Cerchio, S.,Willson, A.,Leroy, E.C.,Muirhead, C.,Al Harthi, S.,baldwin, R,Cholewiak, D.,Collins, T.,Minton, Gianna,Rasoloarijao, T.,Rogers, T.,Sarrouf Willson, M.
A new blue whale song-type described for the Arabian Sea and Western Indian Ocean Technical Report
no. 513, 2020.
Abstract | Links | BibTeX | Tags: acoustic detection, Arabian Sea, balaenoptera musculus, behaviour, Blue whale, breeding grounds, Oman, Passive acoustic detection, song
@techreport{,
title = {A new blue whale song-type described for the Arabian Sea and Western Indian Ocean },
author = {Cerchio, S.,Willson, A.,Leroy, E.C.,Muirhead, C.,Al Harthi, S.,baldwin, R,Cholewiak, D.,Collins, T.,Minton, Gianna,Rasoloarijao, T.,Rogers, T.,Sarrouf Willson, M.},
url = {https://arabianseawhalenetwork.org/wp-content/uploads/2020/06/sc_68b_info_28_-new-blue-whale-call-from-oman-2.pdf},
year = {2020},
date = {2020-01-01},
journal = {Report Presented to the Scientific Committee meeting of the International Whaling Commission},
number = {513},
publisher = {IWC},
abstract = {Blue whales in the Indian Ocean (IO) are currently thought to represent two or three subspecies (Balaenoptera musculus intermedia, B. m. brevicauda, B. m. indica), and are structured into four populations with diagnostic song-types. Here we describe a previously unreported song-type that implies the existence of a population that has been undetected or conflated with another population. The song-type was recorded off Oman in the northern IO/Arabian Sea, off the western Chagos Archipelago in the equatorial central IO, and off Madagascar in the southwestern IO. As this is the only blue whale song that has been identified in the western Arabian Sea, we label it the “Oman” song-type to distinguish it from other regionally classified song-types. Spatiotemporal variation at the three sites suggested a distribution west of 70°E, with potential affinity for the northern IO/Arabian Sea, and only minor presence in the southwestern IO. Timing of presence off Oman suggests that intensive illegal Soviet whaling that took 1,294 blue whales in the 1960s likely targeted this population, as opposed to the more widely spread “Sri Lanka” acoustic population as previously assumed. Based upon geographic distribution and potential aseasonal reproduction found in the Soviet catch data, we suggest that if there is a northern Indian Ocean subspecies (B. m. c.f. indica), it is likely this population. Moreover, the potentially restricted range, intensive historic whaling, and the fact that the song-type has been previously undetected, suggests a small population that is in critical need of status assessment and conservation action. },
keywords = {acoustic detection, Arabian Sea, balaenoptera musculus, behaviour, Blue whale, breeding grounds, Oman, Passive acoustic detection, song},
pubstate = {published},
tppubtype = {techreport}
}
Blue whales in the Indian Ocean (IO) are currently thought to represent two or three subspecies (Balaenoptera musculus intermedia, B. m. brevicauda, B. m. indica), and are structured into four populations with diagnostic song-types. Here we describe a previously unreported song-type that implies the existence of a population that has been undetected or conflated with another population. The song-type was recorded off Oman in the northern IO/Arabian Sea, off the western Chagos Archipelago in the equatorial central IO, and off Madagascar in the southwestern IO. As this is the only blue whale song that has been identified in the western Arabian Sea, we label it the “Oman” song-type to distinguish it from other regionally classified song-types. Spatiotemporal variation at the three sites suggested a distribution west of 70°E, with potential affinity for the northern IO/Arabian Sea, and only minor presence in the southwestern IO. Timing of presence off Oman suggests that intensive illegal Soviet whaling that took 1,294 blue whales in the 1960s likely targeted this population, as opposed to the more widely spread “Sri Lanka” acoustic population as previously assumed. Based upon geographic distribution and potential aseasonal reproduction found in the Soviet catch data, we suggest that if there is a northern Indian Ocean subspecies (B. m. c.f. indica), it is likely this population. Moreover, the potentially restricted range, intensive historic whaling, and the fact that the song-type has been previously undetected, suggests a small population that is in critical need of status assessment and conservation action.
de Vos,Asha,Faux,Cassandra E.,Marthick,James,Dickinson,Joanne,Jarman,Simon N.
New Determination of Prey and Parasite Species for Northern Indian Ocean Blue Whales Journal Article
In: Frontiers in Marine Science, vol. 5, no. 84, 2018, ISBN: 2296-7745.
