Sustainable development, as elaborated in Agenda 21 and confirmed at the World Summit on Sustainable Development, has three explicit dimensions, domains, or pillars: social, economic, and environmental. A fourth pillar, institutional, was included in the system of sustainability indicators adopted by the UN Commission on Sustainable Development (CSD), although very few institutional indicators were identified. More often, institutions are seen as providing the underlying enabling framework for action and change. Other approaches may recognize only human or social and natural or environmental dimensions or may subsume all compartmentalization into a more integrated and dynamic framework. Wherever such subdivisions are used for conceptual convenience or to make the concept more accessible and policy relevant, they immediately raise the challenge of integration across the subdivisions.

Most indicator sets for sustainable development have assembled indicators for each of the pillars while neglecting the links between them despite their key relevance for policy and planning. Development of interlinkage indicators is thus a particular challenge. The so-called decoupling indicators are highly relevant in this respect (OECD 2002), and other cross-cutting indices have been proposed.

Indicators of sustainability should measure characteristics or processes of the human–environmental system that ensure its continuity and functionality far into the future. Specifying the characteristics of the system or entity to be maintained can be very subjective and specific, and political, philosophical, and cultural differences may prevent any wide consensus. More effort is needed to apply the techniques of system science to this issue, developing more alternative models that reflect the diversity and complexity of human systems and cultures. These will help to explain the behavior of such complex nonlinear systems and their sensitivity, resilience, and capacity to switch between alternative steady states. The resulting understanding can contribute to more adaptive management, with indicators serving as monitoring and signaling mechanisms. The optimal sustainability indicators are those that capture the essential characteristics of the system and show a scientifically verifiable trajectory of maintenance or improvement in system functions. Science cannot always validate the goals set for the system, but it can validate the ability of the indicators chosen to measure the trajectory toward those goals or the reduction in damaging factors threatening the system’s sustainability.

It is probably not possible or even desirable to arrive at one standard definition of sustainability. Such a dynamic concept must evolve and be refined as our experience and understanding develop. Rather than trying to resolve this issue, this review examines some of the basic underlying concepts and their relationship to indicators. The idea of carrying capacity, for instance, with the exception of the ultimate limits of life conditions on the planet, depends on political choices about an acceptable standard of living and thus is a very subjective and normative concept that cannot easily be captured in indicators. Resilience is a more useful aspect of sustainability that can be defined in terms of vulnerability, adaptability, and responsiveness or sensitivity. This allows a better understanding of the behavior of this system property integrating and clarifying synergies between various human economic, social, and cultural characteristics. The goal is to identify irreversible changes beyond which recovery is not possible. However, this entails defining how critical the loss is to overall system functions, whether substitutions are possible, what compensation may be needed, and the level of uncertainty that may necessitate the application of the precautionary approach.

The notions of weak and strong sustainable development have been debated in the recent literature, and a number of indicators or frameworks have been proposed to capture them. For weak sustainability, efforts have focused on whether the well-known macroeconomic indicators gross national product (GNP) and gross domestic product (GDP) can be transformed to produce an indicator of sustainable development. For strong sustainability, the concept of critical natural capital (CNC) was introduced for the stocks of capital that cannot be substituted by other stocks of environmental or other capital to perform the same functions (Ekins et al. 2003).

The packaging of data into indicators is a way of simplifying complex and detailed information. Decision makers and the public lose interest rapidly if presented with more than a few indicators. It is therefore highly desirable to keep the number of indicators to a minimum while still representing the issues of sustainable development. The ultimate test of any indicator effort is its suitability for a specific use and the impact the indicators have on policies and public awareness. The issue of aggregation is very important in this respect because it can both generate useful information and facilitate its communication. Assessments that do not combine their indicators into a small set of indices are extremely hard to interpret, whereas those that do communicate their main findings instantly. When indicators are combined into indices, they provide a clear picture of the entire system, reveal key relationships between subsystems and between major components, and facilitate analysis of critical strengths and weaknesses. No information is lost if the constituent indicators and underlying data are available to be queried. However, there is a problem with the selection of indicators to be aggregated, which can intentionally or unintentionally introduce arbitrary weightings or other distortions.

Policy has a life cycle, from the realization that there is a need for a policy instrument to tackle a certain issue, to the design of the policy and its implementation, evaluation, and adaptation, and finally to its phasing out or integration into another policy instrument. Indicators must meet different information needs at various stages of the policy life cycle. One function would be early warning, raising awareness of an unfavorable trend that may be evidence of a new and emerging issue or signaling a policy gap for an existing issue. Other indicators are used in impact assessments or outlooks, when new policy proposals are being developed, and still others contribute to the mid-term to long-term monitoring of policy implementation.

The policy life cycle for the design of indicator sets necessitates flexibility. Some indicators designed for monitoring will remain policy relevant for a long time, whereas others in the indicator set may need to change for maximum policy relevance. However, flexibility must be offset against the risk of losing familiarity and continuity in the indicators, which are both key elements in their adoption and use.

Indicators often are distinguished from raw data and statistics in that they contain reference values such as benchmarks, thresholds, baselines, and targets. Such values have various functions, but the most important is to transform meaningless data into information. A reference might be a target (distance to target), a baseline (distance to a certain meaningful state), a threshold value (distance to a collapse), a reference year (change in time), or a benchmark (difference with another country). All these reference points lend meaning and political weight to data and are used mostly in the interpretation of indicators. There are still many indicators for which reference values or baselines have yet to be established.

Distance-to-target indicators measure performance in reaching policy goals. Three distinct types of targets can be identified: political or hard targets; soft targets, such as those for sustainability reference values, minimum viable populations, and thresholds; and be...