Willson, A.,Leslie, M.,Baldwin, R.,Cerchio, S.,Childerhouse, S.,Collins, T.,Findlay, K.,Genov, T.,Godley, B. J.,Al Harthi, S.,Macdonald, D. W.,Minton, G.,Zerbini, A.,Witt, M.J.
In: Document presented to the Scientific Committee of the International Whaling Commission, no. 504, pp. 15, 2018, ISSN: IWC/SC67B/CMP13Rev1.
Abstract | Links | BibTeX | Tags: health, Humpback Whale, lesions, megaptera novaeangliae, Oman, photo-identification, Satellite telemetry, song, tattoo, UAV
@article{,
title = {Update on satellite telemetry studies and first unoccupied aerial vehicle assisted health assessment studies of Arabian Sea humpback whales off the coast of Oman.},
author = {Willson, A.,Leslie, M.,Baldwin, R.,Cerchio, S.,Childerhouse, S.,Collins, T.,Findlay, K.,Genov, T.,Godley, B. J.,Al Harthi, S.,Macdonald, D. W.,Minton, G.,Zerbini, A.,Witt, M.J.},
url = {https://arabianseawhalenetwork.org/wp-content/uploads/2018/05/sc_67b_cmp_13_rev1_oman-humbpack-whale-research-update-1.pdf},
issn = {IWC/SC67B/CMP13Rev1},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
journal = {Document presented to the Scientific Committee of the International Whaling Commission},
number = {504},
pages = {15},
publisher = {International Whaling Commission},
abstract = {Four previously documented surveys focusing on satellite tagging Arabian Sea humpback whales (ASHW) have
taken place off the coast of Oman since 2014. We present information of the most recent multidisciplinary survey
from November 2017 including results of telemetry studies to investigate spatial ecology, photo-identification
work to support population estimates and the trial of new methods using Unoccupied Aerial Vehicles (UAV’s) in
conducting non-invasive health assessments. The findings document the first record of the transoceanic passage
of an ASHW within the Arabian Sea and preliminary evidence of regional scale connectivity. Small vessel surveys
resulted in 45 hours of effort resulting in a total of 35 sightings and encounters with over 18 identified individual
ASHWs. Five tags were successfully deployed, three being attached to whales already identified in the ASHW
catalogue (one female and two males) and two whales new to the catalogue (of as yet unknown sex). The recent
telemetry work brings the project total to 14 deployed tags. Four whales from the recent tagged group occupied
regions previously described as important habitat in the South of Oman including the Gulf of Masirah and
Hallaniyats Bay. The tag with the longest tracking duration (n=120 days) documented the passage of an adult
female from the Gulf of Masirah across to the west coast of India, south towards to the Gulf of Manar off the
southern tip of India and the subsequent return of the whale to the tagging site. Additionally, a hexacopter UAV
(drone) was used to acquire digital images of 7 whales to inform investigations into body condition (length-width
relationship), tissue scaring and skin disease. UAVs that were flown through respired condensate (blow) resulted
in collection of three viable samples collected for micro-biome assessment of the respiratory tract. On a broad
geographic scale the tracking data continues to confirm the importance of waters over the continental shelf in
southern Oman for ASHW and together with passive acoustic monitoring studies provides new evidence to
support previous understanding on the connectivity between humpback whales of the Arabian Sea. The frequency
of sightings in the study area, and documented breeding related behaviour during the survey supports existing
evidence demonstrating that the Gulf of Masirah is a critical habitat for the ASHW. Effective conservation of this
population requires concerted application of threat mitigation, whilst studies continue to support the on-going
conservation management requirement to understand the broader spatial ecology of the population.},
keywords = {health, Humpback Whale, lesions, megaptera novaeangliae, Oman, photo-identification, Satellite telemetry, song, tattoo, UAV},
pubstate = {published},
tppubtype = {article}
}
Four previously documented surveys focusing on satellite tagging Arabian Sea humpback whales (ASHW) have
taken place off the coast of Oman since 2014. We present information of the most recent multidisciplinary survey
from November 2017 including results of telemetry studies to investigate spatial ecology, photo-identification
work to support population estimates and the trial of new methods using Unoccupied Aerial Vehicles (UAV’s) in
conducting non-invasive health assessments. The findings document the first record of the transoceanic passage
