Your search keyword '"fynbos"' showing total 94 results

1. Fire ecology and management in South Africa: A history of research achievements and future challenges

Author

van Wilgen, Brian W.

Published

2025

2. Managing wilding pines in the Cape Floristic Region, South Africa: Progress and prospects

Author

Martin, Grant, Canavan, Kim, Chikowore, Gerald, Bugan, Richard, De Lange, Willem, du Toit, Ben, Harding, Graham, Heath, Ronald, Hill, Martin, Hurley, Brett P., Ivey, Philip, Muir, Debbie, Musedeli, Jufter, Richardson, David M., Slippers, Bernard, Stafford, Louise, Turner, Andrew, Watson, Kirsten, and van Wilgen, Brian W.

Published

2025

3. Phytochemical and pharmacological review of Erica Genus (L.) Ericaceae plants

Author

Adu-Amankwaah, Francis, Mpundu, Hleziphi V., Nyambo, Kudakwashe, Strauss, Paula, Tapfuma, Kudzanai Ian, Tshililo, Ndivhuwo, Badejo, Motunrayo Victoria, Mabasa, Lawrence, Mavumengwana, Vuyo, and Baatjies, Lucinda

Published

2025

4. Progress towards the control of invasive alien species in the Cape Floristic Region’s protected areas.

Author

van Wilgen, Brian W., Cole, Nicholas S., Baard, Johan, Cheney, Chad, Engelbrecht, Karen, Stafford, Louise, Turner, Andrew A., van Wilgen, Nicola J., and Wannenburgh, Andrew M.

Abstract

This paper assesses progress towards the control of biological invasions in 18 protected areas (PAs) covering 677 584 ha in the Cape Floristic Region (CFR), and whether progress has been sufficient to achieve Target 6 of the Kunming-Montreal Global Biodiversity Framework. We used eight indicators for assessing the inputs (quality of the regulatory framework, money spent and planning coverage for species and protected areas), outputs (species and protected areas treated), and outcomes (effectiveness of species and protected area treatments) of management. The estimated money spent over 13 years (2010–2022) was ZAR 976 million, or ZAR 75 million per year. Management plans for PAs were assessed as adequate over 78.5% of the area, but only six out of 226 regulated invasive species had species-specific control plans in place. A total of 567 alien species occurred in the CFR’s PAs, 226 of which were regulated species (i.e. species that had to be controlled), 126 (55.8%) of which received some management. Spending was highly skewed, with over 60% of all funding spent on trees and shrubs in the genus Acacia. Management efforts reached 24% of the land within the CFR’s protected areas, with higher coverage in national parks (60%) than in provincial nature reserves (9%). Management effectiveness was assessed as either permanent, effective or partially effective for 29 species (20 due to biological control), and ineffective for 25; for the remainder, there was either no management or effectiveness could not be evaluated. We conclude that some progress has been made with respect to controlling invasive alien species in the CFR, but that insufficient and declining funding remains a significant barrier to effective management. To increase efficiency, it will be necessary to secure additional funding from more diversified sources, make more use of biological control and prescribed fire, and regularly monitor the outcomes of management. [ABSTRACT FROM AUTHOR]

Published

2025

5. Fossil Hyaenanche Pollen from the Eocene of Kenya: The Paleophytogeograpy and Paleoclimate of a Relict Plant Genus Endemic to the Cape Province, South Africa.

Author

Grímsson, Friðgeir, Geier, Christian, Bouchal, Johannes M., Ulrich, Silvia, Zetter, Reinhard, and Vieira, Manuel

Subjects

*FOSSIL pollen, *FOSSILS, *POLLEN dispersal, *POLLEN, *FLOODPLAIN forests

Abstract

Simple Summary: Pollen from angiosperms can have extremely resistant walls that are often preserved as fossils and reflect ancient plants that lived on Earth millions of years ago. We discovered fossil pollen of Hyaenanche (Picrodendraceae) in a ca. 37-million-year-old palynoflora from Kenya. Today, Hyaenanche is endemic to a small part of the Cape Province, South Africa, where the plants grow on rocky substrate under a dry climate as part of bush vegetation. The Kenyan fossils show that Hyaenanche had a much wider distribution in Africa before the present, and compared to other fossil counterparts, we believe that the genus dispersed from Europe into Africa already prior to this earliest record now discovered. The associated fossil pollen and other Hyaenanche and alike records suggest that the plants occurred in complex forest environments, enduring fully humid climates in the past. Therefore, our study shows that relying on the closest living or potential modern analogue of a fossil taxon is not always the most representative. This applies especially to relict taxa. For the paleoecological estimations of such fossil plants, their complete fossil records, associated plant taxa from the same fossil assemblages, as well as present day closely related genera need to be considered. On the African continent, Picrodendraceae are represented by four genera. Their intracontinental paleophytogeographic histories and paleoecological aspects are obscured by the lack of pre-Miocene fossils. For this study, late Eocene sediments from Kenya were investigated. The sample was prepared in the laboratory, and its organic residue was screened for pollen. We extracted fossil Picrodendraceae pollen and investigated the grains using light and scanning electron microscopy. Based on the pollen morphology, the grains were assigned to Hyaenanche. This genus is currently confined to a small area within the Cape Province, South Africa. There, the plants grow as shrubs and small trees at an elevation between 60 and 800 m, on rocky substrate, as part of open fynbos vegetation, and under a dry climate with hot summers and limited precipitation. The sedimentary context and the associated palynoflora suggest that during the Eocene of Kenya, Hyaenanche was part of lowland coastal vegetation in Eastern Africa. There, the plants grew under fully humid to winter-dry tropical climates as part of landwards margins of mangroves, seasonally inundated floodplain forests, or coastal forests. Our study shows that when evaluating paleoecological aspects of relict monotypic plants, their extant closely related genera and their fossil records need to be considered. [ABSTRACT FROM AUTHOR]

Published

2024

6. Eco‐phylogenetic study of Trebouxia in southern Africa reveals interbiome connectivity and potential endemism in a green algal lichen photobiont.

Author

Medeiros, Ian D., Ibáñez, Alicia, Arnold, A. Elizabeth, Hedderson, Terry A., Miadlikowska, Jolanta, Flakus, Adam, Carbone, Ignazio, LaGreca, Scott, Magain, Nicolas, Mazur, Edyta, Castillo, Reinaldo Vargas, Geml, József, Kaup, Maya, Maggs‐Kölling, Gillian, Oita, Shuzo, Sathiya Seelan, Jaya Seelan, Terlova, Elizaveta, Hom, Erik F. Y., Lewis, Louise A., and Lutzoni, François

Subjects

*ENDEMIC plants, *ENDEMIC species, *DESERTS, *BIOGEOGRAPHY, *PHYTOPATHOGENIC fungi

Abstract

Premise: Southern Africa is a biodiversity hotspot rich in endemic plants and lichen‐forming fungi. However, species‐level data about lichen photobionts in this region are minimal. We focused on Trebouxia (Chlorophyta), the most common lichen photobiont, to understand how southern African species fit into the global biodiversity of this genus and are distributed across biomes and mycobiont partners. Methods: We sequenced Trebouxia nuclear ribosomal ITS and rbcL of 139 lichen thalli from diverse biomes in South Africa and Namibia. Global Trebouxia phylogenies incorporating these new data were inferred with a maximum likelihood approach. Trebouxia biodiversity, biogeography, and mycobiont–photobiont associations were assessed in phylogenetic and ecological network frameworks. Results: An estimated 43 putative Trebouxia species were found across the region, including seven potentially endemic species. Only five clades represent formally described species: T. arboricola s.l. (A13), T. cf. cretacea (A01), T. incrustata (A06), T. lynniae (A39), and T. maresiae (A46). Potential endemic species were not significantly associated with the Greater Cape Floristic Region or desert. Trebouxia species occurred frequently across multiple biomes. Annual precipitation, but not precipitation seasonality, was significant in explaining variation in Trebouxia communities. Consistent with other studies of lichen photobionts, the Trebouxia–mycobiont network had an anti‐nested structure. Conclusions: Depending on the metric used, ca. 20–30% of global Trebouxia biodiversity occurs in southern Africa, including many species yet to be described. With a classification scheme for Trebouxia now well established, tree‐based approaches are preferable over "barcode gap" methods for delimiting new species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Strong habitat and seasonal phenology effects on the evolution of self‐compatibility, clonality and pollinator shifts in Lachenalia (Asparagaceae: Scilloideae).

Author

Duncan, Graham D., Ellis, Allan G., Forest, Félix, and Verboom, G. Anthony

Subjects

*INSECT pollinators, *SPRING, *PLANT diversity, *POLLINATION, *ASPARAGACEAE, *POLLEN, *POLLINATORS

Abstract

Summary: Plants employ a diversity of reproductive safeguarding strategies to circumvent the challenge of pollen limitation. Focusing on southern African Lachenalia (Asparagaceae: Scilloideae), we test the hypothesis that the evolution of reproductive safeguarding traits (self‐compatibility, autonomous selfing, bird pollination and clonal propagation) is favoured in species occupying conditions of low insect abundance imposed by critically infertile fynbos heathland vegetation and by flowering outside the austral spring insect abundance peak.We trace the evolution of these traits and selective regimes on a dated, multi‐locus phylogeny of Lachenalia and assess their evolutionary associations using ordinary and phylogenetic regression.Ancestral state reconstructions identify an association with non‐fynbos vegetation and spring flowering as ancestral in Lachenalia, the transition to fynbos vegetation and non‐spring flowering taking place multiple times. They also show that self‐compatibility, autofertility, bird pollination and production of multiple clonal offsets have evolved repeatedly.Regression models suggest that bird pollination and self‐compatibility are selected for in fynbos and in non‐spring flowering lineages, with autofertility being positively associated with non‐spring flowering. These patterns support the interpretation of these traits as reproductive safeguarding adaptations under reduced insect pollinator abundance. We find no evidence to support the interpretation of clonal propagation as a reproductive safeguarding strategy. See also the Commentary on this article by Burd, 244: 7–9. [ABSTRACT FROM AUTHOR]

