Developing post-fire Eucalyptus globulus stand damage and tree mortality models for enhanced forest planning in Portugal

Marques, Susete; García-Gonzalo, Jordi; Borges, José G.; Botequim, Brigite; Oliveira, Manuela; Tomé, José; Tomé, Margarida

doi:10.14214/sf.32

Cited by 24 publications

(20 citation statements)

References 43 publications

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“…This is in concordance with other studies [17,18,20,33]. In addition, size (dbh) has a greatest effect on mortality rate at the level of the individual tree, with larger trees size exhibiting mortality rates much lower than smaller trees, consistent with a decrease in mortality reported by several studies [18,26,71]. These two variables are related, so for a fixed value of basal area (G) if the stand density increases, it means that average tree diameters are smaller.…”

Section: Forest Composition Heterogeneity and Structuresupporting

confidence: 92%

“…The coefficients of biometric variables regarding stand structure are in concordance with findings from international studies (e.g., [17,75]) and studies focused on Portuguese conditions [18,26,34]. The stand-level model indicates that even-aged stands with higher tree diameters have lower probabilities of mortality after a fire than irregular stands with smaller-sized trees (model PsDead).…”

Section: Forest Composition Heterogeneity and Structuresupporting

confidence: 85%

“…The predicted proportion of dead trees in pure maritime pine stands using the stand-level mortality model PdMort presents a very similar response pattern than the model developed by Garcia-Gonzalo et al [18]. If model PdMort is used for pure eucalyptus stands, it also gives similar results as the model developed by Marques et al [26].…”

Section: Discussionsupporting

confidence: 61%

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Modeling Post-Fire Mortality in Pure and Mixed Forest Stands in Portugal—A Forest Planning-Oriented Model

et al. 2017

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Assessing impacts of management strategies may allow designing more resistant forests to wildfires. Planning-oriented models to predict the effect of stand structure and forest composition on mortality for supporting fire-smart management decisions, and allowing its inclusion in forest management optimization systems were developed. Post-fire mortality was modeled as a function of measurable forest inventory data and projections over time in 165 pure and 76 mixed forest stands in Portugal, collected by the 5th National Forest Inventory plots (NFI) plus other sample plots from ForFireS project, intercepted within 2006-2008 wildfire perimeters' data. Presence and tree survival were obtained by examining 2450 trees from 16 species one year after the wildfire occurrence. A set of logistic regression models were developed under a three-stage modeling system: firstly multiple fixed-effects at stand-level that comprises a sub-model to predict mortality from wildfire; and another for the proportion of dead trees on stands killed by fire. At tree-level due to the nested structure of the data analyzed (trees within stands), a mixed-effect model was developed to estimate mortality among trees in a fire event. The results imply that the variation of tree mortality decreases when tree diameter at breast height increases. Moreover, the relative mortality increases with stand density, higher altitude and steeper slopes. In the same conditions, conifers are more prone to die than eucalyptus and broadleaves. Pure stands of broadleaves exhibit noticeably higher fire resistance than mixed stands of broadleaves and others species composition.

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Section: Forest Composition Heterogeneity and Structuresupporting

confidence: 92%

Section: Forest Composition Heterogeneity and Structuresupporting

confidence: 85%

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Modeling Post-Fire Mortality in Pure and Mixed Forest Stands in Portugal—A Forest Planning-Oriented Model

et al. 2017

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“…Firstly, these plots were further inventoried to get the diameter of stumps from trees that burned and had been harvested. Secondly, this diameter was input to an equation developed by Marques et al (2011b) to estimate the pre-fire tree diameter at breast height. Thirdly, the latter was input to an equation developed for eucalypt by Tomé et al (2007) to estimate the tree height (eqn.…”

