53 research outputs found
Effects of rain, nitrogen, fire and grazing on bush encroachment in semi-arid savanna, South Africa
Thesis (MScFor)--Stellenbosch University, 2002.ENGLISH ABSTRACT: Increases in woody plant density ('bush encroachment') reduce livestock production and biodiversity. By
convention, soil moisture, soil nutrients, fire and herbivory are regarded as the principal factors governing the
tree-grass ratio of savannas. An experiment with a completely-crossed design was employed to investigate
woody seedling (Acacia me/lifera) recruitment near Kimberley, Northern Cape, South Africa, after fire and
under conditions of maximum-recorded rainfall, nitrogen addition and grazing. The field experiment was
repeated as a garden experiment to determine if the two experiments yield comparable results.
Tree germination in the field was extremely low, probably due to below-average natural rainfall in plots that
only received natural rain, and insufficient watering frequency in irrigated plots. As a result of low
germination, none of the treatments (rain/nitrogen/fire/grazing) had a significant effect on tree recruitment in
the field experiment. The duration of the experiment (2000/2001 growing season) was insufficient for the
treatments to affect grass composition, although the high rainfall treatment and grazing exclusion significantly
improved grass cover and height. The garden experiment showed that frequent watering, no nitrogen
addition and grass clipping significantly enhanced tree germination and survival (termed 'recruitment'). There
were also significant interactions among rain, nitrogen and grazing in their effects on tree recruitment. The
effects of rain on tree recruitment were more pronounced under nitrogen supplementation and vice versa.
Similarly, high rain and high nitrogen enhanced the effect of grazing on tree recruitment.
It is inferred that above-average rainfall years with frequent rainfall events are required for mass tree
recruitment. Tree seedlings can further benefit from space and resources which are made available through
grass defoliation. Conversely, nitrogen enrichment improves the competitive ability of the fast-growing
grasses relatively more than that of the N2-fixing tree component, thereby suppressing tree recruitment. In
contrast to conventional wisdom that grazing alone causes encroachment, it is suggested that there are
complex interactions between the abovementioned factors and 'triggering' events such as unusually high
rainfall.
Contrary to many claims that equilibrium models are inappropriate for explaining savanna dynamics, it was
shown that consumer-resource theory has explanatory power for bush-grass dynamics of the savanna
studied. The state-space approach that was used facilitated the understanding of savanna dynamics and
enabled predictions about the system's response to perturbations. The applicability of consumer-resource
theory to semi-arid nutrient-poor savannas confirmed the importance of resource competition in structuring
natural systems.AFRIKAANSE OPSOMMING: Toenames in die digtheid van houtagtige plante ('bosverdigting') verlaag veeproduksie en biodiversiteit.
Volgens konvensie word grondvog, grondvoedingstowwe, vuur en beweiding beskou as die belangrikste
faktore wat die boom-gras verhouding van savannas bepaal. 'n Volledig-gekruisde ("completely crossed")
eksperiment is ontwerp om boomsaad-ontkieming (Acacia mellifera) naby Kimberley, Noord-Kaap, Suid-
Afrika, te bestudeer na 'n brand en onder toestande van maksimum-aangetekende reënval, stikstof
toevoeging en beweiding. Die veldeskperiment is herhaal as 'n tuineksperiment om vas te stel hoe resultate
van die twee eksperimente vergelyk.
Boomsaad-ontkieming was uiters laag in die veld, waarskynlik weens ondergemiddelde reënval in persele
wat slegs natuurlike reënvalontvang het, en 'n te lae benattingsfrekwensie in die besproeide persele. As
gevolg van lae ontkieming in die veldeksperiment, het geen behandeling (reënval/stikstof/brand/beweiding)
boomsaad-ontkieming beduidend geaffekteer nie. Die duur van die eksperiment (2000/2001-groeiseisoen)
was te kort vir die behandelings om grassamestelling te beïnvloed, alhoewel besproeiing en geen beweiding
die grasbedekking en -hoogte betekenisvol verhoog het. Die tuineksperiment het getoon dat boomsaadontkieming
en vroeë oorlewing (genoem 'vestiging') betekenisvol verhoog is deur gereëlde benatting, geen
stikstof toevoeging en die sny van gras. Daar was ook beduidende interaksies tussen reën, stikstof en
beweiding in hul invloed op boomvestiging. Die reënbehandeling het 'n groter uitwerking op boomvestiging
gehad onder stikstoftoevoeging en vice versa. Hoë reënval en stikstoftoevoeging het ook die invloed van
beweiding op boomvestiging versterk.