Published

2024

8. Ten new species and notes on the genus Psoralea L. (Psoraleeae, Fabaceae) from South Africa.

Author

Stirton, Charles H., Bello, Abubakar, and Muasya, A. Muthama

Subjects

BIOLOGICAL classification, NUMBERS of species, LEGUMES, HERBARIA, BOTANY

Abstract

Background and aims - Following detailed phylogenetic and biogeographic studies of the tribe Psoraleeae, the genus Psoralea L. was shown to have been derived out of Otholobium C.H.Stirt. As Psoralea has nomenclatural priority, Otholobium has been subsumed into Psoralea, whereby two broad subgeneric groups are aligned with the previous descriptions of the separate genera, but some problems of placement of a few species remain unresolved. Work is ongoing to study and describe the nearly 20 undescribed species that will have to be considered before sectional groups can be established. In this paper we describe ten new species, including several putative taxa already recognized in regional floras, based on historic specimens and more recent field collections. Material and methods - Standard practices of herbarium and field taxonomy have been applied to study herbarium material available at B, BLFU, BM, BOL, BR, E, GRA, J, JRAU, K, KEI, L, LE, LINN, M, MO, NBG, NH, NU, NY, OXF, P, PRA, PRC, PRE, PRU, S, SAM, SCHG, SRGH, TCD, Z, ZT, and US. Additional material was provided from fieldwork by the authors and collaborators. Key results - Ten new species of Psoralea from southern Africa are described: Psoralea crista C.H.Stirt. & Muasya, P. fulva C.H.Stirt. & Muasya, P. luteovirens C.H.Stirt. & Muasya, P. nubicola C.H.Stirt. & Muasya, P. oreopola C.H.Stirt., P. pallescens C.H.Stirt. & Muasya, P. papillosa C.H.Stirt. & Muasya, P. prompta C.H.Stirt. & Muasya, P. schutteae C.H.Stirt. & Muasya, and P. vlokii C.H.Stirt. & Muasya. Conclusion - The newly described species, all restricted to South Africa, increases the number of Psoralea species to 129. These species arise from expanded fieldwork into previously under-collected areas, as well as from better refinement in species delimitations in the leafless 'aphylla' and pinnately-leaved species complexes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Genome size variation in Cape schoenoid sedges (Schoeneae) and its ecophysiological consequences.

Author

van Mazijk, Ruan, West, Adam G., Verboom, G. Anthony, Elliott, Tammy L., Bureš, Petr, and Muasya, A. Muthama

Subjects

*GENOME size, *PLANT size, *STABLE isotopes, *CARBON isotopes, *PLANT variation, *BOTANICAL specimens

Abstract

Premise: Increases in genome size in plants—often associated with larger, low‐density stomata and greater water‐use efficiency (WUE)—could affect plant ecophysiological and hydraulic function. Variation in plant genome size is often due to polyploidy, having occurred repeatedly in the austral sedge genus Schoenus in the Cape Floristic Region (CFR), while species in the other major schoenoid genus in the region, Tetraria, have smaller genomes. Comparing these genera is useful as they co‐occur at the landscape level, under broadly similar bioclimatic conditions. We hypothesized that CFR Schoenus have greater WUE, with lower maximum stomatal conductance (gwmax) imposed by larger, less‐dense stomata. Methods: We investigated relationships between genome size and stomatal parameters in a phylogenetic context, reconstructing a phylogeny of CFR‐occurring Schoeneae (Cyperaceae). Species' stomatal and functional traits were measured from field‐collected and herbarium specimens. Carbon stable isotopes were used as an index of WUE. Genome size was derived from flow‐cytometric measurements of leafy shoots. Results: Evolutionary regressions demonstrated that stomatal size and density covary with genome size, positively and negatively, respectively, with genome size explaining 72–75% of the variation in stomatal size. Larger‐genomed species had lower gwmax and C:N ratios, particularly in culms. Conclusions: We interpret differences in vegetative physiology between the genera as evidence of more‐conservative strategies in CFR Schoenus compared to the more‐acquisitive Tetraria. Because Schoenus have smaller, reduced leaves, they likely rely more on culm photosynthesis than Tetraria. Across the CFR Schoeneae, ecophysiology correlates with genome size, but confounding sources of trait variation limit inferences about causal relationships between traits. [ABSTRACT FROM AUTHOR]

Published

2024

10. A new species and new records of Chumma (Araneae, Macrobunidae) from South Africa.

Author

Marusik, Yuri M. and Haddad, Charles R.

Subjects

*SPIDERS, *SPECIES, *PROVINCES

Abstract

A new species of the genus Chumma Jocqué, 2001, C. foordi sp. nov., is described from the Western Cape, South Africa. New distribution records for C. bicolor Jocqué & Alderweireldt, 2018, C. foliata Jocqué & Alderweireldt, 2018 and C. gastroperforata Jocqué, 2001 are presented. The genus is recorded from the Northern Cape Province for the first time, extending its range extensively to the northwest by approximately 450 km. The distribution of all Chumma species is mapped. [ABSTRACT FROM AUTHOR]

Published

2024

11. Phylogeny and reclassification of Lampranthus (Ruschieae, Aizoaceae) in southern Africa.

Author

Klak, Cornelia, Hanáček, Pavel, and Bruyns, Peter V.

Subjects

PHYLOGENY, SUCCULENT plants, SECTS, SPECIES, FRUIT, WINTER

Abstract

Lampranthus consists of 85 species of succulent perennials which are all endemic to southern Africa. Most of its species are restricted to fynbos and regenerate in large numbers after fires. We use nine chloroplast markers to generate a phylogeny with a dense sampling of Lampranthus and some taxa which may be closely related to it. While we found that most of the species belong to one strongly supported "core" clade, we also found three minor clades of Lampranthus that fall outside this core. For Lampranthus we set up a new classification of three subgenera. The clades forming L. subg. Adunci (3 spp.) and subg. Calcarati (1 sp.) are unresolved within the Ruschieae and we treat them as subgenera until their relationships are clarified. Three sections are proposed for L. subg. Lampranthus and we also suggest new synonymy for several species in L. sect. Lampranthus (65 spp.) and sect. Blandi (15 spp.). Roosia and the type species for Esterhuysenia are nested in L. sect. Blandi and so these genera are subsumed under Lampranthus. Esterhuysenia stokoei forms part of Lampranthus and is the sole member of a new section within L. subg. Lampranthus. The two larger sections of L. subg. Lampranthus show different evolutionary trends and distributions: Lampranthus sect. Lampranthus contains more species, they are mostly in the winter rainfall region of the Western Cape and they have a greater range of floral shapes and colours. Lampranthus sect. Blandi contains a single species in the Kamiesberg, in the Northern Cape, while most of its species occur along the southern coast of southern Africa eastwards to southern Natal. These species are florally less diverse. Two species of Lampranthus are moved to a new genus, Malephoropsis gen. nov. These are unrelated to the rest of Lampranthus and they fall among species of Malephora, Disphyma and Gibbaeum with which they share softly corky branches, mesomorphic leaves and only slightly woody fruits with false septa. Several species, which were at one stage included in Lampranthus, are re‐instated in Ruschia; for four others, previously transferred out of Lampranthus to Esterhuysenia or Oscularia, but which cannot be accommodated into any of the existing genera, we propose a new genus, Sederbergia gen. nov. Lastly, we consider three monotypic genera which were sequenced here for the first time: Circandra is re‐instated in Erepsia; Malotigena is transferred to Delosperma subg. Proterogyna; the relationships of Daggodora remain unresolved. [ABSTRACT FROM AUTHOR]

Published

2024

12. Fynbos: A Jewel of the Ethesial Zone

Author

Mucina, Ladislav, Wasserman, Johan, Rutherford, Michael C., Tsakalos, James L., Mucina, Ladislav, Series Editor, Lötter, Mervyn, Editorial Board Member, Luebert, Federico, Editorial Board Member, Peet, Robert K, Editorial Board Member, Rutherford, Michael C., Editorial Board Member, Tsakalos, James, Editorial Board Member, Niekerk, Adriaan van, Editorial Board Member, and ‘Skip’ Walker, Donald A., Editorial Board Member

Published

2024

13. Major Zonobiome and Zonoecotone Patterns in Southern Africa

Author

Mucina, Ladislav, Rutherford, Michael C., Lötter, Mervyn C., Tsakalos, James L., van Niekerk, Adriaan, Higgs, Caley, Powrie, Leslie W., Mucina, Ladislav, Series Editor, Lötter, Mervyn, Editorial Board Member, Luebert, Federico, Editorial Board Member, Peet, Robert K, Editorial Board Member, Rutherford, Michael C., Editorial Board Member, Tsakalos, James, Editorial Board Member, Niekerk, Adriaan van, Editorial Board Member, and ‘Skip’ Walker, Donald A., Editorial Board Member

Published

2024

14. You can't always get what you want from pollinators.

Author

Burd, Martin

Subjects

*POLLINATION, *POLLINATORS, *POLLEN, *PHENOLOGY

Abstract

This article is a Commentary on Duncan et al. (2024), 244: 307–317. [ABSTRACT FROM AUTHOR]

Published

2024

15. Fire-modulated fluctuations in nutrient availability stimulate biome-scale floristic turnover in time, and elevated species richness, in low-nutrient fynbos heathland.

Author

Verboom, G Anthony, Slingsby, Jasper A, and Cramer, Michael D

Subjects

*SPECIES diversity, *SOIL fertility, *PLANT species, *CHEMICAL composition of plants, *BIOMES

Abstract

Background and Aims In many systems, postfire vegetation recovery is characterized by temporal changes in plant species composition and richness. We attribute this to changes in resource availability with time since fire, with the magnitude of species turnover determined by the degree of resource limitation. Here, we test the hypothesis that postfire species turnover in South African fynbos heathland is powered by fire-modulated changes in nutrient availability, with the magnitude of turnover in nutrient-constrained fynbos being greater than in fertile renosterveld shrubland. We also test the hypothesis that floristic overlaps between fynbos and renosterveld are attributable to nutritional augmentation of fynbos soils immediately after fire. Methods We use vegetation survey data from two sites on the Cape Peninsula to compare changes in species richness and composition with time since fire. Key Results Fynbos communities display a clear decline in species richness with time since fire, whereas no such decline is apparent in renosterveld. In fynbos, declining species richness is associated with declines in the richness of plant families having high foliar concentrations of nitrogen, phosphorus and potassium and possessing attributes that are nutritionally costly. In contrast, families that dominate late-succession fynbos possess adaptations for the acquisition and retention of sparse nutrients. At the family level, recently burnt fynbos is compositionally more similar to renosterveld than is mature fynbos. Conclusions Our data suggest that nutritionally driven species turnover contributes significantly to fynbos community richness. We propose that the extremely low baseline fertility of fynbos soils serves to lengthen the nutritional resource axis along which species can differentiate and coexist, thereby providing the opportunity for low-nutrient extremophiles to coexist spatially with species adapted to more fertile soil. This mechanism has the potential to operate in any resource-constrained system in which episodic disturbance affects resource availability. [ABSTRACT FROM AUTHOR]

Published

2024

16. Spillover effects from invasive Acacia alter the plant–pollinator networks and seed production of native plants.

Author

Brett, Maisie F., Strauss, Paula, van Wyk, Kurt, Vaughan, Ian P., and Memmott, Jane

