Taxonomy
The pygmy blue whale formed from a founder group of Antarctic blue whales about 20,000 years ago, around theDescription
According to observations made since the subspecies was first described in 1966, the pygmy blue whale differs from the "true" blue whales in a number of physical characteristics. It has: *broader and shorter baleen plates *a shorter tail, and hence a proportionately longer body in front of the dorsal fin *a larger head relative to body size *a heavier body weight compared to other blue whales of the same length Pygmy blue whales reach sexual maturity at 10 years of age and a length of , weighing on average . As adults, males average and females , with most probably between . The calculated average weight is for males and for females. A whale at the maximum known size of would weigh in the range of . The shorter tail gives the pygmy blue whale more of a tadpole-like shape, and reflects in differences in diving behavior: whereas in the "true" blues, there is a delay between the submergence of the dorsal fin and theRange
The pygmy blue whale is the only one of the three identifiable subspecies to be found regularly in tropical waters. It occurs from the sub-Antarctic zone to the southern Indian Ocean and southwestern Pacific Ocean, breeding in the Indian and South Atlantic oceans, and travelling south to above the Antarctic to feed, although they very rarely cross theForaging behaviour
The presence of pygmy blue whales is strongly linked to prey availability, with upwelling being a strong predictor. The pygmy blue whale feeds on krill that are more ephemeral and smaller in size, compared to the diet of the Antarctic blue whale.McCauley, R. D., Gavrilov, A. N., Jolliffe, C. D., Ward, R., & Gill, P. C. (2018). Pygmy blue and Antarctic blue whale presence, distribution and population parameters in southern Australia based on passive acoustics. Deep-Sea Research. Part II, Topical Studies in Oceanography, 157–158, 154–168. https://doi.org/10.1016/j.dsr2.2018.09.006 Conditions favourable for krill are created in the Perth Canyon area, which results in aggregations of euphausiid species, including krill.Jolliffe, C. D., McCauley, R. D., Gavrilov, A. N., Jenner, C., & Jenner, M. N. (2021). Comparing the acoustic behaviour of the eastern Indian Ocean pygmy blue whale on two Australian feeding grounds. Acoustics Australia, 49(2), 331–344. https://doi.org/10.1007/s40857-021-00229-2 This attracts pygmy whales while they are on their northern migration. Aggregations of their preferred krill are also found along the south eastern Australia “Bonney” coast during the late autumn and summer. This is where The Bonney Upwelling occurs, which results in cold, nutrient-rich waters coming up to the surface from the deep sea and submarine canyons, allowing krill to flourish. Pygmy blue whales are attracted to the Bonney coast due to the abundance of krill, with three zones being utilised by them – the central, eastern, and western zone. At these areas of large krill aggregations, pygmy blue whales undertake feeding lunges and pass large amounts of seawater through the bristles of their baleen plates to filter the water and capture prey.Davenport, A. M., Erbe, C., Jenner, M.-N. M., Jenner, K. C. S., Saunders, B. J., & McCauley, R. D. (2022). Pygmy blue whale diving behaviour reflects song structure. Journal of Marine Science and Engineering, 10(9), 1227-. https://doi.org/10.3390/jmse10091227Diving behaviour
The migratory dives of pygmy blue whales minimise energy expenditure by maintaining the bottom depth to where wave drag is minimised.Owen, K., Jenner, C. S., Jenner, M. N. M., & Andrews, R. D. (2016). A week in the life of a pygmy blue whale: Migratory dive depth overlaps with large vessel drafts. Animal Biotelemetry, 4(1). https://doi.org/10.1186/s40317-016-0109-4 This is just below the depth threshold of where the effect of surface drag on the whale is removed. It allows the whale to save energy and maximise horizontal movement by keeping drag at a minimum and staying close to the surface for air supply. This strategy places them at a higher risk of ship strike, as the range of their migratory dives overlaps with those of large container ship drafts, which is less than 24m. Along with migratory dives, they perform feeding dives, which include a lunge, and exploratory dives, which are relatively deep dives that do not include a lunge. Feeding dives: Mean maximum depth: 129 ± 183 m. Mean dive duration: 7.6 min. Maximum dive duration: 17.5 min. Migratory dives: Mean bottom depth of migratory dives: 14 ± 4 m. Mean dive duration: 5.2 min. Maximum dive duration: 26.7 min. Exploratory dives: Mean maximum depth: 107 ± 81 m. Mean dive duration: 8.6 min. Maximum dive duration: 22.05 min. Pygmy blue whales spend over 90% of their time in the top 24m of the water column, and the mean depth is less than 24m for 99% of their migratory dives. Their diving behaviour also reflects the structure of their songs, with them commonly performing depth undulations that coincide with song production patterns.Acoustic behaviour
Pygmy blue whale populations can be differentiated acoustically, with each producing calls with slight differences. Leroy, E. C., Royer, J. Y., Alling, A., Maslen, B., & Rogers, T. L. (2021). Multiple pygmy blue whale acoustic populations in the Indian Ocean: whale song identifies a possible new population. Scientific Reports, 11(1), 8762–21. https://doi.org/10.1038/s41598-021-88062-5 They do not show any other morphological differences, and genetic data is limited. Three of the four distinct call types attributed to blue whales in the Indian Ocean are attributed to pygmy whales. These were first recorded in Madagascar, Sri Lanka, and Australia. In 1984, the Sri Lanka call was first recorded, with the Madagascar call being recorded following this, in 1996. The most common call type was the Sri Lanka call.Stafford, K. M., Chapp, E., Bohnenstiel, D. R., & Tolstoy, M. (2011). Seasonal detection of three types of “pygmy” blue whale calls in the Indian Ocean. Marine Mammal Science, 27(4), 828–840. https://doi.org/10.1111/j.1748-7692.2010.00437.x There are differences in the three call types regarding frequency content and modulation, as well as the number of units, which suggests how these are from three distinct ‘acoustic populations.' The calls are composed of units, which are sections of the song separated by a period of silence. The call of the Madagascan pygmy blue whale has two units, and the call of the Sri Lankan pygmy blue whale has three units. The most complex call is of the Australian pygmy blue whale, which is considered to be three units with several variations in the order of the units. The function of the calls has been related to the prevention of interbreeding between different populations.Truong, G., & Rogers, T. L. (2023). La Niña conditions influence interannual call detections of pygmy blue whales in the eastern Indian Ocean. Frontiers in Marine Science, 9. https://doi.org/10.3389/fmars.2022.850162 It has also been related to helping with navigation, prey detection, and encouraging pair formation, as songs are detected year-round at high-latitude feeding areas. The whales are more vocally active during the night compared to the day. There are links to climate cycles affecting the behaviour of pygmy blue whales, with there being up to 10 times more directions of songs during La Niña compared to in neutral or El Nino years.Threats
The migratory route of pygmy blue whales goes through locations that come in contact with offshore oil and gas activities, fisheries, and shipping routes, which exposes them to the main threats of vessel collisions, entanglement in fishing gear, noise interferences, and pollution.Conservation status
The pygmy blue whale is covered by the Memorandum of Understanding for the Conservation of Cetaceans and Their Habitats in the Pacific Islands Region ( Pacific Cetaceans MOU). A new population of pygmy blue whales was discovered in the Indian Ocean in 2017, with the aid of nuclear bomb detectors. The Chagos population was determined to be undiscovered before by their unique song.Specimens
*MNZ MM002191, collected Motutapu Island, Hauraki Gulf, New Zealand, September 1994, now in Te Papa collection. *Skull, collected in New Caledonia, now at Maritime Museum of New Caledonia.Garrigue, Claire et alReferences
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