Die afleiding is dat bogemiddelde reënvaljare met gereëlde reënbuie 'n vereiste is vir grootskaalse
boomvestiging. Boomsaailinge kan verder voordeel trek uit die spasie en hulpbronne wat beskikbaar raak
wanneer gras ontblaar word. Daarteenoor verhoog stikstofverryking die mededingendheid van die vinniggroeiende
grasse meer as dié van die N2-bindende boomkomponent, met die gevolg dat boomvestiging
onderdruk word. In kontras met die konvensionele veronderstelling dat beweiding opsigself bosverdigting
veroorsaak, word voorgestel dat ingewikkelde interaksies plaasvind tussen die bogenoemde faktore en ander
'sneller-gebeurtenisse', soos buitengewoon hoë reënval.
In teenstelling met baie aansprake dat ekwilibrium modelle ontoepaslik is om savanna-dinamika te verklaar,
is getoon dat die verbruikers-hulpbron teorie ("consumer-resource theory") oor verklaringsvermoë beskik vir
boom-gras dinamika van die savanna wat bestudeer is. Die staat-spasie ("state-space") benadering gebruik,
het begrip van savanna-dinamika bevorder en voorspellings moontlik gemaak aangaande die sisteem se
reaksie op versteurings. Die toepaslikheid van verbruikers-hulpbron teorie vir semi-ariede, nutriënt-arm
savannas bevestig dat kompetisie vir hulpbronne 'n sentrale rol speel in die strukturering van ekologiese
sisteme
Fire regimes in eastern coastal fynbos: drivers, ecology and management
Conventional knowledge of fynbos fire ecology is based on the summer-autumn fire regimes of the western Cape Floral Kingdom (CFK) where the climate is Mediterranean. However, the climate in the eastern coastal-CFK is milder and rainfall occurs year-round, with presumed effects on fire regimes. The Garden Route National Park (GRNP) has recently been established in the region, in a landscape where indigenous forests, fire-prone fynbos shrublands and fire-sensitive plantations of invasive alien trees are interspersed. The park faces considerable challenges related to the management of fire, including significant pressure from the adjacent plantation industry to reduce wildfire hazard by burning fynbos at short intervals, and high levels of invasion by alien trees (largely Pinus species originating from plantations). This study sought to improve understanding of fire regimes in eastern coastal fynbos shrublands, and to provide guidelines for ecologically sound management of fire in the area. My approach entailed (i) an assessment of the context within which fire management was practiced during the past century; (ii) characterisation of the recent fire history and fire regime (1900–2010); (iii) characterisation of the seasonality of fire weather and lightning; (iv) estimation of minimum fire return intervals (FRIs) from juvenile periods and post-fire recruitment success of overstorey proteoids (non-sprouting, slow-maturing, serotinous Proteaceae); and (v) determination of the ecologically appropriate fire season from post-fire recruitment seasonality of proteoids. I established that historically, plantation protection enjoyed priority over fynbos conservation in the area that is now the GRNP. Fynbos close to plantations has most likely been compromised by frequent and low-intensity burning in the past, as well as by invasion by alien trees. In terms of area burnt (1900–2010), natural (lightning-ignited) fires dominated the fire regime, particularly in the east, whereas prescribed burning was relatively unimportant. Typical fire return intervals (FRIs; 8–26 years; 1980–2010) were comparable to those in other fynbos protected areas and appeared to be shorter in the eastern Tsitsikamma than in the western Outeniqua halves of the study area. Proteaceae juvenile periods (4–9 years) and post-fire recruitment success (following fires in ≥7 year-old vegetation) suggested that for biodiversity conservation purposes, FRIs should be no less than nine years in moist, productive fynbos. Increases in the total area burnt annually (since 1980) were correlated with long-term increases in average fire danger weather, suggesting that fire regime changes may be related to global change. Collectively, findings on the seasonality of actual fires and the seasonality of fire danger weather, lightning, and post-fire proteoid recruitment suggested that fires in eastern coastal fynbos are not limited to any particular season, and for this reason managers do not need to be concerned if fires occur in any season. The ecological requirements for higher fire intensity may nonetheless be constrained by a need for safety. I articulated these findings into ecological thresholds pertaining to the different elements of the fire regime in eastern coastal fynbos, to guide adaptive management of fire in the Garden Route National Park. I also recommended a fire management strategy for the park to address the aforementioned operational considerations within the constraints posed by ecological thresholds. Finally, I highlighted further research and monitoring needs
A global assessment of terrestrial alien ferns (Polypodiophyta): species' traits as drivers of naturalisation and invasion