Abstract

Invasive flowering plants can disrupt plant–pollinator networks. This is well documented where invasives occur amongst native plants; however, the potential for 'spillover' effects of invasives that form stands in adjacent habitats are less well understood. Here we quantify the impact of two invasive Australian species, Acacia saligna and Acacia longifolia, on the plant–pollinator networks in fynbos habitats in South Africa. We compared networks from replicate 1 ha plots of native vegetation (n = 21) that were subjected to three treatments: (1) at least 400 m from flowering Acacia; (2) adjacent to flowering Acacia, or (3) adjacent to flowering Acacia where all Acacia flowers were manually removed. We found that native flowers adjacent to stands of flowering Acacia received significantly more insect visits, especially from beetles and Apis mellifera capensis, and that visitation was more generalized. We also recorded visitation to, and the seed set of, three native flowering species and found that two received more insect visits, but produced fewer seeds, when adjacent to flowering Acacia. Our research shows that 'spillover' effects of invasive Acacia can lead to significant changes in visitation and seed production of native co-flowering species in neighbouring habitats—a factor to be considered when managing invaded landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

17. Using UAV multispectral photography to discriminate plant species in a seep wetland of the Fynbos Biome.

Author

Musungu, Kevin, Dube, Timothy, Smit, Julian, and Shoko, Moreblessings

Subjects

MULTISPECTRAL imaging, PLANT species, NORMALIZED difference vegetation index, MACHINE learning, WETLANDS, THEMATIC mapper satellite, DRONE aircraft, CYPERUS

Abstract

Wetlands harbour a wide range of vital ecosystems. Hence, mapping wetlands is essential to conserving the ecosystems that depend on them. However, the physical nature of wetlands makes fieldwork difficult and potentially erroneous. This study used multispectral UAV aerial photography to map ten wetland plant species in the Fynbos Biome in the Steenbras Nature Reserve. We developed a methodology that used K-Nearest Neighbour (KNN), Support Vector Machine (SVM), and Random Forest (RF) machine learning algorithms to classify ten wetland plant species using the preselected bands and spectral indices. The study identified Normalized green red difference index (NGRDI), Red Green (RG) index, Green, Log Red Edge (LogRE), Normalized Difference Red-Edge (NDRE), Chlorophyll Index Red-Edge (CIRE), Green Ratio Vegetation Index (GRVI), Normalized Difference Water Index (NDWI), Green Normalized Difference Vegetation Index (GNDVI) and Red as pertinent bands and indices for classifying wetland plant species in the Proteaceae, Iridaceae, Restionaceae, Ericaceae, Asteraceae and Cyperaceae families. The classification had an overall accuracy of 87.4% and kappa accuracy of 0.85. Thus, the findings are pertinent to understanding the spectral characteristics of these endemic species. The study demonstrates the potential for UAV-based remote sensing of these endemic species. [ABSTRACT FROM AUTHOR]

Published

2024

18. A paleoecological context for forest distribution and restoration in Grootbos Nature Reserve, Agulhas Plain, South Africa.

Author

Prader, Sabine, Gillson, Lindsey, Strauss, Paula, Privett, Sean D. J., and Hoffman, M. Timm

Subjects

FOREST restoration, NATURE reserves, PALEOECOLOGY, TREE planting, GLOBAL warming, ARSON, HUMAN settlements

Abstract

Grootbos Nature Reserve falls within the Cape Floristic Region of South Africa and comprises fynbos and forest vegetation elements, which exist as alternate stable states and are naturally maintained by feedbacks between vegetation, fire, topography and climate. The objective of this study was to investigate changes in forest extent in the Baviaansfontein valley in Grootbos Nature Reserve in order to understand whether current forest coverage was greater or lesser prior to colonial settlement. Incorporating paleoecology has the potential to define historical ranges of landscape variability that can guide forest restoration programs that are aligned to historical forest occurrence. Not all landscapes are suited for tree planting initiatives as they harbor indigenous open vegetation, which is of conservation value. Historical and palaeoecological information is especially valuable as tree planting initiatives and reforestation programs are becoming more popular. Here we present a combined palynological (pollen, spores, charcoal) and geochemical approach (X-ray fluorescence elemental ratios, Loss-on-ignition), to evaluate the historic extent and distribution of forest and fynbos vegetation for the past ~250 years at Baviaansfontein in the Grootbos Nature Reserve. The start of the record was dominated by pollen typical of asteraceous fynbos, with evidence of forest elements also present, though in low abundance. After 200 years (c.1750 CE-1950 CE) of increased input of micro- and macrocharcoal, the subsequent decline in charcoal indicates a decrease in fire occurrence. This decline coincides with increased input of forest pollen taxa, suggesting that fire suppression most likely triggered forest expansion and perhaps initiated the beginning of a biome boundary shift. The continued decline in fire promoted the development of the present-day proteoid fynbos type around ~1980 CE and was responsible for the replacement of the previously more asteraceous-dominated fynbos type. The results show that changes in fire occurrence have driven compositional changes over time within fynbos but also contributed to the expansion of forest at the expense of fynbos. Considering the palaeoecological record and the expected warmer climate with more fires, forest expansion at Baviaansfontein is not recommended. The proteoid-dominated fynbos biome might be similarly negatively affected by warmer climate and a shift to an asteraceous fynbos community could occur in the future. [ABSTRACT FROM AUTHOR]

Published

2024

19. Revision of Indigofera L. sect. Brachypodae subsect. Brachypodae (Fabaceae: Indigofereae) from the Greater Cape Floristic Region.

Author

du Preez, B., Schrire, B.D., Dreyer, L.D., Stirton, C.H., and Muasya, A.M.

Subjects

*LEGUMES, *INDIGOFERA, *LEAF anatomy, *CLADISTIC analysis, *HABITAT selection, *SECTS

Abstract

• Eleven new species are described. • New infraspecific combination created for I. pinnata. • All species illustrated in detailed photographic plates. • Conservation assessment and IUCN red list status is recommended for every species. Indigofera sect. Brachypodae DC. is a large group of approximately 40 species within the Cape Clade, mostly restricted to the Core Cape Region (CCR), with only two species extending eastwards to Grahamstown. This section has been subdivided into four subsections based primarily on morphological characters. Subsect. Brachypodae is the most diverse of the four subsections and is characterised by having sclerophyllous leaves, with a distinctly sunken midvein and (usually) revolute leaf margins. This group occurs almost exclusively within Fynbos, with a few species growing in coastal Strandveld vegetation. Revised here, nineteen species are recognized in this subsection, eleven of which are new to science. Additionally, a new infraspecific combination is created for I. pinnata following nomenclatural and identification confusion. All species are formally described here, with photographic plates of each and illustrations of corollas and calyces provided. Many of the new species were either unrecognised at the time of the last revision in Flora Capensis 2, or have only been discovered recently. Distribution maps and information regarding habitat preference, phenology, and ecology and recommended IUCN red list status of each species are also provided. [ABSTRACT FROM AUTHOR]

Published

2024

20. Four new species of Aspalathus (Fabaceae, Crotalarieae) and notes on three rediscovered species from the Greater Cape Floristic Region.

Author

du Preez, B. and Stirton, C.H.

Subjects

*LEGUMES, *ENDANGERED species, *SAND dunes, *COMPOSITE plates, *SPECIES, *ANIMAL species

Abstract

• Four Aspalathus species new to science are described. • Accounts are provided for three presumed extinct species that were rediscovered. • Detailed photographic plates and distribution maps are included. • Conservation assessments are provided for all seven species. We describe four new species from the Western Cape, South Africa. Aspalathus strigosa Du Preez & C.H.Stirt. is only known by the type collection from the southern slopes of the Klein Swartberg Mountains near Ladismith. Aspalathus albomagnifica Du Preez & C.H.Stirt. is a white-flowered species from lowland renosterveld and fynbos from Hartenbos on the Garden Route. Aspalathus jardinii Du Preez & C.H.Stirt. is a habitat specialist growing in sand dunes of the Riet River running through the Swartruggens Mountains. Aspalathus albicephala Du Preez & C.H.Stirt. is an attractive, critically endangered species from the rooibos belt on Gifberg Mountain. Notes are also provided on three recently rediscovered taxa that were believed to be extinct, Aspalathus cordicarpa R.Dahlgren, A. compacta R.Dahlgren and A. complicata (Benth.) R.Dahlgren. Composite photographic plates, distribution maps, details of habitat, ecology and conservation status are provided for all species. [ABSTRACT FROM AUTHOR]

Published

2024

21. Examining the effects of climate change and human impacts on a high-resolution, late Holocene paleofire record from South Africa's winter rainfall zone

Author

Stella G. Mosher, Mitchell J. Power, Lynne J. Quick, Torsten Haberzettl, Thomas Kasper, Kelly L. Kirsten, David R. Braun, and J. Tyler Faith

Subjects

Fire history, Paleoecology, Pastoralism, Fynbos, Cape Floristic Region, Geography. Anthropology. Recreation, Archaeology, CC1-960

Abstract

Fire is central to the Cape Floristic Region's highly biodiverse and disturbance-adapted Fynbos Biome. However, prehistoric fire regimes, their ecological consequences, and their relationships with large-scale climate drivers and human activities remain poorly understood. Here, we use a high-resolution sedimentary charcoal record from Verlorenvlei, a coastal lake situated on the west coast, to interrogate links between fire, climate, and pastoralism in the Fynbos Biome. Our record has a robust chronology supported by 24 radiocarbon dates and provides a continuous sedimentary sequence spanning the last 4200 years, documenting fire activity before and after the local arrival of pastoralists in the Verlorenvlei area ∼1500 cal years BP. Fire at Verlorenvlei over the last 4200 years is variable, with relatively low activity until ∼2000 cal years BP, after which variable but generally higher fire activity occurs until the highest period of fire activity from ∼1450 to 1800 CE (∼500–150 cal years BP). The increase in fire activity ∼2000 years ago corresponds with a shift in the diatom assemblage at Verlorenvlei from marine towards brackish and freshwater species, reflecting increased precipitation derived from a strengthening of the southern westerly winds. The peak in fire activity beginning ∼1450 CE (∼500 cal years BP), near the onset of the Little Ice Age, tracks a second diatom-inferred strengthening of the westerly winds. Other southern hemisphere and Antarctic records further corroborate this increased westerly influence after ∼2000 years. Linear regression modeling on the fire record indicates that moisture availability is the primary driver of fire at Verlorenvlei, with little evidence that human populations influenced fire. Our reconstruction suggests that fire activity at Verlorenvlei is limited by moisture availability and that wetter conditions facilitate increased vegetation (i.e., fuel) and intensified fire at this otherwise fuel-limited site. This work has implications for management and conservation decisions in response to future predictions of a warmer and drier climate along South Africa's west coast.

