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New Zealand sea lion

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(Redirected from New Zealand Sea Lion) Species of carnivore

New Zealand sea lion
Male
Female with pup
Conservation status

Endangered  (IUCN 3.1)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Carnivora
Clade: Pinnipedia
Family: Otariidae
Subfamily: Otariinae
Genus: Phocarctos
Peters, 1866
Species: P. hookeri
Binomial name
Phocarctos hookeri
(Gray, 1844)
New Zealand sea lion range

The New Zealand sea lion (Phocarctos hookeri), once known as Hooker's sea lion, and as pakake (for both male and female) or whakahao (male) and kake (female) in Māori, is a species of sea lion that is endemic to New Zealand and primarily breeds on New Zealand's subantarctic Auckland and Campbell islands, and have in recent years been slowly breeding and recolonising around the coast of New Zealand's South and Stewart islands. The New Zealand sea lion numbers around 12,000 and is one of the world's rarest sea lion species. They are the only species of the genus Phocarctos.

Physiology and behaviour

See also: Pleistocene New Zealand sea lion

New Zealand sea lions are one of the largest New Zealand animals. Like all otariids, they have marked sexual dimorphism; adult males are 240–350 centimetres (7.9–11.5 ft) long and weigh 320–450 kilograms (710–990 lb), while adult females are 180–200 centimetres (5.9–6.6 ft) long and weigh 90–160 kilograms (200–350 lb). At birth, pups are 70–100 centimetres (2.3–3.3 ft) long and weigh 8–10 kilograms (18–22 lb); the natal pelage is a thick coat of dark brown hair that becomes dark gray with cream markings on the top of the head, nose, tail and at the base of the flippers. Adult females' coats vary from buff to creamy grey with darker pigmentation around the muzzle and the flippers. Adult males are blackish-brown with a well-developed black mane of coarse hair reaching the shoulders. New Zealand sea lions are strongly philopatric.

The New Zealand sea lion's terrestrial behaviour is unique among other pinniped species. In the breeding season, female New Zealand sea lions gradually move inland with their pups to protect them from harassment by males, wind, storms, and potential parasitic infections. They can move up to 2 kilometres (1.2 mi) inland, from sandy beaches to tall grasses, and into forests. They are the only pinniped species known to disperse far inland and have a preference for forests.

Distribution

The main breeding populations are at the Auckland and Campbell Islands in the New Zealand subantarctic, where approximately 99% of the species' annual pup production occurs. There are currently three functioning breeding rookeries on the Auckland Islands. Most sea lions are born on Dundas Island. A smaller rookery exists at Sandy Bay on Enderby Island and the smallest rookery is on Figure of Eight Island. An even smaller rookery at South East Point on Auckland Island appears to now have been abandoned. The other major breeding area is the Campbell Islands.

Historically, New Zealand sea lions were distributed all over mainland New Zealand and Stewart Island, but were extirpated from these areas due to human hunting activities. For the first time in over 150 years, sea lions began breeding again on the South Island coast in 1993, on the Otago Peninsula after Mum gave birth. Other small populations of breeding sea lions have recently begun to establish in various parts of the Stewart Island coastline and have been observed on the Catlins coast south of the Clutha River.

Recent DNA information indicates the New Zealand sea lion is a lineage previously restricted to subantarctic regions. Somewhere between 1300 and 1500 AD, a genetically distinct mainland lineage was wiped out by the first Maori settlers, and the subantarctic lineage has since then gradually filled the ecological niche. It has been inferred from middens and ancient DNA that a third lineage was made extinct at the Chatham Islands due to predation by the Moriori people.

Diet and predation

New Zealand sea lions are known to prey on a wide range of species including fish such as Antarctic horsefish and Patagonian toothfish, cephalopods (e.g. New Zealand arrow squid and yellow octopus), crustaceans, seabirds and other marine mammals, and even New Zealand fur seals. Studies indicate a strong location effect on diet, with almost no overlap in prey species comparing sea lions at Otago Peninsula and Campbell Island, at the north and south extents of the species' breeding range. New Zealand sea lions are in turn preyed on by great white sharks, with 27% showing evidence of scarring from near-miss shark attacks in an opportunistic study of adult New Zealand sea lions at Sandy Bay, Enderby Island.