International audienceThe global threat posed by invasive alien plants has prompted inventory compilations and screening exercises that aim to understand invasiveness in various taxa. Various traits influence the invasiveness of a species but do not apply to all plant taxa. Ferns are rare or absent from such inventories, but notable fern invasions do exist. We developed a global inventory of terrestrial alien true ferns (Polypodiophyta) comprising 157 species, using published literature and online inventories. We aimed to determine which traits influence the probability that a terrestrial alien fern will become naturalised or invasive. Generalised linear models with transition stages as response variables, were used to assess the effects of various anthropogenic, biological and distributional traits on invasiveness. Our model explained 30–40% of the variance associated with invasiveness and showed that a ground-dwelling life form, reproductive plasticity, tolerance for disturbance and varied light conditions, and a broad introduced range (interpreted as high environmental tolerance and popularity in horticulture) were important determinants of invasiveness in alien ferns. We highlighted which geographic regions and fern families had the highest incidences of alien ferns and identified particular species of concern. This study aids in the understanding of the mechanisms underlying invasiveness in alien ferns and the findings can inform future research on this understudied taxon as invasive species
Seed bank and growth comparisons of native (Virgilia divaricata) and invasive alien (Acacia mearnsii and A. melanoxylon) plants: implications for conservation
Background Invasive alien plants with long-lived dormant seed banks and fast growth rates are difficult to manage. Acacia mearnsii and Acacia melanoxylon are two such invaders in the southern Cape of South Africa which occasionally co-occur with a native, ecologically analogous species, Virgilia divaricata. We compared the performance of these three species to determine potential for the native species to be used in management of the invasives. Methods We compared the study species in terms of (i) soil seed bank densities, their vertical distribution, and the viability of seeds underneath the canopies of mature trees; (ii) seedling growth from planted seeds over a period of three months; and (iii) growth rates of saplings over a period of 10 months in stands that have naturally regenerated in the field (these stands were dominated by A. mearnsii) and where saplings have been exposed to varying levels of competition from surrounding saplings. Results Seed bank densities differed significantly among species but not among soil depth classes. Acacia mearnsii had the highest seed bank densities (mean of 7,596 seeds m−2), followed by V. divaricata (938 seeds m−2) and A. melanoxylon (274 seeds m−2). Seed viability was high (87–91%) in all three study species and did not differ significantly among species or soil depth classes. As seedlings, V. divaricata significantly outgrew A. mearnsii in terms of height, root and shoot dry mass, and root:shoot ratio. Relative growth (the relationship between growth in height and initial height) was negative in the seedlings of both species. Trends during the sapling stage were opposite to those during the seedling stage; A. mearnsii (but not A. melanoxylon) saplings significantly outgrew V. divaricata saplings in height, while relative growth rates were positive in all species. Sapling growth of all species was furthermore uninfluenced by the collective biomass of surrounding competitors. Discussion Our findings suggest that amongst the measures considered, A. mearnsii’s success as an invader is primarily attributable to its large seed banks, and secondly to its vigorous growth in height as saplings. However, the superior growth performance of V. divaricata seedlings and no apparent negative effect of competition from the acacias on sapling growth show promise for its use in integrated management of the acacias
Fire regimes in eastern coastal fynbos : imperatives and thresholds in managing for diversity
CITATION: Kraaij, T., Cowling, R. M. & Van Wilgen, B. W. 2013. Fire regimes in eastern coastal fynbos : imperatives and thresholds in managing for diversity. Koedoe, 55(1), Art. #1104, doi:10.4102/koedoe.v55i1.1104.The original publication is available at http://www.koedoe.co.zaUntil recently, fire ecology was poorly understood in the eastern coastal region of the Cape Floral Kingdom (CFK), South Africa. Rainfall in the area is aseasonal and temperatures are milder than in the winter-rainfall and drier inland parts of the CFK, with implications for the management of fire regimes. We synthesised the findings of a research programme focused on informing ecologically sound management of fire in eastern coastal fynbos shrublands and explored potential east–west trends at the scales of study area and CFK in terms of fire return interval (FRI) and fire season. FRIs (8–26 years; 1980–2010) were comparable to those elsewhere in the CFK and appeared to be shorter in the eastern Tsitsikamma than in the western Outeniqua halves of the study area. Proteaceae juvenile periods (4–9 years) and post-fire recruitment success suggested that for biodiversity conservation purposes, FRIs should be ≥ 9 years in eastern coastal fynbos. Collectively, findings on the seasonality of actual fires and the seasonality of fire danger weather, lightning and post-fire proteoid recruitment suggested that fires in eastern coastal fynbos are not limited to any particular season. We articulated these findings into ecological thresholds pertaining to the different elements of the fire regime in eastern coastal fynbos, to guide adaptive management of fire in the Garden Route National Park and elsewhere in the region.
