GJG Hofmeyr’s research while affiliated with Nelson Mandela University and other places

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Publications (2)


Geographic variation in at-sea movements, habitat use and diving behaviour of female Cape fur seals
  • Article

September 2020

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168 Reads

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10 Citations

Marine Ecology Progress Series

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Knowledge of animal foraging behaviour has implications for management and conservation. While Cape fur seals Arctocephalus pusillus pusillus comprise a major proportion of the southern African marine predator biomass, little is known about their at-sea movements. We investigated foraging distribution, habitat use and diving behaviour for 35 adult female Cape fur seals from 3 breeding colonies experiencing contrasting oceanographic regimes. Animals from Black Rocks, the smallest and eastern-most colony, undertook shorter foraging trips and utilised shallower waters over the shelf. In comparison, animals from the larger west coast colonies, at Kleinsee and False Bay, travelled further and utilised deeper shelf and shelf-slope waters. However, across colonies, females typically preferred depths of <500 m and slopes of <5°. Kleinsee and False Bay seals selected sea surface temperatures within the range typically preferred by pelagic prey species such as round herring, sardine and anchovy (14-19°C). Black Rocks individuals showed bimodal preferences for colder (16°C) and warmer waters (>22°C). Dive behaviour was similar between Kleinsee and False Bay individuals (unavailable from Black Rocks), with both pelagic and benthic foraging evident. Diel patterns were apparent at both sites, as dive depth and benthic diving increased significantly during daylight hours, likely reflecting vertical movements of prey species. We provide the first assessment of Cape fur seal movement behaviour for the South African component of the population. Observed geographic differences likely reflect the availability of suitable habitat but may also indicate differences in foraging strategies and density-dependent effects throughout the range of this species.


Cranial variation in common dolphins Delphinus spp. off South Africa, with the inclusion of information from the holotype of Delphinus capensis
  • Article
  • Full-text available

October 2019

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220 Reads

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7 Citations

African Journal of Marine Science

The common dolphins (genus Delphinus) are widely distributed in all temperate and tropical oceans. Over this wide geographical distribution they show considerable range in morphological variation, which has led to descriptions of several species in the genus. Until recently, only two species of Delphinus were accepted, but this classification has become contentious. This study investigated the occurrence of morphologically different types of Delphinus in South African waters and assessed geographic and morphometric variations within each type. A total of 296 skulls of Delphinus spp., obtained from the Port Elizabeth Museum and the Iziko South African Museum, were photographed in their dorsal and ventral aspects for geometric morphometric analysis. Our results revealed three clusters of specimens based on analysis of the dorsal aspect of the skull, and two clusters for the ventral aspect. Significant differences in cranial size were found between clusters. Both cranial aspects showed that the main variations in skull shape occurred in the rostral region and braincase area, indicating divergent adaptations relating to these features. There was a substantial difference between the composition of the dorsal-aspect and ventral- aspect clusters, suggesting the presence of only one species in South African waters. Significant differences between morphological clusters associated with the three regions within the study area (cold-temperate, warm-temperate and subtropical) are probably mediated through differences in local environmental conditions (e.g. different water temperatures and productivity).

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Citations (2)


... Groups in the water may also be associated with concentrated prey or associated with travel or socializing behavior that can occur throughout the year (Elliser et al., 2022). Haul-out sites, depth, and prey availability are also related to the spatial distributions of harbor seals in other locations and other pinniped species that exhibit central-place foraging (Bedriñana-Romano et al., 2014;Botha et al., 2020;Grigg et al., 2012;Jones et al., 2017). Proximity to haul-out locations and specific shoreline types that provide good substrate for hauling out might also relate to harbor fine-scale densities because they can provide an escape from predators. ...

Reference:

Biotic and abiotic drivers of harbor seal ( Phoca vitulina ) fine‐scale densities in the Salish Sea
Geographic variation in at-sea movements, habitat use and diving behaviour of female Cape fur seals
  • Citing Article
  • September 2020

Marine Ecology Progress Series

... However, continued investigation into Delphinus morphology has resulted in less consistent distinctions outside of the ENP region. Skull measurements from Australia and New Zealand (Amaha, 1994;Jordan, 2012), South America (Cunha et al., 2015;Esteves & Oviedo, 2007;Tavares et al., 2010), South Africa (Bell et al., 2002;Ngqulana et al., 2019;Samaai et al., 2005), and western Europe (Murphy et al., 2006) demonstrate phenotypic variability among short-and long-beaked dolphins that does not parse into the two diagnostic categories created by Heyning and Perrin (1994) for ENP Delphinus populations. Recent morphometric analysis on a global scale has demonstrated the divergence of ultra-long-beaked D. d. tropicalis and distinction of D. d. bairdii, but also revealed parallel differentiation of northern versus southern short-beaked skull shapes in the Atlantic and Pacific ...

Cranial variation in common dolphins Delphinus spp. off South Africa, with the inclusion of information from the holotype of Delphinus capensis

African Journal of Marine Science