Published

2024

22. A paleoecological context for forest distribution and restoration in Grootbos Nature Reserve, Agulhas Plain, South Africa

Author

Sabine Prader, Lindsey Gillson, Paula Strauss, Sean D. J. Privett, and M. Timm Hoffman

Subjects

forest-fynbos boundaries, palynology, palaeoecology, compositional change, ecosystem conservation, fynbos, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Grootbos Nature Reserve falls within the Cape Floristic Region of South Africa and comprises fynbos and forest vegetation elements, which exist as alternate stable states and are naturally maintained by feedbacks between vegetation, fire, topography and climate. The objective of this study was to investigate changes in forest extent in the Baviaansfontein valley in Grootbos Nature Reserve in order to understand whether current forest coverage was greater or lesser prior to colonial settlement. Incorporating paleoecology has the potential to define historical ranges of landscape variability that can guide forest restoration programs that are aligned to historical forest occurrence. Not all landscapes are suited for tree planting initiatives as they harbor indigenous open vegetation, which is of conservation value. Historical and palaeoecological information is especially valuable as tree planting initiatives and reforestation programs are becoming more popular. Here we present a combined palynological (pollen, spores, charcoal) and geochemical approach (X-ray fluorescence elemental ratios, Loss-on-ignition), to evaluate the historic extent and distribution of forest and fynbos vegetation for the past ~250 years at Baviaansfontein in the Grootbos Nature Reserve. The start of the record was dominated by pollen typical of asteraceous fynbos, with evidence of forest elements also present, though in low abundance. After 200 years (c.1750 CE–1950 CE) of increased input of micro- and macrocharcoal, the subsequent decline in charcoal indicates a decrease in fire occurrence. This decline coincides with increased input of forest pollen taxa, suggesting that fire suppression most likely triggered forest expansion and perhaps initiated the beginning of a biome boundary shift. The continued decline in fire promoted the development of the present-day proteoid fynbos type around ~1980 CE and was responsible for the replacement of the previously more asteraceous-dominated fynbos type. The results show that changes in fire occurrence have driven compositional changes over time within fynbos but also contributed to the expansion of forest at the expense of fynbos. Considering the palaeoecological record and the expected warmer climate with more fires, forest expansion at Baviaansfontein is not recommended. The proteoid-dominated fynbos biome might be similarly negatively affected by warmer climate and a shift to an asteraceous fynbos community could occur in the future.

Published

2024

23. Fire, frost, and drought constrain the structural diversity of wood within southern African Erica (Ericaceae).

Author

Akinlabi, F M, Pirie, M D, and Oskolski, A A

Subjects

*WOOD, *ERICACEAE, *DROUGHTS, *PHYLOGEOGRAPHY, *SOIL freezing

Abstract

Erica comprises ~860 species of evergreen shrubs and trees ranged from Europe to southern Africa and Madagascar. Wood structure of the around 20 European species is well studied, but despite its relevance to adaptation across the wider geographic range, it has not yet been explored across the much greater diversity, particularly of southern African lineages. In this study, we examine wood structure of 28 Erica species from southern Africa. In the African Erica clade, loss of scalariform perforation plates could be driven by increased aridity and seasonality in the mid-Miocene, and its re-gain can represent an adaptation to freezing in the high elevation species E. nubigena. As vessels in Erica are mostly solitary, imperforate tracheary elements probably form a subsidiary conduit network instead of vessel groups. Increase of ray frequency in habitats with a prominent dry and hot season probably facilitates refilling of vessels after embolism caused by water stress. Wider rays are ancestral for the lineage comprising African Erica and the Mediterranean E. australis. The negative correlation between ray width and expression of summer drought is consistent with Ojeda's model explaining the diversification of seeders and resprouters among southern African Erica. [ABSTRACT FROM AUTHOR]

Published

2023

24. Four new Indigofera (Fabaceae: Indigofereae) species from the Greater Cape Floristic Region.

Author

du Preez, B., Schrire, B.D., Dreyer, L.L., Stirton, C.H., Chimphango, S.B.M., and Muasya, A.M.

Subjects

*INDIGOFERA, *SPECIES, *COMPOSITE plates, *RIVER channels, *LEGUMES

Abstract

• Four species new to science are described. • Detailed photographic plates and distribution maps are included. • Conservation assessments are provided for all four species. Four new Indigofera species are described from the Greater Cape Floristic Region (GCFR). Indigofera barkeri is a new annual from the Richtersveld, with small flowers, 3.5–4.0 mm long, pinnately trifoliolate leaves and laterally flattened seeds. Indigofera dodii is endemic to the area around Cape Town, growing on granite and shaly slopes. It has apically congested racemes, flowers 6.0–6.5 mm long, digitately trifoliolate leaves, fruit with a hispid indumentum and tuberculate seed testas. Indigofera gariepensis , endemic to dry riverbeds in the eastern Richtersveld, is recognized by its alternate, silky-velutinous leaflets and calyx lobes ± equal in length to its 5.5–6.5 mm long magenta flowers. Indigofera tanquana is known from only two collections and is endemic to the western Tanqua Karoo. It is easily recognized by its broad old grey stems, spinescent branches, simple grey-canescent leaves that aggregate on woody brachyblasts and reddish-magenta flowers. Detailed morphological descriptions are presented with composite photographic plates for each species. Notes on ecology, detailed diagnoses comparing with closely related species, a distribution map and an IUCN red list conservation assessment for each species is also provided. [ABSTRACT FROM AUTHOR]

Published

2023

25. Oomycete composition in Proteaceae orchards and natural stands on three continents.

Author

Migliorini, Duccio, Vivas, Maria, Wingfield, Michael J., Shaw, Christopher, and Burgess, Treena I.

Abstract

The Proteaceae, a diverse family of woody flowering plants in the Southern Hemisphere, contains many species known to be susceptible to Phytophthora cinnamomi, both in the natural environment and in cut-flower orchards. Very little is known about the prevalence of P. cinnamomi and other oomycetes across these landscapes. To address this knowledge gap, we used a double ITS1 and RPS10 gene metabarcoding approach and traditional isolation protocols to investigate oomycetes in orchards and natural stands of Proteaceae across South Africa, South Africa (eastern and western), Australia, and Europe. The RPS10 primers amplified more samples, including various Pythium species, while the ITS primers detected more Phytophthora phylotypes. Both datasets showed that geographic regions influenced oomycete species richness and community composition, while they did not show any variation between orchards and natural vegetation. RPS10 metabarcoding detected the largest number of species and provided greater statistical confidence than ITS1 when considering oomycete species composition. Metabarcoding also showed that orchards had a higher abundance of P. cinnamomi compared to native stands, although this was not found when isolating through baiting of roots and rhizosphere soil. Direct isolation and metabarcoding are complementary, with metabarcoding serving as an early detection tool. However, it cannot distinguish living viable propagules from residual DNA of dead propagules, limiting its use for diagnostic purposes related to Phytophthora management and control. These results, along with those of other recent studies, show that metabarcoding offers an effective tool to describe the dynamics of soil oomycetes in different ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

26. Multispectral remote sensing of potential groundwater dependent vegetation in the greater Floristic region of the Western Cape, South Africa.

Author

Chiloane, Chantel, Dube, Timothy, and Shoko, Cletah

Subjects

*WATER management, *GROUNDWATER, *MULTISPECTRAL imaging, *GEOGRAPHIC information systems, *LANDSAT satellites, *REMOTE sensing

Abstract

Groundwater dependent vegetation (GDV) is increasingly threatened by the transformation of the natural environment. An understanding of the nature of GDV at the appropriate scale helps environmental managers make suitable decisions. This study assesses the potential for mapping the distribution of GDV within the Heuningnes Catchment using multispectral remotely sensed data (i.e., Landsat 8 (L8) and Sentinel 2 (S2)), the derived vegetation indices (Normalised Difference Vegetation Index (NDVI) and the Soil-Adjusted Vegetation Index (SAVI)) and in-situ data. The GDV distribution maps were produced by integrating vegetation productivity, landcover, and topographic layers as GDV indicators. The findings of the study revealed that the spectral indices had a significant influence on the sensor's GDV classification performance. Specifically, the S2-derived SAVI mapped the GDV areas with the highest overall accuracy (97%), followed by the S2-derived NDVI, with an accuracy of 95%. Comparatively, the L8(NDVI) GDV map was achieved with an overall accuracy of 92% and the L8(SAVI) map had an overall accuracy of 96%. The estimated coverage of potential GDV within the catchment ranges between 2.34 and 2.60%. This work demonstrated the capabilities of a combined remote sensing and GIS methodological framework, which can improve our knowledge on GDV. [ABSTRACT FROM AUTHOR]

Published

2023

27. Root trait variation along water gradients in the Cape Floristic Region.

Author

Kühn, Nicola, Tovar, Carolina, Willis, Katherine J., and Macias‐Fauria, Marc

Subjects

*DROUGHTS, *WATER supply, *PLANT size, *BIOMES

Abstract

Questions: Roots are responsible for essential plant functions including water uptake. However, the extent to which root traits (size and structure) determine plant presence in water‐limited environments is still poorly understood. Here we investigated how root traits vary across water availability gradients within a dry South African biome. Location: South Africa. Methods: We measured six below‐ground (root) and eight above‐ground (leaf + stem) traits of 124 individuals of nine dominant woody shrub species from wetter and drier sites (600–700 vs 250–300 mm annual precipitation) in the Fynbos biome of the Cape Floristic Region. Within sites, we sampled from recently burnt and unburnt/more mature vegetation and at three locations along topographical gradients. Results: Drier regions showed greater maximum rooting depth, length, root dry matter content and root to shoot ratio. These trait patterns were consistent at an intraspecific level, along locally drier topographical locations and in post‐fire environments. Roots accounted for significant whole‐plant trait variation. Additionally, in drier conditions, we found increased root allocation deviating from expected global allometric relationships. Our study also demonstrates that the combination of fire and drought in the driest locations results in poor above‐ground vegetation recovery in terms of plant size, cover and individual counts with only resprouters persisting. Conclusions: Our research suggests that root investment in Fynbos shrubs will likely be key for coping with a drier and warmer future and should be a focus of more research for dryland biomes. [ABSTRACT FROM AUTHOR]

Published

2023

28. Late-Holocene fynbos-forest dynamics in Orange Kloof, Table Mountain National Park, South Africa.

Author

Prader, Sabine, Gillson, Lindsey, Chase, Brian M, and Hoffman, M Timm

Subjects

*CHARCOAL, *NATIONAL parks & reserves, *LITTLE Ice Age, *LAND clearing, *FIREFIGHTING, *WATER supply, *LANDSCAPE assessment

