8 results on '"Archibald, Sally"'
Search Results
2. Savanna fire regimes depend on grass trait diversity.
- Author
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Simpson, Kimberley J., Archibald, Sally, and Osborne, Colin P.
- Subjects
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SAVANNAS , *CLIMATE change , *GRASSES , *SPATIAL variation , *FIRE management , *LAND management , *CHEATGRASS brome - Abstract
Grasses fuel most fires on Earth and strongly influence local fire behaviour through traits that determine how flammable they are. Therefore, grass communities that differ in their species and trait compositions give rise to significant spatial variation in savanna fire regimes across the world, which cannot be otherwise explained. Likewise, fire regimes are continuously modified by alterations to savanna grass community traits, through species introductions and climatic changes. However, current representation of grassy fuels in global fire models misses important variation and therefore limits predictive power. The inclusion of grass trait diversity in models, using remotely sensed trait proxies, for example, will greatly improve our ability to understand and project savanna fires and their roles in the Earth system. Most fires on Earth occur in savannas, but vary considerably in their extent, frequency, and intensity. These patterns cannot fully be explained by climate or land management. An important 'missing-piece' in explaining the variation in savanna fire regimes is the diversity of grasses that fuel fires and whose traits strongly influence fire behaviour. The major differences in savanna fire behaviour across continents may lie in the contrasting species and trait assemblages in savanna grass communities. Fire regimes change significantly when savanna grass communities or traits are altered by the introduction of invasive species and climatic changes. Improved representation of grass trait diversity in fire models will be essential for reliable forecasts of the behaviour and impacts of the majority of fires on Earth. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
3. Drought and fire determine juvenile and adult woody diversity and dominance in a semi‐arid African savanna.
- Author
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Trotter, Felix D., Lehmann, Caroline E. R., Donaldson, Jason E., Mangena, Happy E., Parr, Catherine L., and Archibald, Sally
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DROUGHTS ,DROUGHT management ,SAVANNAS ,FIRE management ,SPECIES diversity ,WOODY plants ,ADULTS ,PLANT communities - Abstract
The aim of this study was to understand how communities of adult and juvenile (seedlings and saplings) woody plants were impacted by fire and the 2014–2016 El Niño drought in Kruger National Park, South Africa. We used a landscape‐scale fire experiment spanning 2013–2019 in a semi‐arid savanna in the central west of Kruger National Park (mean annual precipitation, 543 mm). Adult and juvenile woody species composition were recorded during and after the drought in 40 plots that experienced a mix of no fire, moderate fire, and frequent fire treatments. Using multivariate modeling, we related community composition in juvenile and adult woody plants to year of sampling and the experimental fire treatments. Post‐drought, there was significant adult woody plant top‐kill, especially in dominant species Dichrostachys cinerea (81% reduction in abundance), Acacia nigrescens (30%), and Combretum apiculatum (19%), but there was no significant change in adult species richness. Two years post‐drought, abundance of all juveniles decreased by 35%, and species richness increased in juveniles in both the frequent fire (7%) and no fire treatments (32%). Counter‐intuitively, the El Niño drought increased species richness of the woody plant community due to the recruitment of new species as juveniles, a potential lasting impact on diversity, and where different fire regimes were associated with differences in community composition. Drought events in semi‐arid savannas could drive temporal dynamics in species richness and composition in previously unrecognized ways. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Thresholds of fire response to moisture and fuel load differ between tropical savannas and grasslands across continents.