Section: Reverse Engineering To Rebuild the Tree Characteristicsmentioning

confidence: 99%

“…It was demonstrated that in general wildfire impacts depend on the forest cover types where they occur (Moreira et al 2001, Godinho-Ferreira et al 2005, Nunes et al 2005. The characterization of these impacts on eucalypt plantations was addressed recently by Fernandes et al (2011) andMarques et al (2011b). Nevertheless, no models to assess the impact of changes in controllable biometric variables on fire occurrence in eucalypt plantations were available in Portugal.…”

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confidence: 99%

Developing wildfire risk probability models for Eucalyptus globulus stands in Portugal

Botequim¹,

García-Gonzalo²,

Marques³

et al. 2013

iForest

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© iForest -Biogeosciences and Forestry IntroductionFire is a major disturbance impacting the Mediterranean landscape (Rundel 1998). In recent decades its incidence has increased dramatically in southern Europe (Rego 1992, Moreno 1999, Pausas et al. 2008. The Portuguese territory is characterized by a Mediterranean climate and a rugged topography. Moreover, the Portuguese vegetation cover is mostly evergreen and drought resistant. The country is thus prone to vegetation fires. Recent demographic, socio-economic and climatic trends (e.g., Mather & Pereira 2006, Pereira et al. 2002 have further contributed to the country's vulnerability to wildfires. In Portugal, wildfire is the most important agent of land cover change (Pereira & Santos 2003). In fact, in the period extending from 1975 to 2007 the total burned area approximated 3.8 · 10 6 hectares, representing 40% of the country's area (Marques et al. 2011a).In Portugal, around 90% of the total forest land is managed by private landowners (DGRF 2006) and most stands are monospecific or dominated by one species. Eucalypt is the most important forest species in terms of area as it extends over 8.12 · 10 3 ha, corresponding to 26% of the country's forestland (ICNF 2013). Further, it provides key raw material to the export driven pulp and paper industry (about 5.75 million m 3 of pulpwood per year -DGRF 2007). Wildfires constrain the economic viability of eucalypt in commercial forestry and the competitiveness of this industry (Nogueira 1990, Moreira et al. 2001. The development of forest plans that may mitigate wildfire impacts on the profitability of eucalypt management scheduling is thus a key factor to the sustainability of this forestry sub-sector. This prompted the research of models to assess wildfire occurrence probability in eucalypt plantations as a function of variables that may be controlled by forest managers. The forestry literature has associated the term risk with the probability of occurrence of a natural hazard (González et al. 2006, Jactel et al. 2009. In this research, we will refer to risk as the probability of a stand to be affected by a wildfire (i.e., probability of burning) if an ignition exists ). Thus, rather than modeling fire ignition probability, the focus of this research is on modeling at stand level the probability of wildfire occurrence at stand level. This is understood as a spatial process related to forest structure as potential fire spread is impacted by fuel presence/composition (Fernandes 2009).In Portugal, former studies have focused on the characterization of wildfire ignition or of wildfire risk as a function of environmental or socioeconomic variables (Vasconcelos et al. 2001, Pereira & Santos 2003, Nunes et al. 2005, Catry et al. 2008, Marques et al. 2011a. It was demonstrated that in general wildfire impacts depend on the forest cover types where they occur (Moreira et al. 2001, Godinho-Ferreira et al. 2005, Nunes et al. 2005. The characterization of these impacts on eucalypt plantations was addressed recently by Fernande...

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Genetic Transformation in Eucalyptus

Kendurkar

Rangaswamy

2018

Biotechnologies of Crop Improvement, Volume 2

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Developing post-fire Eucalyptus globulus stand damage and tree mortality models for enhanced forest planning in Portugal

Cited by 24 publications

References 43 publications

Modeling Post-Fire Mortality in Pure and Mixed Forest Stands in Portugal—A Forest Planning-Oriented Model

Modeling Post-Fire Mortality in Pure and Mixed Forest Stands in Portugal—A Forest Planning-Oriented Model

Developing wildfire risk probability models for Eucalyptus globulus stands in Portugal

Genetic Transformation in Eucalyptus

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