skills in scenario planning made famous by Shell in the 1960's and now being applied to the climate change challenge in the IPCC reports. Being able to think strategically about future world scenarios and impacts is a skill that directors, managers and others looking to advance their careers across the climate/energy nexus will find invaluable.
There are two enrolment options: verified enrolment and audit enrolment. If you enrol as a verified learner and successfully complete all four courses and the Capstone Assessment you will qualify for the Sustainable Energy MicroMasters credential.
A Sustainable Energy MicroMasters credential is worthwhile in itself, but, if you wish to continue your studies, the Sustainable Energy MicroMasters credential could be used towards studying the Master of Sustainable Energy at The University of Queensland in Brisbane, Australia.
Learners who choose to enrol as verified, will be required to submit an assignment and achieve an overall passing grade of 70% or above in order to receive the downloadable verified certificate.
This course runs multiple times throughout the year.
Topic 1: The history of climate science and basics of the climate system This topic presents information on the history of climate science, the earth's energy balance and how the climate system is investigated. Topic 2: Human driven climate change This topic presents the indicators of climate change and describes the influence of people on the climate system. Topic 3: The carbon cycle - Linking climate to policy This topic summarises the key themes presented on the carbon cycle and links them to human activity and overarching policy requirements. Topic 4: Future scenarios of climate change This topic explores the methodology used to create global climate models and then examines changes in key climate indicators under a number of different representative concentration pathways. Topic 5: Carbon budgets In this topic, carbon budgets and how they are affected by the COP 21 agreement and negative emissions technologies are explored. The implications for carbon budgets of the recent IPCC report on the Paris 1.5°C target are examined. Topic 6: The Anthropocene climate: A Earth System perspective on climate change In this topic, the role of people as the dominant influence on the earth's complex system, including implications for the future and potential tipping points, are explored. Topic 7: Risks and impacts of climate change In this topic both the broader impacts of climate change such as disturbances of the global water cycle, and the influence of climate change on extreme weather events, are investigated. Topic 8: Approaches and limits to climate adaptation In this topic, general approaches to adaptation to climate change and the associated challenges are explored. Topic 9: Climate policy This topic investigates the role of science in making good policy, different policy types and international policy mechanisms. Topic 10: Scenario planning: Examination, development and use This topic looks at the examination, building and use of scenarios as a tool for understanding energy and climate implications.
Professor Andrew Garnett and Professor Will Steffen