Fire Management, Managed Relocation, and Land Conservation Options for Long-Lived Obligate Seeding Plants under Global Changes in Climate, Urbanization, and Fire Regime

Abstract Background Fire is an important process that shapes the structure and functioning of African savanna ecosystems, and managers of savanna protected areas use fire to achieve ecosystem goals. Developing appropriate fire management policies should be based on an understanding of the determinants, features, and effects of prevailing fire regimes, but this information is rarely available. In this study, we report on the use of remote sensing to develop a spatially explicit dataset on past fire regimes in Majete Wildlife Reserve, Malawi, between 2001 and 2019. Moderate Resolution Imaging Spectroradiometer (MODIS) images were used to evaluate the recent fire regime for two distinct vegetation types in Majete Wildlife Reserve, namely savanna and miombo. Additionally, a comparison was made between MODIS and Visible Infrared Imager Radiometer Suite (VIIRS) images by separately evaluating selected aspects of the fire regime between 2012 and 2019. Results Mean fire return intervals were four and six years for miombo and savanna vegetation, respectively, but the distribution of fire return intervals was skewed, with a large proportion of the area burning annually or biennially, and a smaller proportion experiencing much longer fire return intervals. Variation in inter-annual rainfall also resulted in longer fire return intervals during cycles of below-average rainfall. Fires were concentrated in the hot-dry season despite a management intent to restrict burning to the cool-dry season. Mean fire intensities were generally low, but many individual fires had intensities of 14 to 18 times higher than the mean, especially in the hot-dry season. The VIIRS sensors detected many fires that were overlooked by the MODIS sensors, as images were collected at a finer scale. Conclusions Remote sensing has provided a useful basis for reconstructing the recent fire regime of Majete Wildlife Reserve, and has highlighted a current mismatch between intended fire management goals and actual trends. Managers should re-evaluate fire policies based on our findings, setting clearly defined targets for the different vegetation types and introducing flexibility to accommodate natural variation in rainfall cycles. Local evidence of the links between fires and ecological outcomes will require further research to improve fire planning.

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Fire Management of Rangelands in the Kimberley Low-Rainfall Zone: a Review.

The Rangeland Journal ◽

10.1071/rj9990039 ◽

1999 ◽

Vol 21 (1) ◽

pp. 39 ◽

Cited By ~ 22

Author(s):

AB Craig

Keyword(s):

Fire History ◽

Fire Management ◽

Fire Regime ◽

Fire Regimes ◽

Environmental Research ◽

Fire Behaviour ◽

General Management ◽

Noaa Avhrr ◽

Local Experience ◽

Definition Of

This paper examines a range of environmental, research and practical issues affecting fire management of pastoral lands in the southern part of the Kimberley region in Western Australia. Although spinifex grasslands dominate most leases, smaller areas of more productive pastures are crucially important to many enterprises. There is a lack of local documentation of burning practices during traditional Aboriginal occupation; general features of the fire regime at that time can be suggested on the basis of information from other inland areas. Definition of current tire regimes is improving through interpretation of NOAA-AVHRR satellite imagery. Irregular extensive wildfires appear to dominate, although this should be confirmed by further accumulation, validation and analysis of fire history data. While these fires cause ma,jor difficulties. controlled burn~ng is a necessary part of station management. Although general management guidelines have been published. local research into tire-grazing effects has been very limited. For spinifex pastures, reconimendations are generally consistent with those applying elsewhere in northern Australia. They favour periodic burning of mature spinifex late in the year, before or shortly after the arrival of the first rains, with deferment of grazing. At that time. days of high fire danger may still be expected and prediction of fire behaviour is critical to burning decisions. Early dry-season burning is also required for creating protective tire breaks and to prepare for burning later in the year. Further development of tools for predicting fire behaviour, suited to the discontinuous fuels characteristic of the area, would be warranted. A range of questions concerning the timing and spatial pattern of burning, control of post-fire grazing, and the economics of fire management, should be addressed as resources permit. This can be done through a combination of opportunistic studies, modelling and documentation of local experience. The development of an expert system should be considered to assist in planning and conducting burning activities. Key words: Kimberley, fire regimes, fire management, pastoralism, spinifex