Conservation implications: Wildfires are likely to remain dominant in eastern coastal fynbos, whilst large-scale implementation of prescribed burning is unattainable. Fires occurring in any season are not a reason for concern, although other constraints remain: the need for sufficient fire intensity, safety requirements, and integration of fire and invasive alien plant management.http://www.koedoe.co.za/index.php/koedoe/article/view/1104Publisher's versio
Assessing the invasion risk of traded alien ferns using species distribution models
Risk analysis plays a crucial role in regulating and managing alien and invasive species but can be time-consuming and costly. Alternatively, combining invasion and impact history with species distribution models offers a cost-effective and time-efficient approach to assess invasion risk and identify species for which a comprehensive risk analysis should take precedence. We conducted such an assessment for six traded alien fern species, determining their invasion risk in countries where they are traded. Four of the species (Dicksonia antarctica, Dryopteris erythrosora, Lygodium japonicum, and Phlebodium aureum) showed limited global distributions, while Adiantum raddianum and Sphaeropteris cooperi had broader distributions. A. raddianum, however, was the only species found to pose a high invasion risk in two known trade countries – the USA and Australia – and requires a complete risk analysis to determine the appropriate regulatory responses. Dicksonia antarctica, Phlebodium aureum (for New Zealand), and Dryopteris erythrosora (for the USA) posed a medium risk of invasion due to the lack of evidence of impacts, and a complete risk analysis is thus deemed less crucial for these species in these countries. For other species, suitable environments were not predicted in the countries where they are traded, thus the risk of invasion is low, and a complete risk analysis is not required. For species in countries where suitable environments are predicted but no trade information or presence data are available, risk assessments are recommended to better determine the risk posed. Despite the relatively limited potential global distribution of the studied ferns relative to other major plant invaders (e.g., Pinus spp. and Acacia spp.), their history of invasion, documented impacts in pristine environments, and high propagule pressure from trade warrants concern, possibly necessitating legislative and regulatory measures in environmentally suitable regions.The DSI-NRF Centre for Excellence for Invasion Biology, the South African National Biodiversity Institute (SANBI) and the South African Department of Forestry, Fisheries and the Environment (DFFE).https://neobiota.pensoft.net/am2024Zoology and EntomologySDG-15:Life on lan
Poaching impedes the selection of optimal post-fire forage in three large grazing herbivores
Optimal foraging theory provides a powerful quantitative framework to reveal how foraging constraints and
options define the interplay between forager and resource distributions. Although illegal hunting threatens
wildlife worldwide, few studies have assessed the impact of poaching on the ability of animals to optimise their
use of resources. We assessed how the risk of poaching hinders the ability of common reedbuck (Redunca arundinum),
red hartebeest (Alcelaphus buselaphus), and plains zebra (Equus quagga) to maximise their daily intake
of digestible energy in a complex mosaic of post-fire vegetation, in a small fenced nature reserve. Optimality
models predict that all species can maximise their intake of digestible energy by feeding in young post-fire
patches (29–37 days). We show that for all species, probability of finding and selectively using such high-value
vegetation patches was higher at greater distance from points where poachers were likely to enter the reserve.
For reedbuck, optimal patches were used only if they were>3.4 km from poacher entry-points. Red hartebeest
became more likely to occur in optimal vegetation patches as the distance to likely poacher entry points increased.
