B. The Decision on Climate and Possible Futures

In the Klimashutz decision, the GFCC held that §3(1) and §4(1) of the Federal Climate Protection Act (Bundes-Klimaschutzgesetz – KSG)Footnote ¹² , in conjunction with Annex 2 of the same statute, are unconstitutional, because they fail to set down an effective update protocol for the greenhouse gas reduction targets after 2030.Footnote ¹³ The complainants—young German citizens, mostly—claimed that the German Federal Government had not introduced a legal framework sufficient for reducing greenhouse gases, especially carbon dioxide (CO₂), and, thus, a framework contributing to decreasing the global temperature of at least 2°C. Thus, several provisions of the Federal Climate Protection Act are partly in conflict with fundamental rights, as they do not specify the emission reduction measures that must be taken from 2031 onwards. The German Government is invited to adopt effective measures for the post-2031 period. At the same time, the Court considers it unnecessary to endorse more demanding thresholds and benchmarks, for example, the zero-emissions target by 2040 requested by some complainants. The Court agreed on the point: The Federal Government breached the duty of protecting the rights of “tomorrow’s generations” to a “future consistent with human dignity” (menschenwürdige Zukunft) and to a “minimum standard of living” (ökologisches Existenzminimum). Both principles derive from a systematic reading of Article1(1), Article2(2), Article20a of the Basic Law (Grundgesetz – GG).Footnote ¹⁴

Based on this reading, the GFCC held that contrasting climate change is necessary for preserving the rights of future generations (Grundrecht auf Generationengerechitgkeit) according to the principles of security, intergenerational responsibility, and proportional distribution of goods or opportunities among different generations. The fundamental right to intergenerational justice is the notion that present generations have an obligation to act in a way that protects the rights and interests of future generations. This judicial and dogmatic construction—suggested inter alia by the semantics of Article20a GG, which establishes the State’s responsibility to protect the environmental foundations of life for both present and future persons—is often linked to the fundamental principles of fairness, sustainability, and equity. The fundamental right to intergenerational justice takes seriously the consideration that current policies also have long-term impacts that may affect life, health, environment, and development. Against this backdrop, the Court considered that, as proved by scientists, the risks connected to climate change are objective,Footnote ¹⁵ and the Federal Republic of Germany is responsible for the damages caused by gas emissions.Footnote ¹⁶ The progressive thresholds endorsed by the German Federal Government, in pursuit of the objectives established by the international community with the Paris Agreements,Footnote ¹⁷ are insufficient for ensuring long-term climate neutrality by 2050, cutting emissions by 85-90% compared to 1990 levels.Footnote ¹⁸

From the Court’s perspective, the pitfalls of climate change can sweep away the liberties of the future generations, which the GFCC considers as a violation of the core of legal correctness qua formal equality. The natural environment is a common good that belongs also to the future generations, based on Article2(2) (the protection of life and physical integrity), Article20a, and Article79(3) GG. Therefore, the Federal Government must endorse an adequate climate policy for preserving the fundamental rights and the “intemporal liberties” (intertemporale Freiheiten) of the people affected by environmental degradation.Footnote ¹⁹ The inertia of the German Government is incompatible with the Basic Law.Footnote ²⁰

Much of the Klimaschutz judgment is, in fact, an argument from risk assessment, which ascribes consequences to a set of indicators that mark an “irreversible impairment” of the fundamental rights, for example, a fundamental right to property, minimum standards of existence, and others of future generations. According to the GFCC, if the German Federal Government does not undertake serious action towards greenhouse gas emissions, future generations will be condemned to “radical abstinence” and loss of rights for a lack of sufficient precautionary measures. For preventing this dramatic implication, the GFCC must act through a “dynamic protection” of fundamental rights (dynamischer Grundrechtsschutz).

