Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems
Background The characterization of surface and canopy fuel loadings in fire-prone pine ecosystems is critical for understanding fire behavior and anticipating the most harmful ecological effects of fire. Nevertheless, the joint consideration of both overstory and understory strata in burn severity assessments is often dismissed. The aim of this work was to assess the role of total, overstory and understory pre-fire aboveground biomass (AGB), estimated by means of airborne Light Detection and Ranging (LiDAR) and Landsat data, as drivers of burn severity in a megafire occurred in a pine ecosystem dominated by Pinus pinaster Ait. in the western Mediterranean Basin. Results Total and overstory AGB were more accurately estimated (R2 equal to 0.72 and 0.68, respectively) from LiDAR and spectral data than understory AGB (R2 = 0.26). Density and height percentile LiDAR metrics for several strata were found to be important predictors of AGB. Burn severity responded markedly and non-linearly to total (R2 = 0.60) and overstory (R2 = 0.53) AGB, whereas the relationship with understory AGB was weaker (R2 = 0.21). Nevertheless, the overstory plus understory AGB contribution led to the highest ability to predict burn severity (RMSE = 122.46 in dNBR scale), instead of the joint consideration as total AGB (RMSE = 158.41). Conclusions This study novelty evaluated the potential of pre-fire AGB, as a vegetation biophysical property derived from LiDAR, spectral and field plot inventory data, for predicting burn severity, separating the contribution of the fuel loads in the understory and overstory strata in Pinus pinaster stands. The evidenced relationships between burn severity and pre-fire AGB distribution in Pinus pinaster stands would allow the implementation of threshold criteria to support decision making in fuel treatments designed to minimize crown fire hazard.
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| Language: | English |
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Springer
2022
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| Subjects: | Aboveground biomass, Burn severity, Landsat, LiDAR, Pinus pinaster, |
| Online Access: | http://hdl.handle.net/20.500.12792/6214 http://hdl.handle.net/10261/289919 |
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dig-inia-es-10261-2899192023-02-17T08:25:29Z Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems Fernández-Guisuraga, José Manuel Suárez-Seoane, Susana Fernandes, Paulo M. Fernández-García, Víctor Fernández-Manso, Alfonso Quintano, Carmen Calvo, Leonor Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster Background The characterization of surface and canopy fuel loadings in fire-prone pine ecosystems is critical for understanding fire behavior and anticipating the most harmful ecological effects of fire. Nevertheless, the joint consideration of both overstory and understory strata in burn severity assessments is often dismissed. The aim of this work was to assess the role of total, overstory and understory pre-fire aboveground biomass (AGB), estimated by means of airborne Light Detection and Ranging (LiDAR) and Landsat data, as drivers of burn severity in a megafire occurred in a pine ecosystem dominated by Pinus pinaster Ait. in the western Mediterranean Basin. Results Total and overstory AGB were more accurately estimated (R2 equal to 0.72 and 0.68, respectively) from LiDAR and spectral data than understory AGB (R2 = 0.26). Density and height percentile LiDAR metrics for several strata were found to be important predictors of AGB. Burn severity responded markedly and non-linearly to total (R2 = 0.60) and overstory (R2 = 0.53) AGB, whereas the relationship with understory AGB was weaker (R2 = 0.21). Nevertheless, the overstory plus understory AGB contribution led to the highest ability to predict burn severity (RMSE = 122.46 in dNBR scale), instead of the joint consideration as total AGB (RMSE = 158.41). Conclusions This study novelty evaluated the potential of pre-fire AGB, as a vegetation biophysical property derived from LiDAR, spectral and field plot inventory data, for predicting burn severity, separating the contribution of the fuel loads in the understory and overstory strata in Pinus pinaster stands. The evidenced relationships between burn severity and pre-fire AGB distribution in Pinus pinaster stands would allow the implementation of threshold criteria to support decision making in fuel treatments designed to minimize crown fire hazard. 2023-02-17T08:25:29Z 2023-02-17T08:25:29Z 2022 artículo Forest Ecosystems 9: e100022 (2022) http://hdl.handle.net/20.500.12792/6214 http://hdl.handle.net/10261/289919 10.1016/j.fecs.2022.100022 2197-5620 en open Springer |
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Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster |
| spellingShingle |
Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster Fernández-Guisuraga, José Manuel Suárez-Seoane, Susana Fernandes, Paulo M. Fernández-García, Víctor Fernández-Manso, Alfonso Quintano, Carmen Calvo, Leonor Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| description |
Background The characterization of surface and canopy fuel loadings in fire-prone pine ecosystems is critical for understanding fire behavior and anticipating the most harmful ecological effects of fire. Nevertheless, the joint consideration of both overstory and understory strata in burn severity assessments is often dismissed. The aim of this work was to assess the role of total, overstory and understory pre-fire aboveground biomass (AGB), estimated by means of airborne Light Detection and Ranging (LiDAR) and Landsat data, as drivers of burn severity in a megafire occurred in a pine ecosystem dominated by Pinus pinaster Ait. in the western Mediterranean Basin. Results Total and overstory AGB were more accurately estimated (R2 equal to 0.72 and 0.68, respectively) from LiDAR and spectral data than understory AGB (R2 = 0.26). Density and height percentile LiDAR metrics for several strata were found to be important predictors of AGB. Burn severity responded markedly and non-linearly to total (R2 = 0.60) and overstory (R2 = 0.53) AGB, whereas the relationship with understory AGB was weaker (R2 = 0.21). Nevertheless, the overstory plus understory AGB contribution led to the highest ability to predict burn severity (RMSE = 122.46 in dNBR scale), instead of the joint consideration as total AGB (RMSE = 158.41). Conclusions This study novelty evaluated the potential of pre-fire AGB, as a vegetation biophysical property derived from LiDAR, spectral and field plot inventory data, for predicting burn severity, separating the contribution of the fuel loads in the understory and overstory strata in Pinus pinaster stands. The evidenced relationships between burn severity and pre-fire AGB distribution in Pinus pinaster stands would allow the implementation of threshold criteria to support decision making in fuel treatments designed to minimize crown fire hazard. |
| format |
artículo |
| topic_facet |
Aboveground biomass Burn severity Landsat LiDAR Pinus pinaster |
| author |
Fernández-Guisuraga, José Manuel Suárez-Seoane, Susana Fernandes, Paulo M. Fernández-García, Víctor Fernández-Manso, Alfonso Quintano, Carmen Calvo, Leonor |
| author_facet |
Fernández-Guisuraga, José Manuel Suárez-Seoane, Susana Fernandes, Paulo M. Fernández-García, Víctor Fernández-Manso, Alfonso Quintano, Carmen Calvo, Leonor |
| author_sort |
Fernández-Guisuraga, José Manuel |
| title |
Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| title_short |
Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| title_full |
Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| title_fullStr |
Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| title_full_unstemmed |
Pre-fire aboveground biomass, estimated from LiDAR, spectral and field inventory data, as a major driver of burn severity in maritime pine (Pinus pinaster) ecosystems |
| title_sort |
pre-fire aboveground biomass, estimated from lidar, spectral and field inventory data, as a major driver of burn severity in maritime pine (pinus pinaster) ecosystems |
| publisher |
Springer |
| publishDate |
2022 |
| url |
http://hdl.handle.net/20.500.12792/6214 http://hdl.handle.net/10261/289919 |
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