Abstract | Links | BibTeX | Tags: Acanthocephala, Arabian Sea, balaenoptera musculus, behaviour, blue whales, DNA metabarcoding,Sri Lanka,Blue whales,feeding,Northern Indian Ocean,faeces,Sergestid,Euphausiidae,Acanthocephala,shrimp,krill,behaviour, euphasids, Faeces, fecal analysis, feeding, Krill, Northern Indian Ocean, parasites, prey, Sergestid shrimp, shrimp, Sri Lanka
@article{,
title = {New Determination of Prey and Parasite Species for Northern Indian Ocean Blue Whales},
author = {de Vos,Asha,Faux,Cassandra E.,Marthick,James,Dickinson,Joanne,Jarman,Simon N.},
url = {https://www.frontiersin.org/article/10.3389/fmars.2018.00104},
issn = {2296-7745},
year = {2018},
date = {2018-01-01},
journal = {Frontiers in Marine Science},
volume = {5},
number = {84},
abstract = {Blue whales are little studied, face significant anthropogenic threats and within the Northern Indian Ocean, have a restricted range, making them an archetype for conservation needs of megafauna around the world. We studied feeding behaviour of blue whales using dietary DNA metabarcoding of faecal samples. While globally blue whale populations feed predominantly on Euphausiidae, 87 % of prey DNA amplicons extracted from faecal samples from this population were sergestid shrimp, demonstrating that blue whales can locate and feed on dense swarms of other types of prey when they occur. Within the Indian Ocean sergestids are present within the top 300 m, which correlates with the deep scattering layer observed by hydroacoustics. Studies suggest that this requirement to dive deeper in search of prey likely explains the prevalence of fluke up diving within this population of blue whales relative to other parts of the globe. Furthermore, this study revealed the presence of acanthocephalan endoparasites within the stomach and intestines of the Northern Indian Ocean blue whales. This represents the first record of Acanthocephala in blue whales in the Northern Indian Ocean and highlights the need for further studies on both the ecto- and endoparasitic flora and monitoring of health of these cetaceans for their management and conservation.},
keywords = {Acanthocephala, Arabian Sea, balaenoptera musculus, behaviour, blue whales, DNA metabarcoding,Sri Lanka,Blue whales,feeding,Northern Indian Ocean,faeces,Sergestid,Euphausiidae,Acanthocephala,shrimp,krill,behaviour, euphasids, Faeces, fecal analysis, feeding, Krill, Northern Indian Ocean, parasites, prey, Sergestid shrimp, shrimp, Sri Lanka},
pubstate = {published},
tppubtype = {article}
}
Blue whales are little studied, face significant anthropogenic threats and within the Northern Indian Ocean, have a restricted range, making them an archetype for conservation needs of megafauna around the world. We studied feeding behaviour of blue whales using dietary DNA metabarcoding of faecal samples. While globally blue whale populations feed predominantly on Euphausiidae, 87 % of prey DNA amplicons extracted from faecal samples from this population were sergestid shrimp, demonstrating that blue whales can locate and feed on dense swarms of other types of prey when they occur. Within the Indian Ocean sergestids are present within the top 300 m, which correlates with the deep scattering layer observed by hydroacoustics. Studies suggest that this requirement to dive deeper in search of prey likely explains the prevalence of fluke up diving within this population of blue whales relative to other parts of the globe. Furthermore, this study revealed the presence of acanthocephalan endoparasites within the stomach and intestines of the Northern Indian Ocean blue whales. This represents the first record of Acanthocephala in blue whales in the Northern Indian Ocean and highlights the need for further studies on both the ecto- and endoparasitic flora and monitoring of health of these cetaceans for their management and conservation.
Kershaw, Francine,Carvalho, Inês,Loo, Jacqueline,Pomilla, Cristina,Best, Peter B.,Findlay, Ken P.,Cerchio, Salvatore,Collins, Tim,Engel, Marcia H.,Minton, Gianna,Ersts, Peter,Barendse, Jaco,Kotze, P. G. H.,Razafindrakoto, Yvette,Ngouessono, Solange,Meÿer, Michael,Thorton, Meredith,Rosenbaum, Howard C.
Multiple processes drive genetic structure of humpback whale ( Journal Article
In: Molecular Ecology, no. 131, pp. n/a-n/a, 2017, ISBN: 1365-294X.
Abstract | Links | BibTeX | Tags: behaviour, Humpback Whale, International Whaling Commission, megaptera novaeangliae, population assessment, population genetics, population identity, population structure, Southern Hemisphere, wildlife management
@article{,
title = {Multiple processes drive genetic structure of humpback whale (},
author = {Kershaw, Francine,Carvalho, Inês,Loo, Jacqueline,Pomilla, Cristina,Best, Peter B.,Findlay, Ken P.,Cerchio, Salvatore,Collins, Tim,Engel, Marcia H.,Minton, Gianna,Ersts, Peter,Barendse, Jaco,Kotze, P. G. H.,Razafindrakoto, Yvette,Ngouessono, Solange,Meÿer, Michael,Thorton, Meredith,Rosenbaum, Howard C.},
url = {http://dx.doi.org/10.1111/mec.13943},
issn = {1365-294X},
year = {2017},
date = {2017-01-01},
journal = {Molecular Ecology},
number = {131},
pages = {n/a-n/a},