Abstract

Fynbos and afrotemperate forest exist as alternate stable states in the Cape Floristic Region of South Africa. In parts of Table Mountain National Park, afrotemperate forest has expanded in recent decades. The aim of this project was to explore the drivers of this change and distinguish whether this expansion represents a recovery of forest after previous clearance during the 18th century or is a novel expansion of forest range that resulted from policies of fire suppression in the 20th century. To determine the relationships between forest and fynbos and its key drivers, pollen, non-pollen palynomorphs, charcoal, stable isotope ratios (δ13C) and major and trace elements were analysed from late-Holocene sediments extracted from Orange Kloof. Pollen data show that forest cover has fluctuated over the past 3690 years. At the start of the record, under drier conditions from 1670 BCE to ~170 CE, forests contracted, and dry, asteraceous fynbos dominated the landscape. Around ~170 CE there was a shift to ericaceous fynbos as water availability increased. Weak signals of Khoekhoen pastoralists may be visible in the record around 50 CE, indicated by increased spores and charcoal. A regime shift towards increased dominance of the forest occurred ~250 CE, associated with wetter climate. Clear anthropogenic signals are associated with European settlement from 1650 CE. Reinforced by human clearance of forest, fynbos expanded during the cool conditions of the late phase of Little Ice Age (~1750–1850 CE). Forest expansion in the 20th century likely reflects fire suppression and recovery from past forest clearance. Fire needs to be managed accordingly if further expansion of forest into fynbos is to be curbed. [ABSTRACT FROM AUTHOR]

Published

2023

29. Comparative assessment of heat tolerance in weevils associated with a fire‐prone ecosystem.

Author

Javal, Marion, Terblanche, John S., Smit, Chantelle, and Haran, Julien

Subjects

*FIRE management, *ECOSYSTEMS, *CURCULIONIDAE, *LIFE history theory, *GLOBAL warming, *PHYTOPHAGOUS insects, *REGENERATION (Botany)

Abstract

Fire is an important cause of disturbance which directly shapes many ecosystems worldwide. While the effect of fire on the distribution and regeneration of plant species has been widely documented, little is known on how phytophagous insects are reacting to these disturbances.This study explores the survival strategies of various weevil species, a highly diverse phytophagous beetle group in fire‐prone ecosystems of the biodiversity hotspot of the Cape Floristic Region in South Africa. More specifically, we investigated how the lifestyle of species (location of larval development, phenology of adults, and flight ability) correlates with heat tolerance. We hypothesized that wingless species in particular will show better tolerance to heat as they have a limited ability to escape fire rapidly and usually remain hidden in the soil.The thermal tolerance of a set of sixteen species with divergent lifestyles and geographic distribution was measured using a standard heat knockdown protocol at 48°C. Respirometry was then performed on the most resistant species using a ramping protocol in order to determine CTmax.Our results show that the species tested exhibit high variation in thermal tolerance across taxonomic groups, clustering into three modalities: weak, intermediate, and high tolerance to heat stress. In addition, life history traits (diurnal vs. nocturnal adult activity and location of juvenile stages in plant tissues) likely better explain thermal tolerance at the species level than flight ability or the fire‐proneness of ecosystems. Finally, results revealed that some non‐flying weevil species are highly heat tolerant with CTmax values reaching up to 50.2 and 51.9°C in species among the Ocladiinae and Brachycerinae subfamilies, respectively.Climate change is leading to an increase in the impact and frequency of fires. In this context, this study highlights the diversity of strategies developed by arthropods to escape extreme heat in fire prone ecosystems. Further work is necessary to examine the generality of these patterns across other fire prone ecosystems to better understand behavioural compensation and evolutionary responses, especially given the forecast increases in fire driven by drying and warming associated with climate change. [ABSTRACT FROM AUTHOR]

Published

2023

30. Along the footpath of Penicillium discovery: Six new species from the Woodville Big Tree Forest Trail.

Author

Visagie, Cobus M. and Yilmaz, Neriman

Subjects

*RNA polymerase II, *PENICILLIUM, *OCHRATOXINS, *RIBOSOMAL DNA, *SPECIES, *TRAILS, *GENETIC barcoding

Abstract

In this study, we studied the diversity of Penicillium occurring in soil collected along the Woodville Big Tree Forest Trail situated close to the coastal town of Wilderness in South Africa. Strains were accessioned into a collection and then identified to species based on β-tubulin DNA sequences, which is the recommended DNA barcode for the genus. The 74 strains were found to represent 18 species, including six we consider undescribed. Here, we introduce them as Penicillium claroviride, P. kalander, P. mattheeae, P. outeniquaense, P. subfuscum, and P. umkhoba. Phylogenetic comparisons were made, and genealogical concordance was demonstrated for these new species using DNA sequences from nuc rDNA internal transcribed spacer region ITS1-5.8S-ITS2 (ITS barcode), β-tubulin, calmodulin, and RNA polymerase II second largest subunit. Notes on morphological characters distinguishing the new species from their close relatives are provided. [ABSTRACT FROM AUTHOR]

Published

2023

31. Prioritising species for monitoring in a South African protected area and the Red List for plants.

Author

Cowell, Carly R., Lughadha, Eimear Nic, Anderson, Pippin M. L., Leão, Tarciso, Williams, Jenny, and Annecke, Wendy A.

Subjects

PROTECTED areas, ENDANGERED species, ENDANGERED plants, PLANT species, SPECIES

Abstract

Protected areas (PA) in biodiversity hotspots face the challenge of monitoring large numbers of locally rare and threatened plant species at times with limited budgets. Prioritising species according to their local extinction risk could help PA managers to decide which species to monitor. However, there is often very little information available on the species occurrence and extinction risk in the PA. Because of this, PA managers often rely on the national or global Red List for prioritising species at the PA level. Here, we evaluate the effectiveness of using the Red List for species prioritisation and examine the robustness of extinction probability equations for 74 fynbos species in Table Mountain National Park (TMNP). We conducted in-field surveys to verify the persistence of subpopulations previously recorded, following a detection protocol adapted for rare and cryptic plant species. We found that most targeted species were extant within TMNP but with a substantially reduced number of subpopulations. Twenty-six species only had one or two subpopulations remaining. Critically Endangered (CR) species lost on average 4 subpopulations more than Least Concern (LC) species. However, species persistence in TMNP was largely independent of their Red List status. Half of the species represented by just one or two subpopulations were listed as LC. This work shows that prioritising monitoring according to the Red List status is not appropriate at the scale of the individual PA. We suggest that more in-field data and monitoring is required to prevent extinctions occurring in PAs. [ABSTRACT FROM AUTHOR]

Published

2023

32. Cytotoxic activity of Cape Fynbos against triple-negative breast cancer cell line.

Author

Adu-Amankwaah, Francis, Tapfuma, Kudzanai Ian, Hussan, Raeesa Hoosen, Tshililo, Ndivhuwo, Baatjies, Lucinda, Masiphephethu, Maano Valerie, Mabasa, Lawrence, and Mavumengwana, Vuyo

Subjects

*TRIPLE-negative breast cancer, *CANCER cells, *HEXANE, *CELL lines, *BOTANICAL chemistry, *SOLVENT extraction, *CELL death, *FLOW cytometry

Abstract

• Erica glabella, Hippia frutescens and Salvia africana-lutea (methanol), and Eriocephalus racemosa (hexane) extracts IC 50 at < 30 µg/mL • Eriocephalus racemosa induced 21.48±2.86% apoptosis similar to cisplatin 23.72±4.36%. • Metabolite profiling of Salvia africana-lutea extract revealed the presence of phosphatidylcholines, triterpenoids, oxepane and 7-O-methylated flavonoids derivatives. Breast cancer is a leading cause of cancer-related deaths in women globally. Even though a plethora of treatments are available, most patients experience adverse effects which affect their quality of life. The aim of this study was to investigate the utility of nine Fynbos plants (Erica magnisylvae E.G.H Oliv., Erica canescens J.C. Wendl. , Erica coccinea L. , Erica glabella Thunb. , Erica corifolia L. , Eriocephalus racemosa L. , Hippia frutescens L., Salvia africana-lutea L. and an unknown Fynbos plant) in treating breast cancer. Solvent extraction of fynbos plants was performed, and crude extracts were evaluated against MDA-MB 231 cancer cell line to determine the cytotoxic activity with the mode of cell death confirmed using flow cytometry. Antioxidant activity and mass spectrometry-based metabolite profiling were performed to characterize and identify the phytochemical constituents of the extracts. The methanol extracts from E. glabella., H. frutescens and S. africana-lutea and the hexane extract from E. racemosa showed promising cytotoxic activities in the screening phase and thus were further evaluated to determine their 50% inhibitory concentrations (IC 50) which were found to be < 30 µg/mL. Flow cytometry analysis of treated MDA-MB 231 cells revealed promising results for the hexane crude extract (leaves) of E. racemosa and stem methanol crude extract of H. frutescens which induced apoptosis in MDA-MB-231 cancer cell line, similar to the reference drug cisplatin. Metabolite profiling of S. africana-lutea extract, the most potent apoptosis inducer in this study, revealed the presence of phosphatidylcholines, triterpenoids, oxepane and 7-O-methylated flavonoids derivatives. It was concluded that E. racemosa and S. africana-lutea are excellent candidates for further development of therapeutic agents in the fight against cancer, given the pressing need for novel efficacious agents. [ABSTRACT FROM AUTHOR]

Published

2022

33. Canopy plant composition and structure of Cape subtropical dune thicket are predicted by the levels of fire exposure.

Author

Strydom, Tiaan, Kraaij, Tineke, Grobler, B. Adriaan, and Cowling, Richard M.