- Author
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Alvarado, Swanni T., Andela, Niels, Silva, Thiago S. F., Archibald, Sally, and Poulter, Benjamin
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SAVANNAS ,FIRE management ,FUEL ,MOISTURE ,FUEL switching ,CONTINENTS ,MOISTURE measurement ,RAINFALL intensity duration frequencies - Abstract
Aim: An emerging framework for tropical ecosystems states that fire activity is either "fuel build‐up limited" or "fuel moisture limited", that is, as you move up along rainfall gradients, the major control on fire occurrence switches from being the amount of fuel, to the moisture content of the fuel. Here we used remotely sensed datasets to assess whether interannual variability of burned area is better explained by annual rainfall totals driving fuel build‐up, or by dry season rainfall driving fuel moisture. Location: Pantropical savannas and grasslands. Time period: 2002–2016. Methods: We explored the response of annual burned area to interannual variability in rainfall. We compared several linear models to understand how fuel moisture and fuel build‐up effect (accumulated rainfall during 6 and 24 months prior to the end of the burning season, respectively) determine the interannual variability of burned area and explore if tree cover, dry season duration and human activity modified these relationships. Results: Fuel and moisture controls on fire occurrence in tropical savannas varied across continents. Only 24% of South American savannas were fuel build‐up limited against 61% of Australian savannas and 47% of African savannas. On average, South America switched from fuel limited to moisture limited at 500 mm/year, Africa at 800 mm/year and Australia at 1,000 mm/year of mean annual rainfall. Main conclusions: In 42% of tropical savannas (accounting for 41% of current area burned) increased drought and higher temperatures will not increase fire, but there are savannas, particularly in South America, that are likely to become more flammable with increasing temperatures. These findings highlight that we cannot transfer knowledge of fire responses to global change across ecosystems/regions—local solutions to local fire management issues are required, and different tropical savanna regions may show contrasting responses to the same drivers of global change. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
5. Herbivore culling influences spatio‐temporal patterns of fire in a semiarid savanna.
- Author
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Toit, Johan, Smit, Izak P. J., and Archibald, Sally
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HERBIVORES ,FIRE management ,SAVANNAS ,WHITE rhinoceros ,GRAZING ,POACHING prevention ,ARID regions - Abstract
Fire and herbivory are competitive processes in grassy ecosystems as they both consume above‐ground biomass. Despite this interaction between fire and grazing, herbivore and fire management plans in conservation areas are usually perceived, and hence managed, independently. This study aims to demonstrate the importance of acknowledging and integrating the interdependence between herbivore and fire management.We compare average proportional area burnt during years when large‐scale culling kept herbivore biomass within a narrow range within the Kruger National Park, South Africa, against subsequent years of no culling when herbivore densities increased to effectively double the biomass. Furthermore, to improve our mechanistic understanding, we utilize natural gradients in rainfall (north to south) and grazing (distance from rivers) to test a conceptual model of how herbivory influences fire occurrence under different rainfall regimes.Fires were more prevalent during the culling period than thereafter, and the fire suppression effect of increasing grazing biomass was most pronounced in areas closer to rivers (50% reduction within 1 km of rivers).The "grazer effect" (i.e. difference between % area burnt between low and high grazer biomass years) seems to be more pronounced in arid landscapes than in semiarid landscapes, which in turn is more pronounced than in the mesic landscapes.Despite elephants being mixed feeders, elephant density influences fire occurrence more than the density of buffaloes or hippopotami.Synthesis and applications: Herbivore and fire management actions should be integrated, as events that influence herbivore densities go on to influence fire occurrence in subsequent years. In areas with 400–600 mm MAP it is particularly important because changes in herbivore numbers—due to drought, predation, disease, or human interventions—can result in switches between fire‐ and herbivore‐dominated systems, with cascading consequences for biodiversity and ecosystem function. Furthermore, grazing gradients (in this case distance to closest perennial river) are critical as it allows both fire and herbivore‐dominated systems to occur within the same system along the gradient. This increases management possibilities, as management actions that induce grazing gradients can have positive implications for maintaining biodiversity in protected areas. Herbivore and fire management actions should be integrated, as events that influence herbivore densities go on to influence fire occurrence in subsequent years. In areas with 400–600 mm MAP it is particularly important because changes in herbivore numbers—due to drought, predation, disease, or human interventions—can result in switches between fire‐ and herbivore‐dominated systems, with cascading consequences for biodiversity and ecosystem function. Furthermore, grazing gradients (in this case distance to closest perennial river) are critical as it allows both fire and herbivore‐dominated systems to occur within the same system along the gradient. This increases management possibilities, as management actions that induce grazing gradients can have positive implications for maintaining biodiversity in protected areas. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