abstract = {Elucidating patterns of population structure for species with complex life histories, and disentangling the processes driving such patterns, remains a significant analytical challenge. Humpback whale (Megaptera novaeangliae) populations display complex genetic structures that have not been fully resolved at all spatial scales. We generated a data set of nuclear markers for 3575 samples spanning the seven breeding stocks and substocks found in the South Atlantic and western and northern Indian Oceans. For the total sample, and males and females separately, we assessed genetic diversity, tested for genetic differentiation between putative populations and isolation by distance, estimated the number of genetic clusters without a priori population information and estimated rates of gene flow using maximum-likelihood and Bayesian approaches. At the ocean basin scale, structure is governed by geographical distance (IBD P < 0.05) and female fidelity to breeding areas, in line with current understanding of the drivers of broadscale population structure. Consistent with previous studies, the Arabian Sea breeding stock was highly genetically differentiated (FST 0.034–0.161; P < 0.01 for all comparisons). However, the breeding stock boundary between west South Africa and east Africa was more porous than expected based on genetic differentiation, cluster and geneflow analyses. Instances of male fidelity to breeding areas and relatively high rates of dispersal for females were also observed between the three substocks in the western Indian Ocean. The relationships between demographic units and current management boundaries may have ramifications for assessments of the status and continued protections of populations still in recovery from commercial whaling.},
keywords = {behaviour, Humpback Whale, International Whaling Commission, megaptera novaeangliae, population assessment, population genetics, population identity, population structure, Southern Hemisphere, wildlife management},
pubstate = {published},
tppubtype = {article}
}
Elucidating patterns of population structure for species with complex life histories, and disentangling the processes driving such patterns, remains a significant analytical challenge. Humpback whale (Megaptera novaeangliae) populations display complex genetic structures that have not been fully resolved at all spatial scales. We generated a data set of nuclear markers for 3575 samples spanning the seven breeding stocks and substocks found in the South Atlantic and western and northern Indian Oceans. For the total sample, and males and females separately, we assessed genetic diversity, tested for genetic differentiation between putative populations and isolation by distance, estimated the number of genetic clusters without a priori population information and estimated rates of gene flow using maximum-likelihood and Bayesian approaches. At the ocean basin scale, structure is governed by geographical distance (IBD P < 0.05) and female fidelity to breeding areas, in line with current understanding of the drivers of broadscale population structure. Consistent with previous studies, the Arabian Sea breeding stock was highly genetically differentiated (FST 0.034–0.161; P < 0.01 for all comparisons). However, the breeding stock boundary between west South Africa and east Africa was more porous than expected based on genetic differentiation, cluster and geneflow analyses. Instances of male fidelity to breeding areas and relatively high rates of dispersal for females were also observed between the three substocks in the western Indian Ocean. The relationships between demographic units and current management boundaries may have ramifications for assessments of the status and continued protections of populations still in recovery from commercial whaling.
Cerchio, S,Willson, A.,Muirhead, C.,Minton, G.,Collins, T.,Baldwin, R.,Sarrouf Willson, M.,Al Harthi, S.
Preliminary Report on Long-term Detection of Arabian Sea Humpback Whale Vocalizations off Oman Technical Report
no. 343, 2016.
Abstract | BibTeX | Tags: acoustic detection, Arabian Sea, behaviour, breeding grounds, Humpback Whale, megaptera novaeangliae, Oman, Passive acoustic detection, song
@techreport{,
title = {Preliminary Report on Long-term Detection of Arabian Sea Humpback Whale Vocalizations off Oman},
author = {Cerchio, S,Willson, A.,Muirhead, C.,Minton, G.,Collins, T.,Baldwin, R.,Sarrouf Willson, M.,Al Harthi, S.},
year = {2016},
date = {2016-01-01},
journal = {Report Presented to the Scientific Committee meeting of the International Whaling Commission},
number = {343},
publisher = {IWC},
abstract = {This report presents an overview of the progress to date on the humpback whale detection
component of the Arabian Sea Humpback Whale Acoustic Research program off Oman. Three
archival acoustic recorders were deployed at sites in two regions for approximately one year each,
in Hallaniyats Bay during 2011/2012, and the Gulf of Masirah during 2012/2013. Performance of
recorders varied among deployments, but despite some challenges due to equipment failures we
succeeded in documenting spatiotemporal patterns in the presence of humpback whales in a large
dataset. Several key findings broaden our understanding of the Arabian Sea humpback whale
population off Oman. There appears a strong seasonal component to the use of song by this
population, primarily from November through May, which is congruent with the Northern
Hemisphere breeding cycle and singing season. Throughout this period, singing was heard in both
Hallaniyats Bay and the Gulf of Masirah, separated by approximately 400km, indicating that the
population utilizes both of these regions. However, there was a much stronger presence in
Hallaniyats Bay, with song heard nearly 24 hours/day during the peak months, and song detected
simultaneously at multiple sites across the Bay. Previous boat-based survey data indicated similar
trends, however, given limitation in the duration of this fieldwork the current acoustic dataset
provides a more reliable indication of this population’s breeding related activity. This suggests that
the Hallaniyats Bay might serve as a more important habitat for breeding activity than the
monitored region of the Gulf of Masirah. There also appeared to be a subtle northward shift in
distribution of detections as the singing season progressed, both within Hallaniyats Bay, and from
Hallaniyats Bay to the Gulf of Masirah, suggesting a seasonal shift in distribution for singing males.