of an ASHW within the Arabian Sea and preliminary evidence of regional scale connectivity. Small vessel surveys
resulted in 45 hours of effort resulting in a total of 35 sightings and encounters with over 18 identified individual
ASHWs. Five tags were successfully deployed, three being attached to whales already identified in the ASHW
catalogue (one female and two males) and two whales new to the catalogue (of as yet unknown sex). The recent
telemetry work brings the project total to 14 deployed tags. Four whales from the recent tagged group occupied
regions previously described as important habitat in the South of Oman including the Gulf of Masirah and
Hallaniyats Bay. The tag with the longest tracking duration (n=120 days) documented the passage of an adult
female from the Gulf of Masirah across to the west coast of India, south towards to the Gulf of Manar off the
southern tip of India and the subsequent return of the whale to the tagging site. Additionally, a hexacopter UAV
(drone) was used to acquire digital images of 7 whales to inform investigations into body condition (length-width
relationship), tissue scaring and skin disease. UAVs that were flown through respired condensate (blow) resulted
in collection of three viable samples collected for micro-biome assessment of the respiratory tract. On a broad
geographic scale the tracking data continues to confirm the importance of waters over the continental shelf in
southern Oman for ASHW and together with passive acoustic monitoring studies provides new evidence to
support previous understanding on the connectivity between humpback whales of the Arabian Sea. The frequency
of sightings in the study area, and documented breeding related behaviour during the survey supports existing
evidence demonstrating that the Gulf of Masirah is a critical habitat for the ASHW. Effective conservation of this
population requires concerted application of threat mitigation, whilst studies continue to support the on-going
conservation management requirement to understand the broader spatial ecology of the population.
taken place off the coast of Oman since 2014. We present information of the most recent multidisciplinary survey
from November 2017 including results of telemetry studies to investigate spatial ecology, photo-identification
work to support population estimates and the trial of new methods using Unoccupied Aerial Vehicles (UAV’s) in
conducting non-invasive health assessments. The findings document the first record of the transoceanic passage
of an ASHW within the Arabian Sea and preliminary evidence of regional scale connectivity. Small vessel surveys
resulted in 45 hours of effort resulting in a total of 35 sightings and encounters with over 18 identified individual
ASHWs. Five tags were successfully deployed, three being attached to whales already identified in the ASHW
catalogue (one female and two males) and two whales new to the catalogue (of as yet unknown sex). The recent
telemetry work brings the project total to 14 deployed tags. Four whales from the recent tagged group occupied
regions previously described as important habitat in the South of Oman including the Gulf of Masirah and
Hallaniyats Bay. The tag with the longest tracking duration (n=120 days) documented the passage of an adult
female from the Gulf of Masirah across to the west coast of India, south towards to the Gulf of Manar off the
southern tip of India and the subsequent return of the whale to the tagging site. Additionally, a hexacopter UAV
(drone) was used to acquire digital images of 7 whales to inform investigations into body condition (length-width
relationship), tissue scaring and skin disease. UAVs that were flown through respired condensate (blow) resulted
in collection of three viable samples collected for micro-biome assessment of the respiratory tract. On a broad
geographic scale the tracking data continues to confirm the importance of waters over the continental shelf in
southern Oman for ASHW and together with passive acoustic monitoring studies provides new evidence to
support previous understanding on the connectivity between humpback whales of the Arabian Sea. The frequency
of sightings in the study area, and documented breeding related behaviour during the survey supports existing
evidence demonstrating that the Gulf of Masirah is a critical habitat for the ASHW. Effective conservation of this
population requires concerted application of threat mitigation, whilst studies continue to support the on-going
conservation management requirement to understand the broader spatial ecology of the population.
