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Pathways for the Introduction of Terrestrial Non-Native species

Pathways for the Introduction of Terrestrial Non-Native species

Information Summary

Version: 1

Published: 27/11/2018 GMT

Reviewed: 27/11/2018 GMT


Ad H.L. Huiskes (1)
Marc Lebouvier (2)
Marco A . Molina Montenegro (3)
Luis R. Pertierra (4)
Megumu Tsujimoto (5)

(1) Royal Netherlands Institute for Sea Research, P.O. Box 140, 4400 AC Yerseke, The Netherlands. E-mail: ad.huiskes@nioz.nl
(2) Station Biologique, Unité Mixte de Recherche Ecobio, Centre National de la Recherche Scientifique–Université de Rennes 1, 35380 Paimpont, France
(3) Instituto de Ciencias Biológicas, Universidad de Talca, Avenida Lircay s/n, Campus Talca, Talca, Chile
(4) Universidad Rey Juan Carlos, Departamento de Biología y Geología, Area Biodiversidad y Conservación, Madrid, Spain
(5) National Institute of Polar Research, Tachikawa, Tokyo 190-8518, Japan


Non-native organisms are relatively rare in Antarctica and the Southern Ocean. This is probably attributable to the comparatively recent human presence and to protection afforded by the Protocol on Environmental Protection to the Antarctic Treaty, which prohibits deliberate introductions. Inadvertent introductions do occur, as clothing and luggage of visitors, cargo, fresh produce, vehicles, ships and other means of transport can inadvertently entrain propagules or complete organisms. Because of steadily growing human activities on the continent and climate change trends, the risk of non-native organisms arriving and establishing is likely to increase.


Antarctic ecosystems are under increasing pressure from the introduction of non-native species (1). Non-native species introductions in terrestrial and freshwater environments in Antarctica are rare compared to introductions occurring elsewhere in the world, largely due to its low connectivity to other parts of the globe, its extreme environment and its protection under the Protocol on Environmental Protection to the Antarctic Treaty (2). While natural introductions into the Antarctic appear to occur very rarely, they have been documented (3). Up to 2015, most non-native species introductions of both plants and invertebrates have been predominantly due to human activities. These have occurred in the Antarctic Peninsula region and on the sub-Antarctic and Southern Cold Temperate islands (4, 5) (Table 1).

Table 1 - Records of known alien species in the Antarctic Peninsula terrestrial environment prior to January 2015 (after 5).

pathways table pic 1
pathways table pic 2
pathways table pic 3


Information on microbes and fungi is very limited but research from historical expedition sites in the Ross Sea and Deception Island describe introduced fungal species on wood of huts (6).

Non-native plants reported from the Antarctic continent have been subsequently eradicated at several sites (Puccinellia sp. near Syowa station, Dronning Maud Land, and Alopecurus geniculatus, Puccinellia distans, Rumex pulcher, Stellaria media and Chenopodium rubrum near Progress II station, Larsemann Hills, Princess Elizabeth Land) (5). Non-native invertebrates have so far not been reported from terrestrial Antarctica outside the Peninsula region, apart from a number of invertebrates found in station buildings (5).
Knowledge on marine species introductions in the Southern Ocean, south of the 60°S, is still scarce (2, 10); vessels may carry marine non-native organisms predominantly associated with fouling assemblages and anthropogenic marine debris (7, 8, 9).

Various important vectors of introduction have been identified by previous studies, which provide guidance to the areas where biosecurity efforts should be focused. These include:
- cargo containers (packing crates) and contents (10, 11)
- cargo for infrastructure works (station construction or renovation including earthmoving and excavation machinery) (10, 12)
- fresh produce (13)
- visitors: clothing and gear (1)
- means of transport and landing (ships, planes, helicopters) (7, 8, 9).

