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4. Role of native avian frugivores in germination facilitation and potential dispersal of invasive American bramble (Rubus cuneifolius) in South Africa

Author

Colleen T. Downs, I. Rushworth, K. L. Molefe, Vuyisile Thabethe, and Michelle J Tedder

Subjects
0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Seed dispersal, food and beverages, Sowing, Biology, 010603 evolutionary biology, 01 natural sciences, Invasive species, Horticulture, Frugivore, Common species, Germination, Biological dispersal, Ecology, Evolution, Behavior and Systematics, Rubus cuneifolius
Abstract

Frugivorous birds are important in the dispersal of many fleshy-fruited plant species, including invasive plants. Consequently, we investigated three native frugivorous avian species’ role in potential dispersal and germination success of the invasive American bramble (Rubus cuneifolius) in South Africa, particularly in terms of amount of fruit ingested, transit time, and their effects on seed germination. Three common species of frugivorous bird species were predicted to positively affect the spread of invasive R. cuneifolius. The bird species (speckled mousebirds Colius striatus, red-winged starlings Onychognathus morio and dark-capped bulbuls Pycnonotus tricolor) were fed R. cuneifolius fruit in captivity and amounts ingested were determined together with transit times. Seeds that were excreted and/or regurgitated by the three bird species, manually extracted seeds, and control whole fruit were then planted and their germination assessed daily. Although the three bird species varied in the amount of fruit consumed (~ 10–30 g), there was no significant difference in amount of R. cuneifolius fruit eaten per gram body mass among the species. Bird-ingested seeds emerged a mean 21–23 days after planting, while the seeds from the whole fruit took longer to emerge (mean 28 days). Germination of seeds ingested by the respective bird species was significantly higher (~ 60–75%) than seeds manually removed from fruits (~ 52%) or seeds in whole fruits (~ 7%). This suggests that removal of pulp and seed coat abrasion by the birds increased germination success. The three bird species all had R. cuneifolius seed transit times greater than 20 min, demonstrating their potential to disperse seeds a distance away from the parent plant. The results showed that the three bird species increased the germination success and suggests they are potentially important dispersers of the invasive R. cuneifolius.

Published
2019
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5. Seed Dispersal by Frugivores and Germination Success of the Invasive Alien Shrub Pyracantha Angustifolia in the Eastern Free State Province, South Africa

Author

Islamiat Abidemi Raji, Vuyisile Thabethe, Lehlohonolo Donald Adams, Grant D. Martin, Sandy-Lynn Steenhuisen, Vincent Ralph Clark, and Colleen T. Downs

Subjects
Free state, Frugivore, biology, Germination, Pyracantha angustifolia, ved/biology, Seed dispersal, ved/biology.organism_classification_rank.species, Botany, Alien, biology.organism_classification, Shrub
Abstract

Invasive alien plants can use animal-plant interactions to increase their invasiveness. This study investigated the role of frugivorous birds in seed dispersal and germination of the alien plant Pyracantha angustifolia (Rosaceae) in South African high elevation grasslands. We monitored which bird species fed on the fruit of the invasive P. angustifolia in some farms in the Eastern Free State Province using camera-traps and direct surveillance. Nine bird species visited P. angustifolia shrubs to perch or feed on fruits, but only one bird (Speckled Mousebird) fed on the fruits during timed observations. To assess the effect of ingestion by avian frugivores on P. angustifolia germination, P. angustifolia fruits were fed to captive Cape White-eyes (Zosterops virens), Dark-capped Bulbuls (Pycnonotus tricolor), Purple-crested Turacos (Gallirex porphyreolophus), Red-winged Starlings (Onychognathus morio) and Speckled Mousebirds (Colius striatus). Seeds collected from bird excreta, whole fruits, and depulped fruits were grown under greenhouse conditions and germination rates recorded. All captive bird species, except for Cape White-eyes, ingested the seeds; Cape White-eyes only fed on fruit pulp that they had manually removed. Bird species with relatively larger body mass had longer seed retention times compared with the smaller bird species. Germination success of both depulped and ingested P. angustifolia seeds was high (> 80%) and that of whole fruits low (7%). Ingestion by the four avian frugivore species did not affect germination rate and success; instead, the birds facilitate the spread and germination of seeds by removing the fruit pulp and spreading the seed away from the parent shrubs.