Díaz López, Bruno,Grandcourt, Edwin,Methion, Séverine,Das, Himansu,Bugla, Ibrahim,Al Hameli, Maitha,Al Ameri, Hind,Abdulla, Mohamed,Al Blooshi, Ayesha,Al Dhaheri, Shaikha
The distribution, abundance and group dynamics of Indian Ocean humpback dolphins ( Journal Article
In: Journal of the Marine Biological Association of the United Kingdom, no. 88, pp. 1-9, 2017, ISBN: 0025-3154.
Abstract | Links | BibTeX | Tags: abundance, Arabian Gulf, coastal environment, conservation, Indian Ocean humpback dolphins, Persian Gulf, photo-identification, sousa
@article{,
title = {The distribution, abundance and group dynamics of Indian Ocean humpback dolphins (},
author = {Díaz López, Bruno,Grandcourt, Edwin,Methion, Séverine,Das, Himansu,Bugla, Ibrahim,Al Hameli, Maitha,Al Ameri, Hind,Abdulla, Mohamed,Al Blooshi, Ayesha,Al Dhaheri, Shaikha},
url = {https://www.cambridge.org/core/article/distribution-abundance-and-group-dynamics-of-indian-ocean-humpback-dolphins-sousa-plumbea-in-the-emirate-of-abu-dhabi-uae/9FB6BE811A329C1A0BA57F0BDFC65AB3},
issn = {0025-3154},
year = {2017},
date = {2017-01-01},
journal = {Journal of the Marine Biological Association of the United Kingdom},
number = {88},
pages = {1-9},
publisher = {Cambridge University Press},
abstract = {The Arabian Gulf is one of the most heavily impacted water bodies raising serious concerns about the conservation status of many marine species. A limited coastal range and near-shore distribution make Indian Ocean humpback dolphins particularly vulnerable to mortality and traumatic injuries from heavy maritime traffic and gill-netting practices. Prior to the present study, no research had focused on the ecology of this species in the Arabian Gulf, despite the potential for human impacts. The mark–recapture method of photo-identification, undertaken during 55 boat-based surveys conducted between 2014 and 2015, was used to assess the occurrence, abundance and use of habitat of this endangered species along the coast of the Emirate of Abu Dhabi (UAE). In all, 368 h and 6703 km of observation were carried out over a period of 5 months, and 54 encounters were made with humpback dolphins. The group size ranged from 1 to 24 individuals and group composition showed that 79% of the observed dolphins were adults. Abundance estimates were calculated and fitted with open population models. A review of all available data indicates that the studied population is the largest reported in the world with 701 (95% CI = 473–845) individuals. While their occurrence within Abu Dhabi near-shore waters is frequent, the survey area appears to be only a part of a much larger home range for this humpback dolphin population. The observation of multiple threats derived from anthropogenic activities increases our concerns regarding the conservation of this important dolphin population.},
keywords = {abundance, Arabian Gulf, coastal environment, conservation, Indian Ocean humpback dolphins, Persian Gulf, photo-identification, sousa},
pubstate = {published},
tppubtype = {article}
}
The Arabian Gulf is one of the most heavily impacted water bodies raising serious concerns about the conservation status of many marine species. A limited coastal range and near-shore distribution make Indian Ocean humpback dolphins particularly vulnerable to mortality and traumatic injuries from heavy maritime traffic and gill-netting practices. Prior to the present study, no research had focused on the ecology of this species in the Arabian Gulf, despite the potential for human impacts. The mark–recapture method of photo-identification, undertaken during 55 boat-based surveys conducted between 2014 and 2015, was used to assess the occurrence, abundance and use of habitat of this endangered species along the coast of the Emirate of Abu Dhabi (UAE). In all, 368 h and 6703 km of observation were carried out over a period of 5 months, and 54 encounters were made with humpback dolphins. The group size ranged from 1 to 24 individuals and group composition showed that 79% of the observed dolphins were adults. Abundance estimates were calculated and fitted with open population models. A review of all available data indicates that the studied population is the largest reported in the world with 701 (95% CI = 473–845) individuals. While their occurrence within Abu Dhabi near-shore waters is frequent, the survey area appears to be only a part of a much larger home range for this humpback dolphin population. The observation of multiple threats derived from anthropogenic activities increases our concerns regarding the conservation of this important dolphin population.