![]() Fixed an issue where Democracy and Theocracy bonuses were not affecting districts.Replace the old Babylon City-State with the Anshan City-State.Finally, low emission scenarios considered by the IPCC involve more than a fossil fuel phase-out: They also assume sustained negative emissions from about mid-century onward that may not be technologically or economically feasible ( 25). Meanwhile, the IPCC’s highest-end greenhouse gas concentration pathway, RCP 8.5, remains close to observations and might stay that way if negative feedback loops, such as emissions from melting permafrost and forest die-backs, kick in sooner than expected ( 23, 24). Energy markets are often difficult to forecast, as the resurgence of coal use to an all-time high in 2021 illustrates ( 22). Furthermore, past experience suggests that climate pledges may not translate into effective, timely policies, and without concerted efforts by governments there is no certainty that market forces will drive a fossil fuel phase-out quickly enough to avert climate collapse. Both of the high-emission pathways considered in the IPCC’s most recent Working Group I report contain 4☌ increases in the “very likely” range for 2081 through 2100 ( 20), a level of heating that many scientists regard as a significant threat to civilization ( 21). Serious Risks?Īlthough declining costs of renewable energy and carbon neutrality pledges are welcome signs, we think it is much too soon to brush aside concerns about the broken world or global collapse. The challenge is to bring the study of mechanisms that might cause the collapse of current civilization up to that standard of scientific rigor. Consideration of the complex interplay of social, environmental, and other factors as well as the active role of societal resilience is already well established in historical and archeological research on collapse ( 13, 14). Second, collapse mechanisms should be systematically examined in tandem with causal processes involved in successful adaptation to environmental challenges as well as economic forces and policies that could drive a green transition. Among other things, this involves greater attention to pathways whereby direct climate impacts might interact with social, economic, and political factors to threaten societal collapse. First, we suggest that more scientific effort be devoted to studying socio-climate feedback and exogenous shock vulnerability climate collapse mechanisms. Given the above, we offer two recommendations for how research on the risk of climate collapse can more fruitfully proceed. Finally, exogenous shock vulnerability mechanisms suggest that climate change might weaken adaptive capacities through processes described in the first two mechanism types, thereby leaving global society vulnerable to collapse triggered by other types of shocks, such as wars or pandemics ( 12). In contrast, socio-climate feedback mechanisms propose that adverse climate change impacts, especially on food production, may cause political conflict and dysfunction that undermines capacity for adaptation while leading to actions, such as bans on food exports or warfare, that spread destabilization and hasten collapse ( 11). These mechanisms often involve climate feedbacks or tipping points in which, for instance, a global temperature increase of 2☌ triggers irreversible rapid collapse of Antarctic ice sheets, releases of methane from permafrost or forest diebacks ( 10). Moreover, we emphasize avoiding doom-saying bias and recommend studying collapse mechanisms in conjunction with successful adaptation and resilience, seeing these as two sides of the same coin.ĭirect impact mechanisms hypothesize that severe and compounding climate impacts-rising sea levels, drought, flooding, extreme heat, and so forth-could undermine agriculture, water availability, and other essential bases of civilization ( 8, 9). We go further by providing greater detail about societal collapse, for instance, distinguishing three progressively more severe scenarios. Our analysis builds on the latest research, including Kemp et al.’s PNAS Perspective, which drew attention to the importance of scientifically exploring the ways that climate outcomes can impact complex socioeconomic systems ( 5). This kind of information, we claim, is crucial for the public and for policymakers alike, for whom climate collapse may be a serious concern. Doing so requires clarifying what “civilization collapse” means and explaining how it connects to topics addressed in climate science, such as increased risks from both fast- and slow-onset extreme weather events. Here we call for treating the mechanisms and uncertainties associated with climate collapse as a critically important topic for scientific inquiry. ![]()
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