Status

One of colonies on Enderby Island

New Zealand sea lions are considered the most threatened sea lion in the world. The species' status is largely driven by the main breeding population at the Auckland Islands, which declined by ~50% between 2000 and 2015. The 2013 sea lion pup production count on the Auckland Islands showed the number of pups born on the islands has risen to 1931, from the 2012 figure of 1684 (dead pups are also counted, since the annual pup count is used to assess the population of breeding females, but not future births when the counted pups mature). The 2013 number was the highest in five years. The Campbell Island population 'appears to be increasing slowly' and births here comprise ~30% of the species' total. The Otago and Stewart Island sea lion populations are currently small, though increasing. Population estimates for the whole species declined from ~15,000 in the mid-1990s to 9,000 in 2008 (based on the number of pups born).

In 2010, the Department of Conservation—responsible for marine mammal conservation—changed the New Zealand Threat Classification System ranking from Nationally Endangered to Nationally Critical. The Department of Conservation estimates that Auckland Islands' sea lions, nearly 80% of the total, could be functionally extinct by 2035. However, the New Zealand Ministry for Primary Industries considers research on which this prediction is based is low quality and 'should not be used in management decisions'. In 2015, the International Union for Conservation of Nature (IUCN) changed the classification of this species to "Endangered", based on low overall population size, the small number of breeding populations and the projected trend of the Auckland Islands breeding population.

In 2019, the New Zealand sea lion's status was found to have improved and they are now "Nationally Vulnerable". Their overall rate of population decline has slowed in most breeding locations and Stewart Island was officially recognised as a new breeding colony in 2018. Their global IUCN status remains "Endangered".

Sea lions on Aramoana in the Otago Harbour
With kayakers in Karitane Harbour
Female on Smaills Beach

Threats

Subsistence hunting and commercial sealing

Subsistence hunting and commercial harvest of sea lions greatly reduced the breeding range and population size of New Zealand sea lions between the 13th and 19th Centuries. In 1893, sealing for both New Zealand sea lions and New Zealand fur seals was prohibited by law in New Zealand.

Commercial fishery bycatch

In the 1990s, as the volume of squid fishing around the Auckland Islands increased, numbers of sea lions were captured as bycatch and drowned in the squid trawl nets. The government uses a modelling system to set a fishing-related mortality limit (FRML) each year. If the limit is predicted to be exceeded, the Minister of Primary Industries may close the fishery. The last time the FRML was exceeded was in 2000, though a number of closures occurred in the 1990s.

In late February 2013, the first observed sea lion mortalities in the Auckland Island squid fleet in three years occurred. Juvenile sea lions slipped through the grid at the opening of the net into its cod end. The 23-cm grid aperture is designed to hold adult sea lions in the SLED (sea lion exclusion device) and yet still allow squid to pass into the net. In 2013, one adult female was taken as incidental bycatch.

In August 2013, the seasonal southern blue whiting fleet captured 21 male sea lions in fishing grounds more than 100 km off the Campbell Islands. Four were released alive. No captures were reported by government observers the year before. The government responded to the captures by requesting the vessels try sea lion exclusion devices (SLEDs) to reduce this bycatch.

The estimated captures in the 2014 season were 11.58% of the FRML. The proportion of vessels in the Auckland Island squid fishery with government observers has increased over the years, providing independent reports of bycatch based on observation rather than computer model estimates. During the 2014 season, the observers' coverage was of 84% of tows. In the concluded 2014 season, two sea lions were reportedly captured in the fishery.

Sea lion exclusion devices

In 2001, the sea lion exclusion device (SLED) was introduced into the Auckland Island squid fishery to reduce sea lion bycatch. Conservation advocates have supported SLED use to protect other marine animals or sharks. Since 2007, all vessels in the Auckland Islands fishery have been equipped with SLEDs. Some scientists do not believe sea lions survive the interaction with a SLED, though the Ministry for Primary Industries (MPI) believes the direct effect of fishing-related mortality on the sea lion population is minimal. MPI has concluded that a sea lion has an 85% chance of escaping the SLED and a 97 per cent probability of surviving a SLED escape, though it says this estimate may be 'mildly pessimistic'.

Food limitation

Food availability is a well-known, major cause of population change in pinniped species. The Auckland Islands population has displayed numerous indicators of food limitation during the recent decline in breeder numbers, including: poor maternal condition, delayed maturation, years with very low pupping rate, low survival of pups born and long-term shifts in diet composition. Starvation was provisionally identified as cause of mortality for 62% of pups necropsied at Campbell Island in 2015, when 58% of all pups born were estimated to have died in the first month of life.

