Your search keyword '"Scogings, Peter"' showing total 8 results

1. Spinescence and Total Phenolic Content Do Not Influence Diet Preference of a Critically Endangered Megaherbivore, but the Mix of Compounds Does.

Author

Scogings PF, Demmer S, and Hattas D

Subjects

Animals, Behavior, Animal, Chromatography, High Pressure Liquid, Diet, Ecosystem, Flavonoids metabolism, Grassland, Metabolome, Perissodactyla, Phenotype, Herbivory drug effects, Phenols chemistry, Phenols metabolism, Plants chemistry, Plants metabolism

Abstract

In contrast to understanding spinescence in savanna woody species, little is known about the functions of plant secondary metabolites (PSM). Negative effects of PSMs on individual animal performance potentially translate into negative effects on herbivore population growth. Hence, understanding PSM functions is important for the conservation of savanna megafauna. We tested the view that black rhinoceros (Diceros bicornis) diet preference is not affected by spinescence or total phenolic abundance. We hypothesized that the composition of phenolic mixtures, however, would affect preference. Furthermore, we tested our data from 71 woody species for a trade-off between structural and chemical defenses. Spinescence type, and spinescence generally, did not deter black rhino feeding. Using eco-metabolomic data, we found that total abundance of phenolics did not affect preference, but mixture composition did and that the probability of spinescence trading off against phenolics depended on the mixture. We note that our study was restricted to black rhino and that diet preferences of other mammal herbivores might be influenced by subtle differences in phenolic mixtures. However, our results did support a previous, more detailed study of phenolic profiles of six species showing the same patterns in relation to preference generalised across mammal herbivore species in savannas. Our results represent substantial advancement in the understanding of the roles of PSMs, especially flavonoid compounds, in the functioning of savanna ecosystems, and highlight the need to dig deeper into broad groups of traits such as spinescence or total phenolics to improve understanding of woody plant defenses in savannas.

Published

2021

2. Does the Growth Differentiation Balance Hypothesis Explain Allocation to Secondary Metabolites in Combretum apiculatum , an African Savanna Woody Species?

Author

Hattas D, Scogings PF, and Julkunen-Tiitto R

Subjects

Biomass, Carbon metabolism, Combretum parasitology, Conservation of Natural Resources, Nitrogen metabolism, Photosynthesis physiology, South Africa, Combretum growth & development, Combretum metabolism, Herbivory, Models, Theoretical, Phytochemicals metabolism, Secondary Metabolism

Abstract

The growth differentiation balance hypothesis (GDBH) provides a framework that predicts a trade-off between costs of secondary metabolites (SMs) relative to the demand for photosynthate by growth. However, this hypothesis was developed using empirical evidence from plant species in northern boreal and temperate systems, leaving its applicability to species under different abiotic and biotic conditions questionable and generalizations problematic. The objective of this study was to investigate whether the GDBH explains allocation to SMs in the deciduous African savanna woody species C. apiculatum along a 6-point N gradient. The cornerstone prediction of the GDBH, i.e., the parabolic response in SMs along the N gradient, was not observed, with secondary metabolism showing compound-specific responses. Quercetin, myricetin, and kaempferol glycoside concentrations, all produced via the same pathway, responded differently across the N gradient. Flavonol glycoside, cinnamic acid, and quercetin glycoside concentrations decreased as N increased, which provides partial support for the carbon nutrient balance hypothesis. Simulated herbivory had no effect on photosynthesis, decreased foliar N and consequently increased C:N ratio, but did not induce an increase in SMs, with condensed tannins and flavonol glycosides being unaffected. Defoliated plants at low N concentration compensated for lost biomass, which suggests a tolerance response, but as predicted by the limiting resource model, plants at higher N concentration were evidently C limited and thus unable to compensate. Our results show that the GDBH does not explain allocation to SMs in C. apiculatum, and suggest that mechanistic explanations of plant allocation should consider the integrative defensive effect of changed SMs.

