Out of the Ashes: Ecological Resilience to Extreme Wildfire, Prescribed Burns, and Indigenous Burning in Ecosystems

Abstract Background Studies of the African savannas have used national parks to test ecological theories of natural ecosystems, including equilibrium, non-equilibrium, complex adaptive systems, and the role of top-down and bottom-up physical and biotic forces. Most such studies have excluded the impact of pastoralists in shaping grassland ecosystems and, over the last half century, the growing human impact on the world’s rangelands. The mounting human impact calls for selecting indicators and integrated monitoring methods able to track ecosystem changes and the role of natural and human agencies. Our study draws on five decades of monitoring the Amboseli landscape in southern Kenya to document the declining role of natural agencies in shaping plant ecology with rising human impact. Results We show that plant diversity and productivity have declined, biomass turnover has increased in response to a downsizing of mean plant size, and that ecological resilience has declined with the rising probability of extreme shortfalls in pasture production. The signature of rainfall and physical agencies in driving ecosystem properties has decreased sharply with growing human impact. We compare the Amboseli findings to the long-term studies of Kruger and Serengeti national parks to show that the human influence, whether by design or default, is increasingly shaping the ecology of savanna ecosystems. We look at the findings in the larger perspective of human impact on African grasslands and the world rangelands, in general, and discuss the implications for ecosystem theory and conservation policy and management. Conclusions The Amboseli study shows the value of using long-term integrated ecological monitoring to track the spatial and temporal changes in the species composition, structure, and function of rangeland ecosystems and the role of natural and human agencies in the process of change. The study echoes the widespread changes underway across African savannas and world’s rangelands, concluding that some level of ecosystem management is needed to prevent land degradation and the erosion of ecological function, services, and resilience. Despite the weak application of ecological theory to conservation management, a plant trait-based approach is shown to be useful in explaining the macroecological changes underway.

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Prescribed burning in a mediterranean-climate region mitigates the disturbance by bushfire to a critical food resource for an endangered bird, the Carnaby’s cockatoo

Fire Ecology ◽

10.1186/s42408-019-0054-8 ◽

2019 ◽

Vol 15 (1) ◽

Cited By ~ 1

Author(s):

Valerie S. Densmore ◽

Emma S. Clingan

Keyword(s):

Seed Production ◽

Prescribed Burning ◽

Fire Regime ◽

Fire Hazard ◽

Food Resource ◽

Management Tool ◽

Fire Intensity ◽

Prescribed Burns ◽

Low Intensity ◽

Percentage Survival

Abstract Background Prescribed burning is used to reduce fire hazard in highly flammable vegetation types, including Banksia L.f. woodland that occurs on the Swan Coastal Plain (SCP), Western Australia, Australia. The 2016 census recorded well over 1.9 million people living on the SCP, which also encompasses Perth, the fourth largest city in Australia. Banksia woodland is prone to frequent ignitions that can cause extensive bushfires that consume canopy-stored banksia seeds, a critical food resource for an endangered bird, the Carnaby’s cockatoo (Calyptorynchus latirostris, Carnaby 1948). The time needed for banksias to reach maturity and maximum seed production is several years longer than the typical interval between prescribed burns. We compared prescribed burns to bushfires and unburned sites at three locations in banksia woodland to determine whether low-intensity prescribed burns affect the number of adult banksias and their seed production. Study sites were matched to the same vegetation complex, fire regime, and time-since-fire to isolate fire intensity as a variable. Results Headfire rates of spread and differenced normalized burn ratios indicated that prescribed burning was generally of a much lower intensity than bushfire. The percentage survival of adult banksias and their production of cones and follicles (seeds) did not decrease during the first three years following a prescribed burn. However, survival and seed production were significantly diminished followed high-intensity bushfire. Thus, carrying capacity for Carnaby’s cockatoo was unchanged by prescribed burning but decreased markedly following bushfire in banksia woodland. Conclusions These results suggest that prescribed burning is markedly different from bushfire when considering appropriate fire intervals to conserve canopy habitats in fire-resilient vegetation communities. Therefore, low-intensity prescribed burning represents a viable management tool to reduce the frequency and extent of bushfire impacts on banksia woodland and Carnaby’s cockatoo.

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‘Environmental Impact Assessment’ in Drylands: Late Knowledge Penetration or a Deliberate Ignorance for Megaprojects?

