Age, sex and status of wandering albatrosses Diomedea exulans L. in Falkland Islands waters

Records (by a scientific observer on a longline fishing vessel around the Falkland Islands) of 86 different individually colour-banded wandering albatrosses from South Georgia, provide new insights into the use of the waters of the Patagonian shelf slope by birds from breeding grounds some 600 km to the south-east across the Antarctic Polar Front. Birds recorded were aged from 3–39 years, almost the full range (except 1 and 2 year olds) of South Georgia colour-banded birds, about 5% of whose colour-banded population was observed during the study. Immature birds (up to age 7 years) formed only 9% of the total; this may reflect relative absence from the area but might also relate to their subordinate status to adults at fishing vessels. Most birds seen were current breeders at South Georgia, including both sexes in the month prior to arrival on the breeding grounds (October), females during the pre-laying exodus (December) and both sexes during incubation (January) and throughout the main chick-rearing period (May, June, October). Only birds which had already failed were seen in the brooding period (March–April), when foraging trips are too short to reach the Falklands. Females outnumbered males in all these categories, supporting suggestions of different distributions of the sexes at sea during breeding. Birds of both sexes that had bred at South Georgia in the previous year were seen mainly between January and April. Birds that had not bred for at least three years were mainly males and mainly seen in January. These data indicate the importance of the waters near the Patagonian Shelf, especially around the Falklands, for wandering albatrosses from South Georgia, particularly breeding birds but also birds in their year(s) between breeding attempts. This is of particular relevance, given the globally threatened status of the species and the possibility of hydrocarbon exploitation in waters around the Falklands.

Download Full-text

Spatial and Temporal Variability in the Foraging Areas of Breeding King Penguins

The Condor ◽

10.1093/condor/104.3.528 ◽

2002 ◽

Vol 104 (3) ◽

pp. 528-538 ◽

Cited By ~ 5

Author(s):

Klemens Pütz

Keyword(s):

Foraging Strategies ◽

Falkland Islands ◽

Spatial And Temporal Variability ◽

Antarctic Polar Front ◽

Kerguelen Islands ◽

South Georgia ◽

Aptenodytes Patagonicus ◽

Antarctic Waters ◽

Islas Malvinas ◽

The Antarctic

Abstract King Penguins (Aptenodytes patagonicus) from breeding islands in the Indian Ocean (Crozet and Kerguelen Islands) and the Atlantic Ocean (South Georgia and Falkland Islands) were equipped with global location sensors to compare their foraging patterns during different times of the year. In summer, all birds investigated traveled toward the Antarctic Polar Front (APF), irrespective of whether they bred to the north (Crozet Islands, Falkland Islands), within (Kerguelen Islands) or to the south (South Georgia) of this hydrographic feature. Whereas most birds remained north of the APF and foraged in waters of the Antarctic Polar Frontal Zone, some penguins also traveled, or remained (South Georgia), south of the APF and foraged in Antarctic waters. It appeared that food resources in the vicinity of the APF were sufficiently predictable to warrant travel of several hundred km by King Penguins for foraging. Data collected on the winter distribution of King Penguins indicated at least two different foraging strategies. Birds from the oceanic Crozet Islands foraged beyond the APF in the Antarctic waters, whereas birds from the Falkland Islands relied also on the resources provided by the highly diverse and productive slope of the Patagonian Shelf. However, despite these differences, in both cases minimum distances of sometimes more than 10 000 km were covered. Further research on the foraging habitats of King Penguins over the entire breeding season and the temporal and spatial changes of oceanographic features is necessary to obtain a comprehensive picture on the variability in the foraging ranges of King Penguins. Variabilidad Espacial y Temporal en las Áreas de Forrajeo de Individuos Reproductivos de Aptenodytes patagonicus Resumen. Comparamos los patrones de forrajeo de individuos reproductivos de Aptenodytes patagonicus provenientes de las islas del Océano Índico (Islas Crozet y Kerguelen) y Océano Atlántico (Islas Georgia del Sur y Malvinas) durante diferentes períodos del año, equipando pingüinos con sensores de localización global. En el verano, todas las aves investigadas viajaron hacia el Frente Polar Antártico (FPA), independientemente de si se reprodujeron al norte (Islas Crozet, Islas Malvinas), en (Islas Kerguelen) o al sur (Islas Georgias del Sur) de aquella entidad hidrográfica. Aunque la mayoría de las aves permanecieron al norte del FPA y forrajearon en aguas de la Zona Polar Frontal Antártica, algunos pingüinos también viajaron hacia el sur del FPA y forrajearon en aguas antárticas. Al parecer los recursos alimenticios en el FPA fueron lo suficientemente predecibles como para justificar que los pingüinos viajen varios cientos de kilómetros para forrajear. Los datos colectados durante la distribución de invierno de A. patagonicus indicaron por lo menos dos estrategias de forrajeo diferentes. Las aves provenientes de las islas oceánicas Crozet forrajearon más allá del FPA en aguas antárticas, mientras que las aves provenientes de las Islas Malvinas dependieron además de los recursos que provee la diversa y productiva plataforma marítima patagónica. Sin embargo, a pesar de estas diferencias, en ambos casos a veces las aves cubrieron distancias mínimas de más de 10 000 km. Para obtener un panorama completo sobre la variabilidad en los rangos de forrajeo de A. patagonicus es necesario efectuar más investigaciones sobre los hábitats de forrajeo de estos pingüinos durante la totalidad de la época reproductiva y durante todos los cambios temporales y espaciales de las entidades hidrográficas.