During the summer and autumn months, very little song was detected, however sparse detections
indicate that whales are present in both regions during at least some of this period. It is
recommended that similar acoustic monitoring be conducted in all range states of the population to
elucidate spatiotemporal distribution throughout the Arabian Sea.},
keywords = {acoustic detection, Arabian Sea, behaviour, breeding grounds, Humpback Whale, megaptera novaeangliae, Oman, Passive acoustic detection, song},
pubstate = {published},
tppubtype = {techreport}
}
This report presents an overview of the progress to date on the humpback whale detection
component of the Arabian Sea Humpback Whale Acoustic Research program off Oman. Three
archival acoustic recorders were deployed at sites in two regions for approximately one year each,
in Hallaniyats Bay during 2011/2012, and the Gulf of Masirah during 2012/2013. Performance of
recorders varied among deployments, but despite some challenges due to equipment failures we
succeeded in documenting spatiotemporal patterns in the presence of humpback whales in a large
dataset. Several key findings broaden our understanding of the Arabian Sea humpback whale
population off Oman. There appears a strong seasonal component to the use of song by this
population, primarily from November through May, which is congruent with the Northern
Hemisphere breeding cycle and singing season. Throughout this period, singing was heard in both
Hallaniyats Bay and the Gulf of Masirah, separated by approximately 400km, indicating that the
population utilizes both of these regions. However, there was a much stronger presence in
Hallaniyats Bay, with song heard nearly 24 hours/day during the peak months, and song detected
simultaneously at multiple sites across the Bay. Previous boat-based survey data indicated similar
trends, however, given limitation in the duration of this fieldwork the current acoustic dataset
provides a more reliable indication of this population’s breeding related activity. This suggests that
the Hallaniyats Bay might serve as a more important habitat for breeding activity than the
monitored region of the Gulf of Masirah. There also appeared to be a subtle northward shift in
distribution of detections as the singing season progressed, both within Hallaniyats Bay, and from
Hallaniyats Bay to the Gulf of Masirah, suggesting a seasonal shift in distribution for singing males.
During the summer and autumn months, very little song was detected, however sparse detections
indicate that whales are present in both regions during at least some of this period. It is
recommended that similar acoustic monitoring be conducted in all range states of the population to
elucidate spatiotemporal distribution throughout the Arabian Sea.
component of the Arabian Sea Humpback Whale Acoustic Research program off Oman. Three
archival acoustic recorders were deployed at sites in two regions for approximately one year each,
in Hallaniyats Bay during 2011/2012, and the Gulf of Masirah during 2012/2013. Performance of
recorders varied among deployments, but despite some challenges due to equipment failures we
succeeded in documenting spatiotemporal patterns in the presence of humpback whales in a large
dataset. Several key findings broaden our understanding of the Arabian Sea humpback whale
population off Oman. There appears a strong seasonal component to the use of song by this
population, primarily from November through May, which is congruent with the Northern
Hemisphere breeding cycle and singing season. Throughout this period, singing was heard in both
Hallaniyats Bay and the Gulf of Masirah, separated by approximately 400km, indicating that the
population utilizes both of these regions. However, there was a much stronger presence in
Hallaniyats Bay, with song heard nearly 24 hours/day during the peak months, and song detected
simultaneously at multiple sites across the Bay. Previous boat-based survey data indicated similar
trends, however, given limitation in the duration of this fieldwork the current acoustic dataset
provides a more reliable indication of this population’s breeding related activity. This suggests that
the Hallaniyats Bay might serve as a more important habitat for breeding activity than the
monitored region of the Gulf of Masirah. There also appeared to be a subtle northward shift in
distribution of detections as the singing season progressed, both within Hallaniyats Bay, and from
Hallaniyats Bay to the Gulf of Masirah, suggesting a seasonal shift in distribution for singing males.
During the summer and autumn months, very little song was detected, however sparse detections
indicate that whales are present in both regions during at least some of this period. It is
recommended that similar acoustic monitoring be conducted in all range states of the population to
elucidate spatiotemporal distribution throughout the Arabian Sea.
Mahanty, Madan M,Latha, G,Thirunavukkarasu, A
Analysis of humpback whale sounds in shallow waters of the Southeastern Arabian Sea: An indication of breeding habitat Journal Article
In: Journal of biosciences, vol. 40, no. 148, pp. 407-417, 2015, ISBN: 0250-5991.
Abstract | BibTeX | Tags: Arabian Sea, behaviour, breeding grounds, Humpback Whale, India, megaptera novaeangliae, song
@article{,
title = {Analysis of humpback whale sounds in shallow waters of the Southeastern Arabian Sea: An indication of breeding habitat},
author = {Mahanty, Madan M,Latha, G,Thirunavukkarasu, A},
issn = {0250-5991},
year = {2015},
date = {2015-01-01},
journal = {Journal of biosciences},
volume = {40},
number = {148},
pages = {407-417},
abstract = {The primary objective of this work was to present the acoustical identification of humpback whales, detected by using
an autonomous ambient noise measurement system, deployed in the shallow waters of the Southeastern Arabian Sea
(SEAS) during the period January to May 2011. Seven types of sounds were detected. These were characteristically
upsweeps and downsweeps along with harmonics. Sounds produced repeatedly in a specific pattern were referred to as
phrases (PQRS and ABC). Repeated phrases in a particular pattern were referred to as themes, and from the
spectrographic analysis, two themes (I and II) were identified. The variation in the acoustic characteristics such as
fundamental frequency, range, duration of the sound unit, and the structure of the phrases and themes are discussed.
Sound units were recorded from mid-January to mid-March, with a peak in February, when the mean SST is ~28°C,
and no presence was recorded after mid-March. The temporal and thematic structures strongly determine the functions
of the humpback whale song form. Given the use of song in the SEAS, this area is possibly used as an active breeding
habitat by humpback whales during the winter season.},
keywords = {Arabian Sea, behaviour, breeding grounds, Humpback Whale, India, megaptera novaeangliae, song},
pubstate = {published},
tppubtype = {article}
}
The primary objective of this work was to present the acoustical identification of humpback whales, detected by using
an autonomous ambient noise measurement system, deployed in the shallow waters of the Southeastern Arabian Sea
(SEAS) during the period January to May 2011. Seven types of sounds were detected. These were characteristically
upsweeps and downsweeps along with harmonics. Sounds produced repeatedly in a specific pattern were referred to as
phrases (PQRS and ABC). Repeated phrases in a particular pattern were referred to as themes, and from the
spectrographic analysis, two themes (I and II) were identified. The variation in the acoustic characteristics such as
fundamental frequency, range, duration of the sound unit, and the structure of the phrases and themes are discussed.