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Ecological thresholds and the status of fire-sensitive vegetation in western Arnhem Land, northern Australia: implications for management

International Journal of Wildland Fire ◽

10.1071/wf08008 ◽

2009 ◽

Vol 18 (2) ◽

pp. 127 ◽

Cited By ~ 32

Author(s):

Andrew C. Edwards ◽

Jeremy Russell-Smith

Keyword(s):

National Parks ◽

Fire History ◽

Fire Management ◽

Fire Regime ◽

Vegetation Types ◽

Northern Australia ◽

Study Region ◽

Ecological Thresholds ◽

Arnhem Land ◽

The Status

The paper examines the application of the ecological thresholds concept to fire management issues concerning fire-sensitive vegetation types associated with the remote, biodiversity-rich, sandstone Arnhem Plateau, in western Arnhem Land, monsoonal northern Australia. In the absence of detailed assessments of fire regime impacts on component biota such as exist for adjoining Nitmiluk and World Heritage Kakadu National Parks, the paper builds on validated 16-year fire history and vegetation structural mapping products derived principally from Landsat-scale imagery, to apply critical ecological thresholds criteria as defined by fire regime parameters for assessing the status of fire-sensitive habitat and species elements. Assembled data indicate that the 24 000 km2 study region today experiences fire regimes characterised generally by high annual frequencies (mean = 36.6%) of large (>10 km2) fires that occur mostly in the late dry season under severe fire-weather conditions. Collectively, such conditions substantially exceed defined ecological thresholds for significant proportions of fire-sensitive indicator rain forest and heath vegetation types, and the long-lived obligate seeder conifer tree species, Callitris intratropica. Thresholds criteria are recognised as an effective tool for informing ecological fire management in a variety of geographic settings.

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Overview: Global fire regime conditions, threats, and opportunities for fire management in the tropics

Tropical Fire Ecology ◽

10.1007/978-3-540-77381-8_3 ◽

2009 ◽

pp. 65-83 ◽

Cited By ~ 16

Author(s):

Ayn Shlisky ◽

Ane A. C. Alencar ◽

María Manta Nolasco ◽

Lisa M. Curran

Keyword(s):

Fire Management ◽

Fire Regime ◽

The Tropics

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Visualizing When, Where, and How Fires Happen in U.S. Parks and Protected Areas

ISPRS International Journal of Geo-Information ◽

10.3390/ijgi9050333 ◽

2020 ◽

Vol 9 (5) ◽

pp. 333

Author(s):

Nicole C. Inglis ◽

Jelena Vukomanovic

Keyword(s):

Decision Making ◽

Protected Areas ◽

National Park ◽

Fire History ◽

National Park Service ◽

Fire Management ◽

Fire Regime ◽

Fire Regimes ◽

The United States ◽

Park Service

Fire management in protected areas faces mounting obstacles as climate change alters disturbance regimes, resources are diverted to fighting wildfires, and more people live along the boundaries of parks. Evidence-based prescribed fire management and improved communication with stakeholders is vital to reducing fire risk while maintaining public trust. Numerous national fire databases document when and where natural, prescribed, and human-caused fires have occurred on public lands in the United States. However, these databases are incongruous and non-standardized, making it difficult to visualize spatiotemporal patterns of fire and engage stakeholders in decision-making. We created interactive decision analytics (“VISTAFiRe”) that transform fire history data into clear visualizations of the spatial and temporal dimensions of fire and its management. We demonstrate the utility of our approach using Big Cypress National Preserve and Everglades National Park as examples of protected areas experiencing fire regime change between 1980 and 2017. Our open source visualizations may be applied to any data from the National Park Service Wildland Fire Events Geodatabase, with flexibility to communicate shifts in fire regimes over time, such as the type of ignition, duration and magnitude, and changes in seasonal occurrence. Application of the tool to Everglades and Big Cypress revealed that natural wildfires are occurring earlier in the wildfire season, while human-caused and prescribed wildfires are becoming less and more common, respectively. These new avenues of stakeholder communication are allowing the National Park Service to devise research plans to prepare for environmental change, guide resource allocation, and support decision-making in a clear and timely manner.

