Your search keyword '"New, Stacey L."' showing total 2 results

1. Bark charcoal reflectance may have the potential to estimate the heat delivered to tree boles by wildland fires.

Author

Belcher, Claire M., New, Stacey L., Gallagher, Michael R., Grosvenor, Mark J., Clark, Kenneth, and Skowronski, Nicholas S.

Subjects

WILDFIRES, CHARCOAL, FIRE management, TREE mortality, REFLECTANCE, FOREST fires

Abstract

Currently, our ability to link wildland fire behaviour to fire effects is through the lens of fire severity assessments, because there are no ground-based post-fire metrics that are able to quantitively capture aspects of heat transfer to plants. This presents a particular challenge when considering tree mortality linked to cambial damage, which can occur in both low-intensity surface fires through to high-intensity crown fires. Recent research suggests that measuring the amount of light reflected from charcoals produced by wildland fires will provide information about the energy flux that created the char. We created an experimental forest fire in which we had instrumented individual trees to record the energy delivered to the bark close to the base of the trees. We then assessed the bark charcoal reflectance of the same trees. We found that bark charcoal reflectance showed a strong positive correlation (r 2 > 0.86, P = 0.0031) with increasing duration of heating and the total energy delivered to the bark. We suggest that this may provide useful quantitative data that can be included in models or post-fire surveys to estimate tree mortality due to cambial kill. We show how a method that measures the amount of reflected light from tree bark charcoals may help ecologists understand how much heat tree trunks are exposed to during forest fires. The aim is to develop this approach to estimate tree mortality following wildfires. [ABSTRACT FROM AUTHOR]

Published

2021

2. Quantitative charcoal reflectance measurements better link to regrowth potential than ground-based fire-severity assessments following a recent heathland wildfire at Carn Brea, Cornwall, UK.

Author

New, Stacey L., Hudspith, Victoria A., and Belcher, Claire M.

Subjects

WILDFIRES, CHARCOAL

Abstract

Charcoal has recently been suggested to retain information about the fire that generated it. When looked at under a microscope, charcoals formed by different aspects of fire behaviour indicate different ability to reflect the amount of light when studied using the appropriate technique. It has been suggested that this method, charcoal reflectance (Ro), might be able to provide a quantitative fire severity metric that can be used in conjunction with or instead of standard qualitative fire severity scores. We studied charcoals from a recent heathland wildfire in Carn Brea, Cornwall, UK, and assessed whether charcoal reflectance (Ro) can be linked to standard qualitative fire severity scores for the burned area. We found that charcoal reflectance was greater at sites along the burned area that had been scored as having a higher qualitative fire severity. However, there were clear instances where the quantitative charcoal reflectance measurements were able to better indicate damage and regrowth potential than qualitative scoring alone. We suggest measuring the reflectance of charcoals may not only be able to provide quantitative information about the spatial distribution of heat across a burned area post fire but that this approach is able to provide improvement to fire severity assessment approaches. We present a novel metric with which to assess fire severity in a heathland ecosystem. We found that by studying the reflectance of charcoal, we not only acquire a quantitative measurement of fire severity, but also a higher-resolution dataset than qualitative fire severity metrics can currently provide. [ABSTRACT FROM AUTHOR]

Published

2018