South Island robin

South Island robin
South Island robin (Petroica australis)
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Passeriformes
Family: Petroicidae
Genus: Petroica
Species: P. australis
Binomial name
Petroica australis
Sparrman, 1788

The South Island robin (Petroica australis), is a sparrow-sized bird found only in New Zealand, where it has the status of a protected endemic species. The birds are sparsely distributed through the South Island and Stewart Island/Rakiura, although the distribution is not continuous. The nominate, and the Stewart Island robin (P. australis rakiura) are the two subspecies. The species is closely related to the North Island robin (formerly P. australis longipes, now considered a distinct species [2]), and also to the extremely rare black robin (P. traversi) of the Chatham Islands.

Description

The South Island robin is a small passerine, 10–18 cm in length and weighing around 35 g. North Island robins do resemble both females and juveniles of the South Island robins, as well as all the Stewart Island robins, which can sometimes make it difficult to distinguish between the three. The females and juveniles within a particular group of robins look similar to each other, although newly independent juveniles may not yet have the more lightly colored breast patch.[3] However, North Island males are almost black with a white spot just above the beak as well as the grayish-white lower breast. Females and juveniles are grayer with more variable pale patches on their breasts and throats. South Island males are dark gray except for the distinct yellowish white lower chest, while females and juveniles are again lighter gray with a less distinct breast. Finally, Stewart Island robins look similar to North Island robins (males and females).[1]

New Zealand robins are relatively long-lived; life-spans of at least 14 years have been recorded in the wild.[4]

Taxonomy

South Island robin

The South Island robin has two subspecies: P. australis australis, the nominate form, and P. australis rakiura, the Stewart Island robin. These subspecies do not overlap in distributions. The North Island robin (P. longipes), the tomtit (Petroica macrocephala) and the black robin (Petroica traversi) in the Chatham Islands are closely related species. P. traversi seems to be a Chatham Island derivative of P. australis, although the position of the most recent common ancestor has yet to be determined.[2] The family Petroicidae of Australo-Papuan robins has a total of 44 species in Australia, New Zealand, and New Guinea.

Fossil record

There is molecular phylogenetic evidence to suggest two waves of immigration by the Petroica genus from Australia. P. longipes and P. australis can be traced to the first and P. macrocephala to the second wave. The evidence suggests that the two species on the North and South (including Stewart) Islands of New Zealand began to diverge prior to and the two South Island subspecies after the Pleistocene era, with a separation time of about three million years for the former and of only 10,000 years (postglacial) for the latter. Fossils of New Zealand robins can sometimes be found near pit fall deposits, as they do most of their feeding/foraging on the ground.[5] The fossil record also indicates the robins’ presence throughout lowland New Zealand until drastic habitat reduction through deforestation by the Polynesian ancestors of the Māori and later European colonizers.[6]

Distribution

South Island robin, Southland District

Historically it inhabited much of lowland New Zealand's South Island, but its distribution has become much more patchy in the last century due to habitat loss and introduced predation.[6] The South Island robin has fared slightly better than the Stewart Island robin. There are two populations on the east coast of the Stewart Island,[7] and slightly more common in the north and west.[2] However, the Stewart Island robin has been relegated to 3 subpopulations, all of which are in Leptospermum swamp scrubland - although this is not their preferred habitat, it is less heavily populated by mammalian predators. Total population was lower than 500 individuals at one point.[8] A programme of translocation to predator-free islands (such as Ulva Island, Motuara Island, and Nukuwaiata Island) has since been instituted that has been relatively successful at establishing new populations (around 600 individuals on Motuara alone).[9] On the South Island, P. australis has a strong affinity for Douglas fir plantations rather than native forests (kanuka trees) or Monterey pine plantations, apparently due to forest structure rather than strict food availability or viable nesting sites, as the species prefers structurally simple forests with dense, even canopies, and ground covered with leaf litter.[6] When the population was introduced to Ulva Island, nesting was positively correlated with presence of broad-leaved coastal vegetation.[7]

