Mehta,A.V.
How important are baleen whales as prey for killer whales (Orcinus orca) in high-latitude waters? PhD Thesis
2004.
Abstract | BibTeX | Tags: Alaska, Antarctic, Atlantic, Australia, baleen whales, Blue whale, blue whales, Gulf of Maine, Humpback Whale, humpback whales, killer whale, killer whales, New Caledonia, New Zealand, North Atlantic, North Atlantic right whale, North Pacific, Oman, Orca, Orcinus orca, population, prey, pygmy blue whale, Pygmy blue whales, right whale, right whales, whale, whales, whaling
@phdthesis{,
title = {How important are baleen whales as prey for killer whales (Orcinus orca) in high-latitude waters?},
author = {Mehta,A.V.},
year = {2004},
date = {2004-01-01},
number = {403},
pages = {1-15},
publisher = {Boston University},
abstract = {Data on humpback whales were collected from twenty-one regions: eleven in the North Atlantic and three in the North Pacific, as well as American Samoa, Vava'u (Tonga), New Zealand, New Caledonia, western Australia, the Antarctic Peninsula, and Oman. The other species and subspecies included in this project were sampled from a single population each (Fig. 1): North Atlantic right whales, blue whales off southeastern Australia, and pygmy blue whales (Balaenoptera musculus brevicauda) off western Australia. The proportion of whales in different sampling regions bearing rake marks ranged from 0% to over 40%. The Gulf of Maine population had a scarring rate of 9.9-11%, while SW Alaska had a rate of 21.1 to 21.9%. Oman had a rate of 9.1% (3 of 33 animals). The highest rate of scarring was the "Mexico" population with a scarring rate of over 40%. Of those scarred animals with multi-year sighting histories, 82.8% to 100% had those scars the first time they were sighted. Of the total number of whales sampled from these regions, 0% to only 4.8% acquired new or additional rake marks after their first sighting, supporting the hypothesis that most whales aquire their scars as calves, and that adult baleen whales do not constitute a major prey source for killer whales.Overall, the present study suggests that the hypothesis presented by Springer et al. (2003) - that killer whales in the North Pacific were forced by industrial whaling to switch prey from baleen whales to pinnipeds and sea otters - is untenable.},
keywords = {Alaska, Antarctic, Atlantic, Australia, baleen whales, Blue whale, blue whales, Gulf of Maine, Humpback Whale, humpback whales, killer whale, killer whales, New Caledonia, New Zealand, North Atlantic, North Atlantic right whale, North Pacific, Oman, Orca, Orcinus orca, population, prey, pygmy blue whale, Pygmy blue whales, right whale, right whales, whale, whales, whaling},
pubstate = {published},
tppubtype = {phdthesis}
}
Mikhalev,Y.A.
Humpback whales Megaptera novaeangliae in the Arabian Sea Journal Article
In: Marine Ecology Progress Series, vol. 149, no. 154, pp. 13-21, 1997.
Abstract | BibTeX | Tags: Antarctic, Arabian Sea, Distribution, Humpback Whale, humpback whales, India, Indian Ocean, length, megaptera novaeangliae, Northern Hemisphere, Oman, Pakistan, pathology, population, Population Biology, population identity, reproduction, whale, whales, whaling
@article{,
title = {Humpback whales Megaptera novaeangliae in the Arabian Sea},
author = {Mikhalev,Y.A.},
year = {1997},
date = {1997-01-01},
journal = {Marine Ecology Progress Series},
volume = {149},
number = {154},
pages = {13-21},
abstract = {The population identity of humpback whales Megaptera novaeangliae in the Arabian Sea has long been a matter of dispute. New information is presented from this region, based upon whaling and observations conducted by the Soviet Union, primarily in November 1966. In that month, a total of 238 humpbacks were killed off the coasts of Oman, Pakistan and northwestern India; 4 others were killed in 1965. Biological examination of these whales showed that they differed significantly from Antarctic humpbacks in terms of size, coloration, body scars and pathology. In addition, analysis of the length distribution of 38 foetuses indicates that the reproductive cycle of the Arabian Sea whales was unequivocally that of a northern hemisphere population. Mean lengths were 12.8 m for males (range: 9.5 to 14.9 m, n = 126) and 13.3 m for females (range: 9.5 to 15.2 m, n = 112). All whales 12.5 m or more in length were sexually mature. Among 97 females examined, 12 (12.4%) were immature. Of the 85 mature females, 39 (45.9%) were pregnant, 3 (3.5%) were lactating, and 43 (50.6%) were resting. A more plausible pregnancy rate, adjusted for underrepresentation of lactating females, was estimated at 39%. A majority of stomachs examined contained food, including euphausiids and fish. Overall, the data presented here argue strongly that Arabian Sea humpbacks constitute a discrete population which remains in tropical waters year-round, a situation which is unique for this species.},
keywords = {Antarctic, Arabian Sea, Distribution, Humpback Whale, humpback whales, India, Indian Ocean, length, megaptera novaeangliae, Northern Hemisphere, Oman, Pakistan, pathology, population, Population Biology, population identity, reproduction, whale, whales, whaling},
pubstate = {published},
tppubtype = {article}
}
Brock,J.C.,McClain,C.R.,Hay,W.W.