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Australia Burning

10.1071/9780643090965 ◽

2003 ◽

Cited By ~ 17

Keyword(s):

Social Sciences ◽

Public Policy ◽

Fire Management ◽

Fire Regime ◽

National Level ◽

Legal Framework ◽

Fire Behaviour ◽

Community Issues ◽

Indigenous Land ◽

Key Questions

The phenomenon of fire in the Australian landscape traverses many interests and disciplines. At a national level, there is an urgent need for the integration of both the natural and social sciences in the formulation of public policy. With contributions from 30 leading experts, Australia Burning draws together these issues, under the themes: Ecology and the environment Fire behaviour and fire regime science People and property Policy, institutional arrangements and the legal framework Indigenous land and fire management The book examines some of the key questions that relate to the ecology, prediction and management of fire, urban planning, law, insurance, and community issues, including indigenous and non-indigenous concerns. It looks at what we need to know to inform public policy, given the present risks and uncertainty, and explores the avenues for closer integration between science, policy and the community.

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Inter- and intra-annual profiles of fire regimes in the managed forests of Canada and implications for resource sharing

International Journal of Wildland Fire ◽

10.1071/wf11026 ◽

2012 ◽

Vol 21 (4) ◽

pp. 328 ◽

Cited By ~ 9

Author(s):

Steen Magnussen ◽

Stephen W. Taylor

Keyword(s):

Resource Sharing ◽

Joint Distribution ◽

Fire Management ◽

Fire Regime ◽

Fire Regimes ◽

Fire Season ◽

Burned Area ◽

Fire Activity ◽

In Fire ◽

Regional Synchrony

Year-to-year variation in fire activity in Canada constitutes a key challenge for fire management agencies. Interagency sharing of fire management resources has been ongoing on regional, national and international scales in Canada for several decades to better cope with peaks in resource demand. Inherent stressors on these schemes determined by the fire regimes in constituent jurisdictions are not well known, nor described by averages. We developed a statistical framework to examine the likelihood of regional synchrony of peaks in fire activity at a timescale of 1 week. Year-to-year variations in important fire regime variables and 48 regions in Canada are quantified by a joint distribution and profiled at the Provincial or Territorial level. The fire regime variables capture the timing of the fire season, the average number of fires, area burned, and the timing and extent of annual maxima. The onset of the fire season was strongly correlated with latitude and longitude. Regional synchrony in the timing of the maximum burned area within fire seasons delineates opportunities for and limitations to sharing of fire suppression resources during periods of stress that were quantified in Monte Carlo simulations from the joint distribution.

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An assessment of the implementation and outcomes of recent changes to fire management in the Kruger National Park

Koedoe ◽

10.4102/koedoe.v50i1.135 ◽

2008 ◽

Vol 50 (1) ◽

Cited By ~ 23

Author(s):

Brian W. Van Wilgen ◽

Navashni Govender ◽

Sandra MacFadyen

Keyword(s):

National Park ◽

Fire Management ◽

Fire Regime ◽

Kruger National Park ◽

Fire Intensity ◽

Target Area ◽

Large Fires ◽

Sufficient Degree ◽

Burnt Areas ◽

In Fire

This paper reviews recent changes in fire management in the Kruger National Park, and assesses the resulting fire patterns against thresholds of potential concern. In 2002, a lightning-driven approach was replaced by an approach that combined point ignitions with unplanned and lightning fires. The approach aimed to burn an annual target area, determined by rainfall and fuel conditions, in point-ignition fires of different sizes. Most of the original fire-related thresholds of potential concern (TPCs) were incorporated into the new approach. The annual target area to be burnt ranged from 12 to 24% of the park between 2002 and 2006. The total area burnt generally exceeded the targets each year, and management fires accounted for less than half of the total area burnt. The fire regime was dominated by very large fires (> 5 000 ha) which accounted for 77% of the total area burnt. New TPCs were developed to assess whether the fire regime encompassed a sufficient degree of variability, in terms of fire intensity and the spatial distribution of burnt areas. After assessment and adjustment, it appears that these TPCs have not yet been exceeded. The point-ignition approach, and its evaluation in terms of variability and heterogeneity, is based on the untested assumption that a diverse fire regime will promote biodiversity. This assumption needs to be critically assessed. We recommend that the practice of point ignitions be continued, but that greater efforts be made to burn larger areas earlier in the season to reduce large and intense dry-season fires.

