Browsing by Author "Elwen, Simon"
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- ItemOpen AccessThe environmental factors determining temporal distributions of cetaceans in Mossel Bay, South Africa(2017) Levy, David; Blamey, Laura K; Elwen, Simon; James, BridgetA variety of cetacean species make use of the bays along the South African coast for different purposes, including feeding, mating and calving. Sightings of five species of cetaceans were recorded from shore based locations between February 2010 and August 2014 in Mossel Bay, Western Cape. In this study, we aimed to examine the underlying environmental variables: sea surface temperature (°C), chlorophyll a concentration (mg.m-3) and moon brightness (as % of full) that potentially affect presence patterns within the bay, and several temporal scales (diurnal, monthly, seasonal, annual). The study focused on three whale species: the southern right whale (Eubalaena australis), humpback whale (Megaptera novaeangliae) and Bryde's whale (Balaenoptera brydei); and two dolphin species: the Indo- Pacific bottlenose dolphin (Tursiops aduncus), and the Indian Ocean humpback dolphin (Sousa plumbea). Generalized additive models (GAM) were used to model the sighting rate of the common cetacean species in the area, by relating sighting rate to the environmental variables. Cow-calf groups and adults-only groups were modelled separately for humpback and southern right whales. Chlorophyll a concentration is commonly indicative of high trophic productivity, and sea surface temperature is indicative of biophysical processes that influence cetacean distribution, as well as cetacean migration preferences. Change in sea surface temperature (over the study period) was a significant contributing factor to the sighting rate of cow-calf paired groups and adults-only groups of both right whales and humpback whales, underlying their greater sighting rate during the winter and spring months annually; thus, conforming to the seasonal migration from Antarctica for breeding and calving. Chlorophyll a concentration was a significant factor contributing to Bryde's whale, bottlenose and humpback dolphin distribution. These species reside along the South African coast all year round, but are more frequently seen when trophic productivity is high. During 2011, sea surface temperature values were lower and chlorophyll a concentrations greater than average in Mossel Bay, due to the La Niña effect. This was found to positively correlate with the use of Mossel Bay by the cetacean species in the area. This paper highlights the importance of biophysical processes on cetacean distribution at various temporal scales (diurnal, monthly, seasonal and annual), and the information it provides may be used for conservation planning management.
- ItemOpen AccessInvestigation of population abundance, distribution, and population linkage of Indo-Pacific Bottlenose Dolphins (Tursiops aduncus) on the north and south of Zanzibar using mark-recapture and acoustic methods(2017) St Clair-Hughes, Adam James Victor; Jacobs, David S; Bastian, Anna; Gridley, T; Elwen, SimonPrevious studies, using a variety of methods such as photographic identification, fisheries observer programs, or genetic testing, on Indo-Pacific bottlenose dolphins (Tursiops aduncus) around Zanzibar Island, Tanzania, suggest separate populations around the north and south coasts. However, most research around the island has focused on the south coast, and movement of dolphins around the coastline is poorly understood. Photographic identification data, consisting of dorsal fin images, and acoustic data from dolphin whistles, both collected in 2008, were analysed to examine linkages between north and south Zanzibar. Photographic identification data was applied in a Mark-Recapture framework, using open population models, to generate abundance estimates of 149 (95% CI 128-173) and 120 (95% CI 97-149) individuals for the north and south coasts of Zanzibar respectively. As 16 individuals had moved from the south to the north coast of Zanzibar during the two month study, a combined population estimate of 353 (95% CI 290-430) individuals for Zanzibar Island was also generated. Acoustic analysis of standard whistle parameters was used to investigate whether these learned signals shared features between the putative populations, using whistle data collected in Plettenberg Bay, South Africa as an out-group. Discriminant function analysis of whistle parameters indicated high classification success of whistles recorded from animals in the north location (86.2%), moderate classification success for the outgroup (61.8%), and zero classification success for Zanzibar's south coast population. High misclassification rates for south Zanzibar suggest that these whistles cannot be readily discriminated from those of north Zanzibar. Shared whistle features suggest that learning may take place between individuals moving between localities. Coupled with previous genetic studies, this study suggests female philopatry and male mediated gene flow between the two areas; however, more genetic markers are necessary to test this interpretation. Further work is also necessary to quantify the degree of movement of dolphins around Zanzibar Island, and potential migration into the area, which will assist in developing management plans.