Published
2021
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6. Correction to: Modification of the third phase in the framework for vertebrate species persistence in urban mosaic environments

Author

Riddhika Kalle, Colleen T. Downs, Lorinda A. Hart, Tharmalingam Ramesh, Jarryd Alexander, Craig D. Widdows, Kyrone K. Josiah, Lindsay Patterson, Machawe I Maphalala, Cormac Price, Tinyiko C. Shivambu, S. Thobeka Gumede, Ntaki D. Senoge, Mark Brown, Harriet R. Thatcher, David Smith, Islamiat Abidemi Raji, Warren Schmidt, Amy-Leigh Wilson, Shane C. McPherson, Moses Chibesa, Manqoba M. Zungu, Vuyisile Thabethe, Preshnee Singh, Jarryd P. Streicher, Mfundo S.T. Maseko, Kerushka R. Pillay, Ndivhuwo Shivambu, Yvette C. Ehlers Smith, Samukelisiwe P. Ngcobo, and Nikisha Singh

Subjects
Persistence (psychology), Conservation of Natural Resources, Ecology, biology, Ecology (disciplines), Geography, Planning and Development, Urbanization, Vertebrate, Mosaic (geodemography), General Medicine, Biodiversity, Publisher Correction, South Africa, Geography, biology.animal, Vertebrates, Environmental Chemistry, Animals, Publication process, Ecosystem
Abstract

Urbanisation is rapidly transforming natural landscapes with consequences for biodiversity. Little is documented on the response of African wildlife to urbanisation. We reviewed case studies of vertebrate species' responses to urbanisation in KwaZulu-Natal, South Africa to determine trends. Connected habitat mosaics of natural and anthropogenic green spaces are critical for urban wildlife persistence. We present a novel modification to the final of three phases of the framework described by Evans et al. (2010), which documents this sequence for vertebrate species persistence, based on the perspective of our research. Species in suburbia exhibit an initial phase where behavioural and ecological flexibility, life-history traits and phenotypic plasticity either contribute to their success, or they stay at low numbers. Where successful, the next phase is a rapid increase in populations and distribution; anthropogenic food resources and alternate breeding sites are effectively exploited. The modified third phase either continues to spread, plateau or decline.

Published
2021

7. Modification of the third phase in the framework for vertebrate species persistence in urban mosaic environments

Author

Machawe I Maphalala, Nikisha Singh, Colleen T. Downs, Cormac Price, Kyrone K. Josiah, Yvette C. Ehlers Smith, Lindsay Patterson, Shane C. McPherson, Harriet R. Thatcher, S. Thobeka Gumede, Craig D. Widdows, Ntaki D. Senoge, Vuyisile Thabethe, Lorinda A. Hart, Islamiat Abidemi Raji, Moses Chibesa, Samukelisiwe P. Ngcobo, Kerushka R. Pillay, Amy-Leigh Wilson, Preshnee Singh, Ndivhuwo Shivambu, Jarryd P. Streicher, Jarryd Alexander, David Smith, Warren Schmidt, Manqoba M. Zungu, Tinyiko C. Shivambu, Mark Brown, Riddhika Kalle, Tharmalingam Ramesh, and Mfundo S.T. Maseko

Subjects
0106 biological sciences, Phenotypic plasticity, Ecology, biology, 010604 marine biology & hydrobiology, Geography, Planning and Development, Wildlife, Biodiversity, Vertebrate, General Medicine, 010603 evolutionary biology, 01 natural sciences, Natural (archaeology), Urban wildlife, Geography, Habitat, Urbanization, biology.animal, Perspective, Environmental Chemistry
Abstract

Urbanisation is rapidly transforming natural landscapes with consequences for biodiversity. Little is documented on the response of African wildlife to urbanisation. We reviewed case studies of vertebrate species' responses to urbanisation in KwaZulu-Natal, South Africa to determine trends. Connected habitat mosaics of natural and anthropogenic green spaces are critical for urban wildlife persistence. We present a novel modification to the final of three phases of the framework described by Evans et al. (2010), which documents this sequence for vertebrate species persistence, based on the perspective of our research. Species in suburbia exhibit an initial phase where behavioural and ecological flexibility, life-history traits and phenotypic plasticity either contribute to their success, or they stay at low numbers. Where successful, the next phase is a rapid increase in populations and distribution; anthropogenic food resources and alternate breeding sites are effectively exploited. The modified third phase either continues to spread, plateau or decline.