A wealth of semantic triggers suggest a reading of the Klimaschutz judgment in terms of hypothetical scenarios. First, the Court recognizes that assessing the environmental impact of the German Government’s policies is a decision taken under “risk”;Footnote ²¹ second, the Court’s analysis designs a “conceivable scenario” in which there is a “potential loss” for future generation;Footnote ²² third, specifically the GFCC’s model focuses on a “warming scenario”, a possible world whose probabilistic accessibility of scenarios is defined in terms of “medium confidence”;Footnote ²³ fourth, in determining the degree of confidence, the Court clearly presupposes the existence of a variety of scenarios with different degrees of probability, even though the decision explores only a small subset of these possible worlds, focusing on two scenarios in particular; fifth, the Justices explicitly characterize their argument as a future-oriented design when they state that the aim of the decision is to evaluate “forward-looking precautionary measures”; finally, the argument discusses more extensively the “levels of uncertainty” involved in their policy-impact assessment, distinguishing between “residual uncertainties”, “significant uncertainties”, and “strength of correlations.” In assessing the possible future impact of anthropogenic climate change and establishing the causal links between the omissions of the German government and climate change, the Court is highly deferential to the analysis of the Intergovernmental Panel on Climate Change (IPCC), whose expert analyses are basically endorsed in the decision. All these points, which are central for our argument, require further elaboration.Footnote ²⁴

The GFCC derives from Article2(2) GG the Federal Government’s objective duty (eine objektivrechtliche Schutzverpflichtung) to protect the life and health of future generations from the risks posed by climate change. Furthermore, the Court emphasizes that Article20a GG imposes on the State the obligation of achieving “climate neutrality” (Herstellung von Klimaneutralität). Sure enough, the interest in “climate neutrality” must be balanced with competing constitutionally protected interests and rights; however, the relative weight environmental protection increases as climate change intensifies. The Court recognizes that there is “uncertainty” on the causal inference between climate change and foreseeable consequences on future generations. Still, the GFCC argues that “sufficiently reliable indicators” suggests a possible scenario yielding serious and irreversible impairments. Thus, the Federal Climate Protection Act will probably fail to effectively mitigate CO₂ emissions and, accordingly, reduce the burdens imposed on younger generations after 2030.

Figure. Authors’ own elaboration of the cone of plausibility based on standard models

Figure. Authors’ own elaboration of the main steps in scenario analysis

Figure. Authors’ own elaboration of nine different GFCC scenarios

Figure. Authors’ own elaboration of numerical values being added to the GFCC scenarios

Figure. Authors’ own elaboration of GFCC scenarios

Although this is not part of the decision, at a theoretical level, the conceptual core of the GFCC’s forecast can be represented graphically through a cone of plausibility that plots the linear projection of the Court. The concept of plausibility is appropriate here as, strictly speaking, the Court does not focus quantitatively on the probability of the two scenarios, but rather identifies, qualitatively, two plausible futures.Footnote ²⁵

As the reconstruction through the cone of plausibility shows, the GFCC essentially compares two alternative scenarios: ‘Scenario A’, in which the German government does not take further additional measures for contrasting CO₂ emissions, which the Court calls “warming scenario”Footnote ²⁶ and ‘Scenario B’, in which these measures are taken.Footnote ²⁷ Finally, the Court infers a series of dramatic consequences under ‘Scenario A’ determined by the higher levels of CO₂ where omissive conduct is imputed to the government: The argument points out that data show with medium confidence there will be high environmental risks in Scenario A, such as, irreversible ice melting, which could be instead contained and mitigated in Scenario B.

The data used by the Court for evaluating the possible impacts of governmental policies on climate change vis-à-vis “the factual background of anthropogenic climate change” are extrapolated from the reports of the Intergovernmental Panel on Climate Change (IPCC), which the Court considers “reliable” (zuverlässig) for several reasons. This data is relied upon also by other institutions: The Federal Ministry for the Environment, Nature Conservation and Nuclear Safety (BMU), the Federal Environment Agency (Umweltbundesamt – UBA), the German Advisory Council on the Environment (Sachverständigenrat für Umweltfragen – SRU), the European Union, and several international agencies.Footnote ²⁸ The Court considers the IPCC findings as an “objective” and “comprehensive representation” of climate change that provides “the basis for science-based decisions.”Footnote ²⁹ The reliability of the IPCC data is also based on the interdisciplinary approach, the commitment to scientific values and transparency of the research—which also specifies the degree of confidence and the possible gaps and uncertainties of the findings—and the peer-review evaluation involved in the process.Footnote ³⁰