6. Pyrodiversity interacts with rainfall to increase bird and mammal richness in African savannas.
- Author
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Beale, Colin M., Courtney Mustaphi, Colin J., Morrison, Thomas A., Archibald, Sally, Anderson, T. Michael, Dobson, Andrew P., Donaldson, Jason E., Hempson, Gareth P., Probert, James, Parr, Catherine L., and Mayfield, Margaret
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PLANT diversity ,SAVANNAS ,EFFECT of rainfall on plants ,PLANT species diversity ,PLANT species ,ECOLOGICAL niche - Abstract
Fire is a fundamental process in savannas and is widely used for management. Pyrodiversity, variation in local fire characteristics, has been proposed as a driver of biodiversity although empirical evidence is equivocal. Using a new measure of pyrodiversity (Hempson et al.), we undertook the first continent-wide assessment of how pyrodiversity affects biodiversity in protected areas across African savannas. The influence of pyrodiversity on bird and mammal species richness varied with rainfall: strongest support for a positive effect occurred in wet savannas (> 650 mm/year), where species richness increased by 27% for mammals and 40% for birds in the most pyrodiverse regions. Range-restricted birds were most increased by pyrodiversity, suggesting the diversity of fire regimes increases the availability of rare niches. Our findings are significant because they explain the conflicting results found in previous studies of savannas. We argue that managing savanna landscapes to increase pyrodiversity is especially important in wet savannas. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
7. Culture, Ecology and Economy of Fire Management in North Australian Savannas: Rekindling the Wurrk Tradition.
- Author
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Archibald, Sally
- Subjects
BOOKS -- Reviews ,FIRE management ,SAVANNAS ,NONFICTION - Abstract
2009, CSIRO Publishing, PO Box 1139, Collingwood, Victoria 3066, Australia 416 pp, softcover ISBN 978-0-6430-9402-4. Price AU$99.95 [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
8. Management impacts on fire occurrence: A comparison of fire regimes of African and South American tropical savannas in different protected areas.
- Author
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Alvarado, Swanni T., Silva, Thiago Sanna Freire, and Archibald, Sally
- Subjects
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FIRE management , *SAVANNAS , *ENVIRONMENTAL impact analysis , *GRASSLAND fire prevention & control , *PLANT communities - Abstract
Humans can alter fire dynamics in grassland systems by changing fire frequency, fire seasonality and fuel conditions. These changes have effects on vegetation structure and recovery, species composition, and ecosystem function. Understanding how human management can affect fire regimes is vital to detect potential changes in the resilience of plant communities, and to predict vegetation responses to human interventions. We evaluated the fire regimes of two recently protected areas in Madagascar (Ibity and Itremo NPA) and one in Brazil (Serra do Cipó NP) before and after livestock exclusion and fire suppression policies. We compare the pre- and post-management fire history in these areas and analyze differences in terms of total annual burned area, density of ignitions, burn scar size distribution, fire return period and seasonal fire distribution. More than 90% of total park areas were burned at least once during the studied period, for all parks. We observed a significant reduction in the number of ignitions for Ibity NPA and Serra do Cipó NP after livestock exclusion and active fire suppression, but no significant change in total burned area for each protected area. We also observed a seasonal shift in burning, with fires happening later in the fire season (October–November) after management intervention. However, the protected areas in Madagascar had shorter fire return intervals (3.23 and 1.82 years) than those in Brazil (7.91 years). Our results demonstrate that fire exclusion is unattainable, and probably unwarranted in tropical grassland conservation areas, but show how human intervention in fire and vegetation patterns can alter various aspects of the fire regimes. This information can help with formulating realistic and effective fire management policies in these valuable conservation areas. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
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