A Societal Transformation Scenario for Staying Below 1.5°C

In the STS we focused on some key areas of consumption for the Global North: transport, housing and food. Our assumptions are:

Reductions of consumption and production without any larger societal change lead to economic recession and social hardship. That is why we assume this reduction to be a necessary part of a broader radical socio-ecological transformation. Such a transformation is not primarily about producing and consuming less but instead about fulfilling concrete human needs, redistributing wealth and serving common welfare – fostering cooperation, care, solidarity and sustainability to achieve a good life for all. Important (first) changes in this regard are taxing resources instead of labour, making social protection systems independent of economic growth, reducing working hours, introducing basic incomes and a maximum wage, decelerating life and democratising (economic) decision-making. Although these changes might not all have a direct material impact on GHG emissions, they are prerequisites to increasing human well-being while reducing material consumption. They would facilitate a transformation away from everlasting economic growth that is undermining life and livelihoods on this planet.

The STS was developed on the basis of the Global Calculator (GC). Why did you choose such a simple and transparent model for the STS?

Global mitigation scenarios are typically modelled using so-called Integrated Assessment Models. These are highly complex models that remain largely inaccessible to the broader public: Many ethical questions and assumptions are hidden in their assumptions and algorithms, making it difficult to reproduce and understand their results. These models have their place in assessing short- or even mid-term scenarios. When looking at 2050 or 2100, however, we believe that transparent tools are needed that enable a democratic debate about our common future. While not perfect, we believe that the Global Calculator is a step in this direction

What are the limitations of the STS and of the Global Calculator?

The STS shows a large decline in energy demand in the Global North and a reduction of global GHG emissions of roughly 50% from 2020 to 2030 and a further 22% by 2050. Due to the assumed dietary shift, large agricultural areas can be carefully restored to natural ecosystems or managed more sustainably, in the process serving as CO2 sinks of roughly 4 Gt CO2 per year. The cumulative CO2 emissions remain within the carbon budget that gives us a 2/3 chance of staying within a temperature increase of 1.5°C.

The STS is an invitation for debate around climate mitigation, the role of production and consumption, and deeper societal transformation. What are the questions that should emerge from this in the scientific community an in broader society?

The main question we see for society and science is whether we want to continue on the path of our current economic system that relies on ever increasing production and consumption, or whether we want – and need – to depart from this path. This leads to even more profound questions around how we want to live in the future under conditions of the climate crisis.

For science, this perspective calls for answers to a number of questions: How can science facilitate these public debabtes? What kind of tools are needed for this? How do we discuss, and find answers to, global crises such as environmental destruction, social injustice and the climate crisis in an integrated fashion? What do research teams need to look like to be able to make meaning connections between these issues