A southwest monsoon hydrographic climatology for the northwestern Arabian Sea Journal Article
In: Journal of Geophysical Research, vol. 97, no. 337, pp. 9455-9465, 1992.
Abstract | BibTeX | Tags: Antarctic, Arabian Sea, depth, oceanography, Oman, salinity, temperature, thermocline, Upwelling
@article{,
title = {A southwest monsoon hydrographic climatology for the northwestern Arabian Sea},
author = {Brock,J.C.,McClain,C.R.,Hay,W.W.},
year = {1992},
date = {1992-01-01},
journal = {Journal of Geophysical Research},
volume = {97},
number = {337},
pages = {9455-9465},
abstract = {This paper provides a detailed hydrographic climatology for the shallow northwestern Arabian Sea prior to and during the southwest monsoon, presented as multiple-year composite vertical hydrographic sections based on National Oceanographic Data Center historical ocean station data, Temperature and salinity measurements are used to infer the water masses present in the upper 500 m. The hydrographic evolution depicted on bimonthly sections is inferred to result from wind-driven physical processes. In the northwestern Arabian Sea the water mass in the upper 50 m is the Arabian Sea Surface Water. Waters from 50 to 500 m are formed by mixing of Arabian Sea Surface Water with Antarctic and Indonesian intermediate waters. The inflow of Persian Gulf Water does not significantly influence the hydrography of the northwestern Arabian Sea along the Omani coast. Nitrate has a high inverse correlation with temperature and oxygen in the premonsoon thermocline in the depth interval 5(}-150 m. During the southwest monsoon coastal upwelling off Oman and adjacent offshore upward Ekman pumping alter the shallow hydrography.},
keywords = {Antarctic, Arabian Sea, depth, oceanography, Oman, salinity, temperature, thermocline, Upwelling},
pubstate = {published},
tppubtype = {article}
}
IUCN
Cetaceans and cetacean research in the Indian Ocean Sanctuary Book Chapter
In: no. 391, pp. 1-287, UNEP, 1991.
BibTeX | Tags: Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling
@inbook{,
title = {Cetaceans and cetacean research in the Indian Ocean Sanctuary},
author = {IUCN},
year = {1991},
date = {1991-01-01},
journal = {UNEP marine Mammal Technical Report number 3},
number = {391},
pages = {1-287},
publisher = {UNEP},
keywords = {Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling},
pubstate = {published},
tppubtype = {inbook}
}
Leatherwood, S.,Donovan, G.P.
Cetaceans and cetacean research in the Indian Ocean Sanctuary Book Chapter
In: no. 397, pp. 1-287, UNEP, 1991.
BibTeX | Tags: Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling
@inbook{,
title = {Cetaceans and cetacean research in the Indian Ocean Sanctuary},
author = {Leatherwood, S.,Donovan, G.P.},
year = {1991},
date = {1991-01-01},
journal = {UNEP marine Mammal Technical Report number 3},
number = {397},
pages = {1-287},
publisher = {UNEP},
keywords = {Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling},
pubstate = {published},
tppubtype = {inbook}
}
Reeves,R.R.,Leatherwood,S.,Papastavrou,V.
Possible stock affinities of humpback whales in the northern Indian Ocean Book
UNEP, 1991.