Subjects

FIRE exposure, SAND dunes, PLANT canopies, CHEMICAL composition of plants, PLANT anatomy, MULTIVARIATE analysis, COMPETITION (Biology)

Abstract

Background: The subtropical dune thicket (hereafter "dune thicket") of the Cape Floristic Region experiences a wide range of fire exposure throughout the landscape, unlike other dry rainforest formations that rarely experience fire. We sought to determine how fire exposure influences species composition and the architectural composition of dune thicket. Methods: We used multivariate analysis and diversity indices based on cover abundance of species to describe the species composition, architectural guild composition and structure of dune thicket sites subject to different levels of fire exposure, namely low (fire return interval of >100 years), moderate (fire return interval of 50-100 years), and high (fire return interval of 10-50 years). Results: The diversity, cover abundance and architectural guild cover abundance of dune thicket canopy species were strongly influenced by the level of fire exposure such that each level was associated with a well-circumscribed vegetation unit. Dune thickets subject to low fire exposure comprises a floristically distinct, low forest characterized by shrubs with one-to-few upright stems (ca. 4-8 m tall) and a relatively small canopy spread (vertical growers). Of the 25 species in this unit, 40% were restricted to it. Dune thickets subject to moderate fire exposure had the highest abundance of lateral spreaders, which are multi-stemmed (ca. 3-6 m tall) species with a large canopy spread and lower stature than vertical growers. None of the 17 species found in this unit was restricted to it. Dune thickets subject to high fire exposure had the highest abundance of hedge-forming shrubs, these being low shrubs (ca. 0.6-1.4 m tall), with numerous shoots arising from an extensive system of below-ground stems. Of the 20 species in this unit, 40% were restricted to it. Multivariate analysis identified three floristic units corresponding to the three fire exposure regimes. Compositional structure, in terms of species and architectural guilds, was most distinctive for dune thickets subject to high and low fire exposure, while the dune thicket subject to moderate fire exposure showed greatest compositional overlap with the other units. Conclusion: Fire exposure profoundly influenced the composition and structure of dune thicket canopy species in the Cape Floristic Region. In the prolonged absence of fire, the thicket is invaded by vertical-growing species that overtop and outcompete the multi-stemmed, laterally-spreading shrubs that dominate this community. Regular exposure to fire selects for traits that enable thicket species to rapidly compete for canopy cover post-fire via the prolific production of resprouts from basal buds below- and above-ground. The trade-off is that plant height is constrained, as proportionately more resources are allocated to below-ground biomass. [ABSTRACT FROM AUTHOR]

Published

2022

34. Using riparian plant species to locate the 1:2-year floodline on single channel rivers.

Author

Reinecke, MK, Brown, CA, Esler, KJ, and King, JM

Subjects

*RIVER channels, *PLANT species, *RIPARIAN plants, *RIPARIAN areas, *STATISTICAL sampling, *STREAMFLOW, *PLANT communities

Abstract

Riparian zones can be characterised botanically into two main areas, a wet bank and a dry bank. These areas have been linked to the duration of inundation by river flow, the boundary between the two being the 1:2 year floodline. Therefore the wet bank is inundated regularly by small floods and the dry bank by larger, less frequent floods, and each may support one to a few distinct plant communities laterally up the bank. Understanding these plant distributions helps rehabilitation projects and Environmental Flow (EFlows) studies as it can inform re-vegetation strategies in the former and help understanding of the links between plants and the river's flow regime in the latter. Systematic sampling and data analysis methods were developed for single channel rivers with relatively undisturbed natural vegetation to identify and locate the different plant communities in the riparian zone. Generic rules using distance and height from the water's edge, rather than the presence or absence of plant species, were calculated to locate the communities. While these statistics were derived from the riparian vegetation along perennial Western Cape rivers, South Africa, the methods could be applied to other perennial single channel river anywhere. [ABSTRACT FROM AUTHOR]

Published

2022

35. Canopy plant composition and structure of Cape subtropical dune thicket are predicted by the levels of fire exposure

Author

Tiaan Strydom, Tineke Kraaij, B. Adriaan Grobler, and Richard M. Cowling

Subjects

Biome boundaries, Cape Floristic Region, Coastal dune vegetation, Forest, Fire frequency, Fynbos, Medicine, Biology (General), QH301-705.5

Abstract

Background The subtropical dune thicket (hereafter “dune thicket”) of the Cape Floristic Region experiences a wide range of fire exposure throughout the landscape, unlike other dry rainforest formations that rarely experience fire. We sought to determine how fire exposure influences species composition and the architectural composition of dune thicket. Methods We used multivariate analysis and diversity indices based on cover abundance of species to describe the species composition, architectural guild composition and structure of dune thicket sites subject to different levels of fire exposure, namely low (fire return interval of >100 years), moderate (fire return interval of 50–100 years), and high (fire return interval of 10–50 years). Results The diversity, cover abundance and architectural guild cover abundance of dune thicket canopy species were strongly influenced by the level of fire exposure such that each level was associated with a well-circumscribed vegetation unit. Dune thickets subject to low fire exposure comprises a floristically distinct, low forest characterized by shrubs with one-to-few upright stems (ca. 4–8 m tall) and a relatively small canopy spread (vertical growers). Of the 25 species in this unit, 40% were restricted to it. Dune thickets subject to moderate fire exposure had the highest abundance of lateral spreaders, which are multi-stemmed (ca. 3–6 m tall) species with a large canopy spread and lower stature than vertical growers. None of the 17 species found in this unit was restricted to it. Dune thickets subject to high fire exposure had the highest abundance of hedge-forming shrubs, these being low shrubs (ca. 0.6–1.4 m tall), with numerous shoots arising from an extensive system of below-ground stems. Of the 20 species in this unit, 40% were restricted to it. Multivariate analysis identified three floristic units corresponding to the three fire exposure regimes. Compositional structure, in terms of species and architectural guilds, was most distinctive for dune thickets subject to high and low fire exposure, while the dune thicket subject to moderate fire exposure showed greatest compositional overlap with the other units. Conclusion Fire exposure profoundly influenced the composition and structure of dune thicket canopy species in the Cape Floristic Region. In the prolonged absence of fire, the thicket is invaded by vertical-growing species that overtop and outcompete the multi-stemmed, laterally-spreading shrubs that dominate this community. Regular exposure to fire selects for traits that enable thicket species to rapidly compete for canopy cover post-fire via the prolific production of resprouts from basal buds below- and above-ground. The trade-off is that plant height is constrained, as proportionately more resources are allocated to below-ground biomass.

Published

2022

36. Wildland urban interface of the City of Cape Town 1990–2019.

Author

Christ, Sven, Schwarz, Nina, and Sliuzas, Richard

Subjects

*CITY dwellers, *FIRE management, *URBAN growth, *EMERGENCY management, *GOVERNMENT policy, *CITIES & towns, *FIREFIGHTING, *WILDFIRE prevention

Abstract

Wildfire affecting urban areas at the wildland urban interface (WUI) is a growing global concern, where management is important for urban residents as well as wildland vegetation. We used a socio‐ecological system perspective to investigate the interactions of urban land with a fire‐dependent wildland in South Africa's City of Cape Town (CoCT). We examined changes in population growth, land cover change and related WUI footprint, occurrence of large fires, and related policies over time. We used Landsat data to track changes over the period 1990–2019 in the formal and informal urban and wildland footprint, census data to track changes in population, and difference normalised burn ratio and MODIS burned area product to track large fires. The urban footprint has expanded greatly and through consolidation has led to the reduction of the WUI. Furthermore, evidence points to an increase in fire suppression, even though national policies ask for wildfires to run their course where possible and appropriate. As a result of pressure from urban residents, local managers prefer short term fire suppression to long term risk reduction for urban areas and ecological management of wildland. Framing the problem as a socio‐ecological system enabled us to highlight how WUI management is a product of interaction between urban development, wildland type and policies. Our findings emphasise the point that wildland management is driven by urban residents and local municipalities, with national fire and disaster management policies not fully implemented. [ABSTRACT FROM AUTHOR]

Published

2022

37. Distribution of Melaleuca rugulosa (Schlechtendal ex Link) Craven (Myrtaceae) in South Africa: Assessment of invasiveness and feasibility of eradication.

Author

Matthys, Chelsey, Jubase, Nolwethu, Visser, Vernon, and Geerts, Sjirk

Subjects

*MYRTACEAE, *SOIL seed banks, *MOUNTAIN plants, *NATIVE plants, *INTRODUCED species, *ECOSYSTEMS

Abstract

• The alien Melaleuca rugulosa (Myrtaceae) has spread over 1.2 hectares in South Africa.. • The one invasive population is in pristine fynbos in Table Mountain National Park. • Recent fires most likely triggered the invasion of this serotinous species. • Melaleuca rugulosa can still be extirpated and should be listed as 1a under NEM:BA. Several Melaleuca (Myrtaceae) species are invasive globally. Recently an increase in invasive species from this genus have been reported in South Africa. Here we document the first detailed assessment of the distribution and invasive potential of Melaleuca rugulosa in South Africa. We assess population structure, determine the current and potential future distribution in South Africa using climatic variables, conduct a risk analysis, provide recommendations for management, and consider the feasibility of eradication. We found one naturalising population of ∼665 individuals covering more than 1.2 hectares. It was first recorded in 1961 invading the native fynbos vegetation in the Table Mountain National Park (TMNP). Two recent fires – in 2009 and 2016 – likely enhanced spread, this spread happened despite undocumented clearing attempts in the last decade. The south-western Cape is the most climatically suitable for M. rugulosa, with most other wetter areas of the country being only partly suitable regions. The risk analysis indicated a medium risk, and we suggest listing M. rugulosa as category 1a (eradication target) under the South African National Environmental Management: Biodiversity Act (10/ 2004). Given the small area occupied, ease of access and the lack of a soil seed bank, the population can be extirpated from Devil's Peak within the TMNP. We highlight that serotinous alien species, particular from the Myrtaceae, should receive more attention as potential invasive species in fire-driven ecosystems and that their lack of invasiveness in areas where fire is suppressed, should not be misinterpreted as being a low-risk species. [ABSTRACT FROM AUTHOR]

Published

2022

38. A delicate symphony of life

Author

Boulois, Joy and Boulois, Joy

Abstract

In dieser Masterarbeit geht es um die Änderung der Landnutzung auf nationaler Ebene, um durch die Umverteilung der Agrarlandmuster stark gefährdete Bioregionen zu entlasten. Die geografische und geologische Forschung führt mich zu zwei territorialen Vorschlägen, die sich im Laufe der Zeit entwickeln. Diese beiden Standorte stellen unterschiedliche Grundstücke dar, sind jedoch eng miteinander verbunden. Diese Forschung stellt einen neuen Ansatz für die gemeinsame Nutzung von Land mit nichtmenschlichen Akteuren auf territorialer Ebene vor, der vergangene und aktuelle Daten einbezieht, aber auch zukünftige Klimaprognosen einbezieht, die unsere Interaktionen, Entscheidungen und unser Verhalten innerhalb der Landschaft beeinflussen., This Master Thesis is about changing Land Use on a national scale to relieve critically endangered bio-regions by redistributing farmland patterns. The geographical and geological research leads me to two territorial proposals developing in time. These two sites represent distinct land properties but are very interconnected. This research presents a new approach to sharing land with nonhuman actors on a territorial scale, incorporating past and the present data but also including future climatic projections that influence our interactions, decisions and behavior within the landscape., Joy Boulois, Masterarbeit University of Innsbruck 2024

Published

2024

39. Road and landscape-context impacts on bird pollination in fynbos of the southeastern Cape Floristic Region.

Author

Grobler, B. Adriaan and Campbell, Eileen E.