Only zebra maximized their daily intake of digestible energy regardless of the distance to poachers, but
still selected areas where poaching was less likely. This study demonstrates how spatial patterns in poacher
activities and post-fire vegetation interact to shape herbivore distribution. Understanding how herbivores track
and use this post fire green-up of vegetation is important for protected area managers to understand the tradeoffs
that herbivores make when foraging.Nelson Mandela University, Eastern Cape Parks and
Tourism Agency, University of Kwazulu-Natal, Walter Sisulu University
and Fairfield tourshttp://www.elsevier.com/locate/biocon2021-01-07am2020Mammal Research Institut
A strategic framework for biodiversity monitoring in South African National Parks
Protected areas are under increasing threat from a range of external and internal pressures on biodiversity. With a primary mandate being the conservation of biodiversity, monitoring is an essential component of measuring the performance of protected areas. Here we present a framework for guiding the structure and development of a Biodiversity Monitoring System (BMS) for South African National Parks (SANParks). Monitoring activities in the organisation are currently unevenly distributed across parks, taxa and key concerns: they do not address the full array of biodiversity objectives, and have largely evolved in the absence of a coherent, overarching framework. The requirement for biodiversity monitoring in national parks is clearly specified in national legislation and international policy, as well as by SANParks’ own adaptive management philosophy. Several approaches available for categorising the multitude of monitoring requirements were considered in the development of the BMS, and 10 Biodiversity Monitoring Programmes (BMPs) were selected that provide broad coverage of higher-level biodiversity objectives of parks. A set of principles was adopted to guide the development of BMPs (currently underway), and data management, resource and capacity needs will be considered during their development. It is envisaged that the BMS will provide strategic direction for future investment in this core component of biodiversity conservation and management in SANParks.
Conservation implications: Monitoring biodiversity in protected areas is essential to assessing their performance. Here we provide a coordinated framework for biodiversity monitoring in South African National Parks. The proposed biodiversity monitoring system addresses the broad range of park management plan derived biodiversity objectives
Globe-LFMC 2.0, an enhanced and updated dataset for live fuel moisture content research
Globe-LFMC 2.0, an updated version of Globe-LFMC, is a comprehensive dataset of over 280,000 Live Fuel Moisture Content (LFMC) measurements. These measurements were gathered through field campaigns conducted in 15 countries spanning 47 years. In contrast to its prior version, Globe-LFMC 2.0 incorporates over 120,000 additional data entries, introduces more than 800 new sampling sites, and comprises LFMC values obtained from samples collected until the calendar year 2023. Each entry within the dataset provides essential information, including date, geographical coordinates, plant species, functional type, and, where available, topographical details. Moreover, the dataset encompasses insights into the sampling and weighing procedures, as well as information about land cover type and meteorological conditions at the time and location of each sampling event. Globe- LFMC 2.0 can facilitate advanced LFMC research, supporting studies on wildfire behaviour, physiological traits, ecological dynamics, and land surface modelling, whether remote sensing-based or otherwise. This dataset represents a valuable resource for researchers exploring the diverse LFMC aspects, contributing to the broader field of environmental and ecological research
Globe-LFMC 2.0, an enhanced and updated dataset for live fuel moisture content research
Globe-LFMC 2.0, an updated version of Globe-LFMC, is a comprehensive dataset of over 280,000 Live Fuel Moisture Content (LFMC) measurements. These measurements were gathered through field campaigns conducted in 15 countries spanning 47 years. In contrast to its prior version, Globe-LFMC 2.0 incorporates over 120,000 additional data entries, introduces more than 800 new sampling sites, and comprises LFMC values obtained from samples collected until the calendar year 2023. Each entry within the dataset provides essential information, including date, geographical coordinates, plant species, functional type, and, where available, topographical details. Moreover, the dataset encompasses insights into the sampling and weighing procedures, as well as information about land cover type and meteorological conditions at the time and location of each sampling event. Globe-LFMC 2.0 can facilitate advanced LFMC research, supporting studies on wildfire behaviour, physiological traits, ecological dynamics, and land surface modelling, whether remote sensing-based or otherwise. This dataset represents a valuable resource for researchers exploring the diverse LFMC aspects, contributing to the broader field of environmental and ecological research
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