A Stakeholder Analysis of the Creation of High Seas Marine Protected Areas within the Antarctic Treaty System

Sovacool, Kelly Elizabeth

08 May 2009

This study evaluates the utility of stakeholder analysis for understanding the relationships among actors involved in creating a marine protected area (MPA) in the Southern Ocean. It relies on the Australian Centre of Excellence on Risk Analysis (ACERA) method of critical stakeholder analysis, a concise, step-by-step model to identify stakeholders, assess their perceptions and values, and reveal power relations. The study uses the first two steps of the ACERA method to analyze stakeholders—in this case individuals speaking on behalf of organizations—within the Australian delegation of the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) concerning the establishment of an MPA in the Southern Ocean. The study reveals both benefits and weaknesses in the ACERA method. It also portrays conflicting views among these stakeholders, and that the process of identifying and analyzing stakeholder interests is highly complex and dynamic. / Master of Science

Antarctica

Marine Protected Areas

Stakeholder Analysis

Monthly Antarctic Sea Ice Extent Variability Since 1957 From Reconstructions andObservations

Waters, Beatrice K.

05 June 2023

No description available.

Geography

Atmospheric Sciences

Antarctica

sea ice

reconstructions

Fe and Nutrients in Coastal Antarctic Streams: Implications for Marine Primary Production in the Ross Sea

Olund, Sydney A.

10 August 2017

No description available.

Geochemistry

Iron biogeochemistry

nutrients

Antarctica

primary productivity

Fault Geometry and Kinematics within the Terror Rift, Antarctica

Blocher, William Burke

January 2017

No description available.

Earth

Terror Rift

Antarctica

rift

tectonics

faulting

The Representation of Low Cloud in the Antarctic Mesoscale Prediction System

Pon, Karen

January 2015

No description available.

Atmospheric Sciences

cloud

antarctica

numerical weather prediction

Spatial and temporal dynamics of three East Antarctic outlet glaciers and their floating ice tongues

Wuite, Jan

16 November 2006

No description available.

Glaciology

Remote Sensing

Antarctica

Glacier dynamics

GEODESY IN ANTARCTICA: A PILOT STUDY BASED ON THE TAMDEF GPS NETWORK, VICTORIA LAND, ANTARCTICA

Vazquez Becerra, Guadalupe Esteban

31 August 2009

No description available.

Geology

Geophysics

GPS

GEODESY

ANTARCTICA

TAMDEF

Analysis of Antarctic Crustal Motion Using Remote Sensing and GPS Data: Applications to Ice Mass Change Studies

Konfal, Stephanie Ann

22 June 2012

No description available.

Geological

GPS

paleoshorelines

GIA

Antarctica

crustal deformation

Ecology of algal mats and their role in the formation of stromatolites in Antarctic dry valley lakes

Wharton, Robert A.

January 1982

Algal mats comprised primarily of Phormidium frigidum Fritsch, Lyngbya martensiana Menegh., and several species of pennate diatoms are found in the below-ice benthic regions of Lakes Bonney, Chad, Hoare, Fryxell, and Vanda, southern Victoria Land, Antarctica. Mats are also found in the littoral moats and ice-covers of several lakes, and in cryoconite holes on Canada Glacier. Variations in temperature, light, oxygen, salinity, and nutrient levels between lakes and different habitats in the same lake result in differences in species composition, morphology, biomass, and photosynthetic pigment content of the mats. Algal mats are trapping and binding sediment, and precipitating minerals, particularly calcite. Mats are removing organic and inorganic matter from the arheic lakes via transfer through the icecovers or by incorporation into the sediments. Some of the algal mats are laminated, organosedimentary structures and can be considered stromatolitic. Depending upon ambient and subsequent environmental conditions non-columnar, columnar, and pinnacle-shaped stromatolites are forming, some of which are partially lithified. If environmental variables (i.e. low light intensity, lack of burrowers or browsers, and relative lack of turbulence) associated with these stromatolites do not vary significantly, it is probable that they may result in a lacustrine carbonate sedimentary deposit. / Ph. D.

LD5655.V856 1982.W527

Stromatolites

Paleobotany -- Antarctica

Diverse groups of fungi are associated with plastics in the surface waters of the Western South Atlantic and the Antarctic Peninsula

18 February 2021

Yes / Marine plastic pollution has a range of negative impacts for biota and the colonization of plastics in the marine environment by microorganisms may have significant ecological impacts. However, data on epiplastic organisms, particularly fungi, is still lacking for many ocean regions. To evaluate plastic associated fungi and their geographic distribution, we characterised plastics sampled from surface waters of the western South Atlantic (WSA) and Antarctic Peninsula (AP), using DNA metabarcoding of three molecular markers (ITS2, 18S rRNA V4 and V9 regions). Numerous taxa from eight fungal phyla and a total of 64 orders were detected, including groups that had not yet been described associated with plastics. There was a varied phylogenetic assemblage of predominantly known saprotrophic taxa within the Ascomycota and Basidiomycota. We found a range of marine cosmopolitan genera present on plastics in both locations, i.e., Aspergillus, Cladosporium, Wallemia and a number of taxa unique to each region, as well as a high variation of taxa such as Chytridiomycota and Aphelidomycota between locations. Within these basal fungal groups we identified a number of phylogenetically novel taxa. This is the first description of fungi from the Plastisphere within the Southern Hemisphere, and highlights the need to further investigate the potential impacts of plastic associated fungi on other organisms and marine ecosystems. / Conselho Nacional de Desenvolvimento Científico e Tecnológico. Grant Numbers: 407889/2013‐2, PQ 310597/2018‐8, PQ 312470/2018‐5, SWE 206250/2017‐7. Programa de Excelênca Acadêmica – PROEX. University of Salford Career Development Fellowship. Chevron Brasil Upstrem Frade Ltda. Brazilian Interministerial Commission for the Resources of the Sea (CIRM).

Antarctica

DNA metabarcoding

Fungi

Marine

Plastics

Plastisphere