The challenge of managing threatened invasive species at a continental scale

The European Union's (EU) environmental legislation establishes common measures to prevent the entry and spread of invasive non‐native species and to minimize their impacts. However, species that are native to at least one member state but non‐native and potentially invasive in others (NPIS) are in limbo because they are neither legally regulated at the EU level nor in most member states. We used the Communication and Information Resource Centre for Administrations, Businesses and Citizens (CIRCABC) raw data on NPIS (317 taxa) to analyze their distribution across the EU and identify which biogeographical regions are the main sources of invasions. We additionally evaluated the conservation challenge posed by NPIS that are threatened within their native ranges. We performed a pairwise analysis summarizing the number of species that are native to a given member state but non‐native to another and vice versa. Although distribution patterns of NPIS varied across taxa groups, overall, southern and central EU countries were both donors and recipients of NPIS. Eastern countries were mainly a source, and western and northern countries mostly received NPIS. Around 27% of NPIS were threatened in some of their EU native ranges, which is a challenge for conservation and management because some of them have serious negative effects on European biodiversity, but hitherto remain outside the scope of the EU regulation of invasive non‐native species. This highlights an unresolved paradox because efforts to manage species as invasive conflict with efforts to protect them as threatened within the same territory.

[1]  J. Cuesta,et al.  A horizon scan exercise for aquatic invasive alien species in Iberian inland waters. , 2023, The Science of the total environment.

[2]  R. Baquero,et al.  Are the EU biosecurity legislative frameworks sufficiently effective to prevent biological invasions in the Natura 2000 network? – A case study in Mediterranean Europe , 2021 .

[3]  P. Hulme Unwelcome exchange: International trade as a direct and indirect driver of biological invasions worldwide , 2021, One Earth.

[4]  C. Bradshaw,et al.  High and rising economic costs of biological invasions worldwide , 2021, Nature.

[5]  N. Mandrak,et al.  Trends in the detection of aquatic non-indigenous species across global marine, estuarine and freshwater ecosystems: A 50-year perspective , 2020, Diversity & distributions.

[6]  Andrew M. Liebhold,et al.  Projecting the continental accumulation of alien species through to 2050 , 2020, Global change biology.

[7]  B. Cade,et al.  Latitudinal patterns of alien plant invasions , 2020, Journal of Biogeography.

[8]  K. Soetaert,et al.  Meta-analysis of multidecadal biodiversity trends in Europe , 2020, Nature Communications.

[9]  Andrew M. Liebhold,et al.  Scientists' warning on invasive alien species , 2020, Biological reviews of the Cambridge Philosophical Society.

[10]  A. Di Giulio,et al.  A preliminary prioritized list of Italian alien terrestrial invertebrate species , 2020, Biological Invasions.

[11]  O. Vigiak,et al.  Assessing invasive alien species in European catchments: Distribution and impacts. , 2020, The Science of the total environment.

[12]  O. De Clerck,et al.  Prioritizing marine invasive alien species in the European Union through horizon scanning , 2020, Aquatic Conservation: Marine and Freshwater Ecosystems.

[13]  R. Muñoz‐Mas,et al.  Alien animal introductions in Iberian inland waters: An update and analysis. , 2019, The Science of the total environment.

[14]  Stefan Schindler,et al.  Developing a list of invasive alien species likely to threaten biodiversity and ecosystems in the European Union , 2018, Global change biology.

[15]  M. Carrete,et al.  A prioritised list of invasive alien species to assist the effective implementation of EU legislation , 2018 .

[16]  Luke Gibson,et al.  Saving two birds with one stone: solving the quandary of introduced, threatened species , 2017 .

[17]  T. Engstrom,et al.  The conservation paradox of endangered and invasive species , 2016, Conservation biology : the journal of the Society for Conservation Biology.

[18]  S. Katsanevakis,et al.  Gateways to alien invasions in the European seas , 2014 .

[19]  D. Moser,et al.  Native, alien, endemic, threatened, and extinct species diversity in European countries , 2013 .

[20]  Ana Cristina Cardoso,et al.  Evaluation of Online Information Sources on Alien Species in Europe: The Need of Harmonization and Integration , 2013, Environmental Management.

[21]  M. Arianoutsou,et al.  Disentangling the role of environmental and human pressures on biological invasions across Europe , 2010, Proceedings of the National Academy of Sciences.

[22]  K. Park,et al.  Forage use and niche partitioning by non-native bumblebees in New Zealand: implications for the conservation of their populations of origin , 2010, Journal of Insect Conservation.

[23]  Rob S. E. W. Leuven,et al.  The river Rhine: a global highway for dispersal of aquatic invasive species , 2009, Biological Invasions.

[24]  G. Coenders,et al.  Introduction pathways and establishment rates of invasive aquatic species in Europe , 2005 .

[25]  R. Baquero,et al.  Tackling biological invasions in Natura 2000 network in the light of the new EU Biodiversity Strategy for 2030 , 2021, Management of Biological Invasions.

[26]  W. Rabitsch,et al.  Making the EU Legislation on Invasive Species a Conservation Success , 2017 .

[27]  Niklas,et al.  Invasive plant species in the Swedish flora: Developing criteria and definitions, and assessing the invasiveness of individual taxa. , 2016 .

[28]  M. Rouget,et al.  Understanding and managing the introduction pathways of alien taxa: South Africa as a case study , 2015, Biological Invasions.

[29]  T. Lumley,et al.  gplots: Various R Programming Tools for Plotting Data , 2015 .

[30]  S. Katsanevakis,et al.  Pathways and gateways of freshwater invasions in Europe , 2015 .

[31]  R Core Team,et al.  R: A language and environment for statistical computing. , 2014 .

[32]  GUIDELINES FOR APPLICATION OF IUCN RED LIST CRITERIA AT REGIONAL AND NATIONAL LEVELS , 2013 .

[33]  D. Sax Latitudinal gradients and geographic ranges of exotic species : implications for biogeography , 2001 .