Skip to content

Architectures of Earth System Governance: Institutional Complexity and Structural Transformation

Biermann, F. and Kim, R.E. (Eds). 2020. Architectures of Earth System Governance: Institutional Complexity and Structural Transformation. Cambridge University Press.

Abstract

International institutions are prevalent in world politics. More than a thousand multilateral treaties are in place just to protect the environment alone, and there are many more. And yet, it is also clear that these institutions do not operate in a void but are enmeshed in larger, highly complex webs of governance arrangements. This compelling book conceptualises these broader structures as the ‘architectures’ of global governance. Here, over 40 international relations scholars offer an authoritative synthesis of a decade of research on global governance architectures with an empirical focus on protecting the environment and vital earth systems. They investigate the structural intricacies of earth system governance and explain how global architectures enable or hinder individual institutions and their overall effectiveness. The book offers much-needed conceptual clarity about key building blocks and structures of complex governance architectures, charts detailed directions for new research, and provides analytical groundwork for policy reform.This is one of a series of publications associated with the Earth System Governance Project. For more publications, see www.cambridge.org/earth-system-governance.

Read Here

You might like these publication categories

Recent publications

Building Capabilities for Earth System Governance

This Element develops a new Strategic Capabilities Framework for studying and steering complex socio-ecological systems. It is driven by the…

Trade and the Environment: Drivers and Effects of Environmental Provisions in Trade Agreements

The mushrooming of trade agreements and their interlinkages with environmental governance calls for new research on the trade and environment…

The Politics of Deep Time

Human societies increasingly interact with processes on a geological or even cosmic timescale. Despite this recognition, we still lack a…