Published
2021

8. Citizen science reveals widespread supplementary feeding of African woolly-necked storks in suburban areas of KwaZulu-Natal, South Africa

Author

Vuyisile Thabethe and Colleen T. Downs

Subjects
0106 biological sciences, education.field_of_study, Ciconia, Ecology, biology, Population, Foraging, Questionnaire, Stork, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010605 ornithology, Urban Studies, Geography, Urban ecology, Habitat, Citizen science, Socioeconomics, education
Abstract

African woolly-necked storks (Ciconia microscelis) depend on wetland habitats for foraging and nesting in natural environments. Recently, they have started colonising urban environments in KwaZulu-Natal, South Africa, and are now a common sight in suburban areas in particular. There have been some anecdotal reports on supplementary feeding of this species by households in some urban areas where they are common. However, these reports have never been confirmed and therefore the extent of feeding and lack thereof is unknown. Using a questionnaire survey, we therefore investigated the extent (if any) to which householders in urban and suburban areas of KwaZulu-Natal provide supplementary food to African woolly-necked storks. We also determined the feeders’ provisioning habits, and identified the motivation behind and attitudes toward feeding. We found that a significant number of householders fed African woolly-necked storks on a daily basis throughout the year. The majority of respondents provided meat while others provided inappropriate food such as bread. Respondents were most often motivated to feed for personal pleasure. Our results showed that this species is successfully utilising and exploiting anthropogenic food – a novel behaviour. The observations and narratives from respondents strongly suggest that the African woolly-necked stork is present throughout the year, contrary to the perception that this species is migratory during winter. Based on the results obtained in this study, supplementary feeding of African woolly-necked stork by householders is relatively common, widespread and established in suburban areas of KwaZulu-Natal, South Africa. However, reported inappropriate feeding may create concerns regarding the health status of African woolly-necked storks in urban population. Therefore, to prevent further detrimental effects and potential human-wildlife conflicts we recommend that suitable feeding guidelines be formulated.

Published
2018
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9. Comparing germination metrics of Opuntia ficus-indica and O. robusta between two sets of bird species (Pied Crows and two smaller species)

Author

Vuyisile Thabethe, Colleen T. Downs, and Thabiso Michael Mokotjomela

Subjects
0106 biological sciences, biology, Ecology, Pied starling, Seed dispersal, food and beverages, biology.organism_classification, Bulbul, 010603 evolutionary biology, 01 natural sciences, Horticulture, chemistry.chemical_compound, Frugivore, Pycnonotus nigricans, chemistry, Germination, Seed treatment, Biological dispersal, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany, Nature and Landscape Conservation
Abstract

The fleshy fruits of exotic Opuntia ficus-indica (L.) Mill and Opuntia robusta (Haw.) Haw (Cactaceae family) are consumed and dispersed by many vertebrates, which likely influences their invasion success. We tested whether seed ingestion by Pied Crows (Corvus albus) and other smaller birds (African Pied Starling Lamprotornis bicolor and the Red-eyed Bulbul Pycnonotus nigricans) improve the germination and speed in O. ficus-indica and O. robusta. Controlled germination trials for two Opuntia species were set up using the seeds extracted from faecal material, depulped seeds, and intact fruits. Overall, results show that seed germination for O. robusta was significantly higher than for O. ficus-indica. There were significant differences in seed germination between treatments of two Opuntia species, with the total mean germination of seeds defecated by the Pied Crows being equivalent to that of seeds defecated by the other smaller birds but significantly greater than the other treatments (i.e., depulped seeds and intact fruit). We noted that removal of the fruit pulp from seeds significantly improved germination in both Opuntia species compared to intact fruits. The O. robusta seeds defecated by the smaller birds had significantly greatest and most accelerated germination of all other treatments followed by the seeds defecated by the Pied Crows. Seeds of O. ficus-indica defecated by the Pied Crows had significantly greater germination than the seeds ingested by smaller birds. We conclude that seed germination success in fleshy fruits including those of alien species, varies with seed treatment by different vertebrate dispersal agents, and their net effect on seeds, may have consequences on species invasion success.

Published
2021
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10. Ingestion by an invasive parakeet species reduces germination success of invasive alien plants relative to ingestion by indigenous turaco species in South Africa

Author

Lorinda A. Hart, Amy-Leigh Wilson, Colleen T. Downs, and Vuyisile Thabethe

Subjects
Ecology, biology, Seed dispersal, fungi, food and beverages, Zoology, Tauraco corythaix, Introduced species, biology.organism_classification, Seed dispersal syndrome, Frugivore, Germination, Seed predation, Turaco, Botany, Ecology, Evolution, Behavior and Systematics
Abstract

