Identifying marine invasion threats and management priorities through introduction pathway analysis in a remote sub-Antarctic ecosystem

Daniel T I Bayley; Paul E Brewin; Ross James; Arlie H McCarthy; Paul Brickle

doi:10.1002/ece3.11299

Identifying marine invasion threats and management priorities through introduction pathway analysis in a remote sub-Antarctic ecosystem

Ecol Evol. 2024 Apr 23;14(4):e11299. doi: 10.1002/ece3.11299. eCollection 2024 Apr.

Authors

Daniel T I Bayley^{1

2}, Paul E Brewin^{1

3}, Ross James⁴, Arlie H McCarthy^{5

6}, Paul Brickle^{1

3

7}

Affiliations

¹ South Atlantic Environment Research Institute Stanley Falkland Islands.
² Centre for Biodiversity and Environment Research University College London London UK.
³ Shallow Marine Surveys Group Stanley Falkland Islands.
⁴ Government of South Georgia & the South Sandwich Islands Stanley Falkland Islands.
⁵ Helmholtz Institute for Functional Marine Biodiversity at the University of Oldenburg (HIFMB) Oldenburg Germany.
⁶ Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- Und Meeresforschung Bremerhaven Germany.
⁷ School of Biological Sciences (Zoology) University of Aberdeen Aberdeen UK.

Abstract

The threat from novel marine species introductions is a global issue. When non-native marine species are introduced to novel environments and become invasive, they can affect biodiversity, industry, ecosystem function, and both human and wildlife health. Isolated areas with sensitive or highly specialised endemic species can be particularly impacted. The global increase in the scope of tourism and other human activities, together with a rapidly changing climate, now put these remote ecosystems under threat. In this context, we analyse invasion pathways into South Georgia and the South Sandwich Islands (SGSSI) for marine non-native species via vessel biofouling. The SGSSI archipelago has high biodiversity and endemism, and has historically been highly isolated from the South American mainland. The islands sit just below the Polar Front temperature boundary, affording some protection against introductions. However, the region is now warming and SGSSI increasingly acts as a gateway port for vessel traffic into the wider Antarctic, amplifying invasion likelihood. We use remote Automatic Identification System vessel-tracking data over a 2-year period to map vessel movement and behaviour around South Georgia, and across the 'Scotia Sea', 'Magellanic' and northern 'Continental High Antarctic' ecoregions. We find multiple vessel types from locations across the globe frequently now enter shallow inshore waters and stop for prolonged periods (weeks/months) at anchor. Vessels are active throughout the year and stop at multiple port hubs, frequently crossing international waters and ecoregions. Management recommendations to reduce marine invasion likelihood within SGSSI include initiating benthic and hull monitoring at the identified activity/dispersion hubs of King Edward Point, Bay of Isles, Gold Harbour, St Andrews Bay and Stromness Bay. More broadly, regional collaboration and coordination is necessary at neighbouring international ports. Here vessels need increased pre- and post-arrival biosecurity assessment following set protocols, and improved monitoring of hulls for biofouling to pre-emptively mitigate this threat.

Keywords: biosecurity; marine management; network analysis; non‐native species; polar ecosystems.