Ecology

Feeding behaviour

Stewart Island robin

Invertebrates, including earthworms, beetles, and other arthropods foraged from the leaf litter comprise most of the South Island robins’ diet.[5] Invertebrate prey may be cached whole or in portions. Single items are cached at separate sites. Prey is typically stored within 10 meters of where it was procured, even if the bird is outside its own territory. In the winter the primary cache is earthworms, while during the summer the trend is toward cicadas. South Island robins have a very good memory of their storage sites; a male was observed to empty as many as five consecutive caches before returning the stores to his mate during incubation.[10] The birds have demonstrated an ability to differentiate and prioritize caches of varying sizes, up to 12 total items, without any training, which appears to be the highest recorded numerical competency of any wild animal.[11] Because of its high metabolic rate, a robin might spend as much as 90% of its day foraging or storing during the winter.[10] South Island robins have also been observed to eat berries on occasion, however these are not cached.[5]

Pair relations and breeding

South Island robins are genetically monogamous, and extra-pair paternity is rare. As they do typically remain monogamous, are non-migratory, and remain on their breeding territories year-round, a male and female in one territory will compete for food resources during non-breeding times. Competition is reduced somewhat by slightly different foraging methods, however they can and will steal from their mate’s cache if given the opportunity.[10] Males do dominate females, and thus will aggressively exclude females from food, such that females will only access food sources when unattended by the males.[12] During breeding season, the female is solely responsible for nest building and incubation, and the male will provide the female and the hatchlings with food.[3]

South Island robins become sexually mature between six and 12 months of age. They begin their breeding season fairly early in August or September (Southern Hemisphere spring) and thus can make use of the winter's remaining food stores during this time.[10] They build open-cup nests in tree-forks or inside tree cavities.[7] Incubation lasts 18 days, and chicks leave the nest after 21 days. Five to 25 days after fledglings leave the nest, the pair may breed again. Modal clutch size is two eggs [4] with the expected inverse correlation between size and number of eggs.[13] Replacement clutches in the case of loss of eggs or nestlings to predation can be produced relatively rapidly, within 3–10 days.[3]

Vocalization

South Island robin

A male’s call during non-breeding season is a series of loud notes with descending frequency which start in rapid succession and finish slowly. During breeding season, the males resort to full song to court the females. Full song is a loud, clear, and continuous song which can last for more than 30 minutes with very brief pauses, and is typically sung from the canopy or an emergent tree.[3] Singing also appears to be performed as part of a strategic regulation of body mass. While robins sing during the dawn chorus as well as throughout the day, they seem to increase their singing according to food availability. When they have had more food, they will increase energetic behaviors such as singing in order to arrive at a strategic mass by dusk. Thus, even though two robins might begin the day with different weights, they will end the day with similar weights. A side effect of this behavior might be the showcasing of a particular male’s ability to sequester resources: the longer he sings, the more capable he is of finding food, and thus a better candidate for a mate.[14]

Conservation

The South Island robin is listed as being of least concern on the IUCN Red List.[1] However, the Stewart Island robin (Petroica australis rakiura) has gone through a couple of bottlenecked populations recently because of deforestation and habitat loss, as well as introduced predators such as rats, stoats, and feral cats.[7] Because of this sharp decline in the Stewart Island population, several attempts have been made to translocate the Stewart Island robin to other islands nearby where introduced predators do not exist or have been eradicated (see above. However, many of these translocations have involved 12 or fewer colonizing individuals, making inbreeding nearly unavoidable. This has led to some apparent immunocompetency issues as well as reproduction problems. On Motuara Island high rates of hatching failure as well as fewer clutches were observed.[9] Inbreeding and its genetic and immunological consequences therefore remain a concern with this subspecies.

In contrast, birds on the South Island does not show much genetic loss in comparison with historical populations, although its distribution on the island has become increasingly fragmented.[15]

South Island robins and 1080 poison

A number of robin deaths have been recorded as a result of accidental 1080 poisoning following pest control operations.[16] Most of these were associated with four specific operations in the 1980s that used poor-quality carrot baits.[17] These instances aside, robins have generally responded well to pest control programmes using aerial 1080 operations, with increased chick and adult survival, and increases in population size.[18] A 2012 scientific study of a marked population by the University of Otago during a contemporary 1080 poison operation using cereal baits showed no negative impact on robins and suggested a likely population increase by reducing predation pressure from introduced mammals.[19]

