Effect of fuel treatments and backfiring on the recovery of an obligate seeder-dominated heathland

Aim of the study : To evaluate how a plant community responded to a backfire that occurred four years after application of different types of fuel-reduction treatments. Area of study : Erica umbellata Loefl. (L.)-dominated heathland in Galicia (NW Spain). Materials and Methods : Shrub cover surveys in 16 experimental plots from 2006 to 2014. Fuel reduction treatments (prescribed burning, clearing and mastication) were applied in the spring of 2006 and the area was burned by a wildfire in the summer of 2010. Main results : Shrub total cover recovered quickly after the backfire in both the treated and untreated areas, and the pre-treatment values were reached four years after the fire. Post-wildfire resprouting species cover recovery was not affected by fuel treatments. As a contrast, Erica umbellata cover reached levels similar to those in the untreated plots only in the areas treated by prescribed burning. After the wildfire, grasses cover recovery was greater in the treated than in the untreated areas and the effect lasted until the end of the study. Research highlights : Prescribed fire and backfire was favourable for Erica umbellata regeneration compared to clearing and mastication.


Introduction
Shrub communities are valuable ecosystems that are protected under the Spanish Natura 2000 network, being the conservation and maintenance of these ecosystems strongly linked to a particular degree of management (Muñoz et al., 2012b(Muñoz et al., , 2014. In Galicia (NW Spain), fuel reduction treatments are used in those communities to reduce the risk of high-severity wildfire and to meet other ecological and socioeconomic objectives (Vega et al., 2001). In the particular case of heathland communities, they are considered to be endangered by both atmospheric nutrient deposition and natural succession and that a high-intensity management is necessary for their conservation. 2 fuel consumption was very high and soil burn severity was classified as very high due the complete loss of soil organic cover and the loss of particle cohesion in the mineral soil surface according to the classification by Vega et al. (2013).

Field measurements
Shrub cover was measured using the line intercept method in four line transects (25 m) in each experimental plot. Surveys were carried out before fuel reduction treatments (2006) and each year thereafter (2007)(2008)(2009)(2010) and also during the first four years after the 2010 fire (2011)(2012)(2013)(2014). The monitoring was carried out in spring of each year.

Data analysis
A linear generalized mixed-effects model was used to examine the effects of the treatments on shrub cover. Treatments, date and their interactions were included as fixed categorical variables in the models. Plots were considered as random effects to account for positive correlations between repeated measurements of the

Study site and experimental design
The study was carried out on a northwest-facing slope (42º34'56''N; 8º 6`' 4''W; 600 m a.s.l.) in the Seixas hillslopes (Pontevedra, NW Spain) where sixteen plots (each 35 m x 25 m) were installed. The shrub community in the study area is an Atlantic mixed heathland dominated by Erica umbellata Loefl. (L.). at the beginning of the experiment, the area had not been burned for fifteen years.
Four different treatments were assigned at random: prescribed burning, clearing and mastication and control (no treatment). Fuel reduction treatments were carried out in the spring of 2006. Plots were burned by a strip head fire. Mastication was performed by a steeltrack tractor with a rear mounted rotating toothed drum, which shredded above-ground biomass into a fairly uniform layer of small diameter woody debris that was left on the soil surface. In the shrub clearing treatment, shrubs were cut at the base of the plants with a trimmer and the cut material was removed from the plots. In August 2010, a wildfire burned close to the experimental area, a backfiring technique was used to suppress the wildfire affecting the plots of this study. As a result, Heathland recovery after fuel treatments and backfire treatments. No treatment effect was observed for forbs cover (Table 1).

Discussion
In the treated areas, the backfire did not affect the recovery of the resprouting species (i.e. P. tridentatum and U. gallii), as also observed after an experimental fire in this area (Fernández & Vega, 2014) and supports previous research that demonstrated the high resprouting capacity of those species after perturbations (Reyes et al., 2009;Muñoz et al., 2012b) along with a possible increase in heat-stimulated seed germination (Rivas et al., 2006).
The lower E. umbellata cover in the areas treated by clearing and mechanical shredding compared with prescribed burning and control may be related to higher soil burn severity, as dead woody material may accumulate after mechanical treatments, but not after prescribed burning treatment (Fernández et al., 2013a). Fuel reduction may have favoured a higher heat penetration in the soil, thus promoting a reduction in the soil seed bank (Schimmel & Granstrom, 1996). Nonetheless, E. umbellata cover recovery was faster than observed by Fernández & Vega (2014) in a previous study after fuel treatments and a low severity experimental fire (4 %, on average 3 years after the experimental fire). The rapid recovery also contrasts with previously observed low rates of germination of this species after fire (Reyes & Casal, 2008), probably of lower severity of that of this study. plots within each model. Statistical analyses were carried out with the R statistical package (Core Team Development, 2014).

Results
The treatment factor had no effect on total vegetation cover (Table 1). Before the wildfire, four years after fuel reduction treatments, the mean vegetation cover in the area treated by prescribed fire was 108.5%, compared with 107.6% in the areas treated by clearing and 105.9% in the areas treated by mastication, respectively (Fig. 1). Four years after the wildfire, the values ranged from 152% in the areas treated by prescribed burning or clearing to 129% in the area treated by mastication. The total vegetation cover was, on average, 153% in the control areas.
Separate analysis of each shrub species showed that the response differed depending on the species (Table 1). Treatment had no effect on the recovery of P. tridentatum or U. gallii (Table 1; Fig. 2). The treatment factor was significant for the E. umbellata and H. lasianthum cover (Table 1). For E. umbellata cover, clearing and mastication differed from the control (p < 0.0001 in both cases). For H. lasianthum cover, the three fuel treatments differed from the control (p < 0.05). Treatment affected grass cover, mainly resprouting of P. longifolium and A. curtissii (Table 1), with the responses differing significantly between all treated areas and the control (p < 0.01). However, there were no differences in grass cover in the three fuel  systems (Muñoz et al., 2012 a andb, 2014). In the community under study, dominated by an obligate-seeder species, it seems that a severe fire that substantially reduces the soil organic layer can be necessary for a successful regeneration. A similar response was documented in some South-African fynbos species (van Wilgen, 2013). Consequently, mechanical treatments seemed to be less appropriated for the management of these communities. This result could be extended to other similar systems although more research is necessary to confirm this.
The greater presence of H. lasianthum, a minor species in the community, in the treated than in control plots after the wildfire may be due to stimulation of germination by heat (Fernández et al., 2013b). The observed increase in grass cover is consistent with previously observed increases in the abundance of herbaceous graminoids and non-graminoids with the frequency of perturbation (Vilá-Cabrera et al., 2008).
As observed in other heathlands in the region, some kind of management is necessary to preserve those eco-  Fuel treatments, particularly prescribed burning, were favourable for the E. umbellata regeneration, in the community under study that was senescent at the beginning of the study. Similarly, prescribed fire is used for Calluna vulgaris heathlands preservation (Davies et al., 2008).

Conclusions
From a management point of view, the fuel treatments considered did not have different effects on the recovery of heathland burned by a backfire. Shrub cover recovered quickly after fire in both in the treated and untreated areas.
Prescribed burning seems to be the most favourable treatment for enhancing regeneration of E. umbellata although other possible consequences of this treatment must also be considered (e.g. increased erosion risk and nutrient losses).