Your search keyword '"Humpback Whales"' showing total 8 results

1. Occurrence and Distribution of Fin Whales (Balaenoptera physalus) and Humpback Whales (Megaptera novaeangliae) in the Atlantic Sector of Antarctica.

Author

Chernetsky, A. D., Chukmasov, P. V., Krasnova, V. V., Tretiakov, A. V., Tretiakova, L. G., Bitiutskiy, D. G., Mosharov, S. A., and Salyuk, P. A.

Subjects

*WHALES, *WATER depth, *HUMPBACK whale, *KRILL, *CETACEA

Abstract

Abstract—The occurrence and distribution of fin whales and humpback whales along the route of the R/V Akademik Mstislav Keldysh in the Atlantic sector of Antarctica in January and February 2022 were studied. The features of the whales' distribution were considered depending on the depth of the water area, the abundance and age of krill, and the Chl-a concentration in the water. The highest occurrence of fin whales was found in the deep waters of the Powell Basin and the Orkney Trench, where the highest concentrations of adult krill were recorded. The highest occurrence of humpback whales was observed in shallow Bransfield Strait, where small and young krill predominated. The dependence of the occurrence of whales on the concentration of chlorophyll was not confirmed. [ABSTRACT FROM AUTHOR]

Published

2023

2. From the Antarctic Peninsula to eastern Australia: the longest migration of a humpback whale through the South Pacific Ocean.

Author

Acevedo, Jorge, Aguayo-Lobo, Anelio, Beeman, Peta, Cheeseman, Ted, and Olavarría, Carlos

Subjects

*HUMPBACK whale, *PENINSULAS, *MATING grounds, *OCEAN, *LIVESTOCK breeding, *LIVESTOCK breeds

Abstract

Humpback whales (Megaptera novaeangliae) seasonally migrate between their corresponding breeding and feeding grounds; however, some individual whales deviate from this pattern migrating to different breeding or feeding grounds. Here, we report the first recorded movement of a humpback whale between the Antarctic Peninsula and the east coast of Australia. The individual whale, a known female, was identified by natural markings in the Antarctic Peninsula feeding area, and then photographed 15 years later in Byron Bay, on the eastern coast of Australia. This constitutes the longest migration for any humpback whale documented to date in the South Pacific Ocean and in the Southern Hemisphere (143° of longitude). Although the route is uncertain and the cues may be environmental, social or demographic, or some combinations thereof, this exceptional movement between two distant Breeding Stocks in the South Pacific Ocean demonstrates that longitudinal long-distance migrations among humpback whale populations do take place, at least occasionally, and perhaps may not be as atypical as it has been thought. [ABSTRACT FROM AUTHOR]

Published

2022

3. Temporal stability and mixed-stock analyses of humpback whales <italic>(Megaptera novaeangliae)</italic> in the nearshore waters of the Western Antarctic Peninsula.

Author

Albertson, G. R., Friedlaender, A. S., Steel, D. J., Aguayo-Lobo, A., Bonatto, S. L., Caballero, S., Constantine, R., Cypriano-Souza, A. L., Engel, M. H., Garrigue, C., Flórez-González, L., Johnston, D. W., Nowacek, D. P., Olavarría, C., Poole, M. M., Read, A. J., Robbins, J., Sremba, A. L., and Baker, C. S.

Subjects

HUMPBACK whale, WHALE migration, MITOCHONDRIAL DNA, WHALE populations

Abstract

Southern Hemisphere humpback whales breed in tropical waters and migrate to Antarctica to forage. While the breeding grounds are well defined, the population structure on Antarctic feeding grounds is poorly described. The Western Antarctic Peninsula (WAP) is of particular interest, where rapidly changing environmental conditions could alter prey distribution or migration pathways. To examine changes in the population of whales around the WAP, we used mitochondrial DNA (mtDNA) and 15 microsatellite loci. We compared our WAP dataset to a dataset collected 18 years earlier, and identified new haplotypes for the region, but found no significant difference between the datasets. We compared whales from the WAP to breeding populations in Oceania, Colombia, and Brazil. We used an Analysis of Molecular Variance to confirm significant genetic differentiation between the WAP and each breeding ground (overall FST = 0.035/0.007 mtDNA/microsatellite, p < 0.001) except Colombia. Bayesian mixed-stock analyses showed a large apportionment to Colombia (mtDNA 93.0%; CL 91–99%; microsatellites 86%; CL 72–93%) and a small apportionment to French Polynesia/Samoan Islands (mtDNA 2.9%; CL 0.0–11.5%; microsatellites 8.9%; CL 0–22%), supporting the strong connection between Colombia and the WAP. Assignment tests allocated 81 individuals to Colombia and two to French Polynesia/Samoan Islands. No other breeding grounds had significant apportionments. Direct connectivity of French Polynesia to the WAP was confirmed with the first genotype match of French Polynesia to a feeding area. Continued genetic monitoring will highlight the complex patterns of humpbacks in this rapidly changing climate. Our results serve as a baseline for humpback whale population structure, illustrate mixed-stock analysis as a useful tool for migrating wildlife, and aid in future management considerations for humpbacks. [ABSTRACT FROM AUTHOR]

Published

2018

4. Dynamic foraging of a top predator in a seasonal polar marine environment.

Author

Weinstein, Ben and Friedlaender, Ari

Subjects

*FORAGING behavior, *PREDATORY animal behavior, *HUMPBACK whale, *SEA ice, *EUPHAUSIA superba

Abstract

The seasonal movement of animals at broad spatial scales provides insight into life-history, ecology and conservation. By combining high-resolution satellite-tagged data with hierarchical Bayesian movement models, we can associate spatial patterns of movement with marine animal behavior. We used a multi-state mixture model to describe humpback whale traveling and area-restricted search states as they forage along the West Antarctic Peninsula. We estimated the change in the geography, composition and characteristics of these behavioral states through time. We show that whales later in the austral fall spent more time in movements associated with foraging, traveled at lower speeds between foraging areas, and shifted their distribution northward and inshore. Seasonal changes in movement are likely due to a combination of sea ice advance and regional shifts in the primary prey source. Our study is a step towards dynamic movement models in the marine environment at broad scales. [ABSTRACT FROM AUTHOR]

Published

2017

5. Observations of cetaceans in the south-east Atlantic sector of the Southern Ocean, during summer 2008.

Author

Nøttestad, L., Krafft, B., Søiland, H., and Skaret, G.

