Conceptualizing Ecological Flammability: An Experimental Test of Three Frameworks Using Various Types and Loads of Surface Fuels

Prior, Lynda D.; Murphy, Brett P.; Bowman, David M. J. S.

doi:10.3390/fire1010014

Cited by 20 publications

(16 citation statements)

References 48 publications

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“…ignitibility, sustainability, combustibility, and consumability). Nevertheless, different authors attribute the same fire behaviour characteristics to different flammability components (e.g.,[31,48,49]). Thus, to avoid confusion, the suggestion given by [31] was followed and the metrics itself was addressed.…”

Section: Introductionmentioning

confidence: 99%

Do relationships between leaf traits and fire behaviour of leaf litter beds persist in time?

2018

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Wildland fires are a dominant disturbance on Earth. On the local scale, fire activity is also influenced by species-specific fire behaviour of leaf litter beds. Thus, researchers strive to identify plant functional traits governing fire behaviour. The currently accepted relationships between morphological characteristics of the individual particles, fuel bed structure and resulting fire behaviour have been established on freshly constructed leaf litter beds. To investigate to what degree these relationships are altered upon exposure of constructed leaf litter beds to outside weather conditions, a novel testing system was designed. It enables outdoor exposure of the constructed litter beds, their subsequent retrieval and fire behaviour testing without disturbing the sample structure. Two treatments were applied on seven monospecific leaf litters. “Fresh treatment” corresponded to the common practice of testing fire behaviour directly after fuel bed construction. In the “settled treatment” constructed fuel beds were exposed for 30 days to outside weather conditions before being tested. The “settled treatment” was designed to address physical changes in the fuel bed structure which occur due to repeated wetting of the fuel bed. Thus, to minimise the effects of decomposition and fragmentation, winter exposure was chosen. Within the “fresh treatment” previously established relationships between size, curl, bulk density and fire behaviour characteristics could be confirmed. In the “settled treatment” the majority of these relationships lost their significance. The “settled treatment” had significantly lower bulk density (BD), rate of spread, maximum flame height and maximum sand temperature at 1 cm depth; and significantly higher flaming duration and amount of unburned residues compared to the “fresh treatment”. Species with low initial BD were more affected by the treatment than species with high initial BD. The abrupt change in the fire behaviour of some leaf litter beds and the loss of numerous relationships between morphological characteristics of the individual particles and fire behaviour characteristics upon settled treatment indicate that fast occurring changes in the fuel bed structure should be taken into consideration if we are to understand the relationships between functional traits and local fire activity.

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Section: Introductionmentioning

confidence: 99%

Do relationships between leaf traits and fire behaviour of leaf litter beds persist in time?

2018

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“…Her notable works include the growth of trees under warming climates and fire [128,129], and research advancing our understanding of plant flammability [130]. Her recent work includes developing new frameworks for conceptualizing flammability [131].…”

Section: Recognizing Women Leaders In Fire Sciencementioning

confidence: 99%

Recognizing Women Leaders in Fire Science: Revisited

Smith

Strand

2018

Fire

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In August, 2018, an editorial in Fire entitled Recognizing Women Leaders in Fire Science was published. This was intended to ignite a conversation into diversity in fire science by highlighting several women leaders in fire research and development. This editorial was released alongside a new Topical Collection in Fire called Diversity Leaders in Fire Science. The response on social media was fantastic, leading to numerous recommendations of women leaders in fire science that had been inadvertently missed in the first editorial. In this editorial, we acknowledge 145 women leaders in fire science to promote diversity across our disciplines. Fire is continually committed to improving diversity and inclusion in all aspects of the journal and welcomes perspectives, viewpoints, and constructive criticisms to help advance that mission.

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“…Individual authors differently translate the measured fire behavior characteristics into flammability [2,6,7,25,26]. Here, we follow the suggestion given by [7], i.e., we focus on the metrics itself and discuss our results in terms of different fire behavior rather than in terms of a single flammability value.…”

Section: Introductionmentioning

confidence: 97%

“…Nevertheless, similar climatic conditions and vegetation types can support different fire regimes, depending on the vegetation flammability [3]. Even though definitions of flammability and metrics used to describe it differ between authors [2,[4][5][6][7], evidence implies that plant species do differ in their tendency to ignite, to support fire and to facilitate fire spread (e.g., [2,7]). This evidence has been gathered at scales ranging from laboratory testing of small leaf fragments [8] to field experiments [9] and large-scale field surveys [10], encompassing modelling studies [11].…”

Section: Introductionmentioning

confidence: 99%

How Much Does Fire Behavior of Leaf Litter Beds Change within Two Months?

Kauf

Damsohn

Fangmeier

2019

Fire

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Fire behavior is well-recognized as a function of fuel characteristics, but in practice the dynamics of fuels are often overlooked. Here we focus on short term changes in the fuel bed structure and fire behavior. Fire behavior and structural characteristics of leaf litter beds of Pinus halepensis, Ceratonia silique, and Quercus pubescens were examined. Three treatments were applied: testing freshly constructed samples (treatment “0”), exposure to a simulated precipitation event (treatment ”10”), and a two-month exposure to outside weather conditions (treatment “60”). The testing procedure allowed fire behavior testing without disturbing sample structure. Out of the tested species P. halepensis was most affected by the treatments, followed by Q. pubescens. C. silique showed no significant treatment effects. Response to the treatments could be attributed to pore space within the fuel bed, with more pore space relating to more dramatic treatment effects. In the treatment “0” P. halepensis and C. silique exhibited opposing fire behavior, but showed no significant differences in the treatment “60”. The measured effects show that short-term alterations in the fuel bed structure and fire behavior can be substantial, making it an issue that should be addressed in future research.

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Conceptualizing Ecological Flammability: An Experimental Test of Three Frameworks Using Various Types and Loads of Surface Fuels

Cited by 20 publications

References 48 publications

Do relationships between leaf traits and fire behaviour of leaf litter beds persist in time?

Do relationships between leaf traits and fire behaviour of leaf litter beds persist in time?

Recognizing Women Leaders in Fire Science: Revisited

How Much Does Fire Behavior of Leaf Litter Beds Change within Two Months?

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