Sound units were recorded from mid-January to mid-March, with a peak in February, when the mean SST is ~28°C,
and no presence was recorded after mid-March. The temporal and thematic structures strongly determine the functions
of the humpback whale song form. Given the use of song in the SEAS, this area is possibly used as an active breeding
habitat by humpback whales during the winter season.
an autonomous ambient noise measurement system, deployed in the shallow waters of the Southeastern Arabian Sea
(SEAS) during the period January to May 2011. Seven types of sounds were detected. These were characteristically
upsweeps and downsweeps along with harmonics. Sounds produced repeatedly in a specific pattern were referred to as
phrases (PQRS and ABC). Repeated phrases in a particular pattern were referred to as themes, and from the
spectrographic analysis, two themes (I and II) were identified. The variation in the acoustic characteristics such as
fundamental frequency, range, duration of the sound unit, and the structure of the phrases and themes are discussed.
Sound units were recorded from mid-January to mid-March, with a peak in February, when the mean SST is ~28°C,
and no presence was recorded after mid-March. The temporal and thematic structures strongly determine the functions
of the humpback whale song form. Given the use of song in the SEAS, this area is possibly used as an active breeding
habitat by humpback whales during the winter season.
Baldwin,R.M.,Collins,T.J.Q.,Van Waerebeek,K.,Minton,G.
The Indo-Pacific humpback dolphin of the Arabian region: a status review Journal Article
In: Aquatic Mammals, vol. 30, no. 319, pp. 111-124, 2004.
Abstract | Links | BibTeX | Tags: abundance, Arabian Gulf, Arabian region, Arabian Sea, associations, behaviour, Boat traffic, cetacean, cetaceans, conservation, development, Distribution, dolphin, dolphins, ecology, Fisheries, Gulf of Aden, Gulf of Oman, humpback dolphins, incidental capture, military, museum specimens, nets, Oman, pollution, population, populations, Red Sea, status, Stock identity, Strandings, tursiops
@article{,
title = {The Indo-Pacific humpback dolphin of the Arabian region: a status review},
author = {Baldwin,R.M.,Collins,T.J.Q.,Van Waerebeek,K.,Minton,G.},
url = {https://www.aquaticmammalsjournal.org/index.php?option=com_content&view=article&id=247:the-indo-pacific-humpback-dolphin-of-the-arabian-region-a-status-review&catid=13&Itemid=157},
year = {2004},
date = {2004-01-01},
journal = {Aquatic Mammals},
volume = {30},
number = {319},
pages = {111-124},
abstract = {Records of Indo-Pacific humpback dolphin sightings, strandings, and museum specimens in the Arabian region were compiled and used to review the distribution and status of this species. Nominal usage of Sousa chinensis (Osbeck, 1765) has been retained as a pragmatic measure, although the species present in the region resembles Sousa plumbea (G. Cuvier, 1828). Little is known about the ecology of this species in the region. Most available information on S. chinensis in the region originates from the Sultanate of Oman, where this species is among the most commonly recorded cetaceans. However, there is no absolute measure of abundance for anywhere in the region and the status of the species is unknown. Distribution is described for the region to include much of the Arabian (Persian) Gulf, Arabian Sea, Gulf of Aden, and Red Sea, but notably excludes the Gulf of Oman. This discontinuous distribution suggests the possible presence of discrete populations within the region. Beach-cast/dead individuals represent nearly two-thirds of all records (n=303) of this species in Oman. Live sightings indicate unusually large group sizes (up to 100 individuals) in the Arabian Sea and Arabian Gulf. Occasional associations with Tursiops sp. and Delphinus capensis tropicalis were documented. Mating behaviour and the presence of calves were recorded in the months of April and May and calves are also reported in June, October, November and December. Threats to humpback dolphins in the Arabian region include incidental capture in fishing nets, coastal and offshore development (e.g. land reclamation, dredging, port and harbour construction), pollution, boat traffic, oil and gas exploration (including seismic surveying), military exercises and biotoxins associated with red tide events. Evidence for historic and current directed catches of S. chinensis is limited, but opportunistic hunting may occur. Intraspecific variation in cranial measurements of individuals from the Arabian Sea coast of Oman fall within relative values found in individuals from the Saudi Arabian Gulf coast. Cranial abnormalities were few. Recommendations are made for conservation management-oriented research focusing on stock identity and status assessments, as well as for monitoring of fisheries bycatch, clearer definition of other threats, continued specimen and sample collection and training of local scientists.},
keywords = {abundance, Arabian Gulf, Arabian region, Arabian Sea, associations, behaviour, Boat traffic, cetacean, cetaceans, conservation, development, Distribution, dolphin, dolphins, ecology, Fisheries, Gulf of Aden, Gulf of Oman, humpback dolphins, incidental capture, military, museum specimens, nets, Oman, pollution, population, populations, Red Sea, status, Stock identity, Strandings, tursiops},
pubstate = {published},
tppubtype = {article}
}
