Your search keyword '"Sanet Hugo"' showing total 7 results

1. Can bait improve the efficiency of underwater video monitoring of fish in headwater streams? A case study from the Rondegat River, South Africa

Author

Sanet Hugo, Sean Marr, Sharone Zvikomborero Bajaba, Niall Vine, Olaf Weyl, Wendy Maphefo Sekgota Nemphagane, and Angus Van Wyk

Subjects

0106 biological sciences, biology, 010604 marine biology & hydrobiology, Endangered species, Sampling (statistics), STREAMS, 010501 environmental sciences, Aquatic Science, biology.organism_classification, 01 natural sciences, Fishery, Threatened species, Freshwater fish, %22">Fish , Environmental science, Underwater, Video monitoring, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

The use of action cameras for underwater video sampling provides a non-harmful alternative for monitoring endangered and threatened fish populations in clear headwater streams. Here, we examine the...

Published

2021

2. Effect of Temperature on the Development and Settlement of the Abalone Larvae Haliotis midae: Considerations for Abalone Hatchery Management and Stock Enhancement

Author

Ziyanda Brightness Mzozo, Niall G. Vine, and Sanet Hugo

Subjects

Larva, biology, Abalone, Settlement (structural), business.industry, Aquatic Science, Haliotis midae, biology.organism_classification, Hatchery, Poikilotherm, Animal science, Aquaculture, Trochophore, business

Abstract

Abalones are poikilotherms, and their rate of development is intrinsically linked with temperature. Understanding the effect of temperature on development is key for the successful production planning in abalone hatcheries and the reseeding of cultured abalone larvae for stock enhancement. This study investigates the effect of temperature on the development of the abalone larvae Haliotis midae. Newly hatched trochophore larvae were raised at temperatures of 14°C, 16°C, 18°C, 20°C, and 22°C until settlement. The temperature had a significant effect on the larval development—most rapid at 22°C [3 days and 65 degree-days (DD), °C day] and slowest at 14°C (6.7 days and 95 DD). Larval settlement was highest at 22°C (43.44% ± 3.73%, larvae). Larvae should preferably be seeded at temperatures between 20°C and 22°C as this will potentially increase settlement, thereby reducing larval dispersion outside of the seeding area.

Published

2021

3. Seagrass (Zostera capensis) bed development as a predictor of size structured abundance for a ubiquitous estuary-dependent marine fish species

Author

Nicola C. James, Ryan J. Wasserman, S.H.P. Deyzel, Alan K. Whitfield, and Sanet Hugo

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Sparidae, biology, Zostera capensis, Flood myth, 010604 marine biology & hydrobiology, Rhabdosargus holubi, Estuary, Aquatic Science, Oceanography, biology.organism_classification, 01 natural sciences, Fishery, Seagrass, Habitat, Abundance (ecology), 0105 earth and related environmental sciences

Abstract

Episodic river flooding has the capacity to ‘reset’ estuaries and redirect these systems on a new path towards some sort of dynamic physical and biological equilibrium. A major river flood through the Kariega Estuary, South Africa, during 2012, provided an ideal opportunity to monitor the occupation of seagrass (Zostera capensis) beds by juveniles of the marine sparid Rhabdosargus holubi, post flood recovery. The estuary contained extensive dense submerged Z. capensis beds throughout the system prior to the flood, almost all of which was removed from the system as a result of the flood. Over the following four years there was a gradual recovery in the extent of cover of submerged Z. capensis beds, which by the end of 2015 had recovered to near the same levels of cover as the pre-flood conditions. In addition to the positive relationship between seagrass development and R. holubi abundance that was recorded, there was also a greater utilisation of this habitat type by the smaller (10–40 mm SL) compared to the larger (41–60 mm SL) juvenile size classes. This new finding emphasizes that occupation of particular estuarine nursery habitats by the juveniles of estuary-associated fish species may not necessarily be uniform and may change with age. The study also reinforces the changing nature of estuarine environments over time and highlights, once again, the importance of this habitat type for the most abundant estuary-dependent marine fish species on the African subcontinent.

Published

2020

4. Are environmental transitions more prone to biological invasions?

Author

Berndt J. van Rensburg, Salit Kark, Noam Levin, and Sanet Hugo

Subjects

Ecology, Excellence, media_common.quotation_subject, Biodiversity, Introduced species, Species richness, Ecotone, Biology, Ecology, Evolution, Behavior and Systematics, Invasive species, media_common

Abstract

B.J.v.R. and S.H. acknowledge the support from the University of Pretoria and the DST-NRF Centre of Excellence for Invasion Biology.