Subjects

CETACEA, HUMPBACK whale, OCEANOGRAPHIC observations, BATHYMETRY, SPATIAL distribution (Quantum optics)

Abstract

Knowledge of cetacean species composition and their distribution in the south-east Atlantic sector of the Southern Ocean is scarce. During a survey in February-March 2008, systematic whale sightings were carried out along transect lines following the 5° and 15° E meridians between 35° and 67° S. In total, 67 toothed whales and 126 baleen whales were observed. Both fin whales (four animals) and Antarctic minke whales Balaenoptera bonaerenses (three animals) in addition to 16 individuals of unidentified species were among the observed baleen whales. The dominating baleen whale species in our study was humpback whales Megaptera novaeangliae with 108 individuals observed. They occurred single or in groups up to seven individuals ( N = 2.5 ind) and eight of the counts were of calves. The relationship between humpback whale occurrence and environmental variables including Antarctic krill ( Euphausia superba) abundance from acoustic recordings, hydrography, bathymetry and production was tested using general additive models. Only temperature increased the predictive power of the model with whale occurrence increasing with the decreasing temperature in more southern areas. [ABSTRACT FROM AUTHOR]

Published

2014

6. Age-related multi-year associations in female humpback whales ( Megaptera novaeangliae).

Author

Ramp, Christian, Hagen, Wilhelm, Palsbøll, Per, Bérubé, Martine, and Sears, Richard

Subjects

HUMPBACK whale behavior, ANIMAL sexual behavior, PERMUTATIONS, PREDATION

Abstract

nalyses of social structures in baleen whales are rare, and so far, they are thought to consist of mostly short and unstable associations. We investigated the association patterns of individual humpback whales from a summer feeding aggregation in the Gulf of St. Lawrence from 1997 to 2005. Photo-identified animals were sexed using genetic methods and were grouped into five categories: juvenile males/females, mature males and lactating/non-lactating females. We calculated half-weight association indices within and between the groups and found that 45% of the observation showed single animals and another 45% small groups (two to three) consisting mainly of mature animals besides lactating females. Using permutation tests, we found evidence for long-term associations between mature males and non-lactating females as well as among non-lactating females. Standardised lagged association rates revealed that these male-female groups disassociated quickly over about 2 weeks, whereas associations increased again towards the beginning of the breeding season. Non-lactating females of similar age engaged in multi-seasonal stable pairs for up to six consecutive feeding seasons; no mature male-female association was observed in consecutive years. The females with the most stable and long-term associations also had the highest reproductive output. While the risk of predation could not explain these long-term bonds, feeding cooperation seemed the most plausible explanation for group forming behaviour during the summer months. [ABSTRACT FROM AUTHOR]

Published

2010

7. The effects of prey demography on humpback whale ( Megaptera novaeangliae) abundance around Anvers Island, Antarctica.

Author

Friedlaender, Ari S., Fraser, William R., Patterson, Donna, Qian, Song S., and Halpin, Patrick N.

Subjects

BALEEN whales, ADELIE penguin, KRILL fisheries, PREDATION, ECOLOGY of predatory animals

Abstract

Baleen whales and Adelie penguins in the near-shore waters around the Antarctic Peninsula forage principally on Antarctic krill. Given the spatial overlap in the distribution of these krill predators (particularly humpback whales) and their dependence on krill, the goals of this paper are to determine if the inter-annual community structure and relative abundance of baleen whales around Anvers Island is related to krill demography and abundance, and if the potential exists for inter-specific interactions between Adelie penguins and baleen. We use whale sightings and prey data from both net tows and Adelie penguin stomach samples to correlate the abundance of humpback whales with krill demography and abundance from 1993 to 2001. We find significant relationships between whale abundance and the size–frequency distribution of krill targeted by Adelie penguins, as well as the foraging success of Adelie penguins. These findings suggest both krill predators share common prey preferences in the upper portions of the water column around Anvers Island. These findings highlight the need for better knowledge of baleen whale foraging ecology and inter-specific interactions with penguins, as sea ice and krill populations around the Antarctic Peninsula are affected by rapid changes in climate. [ABSTRACT FROM AUTHOR]

Published

2008

8. Prey densities and foraging of humpback whales, Megaptera novaeangliae.

Author

Dolphin, W.

Abstract

Analysis of simultaneous sonor scans from a surface vessel and film from a remotely operated underwater camera show that euphausiids form extremely dense micropatches upon which humpback whales feed. Krill densities were found to be several orders of magnitude greater than values previously reported from results of towed net samplings and were sufficiently dense to allow capture of the whales calculated minimum daily caloric requirements in a matter of several dives. Dive depth during foraging episodes can be predicted with a high degree of confidence from ventilatory, surfacing, and diving patterns of a whale. [ABSTRACT FROM AUTHOR]

Published

1987