Records of Indo-Pacific humpback dolphin sightings, strandings, and museum specimens in the Arabian region were compiled and used to review the distribution and status of this species. Nominal usage of Sousa chinensis (Osbeck, 1765) has been retained as a pragmatic measure, although the species present in the region resembles Sousa plumbea (G. Cuvier, 1828). Little is known about the ecology of this species in the region. Most available information on S. chinensis in the region originates from the Sultanate of Oman, where this species is among the most commonly recorded cetaceans. However, there is no absolute measure of abundance for anywhere in the region and the status of the species is unknown. Distribution is described for the region to include much of the Arabian (Persian) Gulf, Arabian Sea, Gulf of Aden, and Red Sea, but notably excludes the Gulf of Oman. This discontinuous distribution suggests the possible presence of discrete populations within the region. Beach-cast/dead individuals represent nearly two-thirds of all records (n=303) of this species in Oman. Live sightings indicate unusually large group sizes (up to 100 individuals) in the Arabian Sea and Arabian Gulf. Occasional associations with Tursiops sp. and Delphinus capensis tropicalis were documented. Mating behaviour and the presence of calves were recorded in the months of April and May and calves are also reported in June, October, November and December. Threats to humpback dolphins in the Arabian region include incidental capture in fishing nets, coastal and offshore development (e.g. land reclamation, dredging, port and harbour construction), pollution, boat traffic, oil and gas exploration (including seismic surveying), military exercises and biotoxins associated with red tide events. Evidence for historic and current directed catches of S. chinensis is limited, but opportunistic hunting may occur. Intraspecific variation in cranial measurements of individuals from the Arabian Sea coast of Oman fall within relative values found in individuals from the Saudi Arabian Gulf coast. Cranial abnormalities were few. Recommendations are made for conservation management-oriented research focusing on stock identity and status assessments, as well as for monitoring of fisheries bycatch, clearer definition of other threats, continued specimen and sample collection and training of local scientists.
Al-Oufi,H.,McLean,E,Palfreman,A.
Observations upon the Al-Batinah artisanal fishery, the Sultanate of Oman Journal Article
In: Marine Policy, vol. 24, no. 284, pp. 423-429, 2000.
Abstract | BibTeX | Tags: behaviour, Distribution, education, Fisheries, fishing gear, management, Oman
@article{,
title = {Observations upon the Al-Batinah artisanal fishery, the Sultanate of Oman},
author = {Al-Oufi,H.,McLean,E,Palfreman,A.},
year = {2000},
date = {2000-01-01},
journal = {Marine Policy},
volume = {24},
number = {284},
pages = {423-429},
abstract = {The Al Batinah coast is home to around 35% of the Sultanate of Oman's fisherfolk, who account for 28% of national landings by traditional means. Over the last 10 years the region has experienced a general decline in its fishery with a consequence of socio-economic disturbance and increased fishing pressure. the present study was undertaken to gain baseline socio-economic information upon the region and to examine the industry's structure and co-management strategies. Fisherfolk (mean age 44.4) were from large families (avg. 12.4), educationally challenged (1.1 ñ 2.58 yr formal education), and had limited opportunity for alternative employment. Mean crew size of fishing vessels was 1.86, and two different systems were employed for calculating crew earnings. Average income per person was approx. US$ 5000 per annum, although there was significant disparity in income distribution between villages. Traditionally, fisherfolk have employed the Senat al Bahar ("code of the sea"), in efforts to distribute and manage coastal fisheries. However, change in fishery management, away from local, to more centralized, has undermined the effectiveness of this system. This has resulted in alterations of fisherfolk behaviour, with some employing illegal mesh sizes, poaching and fishing in prohibited areas.},
keywords = {behaviour, Distribution, education, Fisheries, fishing gear, management, Oman},
pubstate = {published},
tppubtype = {article}
}
The Al Batinah coast is home to around 35% of the Sultanate of Oman's fisherfolk, who account for 28% of national landings by traditional means. Over the last 10 years the region has experienced a general decline in its fishery with a consequence of socio-economic disturbance and increased fishing pressure. the present study was undertaken to gain baseline socio-economic information upon the region and to examine the industry's structure and co-management strategies. Fisherfolk (mean age 44.4) were from large families (avg. 12.4), educationally challenged (1.1 ñ 2.58 yr formal education), and had limited opportunity for alternative employment. Mean crew size of fishing vessels was 1.86, and two different systems were employed for calculating crew earnings. Average income per person was approx. US$ 5000 per annum, although there was significant disparity in income distribution between villages. Traditionally, fisherfolk have employed the Senat al Bahar ("code of the sea"), in efforts to distribute and manage coastal fisheries. However, change in fishery management, away from local, to more centralized, has undermined the effectiveness of this system. This has resulted in alterations of fisherfolk behaviour, with some employing illegal mesh sizes, poaching and fishing in prohibited areas.
Baldwin,R.M.
Oman's humpback whales (Megaptera novaeangliae) Journal Article
In: The Journal of Oman Studies, vol. 11 , no. 316, pp. 11-18, 2000.
Abstract | BibTeX | Tags: abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales
@article{,
title = {Oman's humpback whales (Megaptera novaeangliae) },
author = {Baldwin,R.M.},
year = {2000},
date = {2000-01-01},
journal = {The Journal of Oman Studies},
volume = {11 },
number = {316},
pages = {11-18},
abstract = {Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture, population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.},
keywords = {abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales},
pubstate = {published},
tppubtype = {article}
}
Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture, population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.
