A Framework for Multi-Dimensional Assessment of Wildfire Disturbance Severity from Remotely Sensed Ecosystem Functioning Attributes

Marcos, Bruno; Gonçalves, João; Alcaraz‐Segura, Domingo; Cunha, Mário; Honrado, João P.

doi:10.3390/rs13040780

Cited by 12 publications

(9 citation statements)

References 88 publications

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“…The NDVI has been used to monitor post-fire habitat dynamics [46,67], and it is considered as a reliable predictor of habitat recovery after fire for many ecosystem components [68]. Our results support this conclusion as we detected a general reduction of the NDVI index in all burnt areas one year after the fire.…”

Section: Sl Implications Of Salvage Logging In the Pine Plantationsupporting

confidence: 85%

Analysing How Pre-Fire Habitat Legacy and Post-Fire Management Influence the Resilience of Reptiles to Fire

Muñoz

Felicísimo

Santos

2021

Forests

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At the landscape scale, the Mediterranean region is a mosaic of habitats occupied by plants and animals with different resilience to fire. One of these habitats, the pine plantation, is characterized by its structural simplification and susceptibility to fire. Despite its high flammability, few studies have compared the response of animal communities between pine plantations and other autochthonous woodlands. For five years after a large fire in southwestern Europe, we surveyed reptiles in two natural habitats (oak forest, scrubland) and a pine plantation managed with salvage logging, a post-fire practice which consists of the complete harvesting and removal of death burnt trees. Reptile abundance and species composition were examined to assess differences in the reptile community between these habitats. Differences between burnt and unburnt transects were limited to the first year after the fire, while, over the entire five-year period, differences in species composition and abundance were due to vegetation type instead of fire. The pine logged area showed a delay in the recovery of vegetation and also in the appearance of many reptile species after the fire. At the reptile species level, we found evidence of both positive responses to fire (for lizards with high heliothermic activity) and negative ones (for specialist snake species). Overall, our results confirm the resilience of the reptile community to fire. The mosaic of habitats in the Mediterranean region and the openness caused by fire can increase the reptile biodiversity (landscape- plus pyro-diversity effects), but some practices such as salvage logging coupled with fire regime shifts (larger and more frequent fires) can compromise the conservation of the biodiversity in fire-prone regions.

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Section: Sl Implications Of Salvage Logging In the Pine Plantationsupporting

confidence: 85%

Analysing How Pre-Fire Habitat Legacy and Post-Fire Management Influence the Resilience of Reptiles to Fire

Muñoz

Felicísimo

Santos

2021

Forests

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“…Reptile responses were modeled with fire history, as well as climate and remotely sensed environmental variables. These satellite‐based variables translated different dimensions of ecosystem functioning linked to energy–matter flows (Alcaraz et al, 2006; Cabello et al, 2012), which recovered with distinct trajectories and speeds after a fire (Marcos et al, 2021; Torres et al, 2018) therefore potentially improving the assessment of reptile responses to megafires. Finding a reptile decline pattern toward the center of the burnt area would suggest that colonization is the main process; the lack of such a pattern may suggest local extinction (if they are absent) or fire survival (if reptiles are present); the latter would support reptile persistence after megafires.…”

Section: Introductionmentioning

confidence: 99%

Resilience of reptiles to megafires

Santos

Belliure

Gonçalves

et al. 2022

Ecological Applications

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Extreme climate events, together with anthropogenic land‐use changes, have led to the rise of megafires (i.e., fires at the top of the frequency size distribution) in many world regions. Megafires imply that the center of the burnt area is far from the unburnt; therefore, recolonization may be critical for species with low dispersal abilities such as reptiles. We aimed to evaluate the effect of megafires on a reptile community, exploring to what extent reptile responses are spatially shaped by the distance to the unburnt area. We examined the short‐term spatiotemporal response of a Mediterranean reptile community after two megafires (>20,000 ha) that occurred in summer 2012 in eastern Spain. Reptiles were sampled over 4 years after the fire in burnt plots located at different distances from the fire perimeter (edge, middle, and center), and in adjacent unburnt plots. Reptile responses were modeled with fire history, as well as climate and remotely sensed environmental variables. In total, we recorded 522 reptiles from 12 species (11 species in the burnt plots and nine in the unburnt plots). Reptile abundance decreased in burnt compared with unburnt plots. The community composition and species richness did not vary either spatially (unburnt and burnt plots) or temporally (during the 4 years). The persistence of reptiles in the burnt area supported their resilience to megafires. The most common lizard species was Psammodromus algirus; both adults and juveniles were found in all unburnt and burnt plots. This species showed lower abundances in burnt areas compared with the unburnt and a slow short‐term abundance recovery. The lizard Psammodromus edwarsianus was much less abundant and showed a tendency to increase its abundance in burnt plots compared with unburnt plots. Within the megafire area, P. algirus and P. edwarsianus abundances correlated with the thermal–moisture environment and vegetation recovery regardless of the distance from the fire edge. These results indicated the absence of a short‐term reptile recolonization from the unburnt zone, demonstrating that reptiles are resilient (in situ persistence) to megafires when environmental conditions are favorable.