Generally, there is a unanimous consensus on the fact that atmospheric concentration of CO₂ has dramatically increased, and that greenhouse gases are the main cause of global warming.Footnote ³¹ The GFCC also emphasizes that there is a “nearly linear” relationship between greenhouse gas emissions and temperature increase.Footnote ³² Without effective measures, the temperature will probably increase by more than 3° by 2100, having a serious impact on ecological stability.Footnote ³³ Furthermore, the frequency of extreme climate-related events such as floods, heat waves, ice melting, and storms will certainly increase also in Europe. The unconstitutionality of the Federal Climate Protection Act was therefore triggered by the inertia of the legislature, exposed by scenario analysis: “The legislator has violated fundamental rights by failing to take sufficient precautionary measures to manage the obligations to reduce emissions in ways that respect fundamental rights–obligations that could be substantial in later periods due to the emissions allowed by law until 2030.”Footnote ³⁴ Even if there is no actual violation of Article20a GG, the Federal Climate Change Act yields “disproportionate risk that freedom protected by fundamental rights will be impaired in the future.”Footnote ³⁵

C. The Building Blocks of Scenario Analysis

As the semantic triggers of the Klimaschutz decision suggest, the scenario analysis is front and center in the Court’s argument. Scenario analysis is a complex form of strategic forecast under conditions of uncertainty or risk:Footnote ³⁶ It designs models of future courses of events, in other words, ways in which the future might unfold, to explore salient expectations about the time to come. In other words, scenario analysis is “a description of a possible set of events that might reasonably take place. The main purpose of developing scenarios is to stimulate thinking about possible occurrences, assumptions relating these occurrences, possible opportunities and risks, and courses of action.”Footnote ³⁷

This kind of future-oriented analysis presupposes at least a plausibility account, or, better, a probabilistic approach to dealing systematically with the impact of decision-making on possible futures. Notably, scenario analysis does not aim to predict the future with certainty, as this method rather examines different possibilities and their consequences to make decisions under uncertainty.Footnote ³⁸ Financial institutions, economists, policy makers, and companies generally turn to scenario analysis to draw forecasts on possible developments of the market, for example, rapid growth, moderate growth, slow growth, financial market returns for bonds, stocks and cash, product development, financial assets, bank exposures in short term, and, more broadly, for determining the potential economic consequences of their decisions.Footnote ³⁹ The roots of this method for future craft can be traced back to the Manhattan project, which used Monte Carlo simulations to identify the possible scenarios caused by an atomic explosion, to the Rand Corporation, which designed MSA strategic method for the Pentagon,Footnote ⁴⁰ and, finally, to SRI International, which developed scenario analysis for corporate planning.Footnote ⁴¹

Designing a future scenario is a way of replying to a ‘what if’ question.Footnote ⁴² When applied to a policy impact assessment, scenario analysis responds to questions such as “If authority X endorses policy measure M, what would be the consequence of M for Scenarios S₁, S₂…S_n?” By designing multiple scenarios, decision-making is not constrained to ceteris paribus clauses anymore, and this plays a fundamental function in crisis management.

Although economists and scientists generally use quantitative or combined methods, mixing qualitative and quantitative approaches, scenario analysis does not necessarily contain quantitative analyses. The selection of indicators, the constructions of possible worlds, and the causation-correlations models can be, in principle, qualitative, or based on an intuitive application of probabilistic considerations, or, in other terms, on plausibility claims. Scenario analysis has been also widely used in environmental impact assessment (EIA), for impact forecast on climate.Footnote ⁴³

In social sciences, scenarios are understood as realistic—namely, non-fictional—sequences of events, or the development of possible states of the world including information about single events, individuals, timeframes, locations, actions, and consequences/outcomes. To put it roughly, scenario analysis offers a picture of the riskiness of a choice, policy, or asset decision across possible future worlds. This intellectual activity of imaginative design can be useful for minimizing the drawbacks of a decision. Already at this point it is quite apparent why the GFCC turned to scenario design in the Klimaschutz decision: The Court was evaluating the constitutionality of a statute based on its potential long-term negative consequences on the environment and individuals. This assessment is far from being entirely objective. Scenario analysis cannot be reduced to a simple forecast or trend analysis,Footnote ⁴⁴ for “it embraces a variety of techniques to create well-grounded menus of choices about the future by describing and studying alternative possibilities.”Footnote ⁴⁵

Decision-makers must make several epistemic and normative choices for performing a possible scenario assessment.Footnote ⁴⁶ This is precisely what the GFCC attempted to do. Robust scenario analysis is based on sound statistical reasoning, which considers variability within single scenarios and possible relations between scenarios. In general, decision-makers performing this kind of future-oriented impact assessment evaluate strategies and outcomes based on a possible narrative made of conditional probability distributions.