References

  1. 1 2 3 BirdLife International (2012). "Petroica australis". IUCN Red List of Threatened Species. Version 2013.2. International Union for Conservation of Nature. Retrieved 26 November 2013.
  2. 1 2 3 Miller, Hilary C.; Lambert, David M. (2006). "A molecular phylogeny of New Zealand's Petroica (Aves: Petroicidae) species based on mitochondrial DNA sequences". Molecular Phylogenetics and Evolution. 40 (3): 844–855. doi:10.1016/j.ympev.2006.04.012.
  3. 1 2 3 4 Powlesland, R. G. (1997). Protocols for monitoring New Zealand robins: Petroica australis. Department of Conservation Technical Series. 13. New Zealand Department of Conservation.
  4. 1 2 Taylor, S. S.; Jamieson, I. G.; Wallis, G. P. (2007). "Historic and contemporary levels of genetic variation in two New Zealand passerines with different histories of decline". Journal of Evolutionary Biology. 20 (5): 2035–2047. doi:10.1111/j.1420-9101.2007.01362.x.
  5. 1 2 3 Worthy, Trevor H.; Holdaway, Richard N. (2002). "Shorebirds, Parrots and Passerines". The Lost World of the Moa. pp. 410–440.
  6. 1 2 3 Borkin, K. M.; Goodman, A. J.; Mayhew, K.; Smith, E. (2007). "South Island robin (Petroica australis australis) abundance and leaf-litter invertebrates in plantation and native forest". Notornis. 54 (2): 65.
  7. 1 2 3 4 Steffens, K. E.; Seddon, P. J.; Mathieu, R.; Jamieson, I. G. (2005). "Habitat selection by South Island saddlebacks and Stewart Island robins reintroduced to Ulva Island". New Zealand Journal of Ecology. 2005: 221–229.
  8. Laws, R. J.; Jamieson, I. G. (2011). "Is lack of evidence of inbreeding depression in a threatened New Zealand robin indicative of reduced genetic load?". Animal Conservation. 14 (1): 47–55. doi:10.1111/j.1469-1795.2010.00388.x.
  9. 1 2 Hale, K. A.; Briskie, J. V. (2007). "Decreased immunocompetence in a severely bottlenecked population of an endemic New Zealand bird.". Animal Conservation. 10 (1): 2–10. doi:10.1111/j.1469-1795.2006.00059.x.
  10. 1 2 3 4 Powlesland, R. G. (1980). "Food-Storing Behavior of the South Island Robin". Mauri Ora. 8: 11.
  11. Hunt, Simon; Low, Jason; Burns, K.C. (2008). "Adaptive numerical competency in a food-hoarding songbird". Proceedings of the Royal Society of London B: Biological Sciences. 275 (1649): 2373–2379. doi:10.1098/rspb.2008.0702.
  12. Steer, Jamie; Burns, KC (2008). "Seasonal variation in male-female competition, cooperation and selfish hoarding in a monogamous songbird". Behavioral Ecology and Sociobiology. 62 (7): 1175–1183. doi:10.1007/s00265-008-0546-z.
  13. Boulton, Rebecca L; Powlesland, Ralph G. (2008). "Variation in egg size and nest survival with female age in the South Island Robin Petroica australis". Ibis. 150 (4): 824–828. doi:10.1111/j.1474-919x.2008.00853.x.
  14. Barnett, Craig A.; Briskie, James V. (2011). "Strategic Regulation of Body Mass and Singing Behavior in New Zealand Robins". Ethology. 117 (1): 28–36. doi:10.1111/j.1439-0310.2010.01844.x.
  15. Taylor, S. S.; Boessenkool, S.; Jamieson, I. G. (2008). "Genetic monogamy in two long‐lived New Zealand passerines". Journal of Avian Biology. 39 (5): 579–583. doi:10.1111/j.0908-8857.2008.04331.x.
  16. Spurr, E. (2000). "Impacts of possum control on non-target species". In T.L. Montague. The brushtail possum: biology, impact and management of an introduced marsupial. Lincoln: Manaaki Whenua Press.
  17. "Evaluating the use of 1080: Predators, poisons and silent forests". Parliamentary Commissioner for the Environment. June 2011. Retrieved 7 June 2011.
  18. Powlesland, R. G.; Knegtmans, J. W.; Marshall, I. S. J. (1999). "Costs and benefits of aerial 1080 possum control operations using carrot baits to North Island robins (Petroica australis longipes), Pureora Forest Park" (PDF). New Zealand Journal of Ecology. 1999: 149–159.
  19. TVNZ (22 April 2012). "Study finds 1080 has positive effect on bird population". TVNZ. Retrieved 26 April 2012.
This article is issued from Wikipedia - version of the 11/30/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.