Disease

Though the Auckland Island sea lion pup production is highly variable, a decline trend for some years followed the outbreak of an introduced bacterial disease caused by a Campylobacter species in 1998 which killed an estimated 53% of newborn pups and 20% of adult females. In 2002, another probably introduced bacterial disease caused by Klebsiella pneumoniae killed 32% of pups, and in 2003 another 21% of the pups. Since 2002, K. pneumoniae bacteria have caused significant mortality in the sea lion pups at Enderby Island. Infected pups have meningitis, as well as sepsis. On 12 March 2014, the Conservation Minister Nick Smith was quoted as saying an "excessive focus on fishing bycatch" existed and 300 pups had died the previous summer from an as yet unidentified disease.

Mainland threats

The mainland population was estimated to reach 1000 animals by 2044, leading to issues of 'marine protected areas, local fishing quotas and numbers management'.

New Zealand sea lions are projected to potentially distribute all around mainland New Zealand, but they face potential human conflicts, especially due to their unique inland movement behaviour. New Zealand sea lions have been hit by cars on roads, and deliberately killed, harassed, and clubbed. There have also been incidents of disturbance from domestic dogs. Infrastructure such as roads and fences also pose as barriers to their inland movement. Females and pups on the mainland have also adapted to commercial pine plantations, which are privately-owned lands.

In order ensure the protection of New Zealand sea lions, the Department of Conservation works to engage with local communities and spread awareness on this species' recolonisation and behaviour.

