Tracking Non-Native Species in the Antarctic Marine Benthic Environment

Abstract The Antarctic Treaty System (ATS) is considered a successful example of international governance as it has managed tensions over sovereignty claims, avoided militarisation and dealt with marine resources and environmental protection. Recently, China’s influence and assertiveness in many international institutions have significantly grown. What effect this shift in the international politics will have upon Antarctic governance remains to be seen. However, to further thinking on this issue we explore two current case studies that reveal pressure points within the ATS. First, in the Commission for the Conservation of Antarctic Marine Living Resources, Australia has proposed marine protected areas off East Antarctica, to which China and several other states have objected. Second, in the Antarctic Treaty Consultative Meetings, China has proposed special management arrangements for the area around the “Kunlun” station, to which Australia and several other states have objected. Negotiation theory suggests “logrolling” (i.e. trade of mutual decision-making support across issue areas) can be an effective strategy to avoid diplomatic deadlocks. We therefore consider the merits of a logrolling strategy for the above issues. We find that while a logrolling strategy in the ATS might facilitate short-term diplomatic success, it would carry significant risks, including the weakening of existing norms.

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The summer diet of demersal fish at the South Shetland Islands

Antarctic Science ◽

10.1017/s0954102097000527 ◽

1997 ◽

Vol 9 (4) ◽

pp. 407-413 ◽

Cited By ~ 26

Author(s):

Masanori Takahashi ◽

Tetsuo Iwami

Keyword(s):

Marine Ecosystem ◽

Stomach Contents ◽

Demersal Fish ◽

South Shetland Islands ◽

Fish Prey ◽

Shetland Islands ◽

Antarctic Marine ◽

Dietary Component ◽

Gobionotothen Gibberifrons ◽

The Antarctic

The stomach contents of demersal fish in late January 1982 were analysed. Samples were taken at 100, 300 and 500 m depth south of Elephant Island, Bransfield Strait and north of Livingston Island, and at 800 m to the east of Smith Island. Fifty four taxa of fish belonging to 11 families were collected. The diets of 2101 fish representing 38 taxa were examined. These were classified into three categories, fish feeders, krill feeders and benthos feeders. Fish prey species fed on krill and/or benthos. Krill was a major dietary component for 32 (84.2%) out of 38 taxa. Gobionotothen gibberifrons was distributed at all 10 stations (100–800 m in depth) and its diet comprised krill and benthos. The present findings verify the importance of krill in the Antarctic marine ecosystem and indicate that krill is consumed by benthic fish at greater depths than previously reported.

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Esterase activities in the bivalve mollusc Adamussium colbecki as a biomarker for pollution monitoring in the Antarctic marine environment

Marine Pollution Bulletin ◽

10.1016/j.marpolbul.2004.02.033 ◽

2004 ◽

Vol 49 (5-6) ◽

pp. 445-455 ◽

Cited By ~ 47

Author(s):

Stefano Bonacci ◽

Mark A. Browne ◽

Awantha Dissanayake ◽

Josephine A. Hagger ◽

Ilaria Corsi ◽

...

Keyword(s):

Marine Environment ◽

Bivalve Mollusc ◽

Pollution Monitoring ◽

Antarctic Marine ◽

The Antarctic ◽

Esterase Activities ◽

Adamussium Colbecki

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Anti-biofilm activity of the Antarctic marine bacterium Pseudoalteromonas haloplanktis TAC125

Research in Microbiology ◽

10.1016/j.resmic.2013.01.010 ◽

2013 ◽

Vol 164 (5) ◽

pp. 450-456 ◽

Cited By ~ 42

Author(s):

Rosanna Papa ◽

Ermenegilda Parrilli ◽

Filomena Sannino ◽

Gaetano Barbato ◽

Maria Luisa Tutino ◽

...

Keyword(s):

Marine Bacterium ◽

Pseudoalteromonas Haloplanktis ◽

Pseudoalteromonas Haloplanktis Tac125 ◽

Antarctic Marine ◽

The Antarctic

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Seaweeds in the Antarctic Marine Coastal Food Web

Antarctic Seaweeds ◽

10.1007/978-3-030-39448-6_15 ◽

2020 ◽

pp. 293-307

Author(s):

Fernando R. Momo ◽

Georgina Cordone ◽

Tomás I. Marina ◽

Vanesa Salinas ◽

Gabriela L. Campana ◽

...

Keyword(s):

Food Web ◽

Antarctic Marine ◽

The Antarctic

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Potential of Bioinvasion by Human Activities in the Antarctic Marine Environment

INCT-APA Annual Activity Report ◽

10.4322/apa.2014.110 ◽

2013 ◽

pp. 131-135

Author(s):

Bruna Rachel Rocha ◽

Ana Carolina Fortes Bastos ◽

Andrea de Oliveira Ribeiro Junqueira

Keyword(s):

Marine Environment ◽

Human Activities ◽

Antarctic Marine ◽

The Antarctic

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The role of fish in the Antarctic marine food web: differences between inshore and offshore waters in the southern Scotia Arc and west Antarctic Peninsula

Antarctic Science ◽

10.1017/s0954102002000111 ◽

2002 ◽

Vol 14 (4) ◽

pp. 293-309 ◽

Cited By ~ 90

Author(s):

ESTEBAN BARRERA-ORO

Keyword(s):

Food Web ◽

Antarctic Peninsula ◽

Demersal Fish ◽

Pelagic Fish ◽

West Antarctic ◽

Antarctic Marine ◽

Scotia Arc ◽

West Antarctic Peninsula ◽

The Antarctic

The role of fish in the Antarctic food web in inshore and offshore waters is analysed, taking as an example the coastal marine communities of the southern Scotia Arc (South Orkney Islands and South Shetland Islands) and the west Antarctic Peninsula. Inshore, the ecological role of demersal fish is more important than that of krill. There, demersal fish are major consumers of benthos and also feed on zooplankton (mainly krill in summer). They are links between lower and upper levels of the food web and are common prey of other fish, birds and seals. Offshore, demersal fish depend less on benthos and feed more on zooplankton (mainly krill) and nekton, and are less accessible as prey of birds and seals. There, pelagic fish (especially lantern fish) are more abundant than inshore and play an important role in the energy flow from macrozooplankton to higher trophic levels (seabirds and seals). Through the higher fish predators, energy is transferred to land in the form of fish remains, pellets (birds), regurgitation and faeces (birds and seals). However, in the general context of the Antarctic marine ecosystem, krill (Euphausia superba) plays the central role in the food web because it is the main food source in terms of biomass for most of the high level predators from demersal fish up to whales. This has no obvious equivalent in other marine ecosystems. In Antarctic offshore coastal and oceanic waters the greatest proportion of energy from the ecosystem is transferred to land directly through krill consumers, such as flying birds, penguins, and seals. Beside krill, the populations of fish in the Antarctic Ocean are the second most important element for higher predators, in particular the energy-rich pelagic Myctophidae in open waters and the pelagic Antarctic silver fish (Pleuragramma antarcticum) in the high Antarctic zone. Although the occurrence of these pelagic fish inshore has been poorly documented, their abundance in neritic waters could be higher than previously believed.

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