Download Full-text

Distribution of short-finned squid Illex argentinus (Cephalopoda: Ommastrephidae) inferred from the diets of Southern Ocean albatrosses using stable isotope analyses

Journal of the Marine Biological Association of the United Kingdom ◽

10.1017/s0025315415000752 ◽

2015 ◽

Vol 96 (6) ◽

pp. 1211-1215 ◽

Cited By ~ 8

Author(s):

José Seco ◽

Gustavo A. Daneri ◽

Filipe R. Ceia ◽

Rui Pedro Vieira ◽

Simeon L. Hill ◽

...

Keyword(s):

Stable Isotope ◽

Southern Ocean ◽

Polar Front ◽

Antarctic Polar Front ◽

Stable Isotope Analyses ◽

Patagonian Shelf ◽

Illex Argentinus ◽

Shelf Region ◽

The Antarctic ◽

Isotope Analyses

The diets of marine predators are a potential source of information about range shifts in their prey. For example, the short-finned squid Illex argentinus, a commercially fished species on the Patagonian Shelf in the South Atlantic, has been reported in the diet of grey-headed, Thalassarche chrysostoma; black-browed, T. melanophris; and wandering, Diomedea exulans, albatrosses breeding at Bird Island, South Georgia (54°S 28°W) in the Southern Ocean. Tracking data suggest that these birds may feed on I. argentinus while foraging in Southern Ocean waters during their breeding season. This led to the hypothesis that I. argentinus may occur south of the Antarctic Polar Front. To test this hypothesis, we used stable isotope analyses to assess the origin of I. argentinus. We compared I. argentinus beaks from the diets of the three albatross species with beaks of cephalopod species endemic to the Patagonian Shelf and others from the Southern Ocean. Our results show that I. argentinus from the diet of albatrosses at Bird Island have δ13C values in the range −18.77 to −15.28‰. This is consistent with δ13C values for Octopus tehuelchus, a typical species from the Patagonian Shelf. In contrast, Alluroteuthis antarcticus, a Southern Ocean squid, has typically Antarctic δ13C in the range −25.46 to −18.61‰. This suggests that I. argentinus originated from warmer waters of the Patagonian Shelf region. It is more likely that the albatross species obtained I. argentinus by foraging in the Patagonian Shelf region than that I. argentinus naturally occurs south of the Antarctic Polar Front.

Download Full-text

Seabird mortality in longline fisheries around South Georgia

Polar Record ◽

10.1017/s0032247400023597 ◽

1993 ◽

Vol 29 (169) ◽

pp. 143-145 ◽

Cited By ~ 13

Author(s):

Janet Dalziell ◽

Maj De Poorter

Keyword(s):

Giant Petrel ◽

Population Declines ◽

South Georgia ◽

Diomedea Exulans ◽

Fishing Vessels ◽

Tasman Sea ◽

Southern Giant Petrel ◽

Breeding Grounds ◽

Longline Fisheries ◽

Incidental Mortality

Incidental mortality of Southern Ocean seabirds due to fishing activities well away from the breeding grounds has been implicated in the population declines of wandering albatross (Diomedea exulans) on South Georgia (Croxall and others 1990) and lies Crozet, black-browed albatross (Diomedea melanophris) on lies Kerguelen, and possibly the southern giant petrel (Macronectes giganteus) (Jouventin and Weimerskirch 1990). Albatrosses are particularly at risk from longline fisheries, based on the high proportion in recoveries of banded birds from longline fishing vessels off Brazil (Croxall and Prince 1990), and on direct observation of albatross during surface and midwater longline fishing for tuna in the Tasman Sea (Brothers 1991).

Download Full-text

Conservation in the Antarctic

Philosophical Transactions of the Royal Society of London Series B Biological Sciences ◽

10.1098/rstb.1977.0074 ◽

1977 ◽

Vol 279 (963) ◽

pp. 97-104 ◽

Cited By ~ 8

Keyword(s):

Southern Ocean ◽

Control Measures ◽

Falkland Islands ◽

Voluntary Agreement ◽

South Georgia ◽

Tristan Da Cunha ◽

Conservation Measures ◽

Antarctic Seals ◽

Antarctic Treaty ◽

The Antarctic

Formidable legal and administrative complexities arise from conflicting claims to jurisdiction and the continued absence of generally recognized sovereignty over much of the region. Existing conservation measures fall into three groups: elaborate laws made by governments claiming Antarctic territories, more restricted laws, and simple instructions for particular expeditions. The Antarctic Treaty, 1959, made it possible to begin coordinating all these separate instruments. No claimed jurisdiction has been surrendered or recognized: each government has started to harmonize its own control measures with the ‘Agreed Measures for the Conservation of Antarctic Fauna and Flora’, 1964. This scheme applied only to land areas and has since been evolving in the light of experience. Although not yet formally approved by all the governments concerned, it is working effectively by voluntary agreement. Different approaches are necessary for conservation of Southern Ocean resources, especially krill. A start has been made with the ‘ Convention for the Conservation of Antarctic Seals’, 1972. There are many outstanding problems: all require effective cooperation between scientific and legal advisers, diplomats and politicians. Mention is made of recent British conservation legislation for South Georgia, the Falkland Islands and the Tristan da Cunha group. Some of the next steps are outlined.

Download Full-text