Ectoparasites of Antarctic Seals and Birds

P(論文) The arthropod fauna decreases from the Subantarctic to the Antarctic, and many of the known species are ectoparasites of seals and birds. These comprise ticks, fleas, feather mites, respiratory mites and lice, both Mallophaga and Anoplura. Fleas and ticks are represented by species confined to...

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Bibliographic Details
Main Author: Murray, M.D.
Language:English
Published: 1967
Subjects:
Antarctic
New Zealand
The Antarctic
Weddell
Antarc*
Antarctica
Macquarie Island
Snow Petrels
Weddell Seal
Online Access:https://nipr.repo.nii.ac.jp/record/91/files/KJ00000000943.pdf
id ftnipr:oai:nipr.repo.nii.ac.jp:00000091
record_format openpolar
spelling ftnipr:oai:nipr.repo.nii.ac.jp:00000091 2024-09-09T19:07:08+00:00 Ectoparasites of Antarctic Seals and Birds Murray, M.D. 1967-02 application/pdf https://nipr.repo.nii.ac.jp/record/91/files/KJ00000000943.pdf eng eng Japanese Antarctic Research Expedition scientific reports. Special issue 1 185 191 AA00246775 https://nipr.repo.nii.ac.jp/record/91/files/KJ00000000943.pdf 1967 ftnipr 2024-06-17T04:04:30Z P(論文) The arthropod fauna decreases from the Subantarctic to the Antarctic, and many of the known species are ectoparasites of seals and birds. These comprise ticks, fleas, feather mites, respiratory mites and lice, both Mallophaga and Anoplura. Fleas and ticks are represented by species confined to the various Subantarctic islands south of South America or New Zealand, and by circumpolar species. One species of flea is probably circumpolar on Antarctica where it is found in the nests of silver grey fulmars and snow petrels. Most of the ecological studies have been confined to the fleas and ticks which infest penguins. Penguins can be heavily infested with the flea Parapsyllus magellanicus heardi and the tick Ixodes uriae on Macquarie Island. The severity of the infestations of each species of penguin is largely determined by their breeding and moulting behaviour. Most of the birds possess more than one species of louse, and penguins are no exception. The feathers of penguins trap an air blanket around the bird when it is swimming, so their lice can multiply whether the penguin is on land or in the sea. Consequently the ecology of penguin lice is probably not unlike that of other bird lice. The lice of seals differ greatly from other mammalian lice, and the lice of the elephant and weddell seal have been shown to multiply only when the seals are ashore. These lice are confined to the tail and flippers of the seal, parts of the body which are associated with thermoregulation. The fluctuations in blood supply and skin temperature of these regions afford more opportunities for the lice to breed when the seal is ashore, and to feed when the seal is at sea. departmental bulletin paper Other/Unknown Material Antarc* Antarctic Antarctica Macquarie Island Snow Petrels Weddell Seal National Institute of Polar Research Repository, Japan Antarctic New Zealand The Antarctic Weddell
institution Open Polar
collection National Institute of Polar Research Repository, Japan
op_collection_id ftnipr
language English
description P(論文) The arthropod fauna decreases from the Subantarctic to the Antarctic, and many of the known species are ectoparasites of seals and birds. These comprise ticks, fleas, feather mites, respiratory mites and lice, both Mallophaga and Anoplura. Fleas and ticks are represented by species confined to the various Subantarctic islands south of South America or New Zealand, and by circumpolar species. One species of flea is probably circumpolar on Antarctica where it is found in the nests of silver grey fulmars and snow petrels. Most of the ecological studies have been confined to the fleas and ticks which infest penguins. Penguins can be heavily infested with the flea Parapsyllus magellanicus heardi and the tick Ixodes uriae on Macquarie Island. The severity of the infestations of each species of penguin is largely determined by their breeding and moulting behaviour. Most of the birds possess more than one species of louse, and penguins are no exception. The feathers of penguins trap an air blanket around the bird when it is swimming, so their lice can multiply whether the penguin is on land or in the sea. Consequently the ecology of penguin lice is probably not unlike that of other bird lice. The lice of seals differ greatly from other mammalian lice, and the lice of the elephant and weddell seal have been shown to multiply only when the seals are ashore. These lice are confined to the tail and flippers of the seal, parts of the body which are associated with thermoregulation. The fluctuations in blood supply and skin temperature of these regions afford more opportunities for the lice to breed when the seal is ashore, and to feed when the seal is at sea. departmental bulletin paper
author Murray, M.D.
spellingShingle Murray, M.D.
Ectoparasites of Antarctic Seals and Birds
author_facet Murray, M.D.
author_sort Murray, M.D.
title Ectoparasites of Antarctic Seals and Birds
title_short Ectoparasites of Antarctic Seals and Birds
title_full Ectoparasites of Antarctic Seals and Birds
title_fullStr Ectoparasites of Antarctic Seals and Birds
title_full_unstemmed Ectoparasites of Antarctic Seals and Birds
title_sort ectoparasites of antarctic seals and birds
publishDate 1967
url https://nipr.repo.nii.ac.jp/record/91/files/KJ00000000943.pdf
geographic Antarctic
New Zealand
The Antarctic
Weddell
geographic_facet Antarctic
New Zealand
The Antarctic
Weddell
genre Antarc*
Antarctic
Antarctica
Macquarie Island
Snow Petrels
Weddell Seal
genre_facet Antarc*
Antarctic
Antarctica
Macquarie Island
Snow Petrels
Weddell Seal
op_relation Japanese Antarctic Research Expedition scientific reports. Special issue
1
185
191
AA00246775
https://nipr.repo.nii.ac.jp/record/91/files/KJ00000000943.pdf
_version_ 1809821189755895808

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