Subjects

*POLLINATION, *HABITAT modification, *BIRD populations, *PLANT fertility, *PLANT populations, *PLANT habitats, *PLANT spacing, *ROAD closures

Abstract

• The suitability of road verges as habitats for fynbos plants is poorly understood. • We investigate pollination of ornithophilous Erica glandulosa in road verges. • Fewer flowers were visited by birds closer to the road. • Fewer flowers were visited in road verges next to transformed land. • On average, 20–30% of flowers found within 10 m of the road were visited by birds. Road verges can provide important habitats for plants, especially in transformed landscapes. However, roads and their associated traffic have several adverse impacts on ecosystems that can disrupt vital ecological processes, including pollination. In transformed landscapes, the negative effects of roads on pollination might be complemented by impacts of large-scale habitat modification. In these landscapes, road verge populations of plants that rely on pollinators could thus be at risk of pollination failure. This study investigates the pollination of a reseeding, bird-pollinated shrub, Erica glandulosa , in road verges of a fragmented and transformed rural landscape in the southeastern Cape Floristic Region. We test for road impacts on pollination by comparing number of ruptured anther rings – a proxy for pollination – in fynbos vegetation fragments at different distances from the road (0–10, 20–30 and 40–50 m). We also test whether different land-cover types (intact fynbos, alien thickets and rangelands/pastures) next to road verges influence the number of ruptured anther rings. After controlling for robbing rate and plant density, fewer flowers were pollinated near the road (0–10 m) than farther away (beyond 20 m), and fewer flowers were pollinated where road verges occurred next to alien thickets or pastures/rangelands compared to intact fynbos. However, bird pollinators were not excluded in road verges: on average, ca. 20–30% of flowers occurring within 10 m of the road were still visited by birds. While we expect the reduced pollination rate to have a negative effect on the fecundity of road-verge plants, it remains to be tested whether the pollination rate observed in verges is sufficient to sustain populations of bird-pollinated, seed-dependent plants. [ABSTRACT FROM AUTHOR]

Published

2022

40. Secondary invaders in riparian habitats can remain up to 10 years after invasive alien Eucalyptus tree clearing.

Author

Geerts, Sjirk, Mangachena, Joy R., and Nsikani, Mlungele M.

Subjects

*RIPARIAN areas, *INTRODUCED plants, *EUCALYPTUS, *INTRODUCED species, *INVASIVE plants

Abstract

• Secondary invader species after alien tree clearing are seldom reported. • Secondary invader richness is lower in riparian Fynbos than non-riparian areas. • Secondary invaders are a mix of annuals and perennials (shrubs, herbs and graminoids). • Secondary invader richness persisted up to a decade after clearing. After the clearing of invasive alien plants, non-target alien species often move in. This is known as secondary invasion and these alien species can suppress native plant species' recovery. This is a global problem that has only recently received attention in South Africa. But whether secondary invaders in riparian areas have similar effects than those in more terrestrial areas is largely unknown globally and in South Africa. Therefore, here we ask which species and growth forms are associated with secondary invasion in riparian areas in the Fynbos biome, and secondly whether secondary invader species richness changes over time post clearing. We found 13 secondary invader species in a riparian area after clearing of alien invasive Eucalyptus trees. In the first year after clearing, there were only annuals, but thereafter it was a mix of annuals and perennials (shrubs, herbs, and graminoids). Secondary invader richness did not significantly differ with time after clearing, persisting even up to 10 years. In this riparian area, secondary invader species richness was much lower than that for non-riparian Fynbos areas. From this preliminary study we highlight the need for more research in understanding how secondary invaders influence restoration efforts and native species recovery in riparian systems. [ABSTRACT FROM AUTHOR]

Published

2022

41. Reduced visitation to buzz‐pollinated Cyanella hyacinthoides in the presence of other pollen sources in the hyperdiverse Cape Floristic Region.

Author

Kemp, Jurene E., Telles, Francismeire J., and Vallejo‐Marín, Mario

Subjects

*POLLINATORS, *POLLINATION, *POLLEN, *FLORAL morphology, *PLANT species, *NUMBERS of species, *FLOWER shows

Abstract

Many plant species have floral morphologies that restrict access to floral resources, such as pollen or nectar, and only a subset of floral visitors can perform the handling behaviors required to extract restricted resources. Due to the time and energy required to extract resources from morphologically complex flowers, these plant species potentially compete for pollinators with co‐flowering plants that have more easily accessible resources. A widespread floral mechanism restricting access to pollen is the presence of tubular anthers that open through small pores or slits (poricidal anthers). Some bees have evolved the capacity to remove pollen from poricidal anthers using vibrations, giving rise to the phenomenon of buzz‐pollination. These bee vibrations that are produced for pollen extraction are presumably energetically costly, and to date, few studies have investigated whether buzz‐pollinated flowers may be at a disadvantage when competing for pollinators' attention with plant species that present unrestricted pollen resources. Here, we studied Cyanella hyacinthoides (Tecophilaeaceae), a geophyte with poricidal anthers in the hyperdiverse Cape Floristic Region of South Africa, to assess how the composition and relative abundance of flowers with easily accessible pollen affect bee visitation to a buzz‐pollinated plant. We found that the number of pollinator species of C. hyacinthoides was not influenced by community composition. However, visitation rates to C. hyacinthoides were reduced when the relative abundances of flowers with more accessible resources were high. Visitation rates were strongly associated with petal color, showing that flower color is important in mediating these interactions. We conclude that buzz‐pollinated plants might be at a competitive disadvantage when many easily accessible pollen sources are available, particularly when competitor species share its floral signals. [ABSTRACT FROM AUTHOR]

Published

2022

42. Fire and landscape context shape plant and butterfly diversity in a South African shrubland.

Author

Topp, Emmeline N., Tscharntke, Teja, and Loos, Jacqueline

Subjects

*PLANT diversity, *SPECIES diversity, *FIRE management, *FRAGMENTED landscapes, *MULTIDIMENSIONAL scaling, *GROUND cover plants, *SHRUBS

Abstract

Aim: To understand effects of fire history and landscape composition on butterfly diversity in a fragmented agricultural landscape. Location: We studied critically endangered renosterveld remnants within the fynbos biome in the Swartland municipality, Western Cape, South Africa, a global biodiversity hotspot. Method: We selected survey sites on renosterveld fragments in the agricultural landscape along a gradient of fire history to test the response of biodiversity patterns to fire and landscape composition. We surveyed butterfly species richness, abundance and community composition as well as vegetation structure in five survey rounds on 58 sites between August 2018 and April 2019. We analysed data through linear modelling and multidimensional scaling. Results: Fire was associated with reduced shrub and understorey plant cover and with increased plant species richness. Butterfly species richness was three to four times higher when natural habitat increased in the surrounding landscape (within a 2 km radius), while butterfly abundance was negatively associated with increasing time since fire, with approximately 50% fewer individuals after 9 years. Fire was indirectly associated with increased butterfly species richness and abundance through the alteration of vegetation structure, particularly through removal of shrubs and enhanced plant diversity. Low‐mobility butterfly species were more positively associated with less vegetation cover than were high‐mobility species, which were more associated with sites characterized by long absence of fire. Main conclusions: Our findings suggest that species respond differently to fire, so a diversity of fire frequencies is recommended. Partially burning areas approximately every 10 years may benefit particularly low‐mobility butterfly species through gap creation and fostering plant diversity. Hence, including fire into management activities can benefit butterfly and plant populations alike in critically endangered renosterveld. [ABSTRACT FROM AUTHOR]

Published

2022

43. Leveraging the potential of wild food for healthy, sustainable, and equitable local food systems: learning from a transformation lab in the Western Cape region

Author

Pereira, Laura M., Kushitor, Sandra Boatemaa, Cramer, Carolyn, Drimie, Scott, Isaacs, Moenieba, Malgas, Rhoda, Phiri, Ethel, Tembo, Chimwemwe, and Willis, Jenny

Published

2022

44. The effects of habitat loss and fragmentation on the relative abundance and conservation of Southern Black Korhaan Afrotis afra, a South African endemic

Author

Evans, Steven W. and Evans, Steven W.

Abstract

Southern Black Korhaan is “Vulnerable” to extinction and a South African endemic that is restricted to the area of the Northern Cape Province that is west of the Great Escarpment, and to the area south of the Great Escarpment in the Western Cape, and the western section of the Eastern Cape Province. The 1990, 2014, and 2020 land use land cover (LULC) databases prepared for South Africa were used to determine the LULC categories that best describe suitable habitat for the birds using beta regressions and data on the exact locality of the birds from BirdLasser. The South African Bird Atlas Project (SABAP) reporting rates were used to determine the change in the relative abundance of the birds between the first and second SABAP. Beta regression models were compiled using the bird’s reporting rate and the total surface area, and three other landscape metrics, of the per pentad LULC categories considered to be suitable habitat for them. These models and the SABAP reporting rates revealed that Southern Black Korhaan is adversely affected by the loss of, especially, its fynbos habitat to crop agriculture. In 2020, the area of suitable habitat available to the bird was estimated to be 2,035,526 ha on terrain with a slope of ≤4°. Southern Black Korhaan remains “Vulnerable” to extinction because of the continued decline of >30% in the size of its population over three generations (31 years). The cumulative effects of habitat fragmentation and loss on Southern Black Korhaan and other threatened taxa must be mitigated by conserving and, where appropriate, rehabilitating suitable habitat (e.g. Gouritz Cluster Biosphere Reserve’s Corridors and Rehabilitation Project) in the protected areas, critical biodiversity areas, and ecosystem support areas identified in the provincial spatial conservation plans. Together these areas form a perforated landscape that ensures maximum connectivity between the remaining patches of indigenous habitat.

Published

2023

45. A checklist of the spiders (Arachnida, Araneae) of Gondwana Private Game Reserve, in the Western Cape, South Africa. SANSA Newsletter 46(2023): 17–24

Author

Dippenaar-Schoeman, A.S. and Buck, J.

