@misc{weichselgartner_integrating_science_2011, 
author={Weichselgartner, J.},
title={Integrating Science and Practice for the Mitigation of Natural Disasters: Barriers, Bridges, Propositions},
year={2011},
howpublished = {book part},
abstract = {Coupled human-environment systems are undergoing rapid changes and are adapting to changing conditions. This makes the understanding of response mechanisms—and hence the state of vulnerability and resilience—one of the most important issues for society in general, and for science in particular. Research in the fields of natural hazards, ecology, and global environmental change demonstrates that potential losses are determined not by exposure to hazards alone but also reside in the vulnerability and resilience of the society (or system) experiencing such hazards (Burton et al, 1978; Kasperson et al, 1995; Gunderson and Holling, 2002). This recognition has led to questions regarding the understanding of impacts on and responses by the affected society. During the last decade, an abundant literature has addressed the complex set of processes, factors, causes and agents involved in the analysis of vulnerability and resilience (Dikau and Weichselgartner, 2005; Janssen et al, 2006). Hence, new insights have been gained and researchers have developed different conceptual frameworks for analysis, as well as techniques and tools for assessment.},
note = {Weichselgartner, J.: Integrating Science and Practice for the Mitigation of Natural Disasters: Barriers, Bridges, Propositions. In: Kasperson, R.; Berberian, M. (Ed.): Integrating Science and Policy - Vulnerability and Resilience in Global Environmental Change. London: Earthscan. 2011. 51-96.}}