Abstract | BibTeX | Tags: Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling
@book{,
title = {Possible stock affinities of humpback whales in the northern Indian Ocean},
author = {Reeves,R.R.,Leatherwood,S.,Papastavrou,V.},
year = {1991},
date = {1991-01-01},
journal = {Cetaceans and Cetacean Research in the Indian Ocean Sanctuary: Marine Mammal Technical Report Number 3},
number = {443},
pages = {259-269},
publisher = {UNEP},
abstract = {Records of humpback whales. Megaptera novaeangliae. in the northern Indian Ocean are compiled and evaluated to test various hypotheses concerning stock relationships. The conventional view that all humpbacks in this region are migrants from the Southern Hemisphere or, less likely, from the Pacific Ocean has been challenged recently by other authors. There is no reason to doubt that some Antarctic humpbacks cross the. Equator during their winter breeding migration northward. However, sightings in the northern Indian Ocean during the austral spring, summer and fall arc sufficiently frequent and widespread to support the hypothesis that some whales remain north of the Equator in the Indian Ocean year-round. Humpbacks appear to be present off Oman throughout the year, including relatively large concentrations, apparently feeding, during boreal summer/fall. We postulate that areas of cool, highly productive upwelling near the coast of Oman create conditions suitable for humpback feeding. The northern Indian Ocean is characterised by a virtual absence of modern commercial whaling and a paucity of cetacean research. As a result. evidence is insufficient to determine the relationships between stocks of humpbacks in the northern Indian Ocean and stocks of humpbacks elsewhere.},
keywords = {Antarctic, cetacean, cetaceans, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, migration, Oman, Pacific Ocean, sanctuaries, Southern Hemisphere, stocks, Upwelling, whale, whales, whaling},
pubstate = {published},
tppubtype = {book}
}
Small,J.A..,Small,G.J.
Cetacean observations from the Somali Democratic Republic, September 1985 through May 1987 Journal Article
In: CEtaceans and Cetacean Research in the Indian Ocean Sanctuary: UNEP - Marine Mammal Technical Report No.3, no. 476, pp. 179-210, 1991.
Abstract | BibTeX | Tags: Antarctic, Blue whale, bottlenose dolphin, Bryde's whale, cetacean, cetaceans, Common dolphin, dolphin, false killer whale, Gulf of Aden, Humpback Whale, humpback whales, Indian Ocean, killer whale, location, marine, megaptera novaeangliae, melon-headed whale, migration, occurrence, Oman, Pacific Ocean, Risso's dolphin, sanctuaries, Southern Hemisphere, sperm whale, Spinner dolphin, spotted dolphin, stocks, Striped dolphin, survey, trend, Upwelling, whale, whales, whaling
@article{,
title = {Cetacean observations from the Somali Democratic Republic, September 1985 through May 1987},
author = {Small,J.A..,Small,G.J.},
year = {1991},
date = {1991-01-01},
journal = {CEtaceans and Cetacean Research in the Indian Ocean Sanctuary: UNEP - Marine Mammal Technical Report No.3},
number = {476},
pages = {179-210},
abstract = {Two vessels operated along the Gulf of Aden and northern Indian Ocean coasts of Somalia from Aug. 1985 through May 1987. Their fishing activities carried them on a routine basis from Djibouti to the Horn of Africa and, on many cruises, into the Indian Ocean as far south as 8øN. The frequent and regular presence of these vessels afforded a unique opportunity for research since few previous surveys along the Somalian coast were transitory and/or of short duration. There were 398 sightings of cetaceans representing at least 14 species: blue whale, Bryde's whale, sperm whale, melon-headed whale, false killer whale, killer whale, short-finned pilot whale, Indo-Pacific humpback dolphin, common dolphin, bottlenose dolphin, Risso's dolphin, spotted dolphin, striped dolphin and spinner dolphin (NO humpback whales!!). Sightings locations and related environmental data are discussed. Some trends between years were seen in the occurrence and location of blue, killer and short-finned pilot whales.},
keywords = {Antarctic, Blue whale, bottlenose dolphin, Bryde's whale, cetacean, cetaceans, Common dolphin, dolphin, false killer whale, Gulf of Aden, Humpback Whale, humpback whales, Indian Ocean, killer whale, location, marine, megaptera novaeangliae, melon-headed whale, migration, occurrence, Oman, Pacific Ocean, Risso's dolphin, sanctuaries, Southern Hemisphere, sperm whale, Spinner dolphin, spotted dolphin, stocks, Striped dolphin, survey, trend, Upwelling, whale, whales, whaling},
pubstate = {published},
tppubtype = {article}
}
De Silva,P.H.D.H..
Cetaceans (whales, dolphins and porpoises) recorded off Sri Lanka, India, from the Arabian Sea and Gulf, Gulf of Aden and from the Red Sea Journal Article
In: Journal of the Bombay Natural History Society, vol. 84 , no. 357, pp. 505-525, 1987.
