The protection of Antarctic terrestrial ecosystems from inter- and intra-continental transfer of non-indigenous species by human activities: A review of current systems and practices

Antarctica and the Southern Ocean are unique natural laboratories where organisms adapted to extreme environmental conditions have evolved in isolation for millions of years. These unique biotic communities on Earth are facing complex climatic and environmental changes. Terrestrial ecosystems in the Antarctic Peninsula Region (APR) have experienced the highest rate of climate warming and, being the most impacted by human activities, are facing the greatest risk of detrimental changes. This review provides an overview of the most recent findings on how biotic communities in terrestrial ecosystems of the Antarctic Peninsula Region (APR) are responding and will likely respond to further environmental changes and direct anthropogenic impacts. Knowledge gained from studies on relatively simple terrestrial ecosystems could be very useful in predicting what may happen in much more complex ecosystems in regions with less extreme temperature changes. The rapid warming of the APR has led to the retreat of glaciers, the loss of snow and permafrost and the increase of ice-free areas, with a consequent enhancement of soil-forming processes, biotic communities, and food web complexity. However, most human activity is concentrated in APR coastal ice-free areas and poses many threats to terrestrial ecosystems such as environmental pollution or disturbances to soilcommunities and wildlife. People who work or visit APR may inadvertently introduce alien organisms and/or spread native species to spatially isolated ice-free areas. The number of introduced non-indigenous species and xenobiotic compounds in the APR is likely to be greater than currently documented, and several biosecurity and monitoring activities are therefore suggested to Antarctic national scientific programs and tourism operators to minimize the risk of irreversible loss of integrity by the unique terrestrial ecosystems of APR.

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Are there Invasive Planktonic Microbes?

Journal of Marine Science Research and Oceanography ◽

10.33140/jmsro.02.02.05 ◽

2019 ◽

Vol 2 (2) ◽

Keyword(s):

Natural Population ◽

Human Activities ◽

Environmental Changes ◽

Common Species ◽

Species Level ◽

Indigenous Species ◽

Introduced Populations ◽

Interannual Fluctuations ◽

Non Indigenous Species ◽

Gymnodinium Catenatum

The translocation of species by human activities is a problem that increases with the globalization. However, the examples of non-indigenous or exotic planktonic microbes can be questioned as they predominantly have cosmopolitan distributions and natural mechanisms for wide dispersion. In reality, the categorization of any species as non-indigenous requires solving two difficult issues: knowledge of where the ‘natural’ population is, and demonstration of a substantial geographic discontinuity between the supposed source and the introduced populations. With regard to planktonic microorganisms, a non-indigenous taxon could have been previously unnoticed during routine microscopical analyses due to: A) difficult identification at the species level in routine observations such as for the diatoms (Pseudo-nitzschia, Skeletonema, Thalassiosira, Pleurosigma), unarmoured dinoflagellates (Karenia, Karlodinium) and Raphidophytes, and B) species with strong interannual fluctuations of abundance, only detected during bloom periods when they are misinterpreted as newcomers (i.e., Coscinodiscus wailesii or Trieres chinensis, junior synonyms of C. cylindricus and T. regia, respectively, or Gymnodinium catenatum). Rather than attempting to add to the lists of non-indigenous species with planktonic microbes, the monitoring surveys should also pay attention in the less common species with important fluctuations of abundance, independent of tentative labels as exotic or indigenous, because they are potentially useful as bio-indicators of environmental changes.

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Local Drivers of Change in Southern Ocean Ecosystems: Human Activities and Policy Implications

Frontiers in Ecology and Evolution ◽

10.3389/fevo.2021.624518 ◽

2021 ◽

Vol 9 ◽

Author(s):

Susie M. Grant ◽

Cath L. Waller ◽

Simon A. Morley ◽

David K. A. Barnes ◽

Madeleine J. Brasier ◽

...

Keyword(s):

Southern Ocean ◽

Human Activities ◽

Marine Mammals ◽

Regional Scale ◽

Policy Implications ◽

Ecological Change ◽

Indigenous Species ◽

Ocean Ecosystems ◽

Projected Changes ◽

Non Indigenous Species

Local drivers are human activities or processes that occur in specific locations, and cause physical or ecological change at the local or regional scale. Here, we consider marine and land-derived pollution, non-indigenous species, tourism and other human visits, exploitation of marine resources, recovery of marine mammals, and coastal change as a result of ice loss, in terms of their historic and current extent, and their interactions with the Southern Ocean environment. We summarise projected increases or decreases in the influence of local drivers, and projected changes to their geographic range, concluding that the influence of non-indigenous species, fishing, and the recovery of marine mammals are predicted to increase in the future across the Southern Ocean. Local drivers can be managed regionally, and we identify existing governance frameworks as part of the Antarctic Treaty System and other instruments which may be employed to mitigate or limit their impacts on Southern Ocean ecosystems.