See also

References

  1. ^ Chilvers, B.L. (2015). "Phocarctos hookeri". IUCN Red List of Threatened Species. 2015: e.T17026A1306343. doi:10.2305/IUCN.UK.2015-2.RLTS.T17026A1306343.en. Retrieved 19 November 2021.
  2. Scott-Fyfe, Rauhina. Mātauranga Māori Project on the New Zealand sea lion (Phocarctos hookeri) (PDF) (Report). Department of Conservation and Te Rūnanga o Ngāi Tahu. Retrieved 5 September 2023.
  3. ^ Frans, Veronica F.; Augé, Amélie A.; Fyfe, Jim; Zhang, Yuqian; McNally, Nathan; Edelhoff, Hendrik; Balkenhol, Niko; Engler, Jan O. (2022). "Integrated SDM database: Enhancing the relevance and utility of species distribution models in conservation management". Methods in Ecology and Evolution. 13 (1): 243–261. Bibcode:2022MEcEv..13..243F. doi:10.1111/2041-210X.13736. ISSN 2041-210X. S2CID 243893898.
  4. "New Zealand sea lion / rāpoka / whakahao". Department of Conservation. Retrieved 21 November 2021.
  5. "Biology of New Zealand sea lion". Department of Conservation. Retrieved 11 November 2021.
  6. Perrin, William. Encyclopedia of marine mammals.
  7. Chilvers, B. Louise; Wilkinson, Ian S. (19 August 2008). "Philopatry and site fidelity of New Zealand sea lions (Phocarctos hookeri)". Wildlife Research. 35 (5): 463–470. doi:10.1071/WR07053. ISSN 1448-5494.
  8. ^ Augé, Amélie; Chilvers; Moore; Mathieu; Robertson (1 January 2009). "Aggregation and dispersion of female New Zealand sea lions at the Sandy Bay breeding colony, Auckland Islands: How unusual is their spatial behaviour?". Behaviour. 146 (9): 1287–1311. doi:10.1163/15683909X427687. ISSN 0005-7959.
  9. ^ Augé, Amélie A.; Chilvers, B. Louise; Mathieu, Renaud; Moore, Antoni B. (2012). "On-land habitat preferences of female New Zealand sea lions at Sandy Bay, Auckland Islands". Marine Mammal Science. 28 (3): 620–637. Bibcode:2012MMamS..28..620A. doi:10.1111/j.1748-7692.2011.00515.x. ISSN 1748-7692.
  10. Frans, Veronica F.; Augé, Amélie A.; Edelhoff, Hendrik; Erasmi, Stefan; Balkenhol, Niko; Engler, Jan O. (2018). "Quantifying apart what belongs together: A multi-state species distribution modelling framework for species using distinct habitats". Methods in Ecology and Evolution. 9 (1): 98–108. Bibcode:2018MEcEv...9...98F. doi:10.1111/2041-210X.12847. ISSN 2041-210X. S2CID 91050320.
  11. "DoC: 7 March 2013, CSP Technical Working Group".
  12. ^ Childerhouse, S; Gales, N (1998). "Historical and modern distribution and abundance of the New Zealand sea lion Phocarctos hookeri". New Zealand Journal of Zoology. 25: 1–16. doi:10.1080/03014223.1998.9518131.
  13. ^ Graham-McLay, Charlotte (9 November 2021). "New Zealand's Sea Lions Are Back, and Crashing Golf Courses and Soccer Matches". The New York Times. ISSN 0362-4331. Retrieved 21 November 2021.
  14. "Biology of New Zealand sea lion". Department of Conservation. Archived from the original on 10 March 2024. Retrieved 10 March 2024.
  15. "Hungry for Answers". National Institute of Water and Atmospheric Research. May 2014.
  16. Wishart S.. Newcomers. The New Zealand Geographic
  17. "Research reveals New Zealand sea lion is a relative newcomer". Otago University. 14 May 2014. Archived from the original on 26 May 2014. Retrieved 14 May 2014.
  18. McFadgen, B.G. (March 1994). "Archaeology and Holocene sand dune stratigraphy on Chatham Island". Journal of the Royal Society of New Zealand. 24 (1). Royal Society of New Zealand: 17–44. Bibcode:1994JRSNZ..24...17M. doi:10.1080/03014223.1994.9517454.
  19. Rawlence, N. (2016). "Human-mediated extirpation of the unique Chatham Islands sea lion and implications for the conservation management of remaining New Zealand sea lion populations". Molecular Biology. 25 (16): 3950–3961. Bibcode:2016MolEc..25.3950R. doi:10.1111/mec.13726. PMID 27289078. S2CID 25866513.
  20. Childerhouse, S; Dix, B; Gales, N (2001). "Diet of New Zealand sea lion Phocarctos hookeri at the Auckland Islands". Wildlife Research. 26: 839–846. doi:10.1071/wr98079.
  21. Auge, A; Lalas, C; Davis, L; Chilvers, BL (2011). "Autumn diet of recolonising female New Zealand sea lions based at Otago Peninsula, South Island, New Zealand". New Zealand Journal of Marine and Freshwater Research. 46: 97–110. doi:10.1080/00288330.2011.606326.
  22. Roberts, J; Lalas, C (2015). "Diet of New Zealand sea lions (Phocarctos hookeri) at their southern breeding limits". Polar Biology. 38 (9): 1483–1491. Bibcode:2015PoBio..38.1483R. doi:10.1007/s00300-015-1710-3. S2CID 7836909.
  23. Robertson, Bruce C. "The population decline of the New Zealand sea lion" (PDF). Mammal Society: 2011. Archived from the original (PDF) on 5 February 2013. Retrieved 6 May 2013.
  24. "New Zealand sea lion". NZ Department of Conservation. Archived from the original on 18 January 2015. Retrieved 27 January 2009.
  25. "New Zealand sea lion research at the Auckland Islands 2014/15" (PDF). Department of Conservation. 2 July 2015. Retrieved 24 September 2015.