To illustrate the negative impact of the Federal Climate Protection Act, the GFCC, too, develops a narrative—namely, an explanation of a chain of multiple events—for assessing the risk connected to this governmental policy.Footnote ⁴⁷ Therefore, the Court’s argument outlines a probability weighted likely scenario. Under a condition of uncertainty, the argument advances expectations about future events concerning climate change based on the data provided by the experts and the hypotheses entertained by the Justices. An inference from possible futures is also used by the Court for evaluating the precautionary measures currently endorsed by Germany and the protection or enforcement of Fundamental Rights over time.

It is worth noting that the expectations of the GFCC seem to be exogenous rather than endogenous, as they are primarily borrowed from expert opinions that are not entirely transparent to the Court. Clearly there is an asymmetry of knowledge between the GFCC, composed by individuals who studied law and the experts of the IPCC, formed by professional scientists. To be sure, this does not exclude the possibility that the Justices have some personal beliefs about climate, either firm or open to revision, based on some heuristics and biases. Still, the Court’s forecast adheres closely to the opinions of the IPPC, even though the Justices seem willing to offer independent confirmation of the expert’s conclusions with an adaptive extrapolation through induction from observed events, shared knowledge, and maxims of experience.

Of course, one can be skeptical about the very possibility of possible scenarios. However, it is worth stressing that the skeptical take against possible scenarios might be the result of a misconception, which looks at possible scenarios as if they were “purely metaphysical constructions.” We do not see it in this uncharitable way: A possible scenario—or possible world—can also be understood as a test for counterfactual reasoning. Namely, a set of propositions which offers a maximal consistent world description. If I say, “in a possible world, event E will probably happen,” I simply mean that there is an imaginary situation—a conceivable scenario—where event E can happen. This scenario is given by the descriptive conditions we associate with it,Footnote ⁴⁸ which, in turn, can be conceived as stipulations controlled by probabilistic reasoning and cognitive filters that select the salient properties the decision-maker should variate to design possible scenarios or possible worlds. In Kripke’s words: “‘Possible worlds’ are stipulated, not discovered by powerful telescopes.”Footnote ⁴⁹

D. The Basic Argumentative Steps

As explained above, scenarios are reliable sequences or development of possible states of the world. States of the world are generated through probabilistic reasoning starting from an initial set of data—field data or experimental data—and baseline assumptions. There are different models for scenario design.Footnote ⁵⁰ However, we submit that they share a common inferential scheme which spells out the semantic potential of the ‘what if’ clause, even when applied intuitively. The inferential patterns used for carrying out scenario analysis in social sciences include the following.Footnote ⁵¹

E. Evaluating the Court’s Argument

The use of scenario analysis in the Klimaschutz decision has some relevant implications from the perspective of legal reasoning and legal argumentation. The Court promotes an enhanced version of the proportionality test, which is shaped as a future-looking ‘what if’ reasoning. This kind of reasoning allows to strike a balance among fundamental rights with an eye to “advance interference-like effect” of current policies on the fundamental liberties of individuals.Footnote ⁷⁸ Accordingly, constitutional principles, such as Article20a GG, are seen as truly “eternal entities” which project their effects into possible futures and operate an even distribution of burdens over time. As it was shown elsewhere,Footnote ⁷⁹ this trend was somehow implicit, although not fully developed, in previous balancing cases, such as the landmark Tabak Entscheidung. Footnote ⁸⁰

By breaking down the inferential patterns of the proportionality judgment on the constitutionality of restrictive measures on the sale of tobacco products, one realizes that the GFCC did not determine the negative effects produced by tobacco consumption based on a “mono-causal relationship” between, on the one hand, smoking and, on the other, lung cancer and coronary diseases. Instead, the causal inference was based on the assessment of the potential risks and benefits of scenarios in which persons either quit or keep smoking.Footnote ⁸¹ Each possible course of action was associated by the Court with specific consequences on health, whose degree of risk is understood in probabilistic terms, and whose level of harm is ranked in a three-value scale: ‘Light’, ‘moderate’, and ‘serious.’ In other words, “balancing requires the use of an argument from comparative consequence” which justifies a crucial premise of the balancing argument, “stating the degree of non-satisfaction of (principle) P1 or interference with (principle) P1” for the benefit of P2.Footnote ⁸² The argument from comparative consequence, in turn, presupposes the construction of “hypothetical or counterfactual arguments,”Footnote ⁸³ which the Court uses for assessing the hypothetical consequences associated with alternative regulatory approaches.