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The Year 2017: Megafires and Management in the Cerrado

Fire ◽

10.3390/fire1030049 ◽

2018 ◽

Vol 1 (3) ◽

pp. 49 ◽

Cited By ~ 18

Author(s):

Alessandra Fidelis ◽

Swanni Alvarado ◽

Ana Barradas ◽

Vânia Pivello

Keyword(s):

Protected Areas ◽

National Park ◽

Fire Management ◽

Fire Regime ◽

Management Tool ◽

Burned Area ◽

Fire Policy ◽

Fire Scars ◽

Biodiversity Preservation ◽

Fire Exclusion

The year 2017 was a megafire year, when huge areas burned on different continents. In Brazil, a great extension of the Cerrado burned, raising once more the discussion about the “zero-fire” policy. Indeed, most protected areas of the Cerrado adopted a policy of fire exclusion and prevention, leading to periodic megafire events. Last year, 78% of the Chapada dos Veadeiros National Park burned at the end of the dry season, attracting media attention. Furthermore, 85% of the Reserva Natural Serra do Tombador burned as a result of a large accumulation of fuel caused by the zero-fire policy. In 2014, some protected areas started to implement the Integrate Fire Management (IFM) strategy. During 2017, in contrast to other protected areas, the Estação Ecológica Serra Geral do Tocantins experienced no megafire events, suggesting that a few years of IFM implementation led to changes in its fire regime. Therefore, we intended here to compare the total burned area and number of fire scars between the protected areas where IFM was implemented and those where fire exclusion is the adopted policy. The use of fire as a management tool aimed at wildfire prevention and biodiversity preservation should be reconsidered by local managers and environmental authorities for most Cerrado protected areas, especially those where open savanna physiognomies prevail. Changing the paradigm is a hard task, but last year’s events showed the zero-fire policy would bring more damage than benefits to Cerrado protected areas.

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Contemporary fire regime risks to key ecological assets and processes in north Australian savannas

International Journal of Wildland Fire ◽

10.1071/wf14197 ◽

2015 ◽

Vol 24 (6) ◽

pp. 857 ◽

Cited By ~ 10

Author(s):

Andrew Edwards ◽

Jeremy Russell-Smith ◽

Mick Meyer

Keyword(s):

Climate Change ◽

Prescribed Burning ◽

Fire Management ◽

Fire Regime ◽

Ghg Emissions ◽

Fire Regimes ◽

Dry Season ◽

Suspended Sediment Transport ◽

Change Models ◽

Positive Effects

Despite the intact appearance of relatively unmodified north Australian savannas, mounting evidence indicates that contemporary fire regimes characterised by frequent, extensive and severe late dry season wildfires are having deleterious effects on a range of regional water, soil erosion, biodiversity conservation and greenhouse gas (GHG) emissions values. For the high rainfall (>1000 mm year–1) savannas (426 000 km2), we assessed the spatial effects of contemporary fire regimes within the context of ecosystem response models and three plausible alternative fire management scenarios on ecosystem attributes. Over the 2008–12 assessment period, mean annual fire frequency (0.53) comprised mostly late dry season fires. Although spatially variable, contemporary fire regimes resulted in substantial GHG emissions, hill slope erosion and suspended sediment transport, a slight decline in carbon biomass and slight positive effects on fire-vulnerable vegetation. Based on available climate change models and strategic fire management practice, we show that, relative to business-as-usual, improved fire management involving strategic prescribed burning results in substantial benefits to most ecosystem attributes, including under enhanced climate change conditions, whereas in the absence of improved fire management, climate change results in substantially worse outcomes.

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