Dudzinkski,K.M.,Frohoff,T.G.,Spradlin,T.R.
Wild Dolphin Swim Program Workshop Technical Report
no. 361, 1999.
Abstract | BibTeX | Tags: Australia, behaviour, bottlenose dolphin, bottlenose dolphins, Brazil, Hawaii, Japan, management, Spinner dolphin, swim with dolphins, Whale watching
@techreport{,
title = {Wild Dolphin Swim Program Workshop},
author = {Dudzinkski,K.M.,Frohoff,T.G.,Spradlin,T.R.},
year = {1999},
date = {1999-01-01},
journal = {Workshop held in conjunction with the 13th Biennial Conference on the Biology of Marine Mammals},
number = {361},
pages = {1-72},
abstract = {The workshop addressed many issues related to swimming with wild dolphins and the report includes abstracts/summaries of presentations on the following subjects: Interactions between the public and wild dolphins in the United States: Biological Concerns and the Marine Mammal Protection Act; Interactions between humans and bottlenose dolphins near Panama City, FLConcerns about Hawaiian spinner dolphins in HawaiiManagement Policies in New Zealand regarding wild dolphin swim programmesManagement of commercial swim with dolphin programmes in AustraliaMinimizing Impact and maximizing research during human dolphin interactions in the BahamasVessel and human impact monitoring of the dolphins of Little Bahamas BankWhale and Dolphin watching and associated research programs in the Ogasawara Islands, Japanan Example Approach the dolphin swimming/watching programs around Mikura Island, JapanIncomplete history of spinner dolphin research in HawaiiThe Hawaiian spinner dolphin, Stenella longirostris: effects of tourismSwimming with wild dolphins in New Zealand: a multispecies research exampleLearning dolphin "etiquette" by understanding their rules of behaviour and interactionConducting research on human-dolphin interactions: captive dolphins, free-ranging dolphins, solitary dolphins and dolphin groupsObservations of a lone sociable dolphin in BelizeApproaching wild dolphins in Brazil: potential risks in a near futureConsequences of swimming with a lone female bottlenose dolphin in the gulf of Eilat/AqabaStudying the human/dolphin interactions from a cliff-side in Kaikura, New ZealandBehavior and ecology of common dolphins and the impact of tourism in the Coromandel Bay of Plenty region, New ZealandResearch on Hawaiian Spinner dolphins in Kealakekua Bay, HawaiiA study of the Hawaiian spinner dolphins around OahuUnderwater research of dolphins in BelizeThe number of dolphin watching boats limited per day, according to a treaty about dolphin watching in Mikura Island watersBibliography of Human/Dolphin Interactions (19pp)},
keywords = {Australia, behaviour, bottlenose dolphin, bottlenose dolphins, Brazil, Hawaii, Japan, management, Spinner dolphin, swim with dolphins, Whale watching},
pubstate = {published},
tppubtype = {techreport}
}
The workshop addressed many issues related to swimming with wild dolphins and the report includes abstracts/summaries of presentations on the following subjects: Interactions between the public and wild dolphins in the United States: Biological Concerns and the Marine Mammal Protection Act; Interactions between humans and bottlenose dolphins near Panama City, FLConcerns about Hawaiian spinner dolphins in HawaiiManagement Policies in New Zealand regarding wild dolphin swim programmesManagement of commercial swim with dolphin programmes in AustraliaMinimizing Impact and maximizing research during human dolphin interactions in the BahamasVessel and human impact monitoring of the dolphins of Little Bahamas BankWhale and Dolphin watching and associated research programs in the Ogasawara Islands, Japanan Example Approach the dolphin swimming/watching programs around Mikura Island, JapanIncomplete history of spinner dolphin research in HawaiiThe Hawaiian spinner dolphin, Stenella longirostris: effects of tourismSwimming with wild dolphins in New Zealand: a multispecies research exampleLearning dolphin "etiquette" by understanding their rules of behaviour and interactionConducting research on human-dolphin interactions: captive dolphins, free-ranging dolphins, solitary dolphins and dolphin groupsObservations of a lone sociable dolphin in BelizeApproaching wild dolphins in Brazil: potential risks in a near futureConsequences of swimming with a lone female bottlenose dolphin in the gulf of Eilat/AqabaStudying the human/dolphin interactions from a cliff-side in Kaikura, New ZealandBehavior and ecology of common dolphins and the impact of tourism in the Coromandel Bay of Plenty region, New ZealandResearch on Hawaiian Spinner dolphins in Kealakekua Bay, HawaiiA study of the Hawaiian spinner dolphins around OahuUnderwater research of dolphins in BelizeThe number of dolphin watching boats limited per day, according to a treaty about dolphin watching in Mikura Island watersBibliography of Human/Dolphin Interactions (19pp)
Baldwin,R.
Humpback whales Technical Report
no. 19, 1998.
Abstract | BibTeX | Tags: abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales
@techreport{,
title = {Humpback whales },
author = {Baldwin,R.},
year = {1998},
date = {1998-01-01},
volume = {SC/50/CAWS21},
number = {19},
pages = {1-6},
abstract = {Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture and population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.},
keywords = {abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales},
pubstate = {published},
tppubtype = {techreport}
}
Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture and population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.
Baldwin,R.M.
Humpback whales (Megaptera novaeangliae) of the Sultanate of Oman Technical Report
no. 315, 1998.