It may be tempting to consider that scenario analysis has, after all, always been implicit in German fundamental rights doctrine. Particularly in prima facie rights to positive action, possible courses of action are identified by a kind of teleological method, in other words, possible empirical consequences are first identified and secondly legally evaluated. Scenario analysis becomes clearer when long periods of time are considered, and the court unfolds various possible futures. However, even if this should be correct in principle, the climate change decision must still be considered disruptive because the scenario analysis—often future-oriented—becomes fully explicit and conscious for the first time in the Court’s reasoning. The assessment of possible futures is carried out in an informed and deliberate manner that draws extensively on impact assessment. This is clearly unprecedented.

The constitutional right to intertemporal protection of liberty is also a highly innovative construction. The Court’s main concern is that future generations will bear a heavier and more disproportionate burden than the present population: This is the core of intertemporal equality, which is necessarily linked to the evaluation of future scenarios. The disruptive nature of climate change mitigation is also evident in the Court’s failure to follow the robust line of precedent on equity rights. In this decision, scenario analysis prevails over both precedent and traditional interpretive methods, although it is not entirely clear whether the new construction—intertemporal protection of liberty—is understood by the Court as a negative or a positive right.

Yet, the scenario analysis carried out by the GFCC in the Klimaschutz case is oversimplified and imprecise. We agree with the outcome of the decision: The climate emergency is undeniable, it poses a risk to humanity, and it is one of the greatest global challenges facing governments, states, and international organizations. We are all called upon to act now, to reduce CO₂ emissions and help fight the climate crisis. We also do not reject the method: Scenario analysis can be a valuable tool for analyzing policy implications. One possible criticism addresses the oversimplified way in which scenario analysis is used. Above, we tried to show how complicated this technique is, even if applied without quantitative methods, and how much uncertainty exists at each step of the process. Therefore, the reasoning process should be more precise and more robustly justified, especially when applied to highly complex issues such as climate change and CO₂ reduction and overturning parliamentary majorities.

In the Klimaschutz case, the Justices focus only on some scenarios: for instance a “conceivable scenario” where the policies are not implemented and climate change has serious effects; and “another conceivable scenario,” in which “adaptation measures would have to be so extreme that they would no longer allow for meaningful social, cultural, and political interaction and participation.”Footnote ⁸⁴ Furthermore, the game-theoretic dimension is entirely neglected: The possible moves of other major States are completely overlooked. This approach opens the door to several criticisms. First, there are significant temporal and spatial variations in exposure to climate-related events and different economic, social, and demographic impacts based on time and place. Precise forecasts must consider a large amount of data on possible demographic changes in population change and density, location identifiers, and economic productivity indices. For instance, how could one estimate the impact of German policies on Asian countries without considering possible demographic changes caused by extreme climate events, such as a slowdown in population growth or displacement phenomena connected to climate migration? Social scientists generally use sophisticated regression models that map these variables over time and space. Instead, the GFCC here plays fast and loose. Second, sound scenario analysis proceeds through the assessment of multiple scenarios, ranging from the best to the worst, varying the assumption of the main variables involved in the scenario. As Duinker and Greig have pointed out, “scenario-based work is most powerful when several alternative scenarios are created and analyzed, and each should provide significant contrast from the others.”Footnote ⁸⁵ In this respect, the GFCC could have endorsed a more fine-grained analysis, distinguishing, for example, a high growth scenario, an average growth scenario, and a low growth scenario through multiple scenario analysis (MSA).Footnote ⁸⁶

Also, the Court does not include in its analysis the possible strategies endorsed by the countries that have the highest levels of pollution and CO₂ emissions, for example, China. What would happen in a scenario in which China becomes a partner in curbing CO₂ emissions? What would happen, instead, in a possible scenario in which China increases production without any environmental precaution? The GFCC, on the one hand, was very careful in building evidence-based, likely, and consistent scenarios, but, on the other, overshadowed the fundamental role of socio-political and economic drivers,Footnote ⁸⁷ for example geopolitical strategies, shifts in the market forces, and possible development of new technologies, to name only a few. These elements seem to be treated as constants across possible future worlds, which is quite misleading.