Abstract | BibTeX | Tags: Antarctic, Arabia, Arabian Gulf, Arabian Sea, behaviour, Blue whale, cetacea, cetacean, cetaceans, Delphinus tropicalis, dolphin, dolphins, fin whale, Gulf of Aden, Gulf of Oman, Humpback Whale, India, Indian Ocean, mammals, marine, migration, Neophocaena phocaenoides, Oceanic, Oman, Pakistan, Porpoise, Red Sea, sanctuaries, skull, Sri Lanka, stranding, Strandings, survey, whale, whales
@article{,
title = {Cetaceans (whales, dolphins and porpoises) recorded off Sri Lanka, India, from the Arabian Sea and Gulf, Gulf of Aden and from the Red Sea },
author = {De Silva,P.H.D.H..},
year = {1987},
date = {1987-01-01},
journal = {Journal of the Bombay Natural History Society},
volume = {84 },
number = {357},
pages = {505-525},
abstract = {Cetacea is a highly specialized oceanic group of mammals with several of its species undertaking long migrations, often exceeding thousand miles during a single journey. During these migrations from cold polar and subpolar seas to warmer tropical and subtropical waters and their return to polar seas in summer both individual and mass strandings have very often occurred in many parts of the world, including Sri Lanka, India and the Arabian Gulf. The Cetacean records dealt with in this paper are of countries which lie at the extreme southern margin of the vast land mass of Asia with no land other than a few islands and vast stretches of the Indian Ocean between them and the Antarctica. Sri Lanka, in view of her geographic position at the southern extremity of this vast land mass (5ø 55' and 9§51'N latitude and 79§41' and 81§ 54' E longitude) has become a passing point in the movement of oceanic species including the larger whales. It has been suggested by Deraniyagala (1945, 1960b) that the movement of larger species towards the tropics from the southern temperate zone is partly associated with the periodic influx of Antarctic water toward the tropics. It is however, now fairly established that several larger species such as the Blue whale, the Fin whale and the Humpback whale show a regular migratory cycle. The majority of strandings recorded in this paper deal with individual strandings. Nevertheless there have been instances of both mass stranding and of apparent suicidal behaviour. This paper deals with 30 Cetacean species from the region. Of these records, records from Sri Lanka total 23 species, from India 24 species, from Pakistan 17 species, from the Gulf of Oman 10 species, from the Arabian Gulf 9 species, from the Gulf of Aden 6 species and from the Red Sea 7 species. Reference is also made to a skull of Delphinus tropicalis van Bree in the Colombo Museum (Skull No. 15 B) which appears to be its first record from Sri Lanka. Mention is also made of a specimen of Neophocaena phocaenoides (G. Cuvier) collected from the Wadge Bank by the Smithsonian Carangid Survey Team in March 1970 and of two incomplete skeletons of Balaenoptera physalus (Linn‚) (probably mother and calf) in the Zoological Museum, King Saud University, Riyadh, Saudi Arabia. All these specimens were identified by me. It is evident from this study that our present knowledge of the Cetacean fauna of the Indian Ocean is far from complete and that much could be accomplished by scientific institutions in the countries in the region by diligently maintaining proper records of sightings and strandings (with photographs) and by undertaking joint study surveys. It is gratifying to note that Sri Lanka, in recent years has been making much headway in this regard. During the last few years the Tulip Expedition led by Dr. Hal Whitehead has been studying the larger whales, especially the larger whales off the east coast and Dr. Stephen Leatherwood Of Hubbs-Sea World Research Institute (Marine Science), San Diego, California has recently published (1985) a summary of available information on the Cetacea of the Indian Ocean Cetacean Sanctuary on behalf of the National Aquatic Resources Agency for Sri Lanka. It is hoped that the present paper will further stimulate interest among the scientific institutions in the region and help to increase our knowledge of a group of remarkable animals at least as far as the species which inhabit and visit our seas.has become a passing point in the movement of oceanic species including the larger whales. It has been suggested by Deraniyagala (1945, 1960b) that the movement of larger species towards the tropics from the southern temperate zone is partly associated with the periodic influx of Antarctic water toward the tropics. It is however, now fairly established that several larger species such as the Blue whale, the Fin whale and the Humpback whale show a regular migratory cycle. The majority of strandings recorded in this paper deal with individual strandings. Nevertheless there have been instances of both mass stranding and of apparent suicidal behaviour. This paper deals with 30 Cetacean species from the region. Of these records, records from Sri Lanka total 23 species, from India 24 species, from Pakistan 17 species, from the Gulf of Oman 10 species, from the Arabian Gulf 9 species, from the Gulf of Aden 6 species and from