Alternative futures for global biological invasions

Núria Roura-Pascual (Corresponding author), Brian Leung, Wolfgang Rabitsch, Lucas Rutting, Joost Vervoort, Sven Bacher, Stefan Dullinger, Karl-Heinz Erb, Jonathan M. Jeschke, Stelios Katsanevakis, Ingolf Kühn, Bernd Lenzner, Andrew M. Liebhold, Michael Obersteiner, Anibal Pauchard, Garry Peterson, Helen E. Roy, Hanno Seebens, Marten Winter, Mark A. BurgmanPiero Genovesi, Philip E. Hulme, Reuben P. Keller, Guillaume Latombe, Melodie McGeoch, Gregory M Ruiz, Riccardo Scalera, Michael Springborn, Betsy von Holle, Franz Essl

Publications: Contribution to journalArticlePeer Reviewed

Abstract

Scenario analysis has emerged as a key tool to analyze complex and uncertain future socio-ecological developments. However, currently existing global scenarios (narratives of how the world may develop) have neglected biological invasions, a major threat to biodiversity and the economy. Here, we use a novel participatory process to develop a diverse set of global biological invasion scenarios spanning a wide range of plausible global futures through to 2050. We adapted the widely used “two axes” scenario analysis approach to develop four families of four scenarios each, resulting in 16 scenarios that were later clustered into four contrasting sets of futures. Our analysis highlights that socioeconomic developments and technological innovation have the potential to shape biological invasions, in addition to well-known drivers, such as climate and human land use change and global trade. Our scenarios partially align with the shared socioeconomic pathways created by the climate change research community. Several factors that drive differences in biological invasions were underrepresented in the shared socioeconomic pathways; in particular, the implementation of biosecurity policies. We argue that including factors related to public environmental awareness and technological and trade development in global scenarios and models is essential to adequately consider biological invasions in global environmental assessments and thereby obtain a more integrative picture of future social–ecological developments.
Original languageEnglish
Pages (from-to)1637-1650
Number of pages14
JournalSustainability Science
Volume16
Issue number5
DOIs
Publication statusPublished - Sep 2021

Austrian Fields of Science 2012

  • 106003 Biodiversity research

Keywords

  • Alien species
  • Biodiversity models
  • Environmental scenarios
  • FRAMEWORK
  • Future narratives
  • Global environmental change
  • Impacts
  • Management
  • PLANT INVASIONS
  • SCENARIOS

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