As hinted above, the Justices could have included strategic considerations into the decision by relying on game-theoretic tools. The GFCC could have designed a wider range of possible scenarios by combining two or more variables. For example, the argument could have at least combined the level of emissions with the severity of their impact, resulting in nine different, and more accurate, scenarios: (A) Low Emissions – Low Climate Impacts; (B) Moderate Emissions – Low Climate Impacts; (C) High Emissions – Low Climate Impacts; (D) Low Emissions – Moderate Climate Impacts; (E) Moderate Emissions – Moderate Climate Impacts; (F) High Emissions – Moderate Climate Impacts; (G) Low Emissions – High Climate Impacts; (H) Moderate Emissions – High Climate Impacts; (I) High Emissions – High Climate Impacts. These combinations of emissions and impacts can be represented through the following matrix:

Of course, all these scenarios are conceivable. For example, the development of new technologies could lead to Scenario B, in which emissions are moderate and climate impacts are low. In contrast, reckless behavior by China and the U.S. in terms of CO₂ reduction could lead to Scenario G, in which climate impacts are high, even though Germany has low emissions. Combating climate change is a coordination problem that affects the entire global community, not just Germany.

Of course, this is just a simplified snapshot of how scenario analysis can be refined: The analyst, in this case the GFCC, should consider a whole range of variables that affect the reduction of CO₂ emissions—change in consumption habits, improvement in energy efficiency, carbon price, share of renewables, to name a few—to create a more structured and complex framework that allows multivariate analysis.

In addition, we can assign a numerical value to each combination of variables, in other words, each scenario that represents the payoffs that the analyst associates with the scenario outcomes based on expected utility functions. This process can be represented by adding the expected utility—or, in this case, negative “disutility” values—to each cell of the matrix as follows:

For example, Scenario A is preferable because the payoffs are higher: We have both low emissions and low climate impacts. The least favorable scenario is Scenario I, in which we have both high climate impacts and high emissions.

It should be noted that the value associated with each payoff depends on the utility function considered. For example, “reckless tycoons” might prefer Scenario C to Scenario A, where they can pollute the environment with low climate impacts, and attribute higher utility to the payoffs in Scenario C. Either way, the payoffs depend on both the economic model and the qualitative/quantitative data collected. For example, Horizon Scanning can be used to build an economic model to predict environmental trends and changes,Footnote ⁸⁸ and the model, in turn, is used to analyze data such as reports and statistical metrics.

The GFCC could have done more to introduce a sound methodology for ‘strategic foresight’, considering that the decision concerns such an uncertain and complex issue as climate change. In particular, the GFCC overlooks several fundamental variables that economists and data analysts typically consider in scenario analysis using frameworks such as the so-called PESTLE methodology.Footnote ⁸⁹ The acronym PESTLE stands for political, economic, sociocultural, technological, legal, and environmental factors. For example, macroeconomic variables such as the stability of the Chinese government, cultural trends as the development of new social norms on energy consumption, and technological factors clearly influence the future course of climate change.

The potential actions of governments can be examined using game theory. For example, the gains associated with the German decision to reduce CO₂ emissions even further depend largely on strategic interactions with other countries’ reduction policies. Again, this can be illustrated using a simplified matrix:

This shows that the German Court focuses only on one “conceivable” scenario, without considering optimistic, pessimistic, and most likely alternative futures as outlined in the matrix. Furthermore, the Court overlooks both the strategic dimension of the decision and the PESTLE variables. To be sure, the Court seems to also consider the option in which the increase of temperature by 2050 is lower than expected, namely, less than 3°, even without additional measures, emphasizing that, also in these cases, the consequences will be dramatic.Footnote ⁹⁰ The Court then addresses very quickly the necessity of a strong international cooperation and the technical feasibility of the measures, two salient parameters that should have played an essential role in designing possible futures that are probabilistically accessible, as well as a ranking of future scenarios based on probability distributions.