Avian frugivores play a key role in seed dispersal of many plant species, including invasive alien plants. We assessed the effect of gut passage on the germination of selected invasive alien plant species in South Africa. Fruits of four fleshly-fruited invasive alien plant species: Solanum mauritianum, Cinnamomum camphora, Psidium guajava, and Morus alba, were fed to two species of indigenous turacos, Knysna (Tauraco corythaix) and purple-crested (Gallirex porphyreolophus) turacos, and to invasive rose-ringed parakeets (Psittacula krameri). Seed retention time was determined as this can influence both seed dispersal and germination success. Germination success of ingested seeds was compared with that of manually de-pulped seeds, as well as to seeds in whole fruit. The germination success of seeds of all the invasive plant species increased significantly after ingestion by both turaco species compared with seeds from whole fruits. Germination success of manually de-pulped seeds did not differ significantly from that of turaco ingested seeds. In contrast, seed passage through the digestive tract of rose-ringed parakeets significantly reduced germination success and viability of ingested invasive plant species. Our results suggest that Knysna and purple-crested turacos are legitimate seed dispersers of fleshy-fruited invasive plants, while rose-ringed parakeets are mainly seed predators. Although seed predation by rose-ringed parakeets negatively affects the reproductive success of these plants, it is unlikely that this will suppress the spread of these invasive alien plants in South Africa as they are already well established. Furthermore, they can facilitate dispersal by seed regurgitation and dropping uneaten fruits away from the parent plant. Similar trends could be expected for indigenous seeds that rose-ringed parakeets feed on and therefore these birds remain a negative influence within invaded ecosystems.

Published
2015
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11. Seasonal effects on the thermoregulation of invasive rose-ringed parakeets (Psittacula krameri)

Author

Lorinda A. Hart, Lindy J. Thompson, Colleen T. Downs, Vuyisile Thabethe, and Mark Brown

Subjects
biology, Physiology, Range (biology), Ecology, Psittacula krameri, Introduced species, Thermoregulation, biology.organism_classification, Biochemistry, Invasive species, Abundance (ecology), Basal metabolic rate, General Agricultural and Biological Sciences, Developmental Biology, Global biodiversity
Abstract

Invasive species are a major threat to global biodiversity. Rose-ringed parakeets Psittacula krameri are widely established outside their native range and are successful invaders in many countries, including South Africa. Physiological and behavioral responses to environmental conditions are considered to be major factors that influence the abundance and distribution of birds. As rose-ringed parakeets are able to tolerate wide varieties of climatic conditions as invaders, it is important to understand their physiological responses to these. This study examined the effects of seasonal changes in ambient temperatures ( T a ) on metabolic rate and body temperature ( T b ) of captive-bred rose-ringed parakeets. Resting metabolic rate at various T a and basal metabolic rate were significantly lower in winter compared to summer, and the thermo-neutral zone was broader in winter than in summer. There was no significant difference in body mass ( M b ) between seasons. These parakeets showed seasonal thermoregulatory responses that represented energy conservation as expected, rather than cold tolerance. They were relatively tolerant of low T a and showed no hypothermia at 5 °C. Our results suggest that this species is physiologically and behaviorally equipped to cope with a range of climatic situations and this partly explains their global success as an invader species.

Published
2013
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12. Digestive efficiency of indigenous and invasive avian species fed fruit of invasive alien plants in South Africa

Author

Lorinda A. Hart, Amy-Leigh Wilson, Vuyisile Thabethe, and Colleen T. Downs

Subjects
Psidium, biology, Psittacula krameri, food and beverages, Cinnamomum camphora, Tauraco corythaix, Introduced species, biology.organism_classification, Solanum mauritianum, Invasive species, Horticulture, Frugivore, assimilation efficiency, fleshy fruit, frugivorous bird species, South Africa, Botany, Animal Science and Zoology
Abstract

Many highly invasive plant species produce fleshy fruit that are consumed and dispersed by frugivorous birds. However, little is known about assimilation efficiency of invasive fruit by indigenous and invasive avian species. We investigated whether indigenous Knysna (Tauraco corythaix) and Purple-crested (Gallirex porphyreolophus) Turacos and invasive alien Rose-ringed Parakeets (Psittacula krameri) met their energy demands when fed fruits of four fleshyfruited invasive alien plant species: Solanum mauritianum, Cinnamomum camphora, Psidium guajava and Morus alba. Birds were fed single-fruit diets for two consecutive days and energetic parameters were calculated for all fruit diets. Our results showed that generally both invasive and indigenous avian species managed to gain their daily energy requirements from fruits of the four respective invasive plants, suggesting that they can meet their energetic demands by feeding on them only. The exception was P. krameri, which did not feed on S. mauritianum fruit. These findings may explain why fruits of invasive alien plants are attractive to most avian frugivores and highlight the role of avian frugivores in their dispersal.Keywords: assimilation efficiency, fleshy fruit, frugivorous bird species, South Africa

Published
2017

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