Published

2013

5. Alien and native birds in South Africa: patterns, processes and conservation

Author

Sanet Hugo and Berndt J. van Rensburg

Subjects

Ecology, Habitat, Common species, Rare species, Species diversity, Introduced species, Species richness, Body size and species richness, Biology, Ecology, Evolution, Behavior and Systematics, Spatial heterogeneity

Abstract

The spatial distribution of alien species richness often correlates positively with native species richness, and reflects the role of human density and activity, and primary productivity and habitat heterogeneity, in facilitating the establishment and spread of alien species. Here, we investigate the relationship between the spatial distribution of alien bird species, human density, and anthropogenic and natural environmental conditions. Next, we examined the relationship between the spatial distribution of alien bird species and native bird species richness. We examined alien species richness as a response variable, using correlative analyses that take spatial autocorrelation into account. Further, each alien bird species was examined as a response variable, using logistic regression procedures based on binary presence–absence data. A combination of human density and natural habitat heterogeneity best explained the spatial distribution of alien species richness. This contrasts with the results for individual alien species and with previous studies on other non-native taxa showing the importance of primary productivity and anthropogenic habitat modification as explanatory variables. In general, native species richness is an important correlate of the spatial distribution of alien species richness and individual alien species, with alien species being more similar to common species than to rare species.

Published

2009

6. The maintenance of a positive spatial correlation between South African bird species richness and human population density

Author

Berndt J. van Rensburg and Sanet Hugo

Subjects

Global and Planetary Change, Habitat destruction, Ecology, Common species, Range (biology), Rare species, Species diversity, Species richness, Body size and species richness, Biology, Ecology, Evolution, Behavior and Systematics, Spatial heterogeneity

Abstract

Aim: To investigate explanations for the maintenance of a positive spatial species richness-human population density correlation at broad scales, despite the negative impact of humans on species richness. These are (hypotheses 1-4): (1) human activities that create a habitat mosaic and (2) a more favourable climate, and (3) adequate conservation measures (e.g. sufficient natural habitat), maintain the positive species richness-human density correlation; or (4) the full range of human densities decrease the slope of the correlation without changing its form. Location: South Africa. Methods: Avian species richness data from atlas distribution maps and human population density data derived from 2001 census results were converted to a quarter-degree resolution. We investigated the number of land transformation types (anthropogenic habitat heterogeneity), irrigated area (increasing productivity), and other covarying factors (e.g. primary productivity) as predictors of species richness. We compared species richness-human density relationships among regions with different amounts of natural habitat, and investigated whether the full range of human densities decrease species richness in relation to primary productivity. Results: Hypotheses 1, 2 and 3 were supported. Human densities and activities that increase habitat heterogeneity and productivity are important beneficial factors to common species, but not to rare species. The species richness-human density relationship persists only at low land transformation levels, and no significant relationship exists at higher levels. For common species, the relationship becomes non-significant at lower land transformation levels than for rare species. Main conclusions: The persistence of the species richness-human density relationship depends mostly on the amount of remaining natural habitat. In addition, certain human activities benefit especially common species. Common species seem to be more flexible than rare species in response to human activity and habitat loss. © 2008 The Authors Journal compilation

Published

2008

7. Alien Phytogeographic Regions of Southern Africa: Numerical Classification, Possible Drivers, and Regional Threats

Author

Berndt J. van Rensburg, Sanet Hugo, Yolande Steenkamp, and Abraham E. Van Wyk

Subjects

Cartography, Conservation of Natural Resources, Range (biology), Science, Biome, Alien, Biology, Invasive species, Global Change Ecology, Spatial and Landscape Ecology, Ecosystem, Macroecology, Conservation Science, Multidisciplinary, Ecology, Geography, Plant Ecology, Vegetation, Plants, GIS, Phylogeography, Habitat, Biogeography, Africa, Earth Sciences, Medicine, Species richness, Introduced Species, Research Article

Abstract

The distributions of naturalised alien plant species that have invaded natural or semi-natural habitat are often geographically restricted by the environmental conditions in their new range, implying that alien species with similar environmental requirements and tolerances may form assemblages and characterise particular areas. The aim of this study was to use objective numerical techniques to reveal any possible alien phytogeographic regions (i.e. geographic areas with characteristic alien plant assemblages) in southern Africa. Quarter degree resolution presence records of naturalised alien plant species of South Africa, Lesotho, Swaziland, Namibia and Botswana were analysed through a divisive hierarchical classification technique, and the output was plotted on maps for further interpretation. The analyses revealed two main alien phytogeographic regions that could be subdivided into eight lower level phytogeographic regions. Along with knowledge of the environmental requirements of the characteristic species and supported by further statistical analyses, we hypothesised on the main drivers of alien phytogeographic regions, and suggest that environmental features such as climate and associated biomes were most important, followed by human activities that modify climatic and vegetation features, such as irrigation and agriculture. Most of the characteristic species are not currently well-known as invasive plant species, but many may have potential to become troublesome in the future. Considering the possibility of biotic homogenization, these findings have implications for predicting the characteristics of the plant assemblages of the future. However, the relatively low quality of the dataset necessitates further more in-depth studies with improved data before the findings could be directly beneficial for management.

Published

2012