Abstract | BibTeX | Tags: abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales
@techreport{,
title = {Humpback whales (Megaptera novaeangliae) of the Sultanate of Oman },
author = {Baldwin,R.M.},
year = {1998},
date = {1998-01-01},
journal = {Report presented to the Scientific Committee of the International Whaling Commission},
volume = {SC/50/CAWS21 },
number = {315},
pages = {1-6},
abstract = {Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture and population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.},
keywords = {abundance, Arabian Sea, behaviour, conservation, Distribution, ecology, Gulf of Oman, Humpback Whale, humpback whales, incidental capture, megaptera novaeangliae, mortality, occurrence, Oman, population, population identity, status, survey, whale, whales},
pubstate = {published},
tppubtype = {techreport}
}
Data are presented on the general distribution and abundance of humpback whales off the coast of the Sultanate of Oman, with particular reference to observations made during an offshore seismic survey in the Arabian Sea in November 1997. Additional information is presented on seasonal occurrence, ecology and behaviour, external appearance, conservation, mortality, incidental capture and population status and identity of Oman's humpback whales. The data generally support the notion of year-round residency of humpback whales off the coast of Oman, but indicate the need for further research to establish whether the low frequency of positive records during summer months is a true reflection of seasonal distribution. Other research on humpback whales in the region is recommended.
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}
}
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.
Alling,G.,Gordon,J.,Rotton,N.,Whitehead,H.
Indian Ocean Sperm Whale study, 1981 - 1982 interim report Technical Report
no. 281, 1982.
Abstract | BibTeX | Tags: behaviour, dolphin, dolphins, Eubalaena glacialis, Fisheries, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, objectives, Oman, physeter, population, populations, sanctuaries, sperm whale, sperm whales, survey, whale, whales
@techreport{,
title = {Indian Ocean Sperm Whale study, 1981 - 1982 interim report},
author = {Alling,G.,Gordon,J.,Rotton,N.,Whitehead,H.},
year = {1982},
date = {1982-01-01},
number = {281},
pages = {1-43},
publisher = {WWF},
abstract = {The establishment of the Indian Ocean Whale Sanctuary in 1979 gave whale science an opportunity and a challenge: the opportunity to study protected whale; and the challenge to show that whale populations can be monitored purely through studies of living animals. The sperm whale (Physeter catodon), is commercially the most important, and the most numerous, large whale. It may be a significant link in the food web on account of returning nutrients from the deep ocean to the surface through its faeces. Analysis of the composition of sperm whale catches suggests that the sperm whale possesses a unique and interesting social system (Best 1979), a thorough knowledge of which is essential if these exceptional animals are to be properly protected.It was thus appropriate to carry out a study of the behaviour of the sperm whales in the Indian Ocean, principally using the methods developed on living right, grey and humpback whales, and the money raised by WWF-Netherlands. In order to obtain significant results it was thought necessary to have three field seasons of several months each.As very little was known of the whales of the Indian Ocean the first season consisted of a survey of those parts of the NW Indian Ocean which might have been suitable for studying sperm whales. During the survey methods of studying living sperm whales were to be developed, and other whales, dolphins, and marine mammal fisheries examined as circumstances permitted. From this survey we were to decide on the most suitable area and methods for studying sperm whales in subsequent seasons. We were also to recommend which other marine mammal research projects in the area should be undertaken, either as part of our project or separately.We report here on the first field season. Because of the deadline (within two weeks of the end of the field work) the data has not been rigorously analysed, and we can give only the most basic results. However we hope that this report indicates that the study was successful within its objectives.},
keywords = {behaviour, dolphin, dolphins, Eubalaena glacialis, Fisheries, Humpback Whale, humpback whales, Indian Ocean, marine, marine mammal, megaptera novaeangliae, objectives, Oman, physeter, population, populations, sanctuaries, sperm whale, sperm whales, survey, whale, whales},
pubstate = {published},
tppubtype = {techreport}
}
The establishment of the Indian Ocean Whale Sanctuary in 1979 gave whale science an opportunity and a challenge: the opportunity to study protected whale; and the challenge to show that whale populations can be monitored purely through studies of living animals. The sperm whale (Physeter catodon), is commercially the most important, and the most numerous, large whale. It may be a significant link in the food web on account of returning nutrients from the deep ocean to the surface through its faeces. Analysis of the composition of sperm whale catches suggests that the sperm whale possesses a unique and interesting social system (Best 1979), a thorough knowledge of which is essential if these exceptional animals are to be properly protected.It was thus appropriate to carry out a study of the behaviour of the sperm whales in the Indian Ocean, principally using the methods developed on living right, grey and humpback whales, and the money raised by WWF-Netherlands. In order to obtain significant results it was thought necessary to have three field seasons of several months each.As very little was known of the whales of the Indian Ocean the first season consisted of a survey of those parts of the NW Indian Ocean which might have been suitable for studying sperm whales. During the survey methods of studying living sperm whales were to be developed, and other whales, dolphins, and marine mammal fisheries examined as circumstances permitted. From this survey we were to decide on the most suitable area and methods for studying sperm whales in subsequent seasons. We were also to recommend which other marine mammal research projects in the area should be undertaken, either as part of our project or separately.We report here on the first field season. Because of the deadline (within two weeks of the end of the field work) the data has not been rigorously analysed, and we can give only the most basic results. However we hope that this report indicates that the study was successful within its objectives.