Subjects

South African National Survey of Arachnida, fynbos, conservation, Biodiversity

Abstract

This paper provides the first annotated species list of spiders presently known from Gondwana Private Game Reserve, a reserve recognised as a Cape Floral World Heritage Site in the Western Cape. A total of 148 species from 106 genera and 33 families were recorded and photographed. The most species-rich families are the Araneidae (32 spp.), Thomisidae (20 spp.) and Salticidae (17 spp.). Several species are possibly new to science. The conservation status and level of endemicity, based on their known distribution, are provided for each species. &nbsp

Published

2023

46. Comparative assessment of heat tolerance in weevils associated with a fire‐prone ecosystem

Author

Marion Javal, John S. Terblanche, Chantelle Smit, Julien Haran, Stellenbosch University, Department of Conservation Ecology and Entomology, Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), Centre de Biologie pour la Gestion des Populations (UMR CBGP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Département Systèmes Biologiques (Cirad-BIOS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), The authors thank the Western Cape Nature Conservation Board (Permit No. CN44-30-4229) and the Cape Research Centre, South African National Parks (Permit No. CRC/2019-2020/012-2012/V1) for permission to collect specimens in areas under their control. The authors acknowledge Paula Strauss, Gary Beukman, and Michael Lutzeyer for access to the Grootbos Private Nature Reserve and their friendly assistance during sampling. The authors thank Laurene Dubreuil for introducing Julien Haran and Marion Javal to the Montagu region. Henrika Bosua (Stellenbosch University) is warmly thanked for her help with the respirometry measurements. This study was supported by recurring funding from Montpellier University (Marion Javal) and Cirad (Julien Haran)., and Université Paul-Valéry - Montpellier 3 (UPVM)-École pratique des hautes études (EPHE)

Subjects

Coleoptera, Bogert effect, heat knockdown, Ecology, Insect Science, [SDV]Life Sciences [q-bio], fynbos, thermolimit respirometry, insect

Abstract

Data for the HKD experiment is available here: https://doi.org/10.6084/m9.figshare.21647015.; International audience; 1. Fire is an important cause of disturbance which directly shapes many ecosystems worldwide. While the effect of fire on the distribution and regeneration of plant species has been widely documented, little is known on how phytophagous insects are reacting to these disturbances.2. This study explores the survival strategies of various weevil species, a highly diverse phytophagous beetle group in fire-prone ecosystems of the biodiversity hotspot of the Cape Floristic Region in South Africa. More specifically, we investigated how the lifestyle of species (location of larval development, phenology of adults, and flight ability) correlates with heat tolerance. We hypothesized that wingless species in particular will show better tolerance to heat as they have a limited ability to escape fire rapidly and usually remain hidden in the soil.3. The thermal tolerance of a set of sixteen species with divergent lifestyles and geographic distribution was measured using a standard heat knockdown protocol at 48°C. Respirometry was then performed on the most resistant species using a ramping protocol in order to determine CTmax.4. Our results show that the species tested exhibit high variation in thermal tolerance across taxonomic groups, clustering into three modalities: weak, intermediate, and high tolerance to heat stress. In addition, life history traits (diurnal vs. nocturnal adult activity and location of juvenile stages in plant tissues) likely better explain thermal tolerance at the species level than flight ability or the fire-proneness of ecosystems. Finally, results revealed that some non-flying weevil species are highly heat tolerant with CTmax values reaching up to 50.2 and 51.9°C in species among the Ocladiinae and Brachycerinae subfamilies, respectively.5. Climate change is leading to an increase in the impact and frequency of fires. In this context, this study highlights the diversity of strategies developed by arthropods to escape extreme heat in fire prone ecosystems. Further work is necessary to examine the generality of these patterns across other fire prone ecosystems to better understand behavioural compensation and evolutionary responses, especially given the forecast increases in fire driven by drying and warming associated with climate change.

Published

2023

47. Distribution and phylogenetic inference within the flightless spring katydids (Tettigoniidae: Brinckiella Chopard, 1955) in the Greater Cape Floristic Region

Author

Guta, Ricardo José, Janion-Scheepers, Charlene, and Naskrecki, Piotr

Subjects

COI, Conservation Biology, Fynbos, Flightless spring katydids, Brinckiella, distribution, Succulent Karoo, Azonal vegetation, Phylogeny

Abstract

The genus Brinckiella is an endemic group from the Greater Cape Floristic region (GCFR) with several undescribed species. Some of them are of conservation concern, categorized by IUCN as Endangered (EN) and Vulnerable (VU) due to their restricted distribution caused by livestock overgrazing, agriculture, and urbanization. However, data are still missing to fully assess their distribution pattern and conservation status. Moreover, although the phylogeny of katydids was recently inferred, Brinckiella was not included in that analysis. Thus, its closest relatives and evolutionary history are still unknown. This study aimed to investigate the distribution and phylogenetic inference within the genus Brinckiella, map the distribution of its species, delimit the species through taxonomy and genetics, and elucidate the phylogenetic relationship and divergence time within the genus. Specimens were collected by hand and sweep netting. Phylogenetic inference was done using the COI gene and analysed under Maximum likelihood and Bayesian inference. This study identified 13 morphospecies of Brinckiella, of which five are new, undescribed species. The genus is currently distributed in 27 vegetation types in three biomes, and apart from the Fynbos and Succulent Karoo biomes, the genus also occurs in the Azonal vegetation biome. Fynbos had the highest number of species of Brinckiella, which is likely related to the vast diversity of plant that they are associated with and probably feed on. In the Succulent Karoo the distribution of Brinckiella might be associated with seasonal plants that occur in the spring and at the beginning of summer. The genus may be monophyletic, and it split from the common ancestor shared with Holochlora fruhstorferi Carl, 1914 about 14.2 Mya, and it split again from the common ancestor shared with Isophya major Brunner von Wattenwyl, 1878, Phaneroptera gracilis Burmeister, 1838 and Kuwayamaea chinensis (Brunner von Wattenwyl, 1878) at 10.16 Mya and diverged in the late Miocene around 8.79 Mya, producing two main clades (A and B). Clade A diverged 7.85 Mya and is composed by two closely related species: B. aptera and B. mauerbergerorum, while Clade B diverged 7.24 Mya and gave rise to two lineages (L1 and L2). Brinckiella wilsoni constitutes L1, and L2 split later in the early Pliocene around 4.74 Mya, and is represented by two sister species, B. arboricola and B. sp. n. 5.

Published

2023

48. Understanding residential choice under risk: A case study of settlement fire and wildfire risk

Author

Sven Christ, Nina Schwarz, Richard Sliuzas, Faculty of Geo-Information Science and Earth Observation, Digital Society Institute, Department of Urban and Regional Planning and Geo-Information Management, and UT-I-ITC-PLUS

Subjects

Place attachment, ITC-HYBRID, Urban Studies, Protection motivation theory, Fynbos, ITC-ISI-JOURNAL-ARTICLE, Informal settlement, Turner, UT-Hybrid-D, Wildfire, Fire

Abstract

As more people worldwide are moving to urban areas there is an expansion of urban land that adjoins wildland. This study focuses on an area where fire-dependent and fire-prone vegetation meets an informal urban settlement named Imizamo Yethu in Cape Town, South Africa. We investigate the reasoning behind why some residents choose to remain in a settlement that experiences both wildfires and settlement-based fires and why others choose to leave. To achieve this we integrate three theories: protection motivation theory, John Turner's theory on settlement patterns and place attachment. We converted Turner's qualitative theory into quantitatively measurable indicators and identified five resident types with varying characteristics in the settlement. In agreement with Turner's theory, employment and friends and family were identified as key reasons for people remaining in a known high-fire-risk settlement. Finally, we combined the protection motivation theory with Turner's theory and place attachment in regression models to determine why people remain in the study area and what factors may make them move. The key determinants for residents remaining are the perceived benefits of the location, place attachment and the individual's perception of fire-threat. Significant determinants for moving away due to perceived fire-threat include how effective the move would be for the fire hazard and their current level of place attachment.

Published

2023

49. Long-term vegetation response to rainfall seasonality and fire in the heathlands and shrublands of the Cape Floristic Region (SW South Africa).

Author

Manzano, Saúl, Quick, Lynne J., Chase, Brian M., Hoffman, M. Timm, and Gillson, Lindsey

Subjects

*SHRUBLANDS, *RAINFALL, *HEATHLANDS, *VEGETATION dynamics, *ECOLOGICAL disturbances, *ECOSYSTEM dynamics, *FIRE ecology, *ECOSYSTEMS

Abstract

Mediterranean environments are biodiversity hotspots in which strongly seasonal winter rainfall regimes and fire play major roles in driving ecosystem dynamics. Global predictions forecast unreliability of winter rainfall and increases in summer rainfall that are expected to result in major changes in community structure. Mediterranean systems are difficult to model, and although ecophysiological responses can be studied at observational timescales, a long-term understanding is necessary to address uncertainties and refine predictive models at landscape scales. Here we provide a ∼ 1100 year-long palaeoecological reconstruction of vegetation (palynology), fire (sedimentary charcoal) and sedimentological change at a site adjacent to a multi-annual rainfall manipulation experiment designed to test plant population and community responses to altered seasonal regimes in the Greater Cape Floristic Region hotspot (southwestern Africa). We use these data to test whether long-term vegetation dynamics are controlled by changes in rainfall seasonality. We conclude that vegetation dynamics correlate with centennial-scale seasonality fluctuations, with transitions between two ecologically distinct fine-leaved shrub communities. These transitions are consistent with results of responses to experimental manipulations of summer rainfall. This study demonstrates the value of ecophysiological research in interpreting palaeoecological reconstructions and scaling up the results of observational research to answer long-term questions about environmental change. • Projections for Mediterranean areas forecast unreliable winter rainfall. • A 1100 year-long sequence informs of palaeoecological change in the Cape Region. • Vegetation dynamics correlate with centennial seasonality fluctuations. • Landscape dynamics can be predicted from responses at observational timescales. [ABSTRACT FROM AUTHOR]

Published

2023

50. Mapping fire severity in the Cederberg Mountains, South Africa.

Author

Boshoff, Danie

Subjects

*FIRES, *GERMINATION, *PLANTS, *BIOMES

Abstract

Fires are essential to seed germination, vegetation regeneration and maintaining ecosystem functions in biomes such as the Mediterranean Fynbos biome in of South Africa. The Cederberg Mountains contain many endemic species of the Fynbos biome, most notably Aspalathus linearis, which is commercially grown and exported as herbal tea (rooibos tea) due to its proven health benefits and medicinal properties. It is estimated that South Africa exported just below 10 000 tons of rooibos tea by 2019 and the industry provides many employment opportunities in the Western Cape Province of South Africa. Fire events occur frequently in the region, during the austral summer to autumn period. Recently it has been projected that in future the western parts of southern Africa will experience more heatwave conditions and an increase in the number of fire danger days due to climate change. With the projected drying of the region, this study explores the extent to which fire severity has changed over time. Open-source data from Landsat and Sentinel-2 satellites were extracted from the Google Earth Engine (GEE). Subsequently, manipulation of data through machine learning techniques such as cloud computing of burn ratios and were employed to create fire severity maps of the Cederberg Mountains. [ABSTRACT FROM AUTHOR]

Published

2023