Published

2017

3. Secondary metabolites and nutrients of woody plants in relation to browsing intensity in African savannas.

Author

Scogings PF, Hjältén J, and Skarpe C

Subjects

Carbon analysis, Carbon metabolism, Combretaceae chemistry, Combretaceae metabolism, Ecosystem, Fabaceae chemistry, Fabaceae metabolism, Malvaceae chemistry, Malvaceae metabolism, Models, Biological, Nitrogen analysis, Nitrogen metabolism, Phosphorus analysis, Phosphorus metabolism, Plant Leaves growth & development, Plant Leaves metabolism, Polyphenols analysis, Polyphenols metabolism, South Africa, Tannins analysis, Tannins metabolism, Trees chemistry, Trees growth & development, Trees metabolism, Combretaceae growth & development, Fabaceae growth & development, Herbivory, Malvaceae growth & development, Plant Leaves chemistry

Abstract

Carbon-based secondary metabolites (CBSMs) are assumed to function as defences that contribute to herbivore-avoidance strategies of woody plants. Severe browsing has been reported to reduce concentrations of CBSMs and increase N concentrations in individual plants, causing heavily browsed plants to be characterised by N-rich/C-poor tissues. We hypothesised that concentrations of condensed tannins (CT) and total polyphenols (TP) should decrease, or N increase, in relation to increasing intensity of browsing, rendering severely browsed plants potentially more palatable (increased N:CT) and less N-limited (increased N:P) than lightly browsed ones. We sampled naturally browsed trees (taller than 2 m) of four abundant species in southern Kruger National Park, South Africa. Species-specific relationships between N:CT, CT, TP and P concentrations and increasing browsing intensity were detected, but N and N:P were consistently invariable. We developed a conceptual post-hoc model to explain diverse species-specific CBSM responses on the basis of relative allocation of C to total C-based defence traits (e.g. spines/thorns, tough/evergreen leaves, phenolic compounds). The model suggests that species with low allocation of C to C-based defence traits become C-limited (potentially more palatable) at higher browsing intensity than species with high allocation of C to C-based defences. The model also suggests that when N availability is high, plants become C-limited at higher browsing intensity than when N availability is low.

Published

2011

4. Seedling growth and spinescence of three Vachellia species' populations in valleys formed by tectonic uplift.

Author

Scogings, Peter F. and Mkhize, Ntuthuko R.

Subjects

*SPECIES, *PLIOCENE Epoch, *MIOCENE Epoch, *VALLEYS, *HINTERLAND

Abstract

The Southeastern Coastal Hinterland geomorphic province of South Africa is dissected by deep valleys created by tectonic uplift in the early Miocene and late Miocene/early Pliocene. We hypothesised that seedlings of Vachellia nilotica, V. tortilis and V. karroo grown from seeds from different valleys would differ in growth and spinescence because of geographical separation. Ninety seedlings (30 per species) were grown for 3 months in uniform conditions in a greenhouse. Mean height of V. nilotica and V. tortilis seedlings was greatest for the Phongolo populations and lowest for the Thukela populations. Maximum stem diameter of both species was attained by individuals from the Phongolo population. Mean spine dry mass of V. nilotica seedlings was greatest for the Phongolo population, suggesting a growth‐defence trade‐off, but did not differ for V. tortilis. Results suggested that Phongolo populations of V. nilotica and V. tortilis may be characterised by morphotypes clearly distinct from those in the other valleys. Unclear and inconsistent results for V. karroo in this study suggested subtly different morphotypes occur in each valley. We propose that distinct Phongolo morphotypes of V. nilotica and V. tortilis are explained as evolutionary adaptations to moderate fire and high browsing pressure compared to populations South of Phongolo. [ABSTRACT FROM AUTHOR]

Published

2023

5. Occurrence of Dalbergia obovata in grasslands of urban nature reserves within a metropolitan municipality: is it an encroaching woody species?

Author

Stewart, Terry, Scogings, Peter F, and Baijnath, Himansu

Subjects

fire, herbivory, savanna, tropical grassy biomes, woody encroachment

Abstract

The occurrence of Dalbergia obovata, which is typically associated with forests, in grasslands within conservation areas in a metropolitan municipality was investigated to assess whether it was encroaching and what the possible causes might be. Relevant legislation has not regarded D. obovata as an encroacher species in grasslands. The abundance and distribution patterns of D. obovata in four conservation areas were mapped in the field and captured as GIS layers to facilitate calculation of the proportion of each grassland area deemed to have been encroached over two decades. Management records for 17 conservation areas were analysed to determine whether there were associations between different management practices and D. obovata encroachment. We found that more than one third of grasslands present in 1999 were lost to encroachment by D. obovata and that some grassland areas were almost completely (99%) encroached. Results of a Chi-squared test and principal components analysis of management records indicated that the absence of large herbivores was significantly associated with D. obovate encroachment into grasslands. We conclude that D. obovata should be listed as a woody encroacher species and that some conventional management practises applied to control woody encroachers, such as the use of fire, are ineffective against D. obovata. Keywords: fire; herbivory; savanna; tropical grassy biomes; woody encroachment