Visitors (including scientists and operational and logistic support staff) traveling to Antarctica primarily depart from South America, South Africa, Australia and New Zealand. Ships and planes also depart from other ports and airports worldwide to Antarctic research stations and tourist sites. These ships and planes are all potential carriers of propagules including seeds, other plant propagules and invertebrates (14, 15). Of the 35,973 tourists landing in 2017-18 the largest number were concentrated in the Peninsula, followed by the McMurdo Sound region of the Ross Sea (https://iaato.org/tourism-statistics). Cargo importation is one of the main pathways for non-native species introductions into Antarctica. Numerous propagules have been found attached to cargo, including packing crates, contents, machinery and vehicles (Figure 1), transported mainly from the cargo facilities of the national programme operators to the Antarctic research stations (11, 12, 14, 16, 17).

Picture 2 Pathways

Fig. 1: Soil imported on the unwashed wheels of a vehicle arriving at an Antarctic station (Photo: K Hughes).

The importation of fresh produce such as eggs, fresh fruit and vegetables (Figure 2) and meat products could also inadvertently transport non-native species such as microorganisms and invertebrates primarily from the departing port into Antarctica (13). However, some modes of transport, especially planes and helicopters, have not yet been studied in great detail as possible vectors. Additionally, there have not been particular pathways of intra-regional transport of non-native species identified within the Antarctic although they are of great concern for the conservation of the Antarctic ecosystems.

Fig.3 Pathways

Fig. 2: Fresh food may be contaminated. 89% of fresh fruit and vegetables examined for Australian stations were clean but some items were either infected with fungi (9%) as was this onion, or had evidence of the presence of insects (2%) (Photo: K. Kiefer).

Non-native species introductions can be classified in four categories (2, 5):
a. transient, i.e. those surviving for a short time period, dying out by natural causes (e.g. unfavorable environment) or being eradicated by humans;
b. persistent, those surviving wintering and locally established in a small area for several years (for example, Poa pratensis colony persisting in Cierva Point for over 60 years (18)); and
c. invasive, those that are firmly established and start expanding and significantly disturbing any native communities (for example Poa annua) (19).
d. synanthropic non-native species, which are only associated with humans in Antarctica – e.g living inside Antarctic buildings, in sewage treatment plants and in hydroponic facilities (5). These species listed (5) are all Diptera (true flies and mosquitos): Lycoriella ingenua in Casey Station (eradication attempt unsuccessful), Lycoriella sp. in Rothera Research Station (eradication successful), Trichocera maculipennis in Artigas Station (eradication unsuccessful, species now also found in the surrounding environment), unidentified mosquito Frei Station (larvae persistent in sewage plant).

The Antarctic climate, which is adverse to the majority of aliens, is likely to continue to be mitigated by climate change, particularly in the Antarctic Peninsula (20). Recent studies show also that the number of potential niches available for colonization by alien species in the Antarctic Peninsula is higher than anticipated (21). Impact of invasive aliens in other biomes of the world have proven to be detrimental to the biodiversity of the native communities. Research on the invasive plant species Poa annua in Antarctica has shown that a detrimental impact is very likely to occur in Antarctica as well (19).

The Protocol on Environmental Protection to the Antarctic Treaty prohibits import of alien organisms into Antarctica without a permit. This means that preventive measures are required by national operators and tourist companies to avoid inadvertent introductions. Studies on the possible vectors and pathways for non-native species, have identified key elements for minimizing the risk of transferring non-native species to Antarctica. These included cleaning of clothing (Figure 3), boots (Figure 4), luggage, equipment, cargo, and means of transport by washing or vacuuming before reaching Antarctica, and packing of fresh produce free of pests and diseases in closed containers.

Fig 4 Pathways

Fig. 3: Passenger’s clothing being checked by expedition staff for propagules, on an Antarctic cruise ship before landing in Antarctica (Photo: DWH Walton).

Fig 5 Pathways

Fig. 4: Rigorous boot washing needs to be enforced before and after each Antarctic landing to limit the potential for the spread of propagules (Photo: A. Herbert).

A recent paper evaluates non-native species policy development and implementation by the Antarctic Treaty Parties and provides useful guidance on some of the more effective biosecurity procedures (22).
Further research is required on the pathways for non-native species introductions which should include intra-regional transport and the pathways for marine species introductions.