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Meta-analysis on the ecological impacts of widely spread non-indigenous species in the Baltic Sea

The Science of The Total Environment ◽

10.1016/j.scitotenv.2021.147375 ◽

2021 ◽

pp. 147375

Author(s):

Henn Ojaveer ◽

Jonne Kotta ◽

Okko Outinen ◽

Heli Einberg ◽

Anastasija Zaiko ◽

...

Keyword(s):

Baltic Sea ◽

Meta Analysis ◽

Ecological Impacts ◽

Indigenous Species ◽

The Baltic Sea ◽

The Baltic ◽

Non Indigenous Species

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Ecological status assessment and non-indigenous species in industrial and fishing harbours of the Gulf of Gabès (central Mediterranean Sea)

Environmental Science and Pollution Research ◽

10.1007/s11356-021-14729-1 ◽

2021 ◽

Author(s):

Nawfel Mosbahi ◽

Jean-Philippe Pezy ◽

Lassad Neifar ◽

Jean-Claude Dauvin

Keyword(s):

Mediterranean Sea ◽

Ecological Status ◽

Indigenous Species ◽

Central Mediterranean ◽

Gulf Of Gabes ◽

Gulf Of Gabès ◽

Central Mediterranean Sea ◽

Ecological Status Assessment ◽

Status Assessment ◽

Non Indigenous Species

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First Record of the Alien Species Procambarus virginalis Lyko, 2017 in Fresh Waters of Sardinia and Insight into Its Genetic Variability

Life ◽

10.3390/life11070606 ◽

2021 ◽

Vol 11 (7) ◽

pp. 606

Author(s):

Daria Sanna ◽

Ilenia Azzena ◽

Fabio Scarpa ◽

Piero Cossu ◽

Angela Pira ◽

...

Keyword(s):

Genetic Variability ◽

Alien Species ◽

Procambarus Clarkii ◽

Mitochondrial Gene ◽

First Record ◽

Indigenous Species ◽

Fresh Waters ◽

Mediterranean Island ◽

Marbled Crayfish ◽

Non Indigenous Species

In the fresh waters of Sardinia (Italy), the non-indigenous crayfish species Procambarus clarkii has been reported from 2005, but, starting from 2019, there have been several reports of a new non-indigenous crayfish in southern and central areas of this Mediterranean island, and its morphology suggests that this species may be the marbled crayfish Procambarus virginalis. Forty-seven individuals of this putative species were analyzed, using the mitochondrial gene Cytochrome c Oxidase subunit I as molecular marker to identify this crayfish and investigate the level of genetic variability within the recently established population. Phylogenetic and phylogeographic analyses were carried out on a dataset including sequences from the Sardinian individuals and from all congenerics available in GenBank. Results showed that the new Sardinian crayfish belong to the species P. virginalis. All the sequences belonging to P. virginalis from European countries are identical, with only few exceptions found among Sardinian individuals. In conclusion, this paper highlights the occurrence of a new further alien species in the Sardinian fresh waters, which are already characterized by the high presence of non-indigenous species.

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Biological invasions: are they dependent on disturbance?

Environmental Reviews ◽

10.1139/a97-007 ◽

1997 ◽

Vol 5 (2) ◽

pp. 131-144 ◽

Cited By ~ 102

Author(s):

J D Lozon ◽

H J MacIsaac

Keyword(s):

Exotic Species ◽

Human Activities ◽

Water Discharge ◽

A Priori ◽

Terrestrial Ecosystems ◽

Field Studies ◽

Soil Disturbance ◽

Exotic Animals ◽

Introduced Plants ◽

Disturbed Habitats

We utilize literature surveys to examine the relationship between establishment of exotic species and human or natural disturbances of ecosystems. Of the 133 papers published in 10 ecological journals between 1993 and 1995, 63 reported on field studies involving 299 and 103 successful, nonredundant plant and animal introductions, respectively. Invasions of terrestrial ecosystems dominated (>>97%) the surveyed literature. Disturbance was associated with establishment of exotic species in 56% of these studies, though its importance differed among papers describing plants (68%) and animals (28%). Plants species (86%) were significantly more dependent on disturbance for establishment than were animals (12%). However, animals and plants that were dependent on disturbance for establishment were almost equally dependent (58 versus 68%) on it for range expansion. In a second survey, 402 plant and 103 animal taxa were identified that explicitly linked establishment of exotic species to disturbance. Human activities were attributed with establishment of species in 97 and 57% of these cases, respectively. Common mechanisms associated with establishment of exotic animals included ballast water discharge, intentional releases, and residential development. Establishment of exotic plants was associated with animal activities (e.g., grazing, seed introduction), soil disturbance, forestry, fire, agriculture, and human activities. In contrast to invasions theory, our survey indicates that the association between establishment and spread of exotic species and disturbance ought not be assumed a priori. Some animals repeatedly invade new habitats once geographic barriers are circumvented, indicating that communities may be more receptive to exotic species than previously acknowledged. By contrast, introduced plants established most often in disturbed habitats.

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