Published

2022

6. Inter- and intra-plant variations in nitrogen, tannins and shoot growth of Sclerocarya birrea browsed by elephants

Author

Scogings, Peter F., Taylor, Robert W., and Ward, David

Published

2012

7. Seasonal regulation of condensed tannin consumption by free-ranging goats in a semi-arid savanna.

Author

Mkhize, Ntuthuko R., Heitkӧnig, Ignas M. A., Scogings, Peter F., Hattas, Dawood, Dziba, Luthando E., Prins, Herbert H. T., and de Boer, Willem F.

Subjects

ANIMAL feeding behavior, FORAGING behavior, TANNINS, POLYETHYLENE glycol, HERBIVORES, GOATS

Abstract

Although condensed tannins (CTs) are known to reduce forage intake by mammalian herbivores in controlled experiments, few studies have tested these effects in the field. Thus the role of CTs on foraging ecology of free-ranging herbivores is inadequately understood. To investigate the effects of CTs under natural savanna conditions, we pre-dosed groups of goats with polyethylene glycol (PEG, a CT-neutralising chemical), CT powder or water before observing their foraging behaviour. While accounting for the effects of season and time of the day, we tested the hypothesis that herbivores forage in ways that reduce the intake rate (g DM per minute) of CTs. We expected pre-dosing goats with CTs to reduce CT intake rates by (1) consuming diets low in CTs, (2) reducing bite rates, (3) increasing the number of foraging bouts, or (4) reducing the length of foraging bouts. Lastly, (5) expected CT to have no influence the number of dietary forage species. In both wet and dry seasons, pre-dosing goats with CTs resulted in lower CT consumption rates compared to PEG goats which seemed relieved from the stress associated with CT consumption. During dry season, the number of dietary forage species was similar across treatments, although goats that were dosed with PEG significantly increased this number in the wet season. Dosing goats with PEG increased the number and length of browsing bouts compared to goats from the other treatments. Pre-loading goats with PEG also tended to increase bite rates on browse forages, which contributed to increased consumption rates of CTs. Based on the behavioural adjustments made by goats in this study and within the constraints imposed by chemical complexity in savanna systems, we concluded that herbivores under natural conditions foraged in ways that minimised CTs consumption. More research should further elucidate the mechanism through which CTs regulated feeding behaviour. [ABSTRACT FROM AUTHOR]

Published

2018

8. Differential phenolic profiles in six African savanna woody species in relation to antiherbivore defense

Author

Hattas, Dawood, Hjältén, Joakim, Julkunen-Tiitto, Riitta, Scogings, Peter F., and Rooke, Tuulikki

Subjects

*PHENOLS, *SAVANNA plants, *PLANT species, *PLANT defenses, *MOLECULAR weights, *HERBIVORES, *TANNINS, *PLANT morphology, *BOTANICAL chemistry, *HIGH performance liquid chromatography

Abstract

Abstract: Low molecular weight phenolics are suggested to have a role in mediating diet selection in mammalian herbivores. However, very little is known about low molecular weight phenolic profiles of African savanna woody species. We determined low molecular weight phenolic profiles of six woody species with different life history, morphological and functional traits. We investigated interspecific phytochemical variation between species and found that: (1) related Acacia species were chemically dissimilar; (2) similarity percentage analysis revealed that Acacia grandicornuta was most dissimilar from other species and that the evergreen and unpalatable Euclea divinorum had a qualitatively similar chemical profile to the deciduous and palatable Acacia exuvialis and Combretum apiculatum; (3) C. apiculatum had the highest chemical diversity; (4) relative to spineless plants, spinescent plants contained significantly less HPLC phenolics and condensed tannins; and (5) the major quantitative difference between the evergreen and unpalatable E. divinorum and other species was its high myricitrin concentration. [Copyright &y& Elsevier]

Published

2011