the Red Sea 7 species. Reference is also made to a skull of Delphinus tropicalis van Bree in the Colombo Museum (Skull No. 15 B) which appears to be its first record from Sri Lanka. Mention is also made of a specimen of Neophocaena phocaenoides (G. Cuvier) collected from the Wadge Bank by the Smithsonian Carangid Survey Team in March 1970 and of two incomplete skeletons of Balaenoptera physalus (Linn‚) (probably mother and calf) in the Zoological Museum, King Saud University, Riyadh, Saudi Arabia. All these specimens were identified by me. It is evident from this study that our present knowledge of the Cetacean fauna of the Indian Ocean is far from complete and that much could be accomplished by scientific institutions in the countries in the region by diligently maintaining proper records of sightings and strandings (with photographs) and by undertaking joint study surveys. It is gratifying to note that Sri Lanka, in recent years has been making much headway in this regard. During the last few years the Tulip Expedition led by Dr. Hal Whitehead has been studying the larger whales, especially the larger whales off the east coast and Dr. Stephen Leatherwood Of Hubbs-Sea World Research Institute (Marine Science), San Diego, California has recently published (1985) a summary of available information on the Cetacea of the Indian Ocean Cetacean Sanctuary on behalf of the National Aquatic Resources Agency for Sri Lanka. It is hoped that the present paper will further stimulate interest among the scientific institutions in the region and help to increase our knowledge of a group of remarkable animals at least as far as the species which inhabit and visit our seas. A key to the identification of the species recorded from the region is given in Appendix. },
keywords = {Antarctic, Arabia, Arabian Gulf, Arabian Sea, behaviour, Blue whale, cetacea, cetacean, cetaceans, Delphinus tropicalis, dolphin, dolphins, fin whale, Gulf of Aden, Gulf of Oman, Humpback Whale, India, Indian Ocean, mammals, marine, migration, Neophocaena phocaenoides, Oceanic, Oman, Pakistan, Porpoise, Red Sea, sanctuaries, skull, Sri Lanka, stranding, Strandings, survey, whale, whales},
pubstate = {published},
tppubtype = {article}
}
Brown,S.G.
Whales observed in the Indian Ocean: notes on their distribution Journal Article
In: The Marine Observer, vol. 27, no. 339, pp. 157-165, 1957.
Abstract | BibTeX | Tags: Antarctic, Arabian Sea, Australia, baleen whales, Central Indian Ocean, cetacean, density, Distribution, Gulf of Aden, Humpback Whale, humpback whales, India, Indian Ocean, Oman, population, South Africa, Southern Hemisphere, sperm whale, sperm whales, whale, whales
@article{,
title = {Whales observed in the Indian Ocean: notes on their distribution},
author = {Brown,S.G.},
year = {1957},
date = {1957-01-01},
journal = {The Marine Observer},
volume = {27},
number = {339},
pages = {157-165},
abstract = {The paper provides a summary of the results of a questionnaire put to merchant ships and other vessels, 80 of which provided their track data. These vessels apparently had someone on watch during all daylight hours and reported all their cetacean sightings. The authors feel confident that while some sightings could not be identified to species level, a distinction could be drawn between sperm, humpback and "rorqual" whales. The "search effort" and sightings of the ships are plotted in the paper, with the majority of search effort and a high concentration of sightings occurring in the Gulf of Aden and S coast of Oman. Only two humpback whale sightings are recorded for the Northern Arabian sea - one near the horn of Africa/Somalia, and one near Sharbitat/Likbe. An additional string 4 of humpback whale sightings are recorded off the SW coast of India in the region of the Laccadive Islands.The author himself concludes: "There is apparently no great difference in the overall density of the large whale populations per unit area north and south of the equator. The highest concentrations of whales in the Indian Ocean occur in the Gulf of Aden and its approaches, the Arabian Sea and in the zone between South Africa and Australia. The least concentration is found in the Central Indian Ocean. In summer the concentration of baleen whales in the Antarctic is very many times greater than in the Indian Ocean but there is much less difference in winter . The number of sperm whales in the ocean as a whole seems not to outnumber that of the different species of baleen whales combined. Humpback whales and rorquals are found unexpectedly far north, on the supposition that they all belong to the southern hemisphere populations. Rorquals have been observed right across the 30ø to 40ø S. zone between South Africa and Australia where ships might be expected to intercept them occasionally during their migrations."},
keywords = {Antarctic, Arabian Sea, Australia, baleen whales, Central Indian Ocean, cetacean, density, Distribution, Gulf of Aden, Humpback Whale, humpback whales, India, Indian Ocean, Oman, population, South Africa, Southern Hemisphere, sperm whale, sperm whales, whale, whales},
pubstate = {published},
tppubtype = {article}
}