  26. "DoC: 7 March 2013m CSP Technical Working Group".
  27. "Seafood NZ: Auckland Island Sea Lion Pup Count Up For Second Year".
  28. Childerhouse, S (2015). Final Report: NZ sea lion research at Campbell Island-Motu Ihupuku, 2014/15 (Report). Blue Planet Marine.
  29. "Zero quota urged for sea lion". Radio New Zealand. 19 June 2010. Retrieved 20 June 2010.
  30. "New Zealand sea lion". WWF. Archived from the original on 22 January 2013. Retrieved 25 November 2012.
  31. "NZ sea lions facing extinction in 24 years—study". nzherald.co.nz. 11 January 2012. Retrieved 25 November 2012.
  32. ^ "SQUID (SQU6T) – FINAL ADVICE PAP" (PDF). New Zealand Ministry for Primary Industries. Archived from the original (PDF) on 25 October 2014.
  33. Baker, C. Scott (2019). Conservation status of New Zealand marine mammals, 2019. Laura J. Boren, Simon Childerhouse, Rochelle Constantine, Anton Van Helden, D. Lundquist, William Rayment. Wellington, New Zealand: Publishing Team, Department of Conservation. ISBN 978-1-988514-93-2. OCLC 1143283099.
  34. "First new NZ sea lion breeding colony in more than 150 years". www.doc.govt.nz. Retrieved 21 November 2021.
  35. "Accidental Sea Lion Captures Regretable". Ministry for Primary Industries.
  36. Ministry for Primary Industries, SQU6T Weekly Report for week ending 26 May
  37. ^ Ministry for Primary Industries, SQU6T Weekly Report for week ending 29 June
  38. "Sea lion bycatch in New Zealand trawl fisheries". Dragonfly Limited. Archived from the original on 20 December 2014. Retrieved 12 February 2013.
  39. Davidson, Issac (26 February 2013). "Plan to save feared predator delves into murky waters". NZ Herald.
  40. "Shock over accidental catch rates". 3 News. 13 February 2013.
  41. "Plan to end sea lion kill limit criticised". Otago Daily Times. 8 December 2011. Retrieved 22 February 2013.
  42. "Forest & Bird condemns 40% rise in sea lion quota". Forest & Bird. 19 December 2008. Archived from the original on 20 February 2012. Retrieved 27 January 2009.
  43. Trites, A; Donnely, C (2003). "The decline of Steller sea lions Eumetopias jubatus in Alaska: a review of the nutritional stress hypothesis". Mammal Rev. 33: 3–28. doi:10.1046/j.1365-2907.2003.00009.x.
  44. Auge, A (2010). Foraging ecology of recolonising female New Zealand sea lions around the Otago Peninsula, New Zealand (Ph.D. thesis). University of Otago. hdl:10523/1702.
  45. Roberts, J; Doonan, I (2014). NZ sea lion: demographic assessment of the causes of decline at the Auckland Islands—Part 2 correlative assessment (Report). Prepared by NIWA for the NZ Department of Conservation.
  46. Stewart-Sinclair, P (2013). The role of long-term diet change in the decline of the New Zealand sea lion population (M.Sc. thesis). Massey University. hdl:10179/5425.
  47. Childerhouse, S (2015). Final Report: NZ sea lion research at Campbell Island-Motu Ihupuku, 2014/15 (Report). Blue Planet Marine.
  48. Kate Mulcahy & Raewyn Peart (2012). Wonders of the Sea – the protection of New Zealand's marine mammals. New Zealand Environmental Defence Society. p. 320. ISBN 978-0-9876660-1-7.
  49. Roe, W.D.; Rogers, L.; Pinpimai, K.; Dittmer, K.; Marshall, J.; Chilvers, B.L. (April 2015). "Septicaemia and meningitis caused by infection of New Zealand sea lion pups with a hypermucoviscous strain of Klebsiella pneumoniae". Veterinary Microbiology. 176 (3–4): 301–308. doi:10.1016/j.vetmic.2015.01.019. PMID 25682024.
  50. Fox, Rebecca (12 March 2014). "300 sea lion pup deaths prompts search for answers". Otago Daily Times.
  51. Augé, A.A; A.B. Moore; B.L. Chilvers (2012). "Predicting interactions between recolonizing marine mammals and fisheries: defining precautionary management". Fisheries Management and Ecology. 19 (5): 426–433. Bibcode:2012FisME..19..426A. doi:10.1111/j.1365-2400.2012.00861.x.
  52. Lalas, C (2008). Clarkson; Kurian; Nachowitz; Rennie (eds.). "Recolonisation of Otago, southern New Zealand, by fur seals and sea lions: Unexpected patterns and consequences". Proceedings of the Conser-Vision Conference. University of Waikato: 1–15.
  53. Roberts, Jim (2015). Review of threats to the recovery of NZ sea lions and other otariid species (PDF). Wellington: National Institute of Water & Atmospheric Research Ltd. pp. 11–14.
  54. Mcconkey, S. D.; Mcconnell, H.; Lalas, C.; Heinrich, S.; Ludmerer, A.; Mcnally, N.; Parker, E.; Borofsky, C.; Schimanski, K.; Mcintosh, G. (2002). "A Northward Spread In The Breeding Distribution Of The New Zealand Sea Lion (Phocartos Hooeri)". Australian Mammalogy. 24 (1): 97–106. doi:10.1071/am02097. ISSN 1836-7402.
  55. Pannett, Rachel; Francis, Ellen (13 November 2021). "'Cheeky' sea lions are returning to New Zealand's shores — and locals are learning to share the coast". The Washington Post. Retrieved 21 November 2021.

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