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“…To that end, approaches based on ecosystem functioning offer an integrative view of ecosystem responses to wildfire-induced changes, since fire can cause rapid modifications in key aspects of matter and energy flows in ecosystems (B. Marcos et al, 2021;Petropoulos et al, 2009). Furthermore, ecosystem functioning provides quicker, quantifiable responses to disturbances than structure or composition, and are more directly connected to ecosystem services (Alcaraz-Segura et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, the utility of SRS to evaluate ecosystem functioning resilience, and to anticipate potential regime shiftsthrough the translation of spectral indices into meaningful, informative ecosystem variablesis still largely under-explored (B. Marcos et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

A satellite-based multi-dimensional approach to identify potential post-fire regime shifts in ecosystem functioning

Marcos¹,

Gonçalves²,

Alcaraz‐Segura³

et al. 2022

Advances in Forest Fire Research 2022

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Wildfires can profoundly impact many aspects of matter flows and energy budgets in ecosystems. Exacerbated by projected shifts in climate, land use, and forest management, changes in fire regimes can lead to decreased ecosystem resilience, regime shifts, and ecosystem collapse. Thorough assessments of ecosystem resilience to wildfires are thus critical to bridge gaps between science, policy, and management. To that end, approaches based on ecosystem functioning offer an integrative view of ecosystem responses to wildfire-induced changes and provide quicker, quantifiable responses to disturbances that are more directly connected to ecosystem services. In that regard, satellite remote sensing can be employed to easily and frequently monitor multiple dimensions of ecosystem functioning over large areas and across time, and to evaluate ecosystem functioning resilience to wildfires. This study describes an approach for identifying potential regime shifts based on satellite-based surrogates of four key dimensions of ecosystem functioning: primary production, water content, albedo, and sensible heat. To that end, we classified the trajectories after wildfires in 2005, in NW Iberian Peninsula, for the 2000â€“2018 period, into five main types, using two metrics of medium-to-long term post-fire recovery. Then, we derived a synthetic indicator to analyse the overall â€œstrength-of-evidenceâ€ of potential regime shifts across dimensions. Potential regime shifts were identified for each dimension of ecosystem functioning considered, with the main effects associated with the sudden removal of vegetation. For primary production, regime shifts may be linked to changes in land cover and use, as well as management. Changes in the concentrations of impervious and radiation-absorbing materials following wildfires may be responsible for regime shifts in water content and albedo, with loss of canopy moisture due to fire-related damage leading to vegetation mortality during post-fire recovery. On the other hand, regime shifts in sensible heat were less frequent, since wildfires tend to have transient effects on this dimension of ecosystem functioning. Overall, our results show that our approach successfully captured different patterns of post-fire recovery and resilience across multiple dimensions of ecosystem functioning. We argue that our approach can provide an enhanced characterization of ecosystem resilience to wildfires, and support the identification of potential regime shifts after such disturbances, ultimately upholding promising implications for post-fire ecosystem management.

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A Framework for Multi-Dimensional Assessment of Wildfire Disturbance Severity from Remotely Sensed Ecosystem Functioning Attributes

Cited by 12 publications

References 88 publications

Analysing How Pre-Fire Habitat Legacy and Post-Fire Management Influence the Resilience of Reptiles to Fire

Analysing How Pre-Fire Habitat Legacy and Post-Fire Management Influence the Resilience of Reptiles to Fire

Resilience of reptiles to megafires

A satellite-based multi-dimensional approach to identify potential post-fire regime shifts in ecosystem functioning

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