TY - JOUR EP - 128 AV - public UR - http://dx.doi.org/10.1016/j.jclepro.2014.11.051 A1 - Van Ewijk, S A1 - Stegemann, JA SN - 0959-6526 VL - 132 N2 - Dematerialization can serve as a measurable and straightforward strategy for sustainability and requires changes in management of material inputs and waste outputs of the economy. Currently, waste man- agement is strongly inspired by the waste hierarchy, an in fl uential philosophy in waste and resource management that prioritizes practices ranging from waste prevention to land fi ll. Despite the inclusion and prioritization of prevention in the hierarchy, the positive contribution of the application of the waste hierarchy to dematerializing the economy is not inevitable, nor has it been conclusively studied. In this paper, the waste hierarchy is analyzed on a conceptual level by studying its original aims, its potential to ful fi ll those aims, and its actual policy implementation. Issues with the hierarchy include limited spec- i fi cation and implementation of prevention, a lack of guidance for choosing amongst the levels of the hierarchy and the absence of a distinction between open-loop and closed-loop recycling. Also, the hi- erarchy only communicates relative priorities and therefore does not support decisions that affect other sectors as well as waste management. The article concludes that the waste hierarchy in its current form is an insuf fi cient foundation for waste and resource policy to achieve absolute reductions in material throughput. Suggested improvements are the adoption of a value-based conception of waste and related collection practices, more stringent and targeted policies on least desirable options like land fi ll, the speci fi cation of waste management targets based on dematerialization ambitions, and the use of the waste hierarchy within a resource productivity-oriented framework. KW - Waste hierarchy KW - Waste management KW - Dematerialization KW - Prevention KW - Absolute reductions JF - Journal of Cleaner Production TI - Limitations of the waste hierarchy for achieving absolute reductions in material throughput SP - 122 Y1 - 2014/12/02/ N1 - © 2014 Van Ewijk, S and Stegemann, J. A. Published by Elsevier Ltd. This is an open access article under the CC BY license. ID - discovery1458535 ER -