In sum, using scenario analysis in the context of climate necessarily involves high levels of complexity, as the issue involves risks that are continuous, in other words, non-discrete, sequential or “multi-stage”—event a is conditional upon b which in turn depends, or is conditional upon, c and d—and long-term so that the expected outcomes depend on a large set of variables. On the contrary, the Court explores only two decisional paths, and considers sufficient the analysis of one single plausible scenario, which “cannot be ruled out”, for establishing a breach of fundamental rights. This is the scenario in which the members of the younger generations, such as the complainants, “will see climate changing advancing to such a degree in their own lifetime that their rights protected under Article2(2) first sentence GG and Article14(1) GG will be impaired.”Footnote ⁹¹ Why did the Court not carry out a more extensive and articulate investigation of the way the world might turn out to be as a result of Germany’s climate policy? Based on what we have observed so far, it is apparent that the Court was essentially interested in “minimizing the risk” of throwing an excessive burden on future generations,Footnote ⁹² and preventing “an absolute level of unreasonableness.”Footnote ⁹³ In the Klimaschutz decision, therefore, the standard endorsed by the GFCC for human rights protections is not a but-for causation, or “current harm,” but a, lower, “significant risk” standard, which the Court considers satisfied even if there is only a possible scenario in which the conduct of the German government does not favor the reduction of CO₂ emission beyond a specific level. The significant risk of an “absolute level of unreasonableness” (absoluter Unzumutbarkeit) in compressing future freedom is a sufficient reason for imposing constitutional constraints in the actual choices of the legislature.Footnote ⁹⁴ Even if the causal relations are uncertain, the Constitution imposes on the legislature a “special duty of care.”Footnote ⁹⁵

F. Taking Stock

We have outlined how the GFCC relies on scenario analysis to assess the increased risk of serious loss of liberty due to the ineffectiveness of the 2019 Climate Protection Act in setting appropriate CO₂ reduction targets. To explain the “encroachment-like prior effect” (eingriffsähnliche Vorwirkung) on fundamental liberties, the Court conducts an impact assessment that imagines possible futures. This decision introduced a new understanding of Article20a of the Basic Law, which is interpreted as a benchmark for future legislative action and a platform for intergenerational justice, the basic application mechanism of which is proportionality. The burdens of climate change must not be imposed disproportionately on future generations. In the Klimaschutz case, the GFCC carried out the proportionality test by means of scenario analysis, which seems well suited to forecast and evaluate the level of infringement of fundamental rights which is likely to take place because of the present climate policy in Germany. Scenario analysis is conceptually linked to the fundamental right to intergenerational equity, which requires an assessment of the potential long-term impacts of policies to protect the fundamental interests and rights of future generations.

Then, we briefly explained the core of the scenario analysis and decomposed this decision-making process into several argumentative steps. Scenario analysis involves designing alternative hypothetical worlds to analyze how they relate to a particular policy, strategy, or decision, and weighing the potential consequences—benefits, risks, and losses—associated with different circumstances. In this respect, we have seen that the scenario analysis carried out by the GFCC, although correctly articulated, is oversimplified and imprecise, as the Court does not adopt a full-fledged multiple-scenario approach and a multivariate, game-theoretic analysis. Is this entirely wrong? The simplified path of reasoning followed by the Court finds its justification in the risk adverse attitude of the GFCC. According to the Justices, the existence of even one possible scenario in which the current climate policy unreasonably compresses the fundamental rights of future generations makes it the case that that policy is in breach of Article20a of the Basic Law. Irrespective of the evaluation of that decision, we he have argued that the inferential structure of scenario analysis is useful in explaining the semantic potential of the fundamental right to intergenerational justice and, accordingly, the mechanisms underlying its concretization and application in constitutional decisions.

Constitutional obligations are generally obligations of all branches of government—that is, the task of scenario analysis is primarily the task of the democratically legitimized legislature. Should the constitutional court merely review the legislature’s decision without making policy decisions or should it engage in policy analysis? A high degree of uncertainty is usually cited as an argument in favor of broad legislative discretion. In the context of climate change, scenario analysis is instead used to assess the future impact of legislative decisions under conditions of risk and uncertainty and to impose greater constraints on legislatures.