World ◽

10.3390/world2030023 ◽

2021 ◽

Vol 2 (3) ◽

pp. 374-378

Author(s):

Farshad Amiraslani

Keyword(s):

Ecosystem Services ◽

Environmental Impact ◽

Impact Assessment ◽

Environmental Impact Assessment ◽

Ecological Resilience ◽

Delayed Action ◽

The Way

Despite the paramount role of drylands in supporting people’s livelihoods and rendering ecosystem services, legislation on Environmental Impact Assessment has been introduced belatedly after several decades. By exemplifying Iran, the author proposes two main reasons for such a delayed action. First, drylands are misleadingly considered as barren lands where biodiversity is relatively low. In one classification, deserts are even categorized along with rocks. Second, the author emphasizes that drylands have been subjected to unprecedented changes due to the expansion of infrastructure and urbanization that started in the 1970s. These growing pressures have been beyond the ecological resilience of drylands and have not been monitored, assessed, and modified correctly. Further scrutiny regarding EIA undertakings in drylands and the way they can be improved is now needed.

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Mapping Socio-Ecological Resilience along the Seven Economic Corridors of the Belt and Road Initiative

Journal of Cleaner Production ◽

10.1016/j.jclepro.2021.127341 ◽

2021 ◽

pp. 127341

Author(s):

Ashenafi Yohannes Battamo ◽

Olli Varis ◽

Peizhe Sun ◽

Yongkui Yang ◽

Belay Tafa Oba ◽

...

Keyword(s):

Ecological Resilience ◽

Belt And Road Initiative ◽

Belt And Road ◽

The Belt And Road

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Social–Ecological Resilience and Its Relation to the Social Pillar of Sustainable Development

The Cambridge Handbook of Environmental Justice and Sustainable Development ◽

10.1017/9781108555791.009 ◽

2021 ◽

pp. 101-114

Author(s):

Barbara Cosens

Keyword(s):

Sustainable Development ◽

Ecological Resilience ◽

Social Ecological ◽

The Social

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Short‐term microbialite resurgence as indicador of ecological resilience against crises (Catamarca, Argentine Puna)

Environmental Microbiology Reports ◽

10.1111/1758-2229.12977 ◽

2021 ◽

Author(s):

Patricio Guillermo Villafañe ◽

Carlos Cónsole‐Gonella ◽

Leonardo Fadel Cury ◽

María Eugenia Farías

Keyword(s):

Ecological Resilience ◽

Short Term

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Quantitative Analysis of Forest Fires in Southeastern Australia Using SAR Data

Remote Sensing ◽

10.3390/rs13122386 ◽

2021 ◽

Vol 13 (12) ◽

pp. 2386

Author(s):

Aqil Tariq ◽

Hong Shu ◽

Qingting Li ◽

Orhan Altan ◽

Mobushir Riaz Khan ◽

...

Keyword(s):

Forest Fires ◽

Prescribed Burning ◽

Fire Risk ◽

Fire Season ◽

Prescribed Burn ◽

Backscatter Coefficient ◽

Prescribed Burns ◽

Southeastern Australia ◽

Sar Data ◽

Sar Imagery

Prescribed burning is a common strategy for minimizing forest fire risk. Fire is introduced under specific environmental conditions, with explicit duration, intensity, and rate of spread. Such conditions deviate from those encountered during the fire season. Prescribed burns mostly affect surface fuels and understory vegetation, an outcome markedly different when compared to wildfires. Data on prescribed burning are crucial for evaluating whether land management targets have been reached. This research developed a methodology to quantify the effects of prescribed burns using multi-temporal Sentinel-1 Synthetic Aperture Radar (SAR) imagery in the forests of southeastern Australia. C-band SAR datasets were specifically used to statistically explore changes in radar backscatter coefficients with the intensity of prescribed burns. Two modeling approaches based on pre- and post-fire ratios were applied for evaluating prescribed burn impacts. The effects of prescribed burns were documented with an overall accuracy of 82.3% using cross-polarized backscatter (VH) SAR data under dry conditions. The VV polarization indicated some potential to detect burned areas under wet conditions. The findings in this study indicate that the C-band SAR backscatter coefficient has the potential to evaluate the effectiveness of prescribed burns due to its sensitivity to changes in vegetation structure.

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