Preliminary evaluation of physical characteristics of soils from Mediterranean cork oak forests: post fire long term assessment

Benhalima, Yacine; Santos, Erika; Arán, Diego; Fonseca, Madalena; Abreu, Maria Manuela; Duarte, Inês; Acacio, Vanda; Nuns, Leonia; Lerma, Victoria; Rego, Francisco; Benhalima, Yacine; Santos, Erika; Arán, Diego; Fonseca, Madalena; Abreu, Maria Manuela; Duarte, Inês; Acacio, Vanda; Nuns, Leonia; Lerma, Victoria; Rego, Francisco

doi:10.19084/rca.28765

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Revista de Ciências Agrárias

versão impressa ISSN 0871-018Xversão On-line ISSN 2183-041X

Rev. de Ciências Agrárias vol.45 no.4 Lisboa dez. 2022 Epub 01-Dez-2022

https://doi.org/10.19084/rca.28765

Artigo

Preliminary evaluation of physical characteristics of soils from Mediterranean cork oak forests: post fire long term assessment

Avaliação preliminar das características físicas de solos de sobreirais mediterrânicos: Avaliação a longo prazo após o fogo

Yacine Benhalima¹²

Erika Santos¹

Diego Arán¹³

Madalena Fonseca⁴

Maria Manuela Abreu¹

Inês Duarte²

Vanda Acacio²

Leonia Nuns²

Victoria Lerma⁵

Francisco Rego²

^¹LEAF-Linking Landscape, Environment, Agriculture and Food-Research Center, Associated Laboratory TERRA, Instituto Superior de Agronomia, Universidade de Lisboa, Tapada da Ajuda, 1349-017 Lisbon, Portugal

^²Centro de Ecologia Aplicada “Professor Baeta Neves”, InBio, Instituto Superior de Agronomia, Universidade de Lisboa, Tapada da Ajuda, 1349-017 Lisbon, Portugal

^³Inproyen Consulting, C/ Lugo 18, 15840 Santa Comba, A Coruña, Spain

^⁴Centro de Estudo Florestais, Instituto Superior de Agronomia, Universidade de Lisboa, Tapada da Ajuda, 1349-017 Lisbon, Portugal

^⁵Universitat Politécnica de València, Institute of Information and Communication Technologies, Valencia, Spain

Abstract

Fire is an agent that promotes considerable changes in the physical, chemical and biological characteristics of soils and, consequently, in the landscape. Fire severity and duration, and intrinsic characteristics of the soils lead to different trajectories of soil recovery. Numerous studies focus on short term fire effects on soils but, the long-term post fire dynamics remains unclear. The present study was conducted in soils mainly Leptosols, from cork oak forests at Serra do Caldeirão (Algarve region, southern Portugal). Two severe wildfires occurred in this area, in 2004 and 2012. Undisturbed soil samples (<5 cm of depth) were collected in 2020 on plots burned in 2004, burned in 2012 and unburned (a total of 47 plots). The soil samples were analysed for the physical properties namely, bulk density, porosity, % of coarse/fine fraction and moisture. For all the studied parameters, the results showed no significant differences between burned and unburned areas, indicating considerable soil system resilience to forest fires. The study suggests the need of further analyses in order to understand the recovery processes of this forest system.

Keywords: Quercus suber; Resilience; Leptosols; Mediterranean; post-fire

Resumo

O fogo é um agente que altera as características físicas, químicas e biológicas dos solos e, consequentemente, da paisagem. A severidade e duração do fogo, assim como as características intrínsecas dos solos, conduzem a diferentes trajectórias de recuperação do solo. Numerosos estudos concentram-se nos efeitos do fogo nos solos a curto prazo, mas a dinâmica pós-fogo a longo prazo permanece incerta. O presente estudo foi realizado em solos, principalmente Leptossolos, do sobreiral da Serra do Caldeirão (Região do Algarve, Sul de Portugal). Esta área foi sujeita a dois incêndios florestais graves em 2004 e 2012. Amostras não perturbadas de solo (<5 cm de profundidade) foram colhidas em 2020 em parcelas queimadas em 2004 e 2012 e não queimadas (total de 47 parcelas). As amostras foram analisadas quanto às propriedades físicas, tais como densidade aparente, porosidade, % da fracção grosseira/fina e humidade. Os resultados obtidos para todos os parâmetros estudados não mostraram diferenças significativas entre as áreas ardidas e não ardidas, indicando considerável resiliência dos solos aos incêndios florestais. Este estudo sugere a necessidade de análises complementares para melhor compreender os processos de recuperação que intervêm neste sistema florestal.

Palavras-chave: Quercus suber; Resiliência; Leptossolos; Mediterrâneo; pós-fogo

INTRODUCTION

Wildfires are key drivers of significant changes in soils and ecosystems (^{Pausas, 2015}) being considered a main disturbance in the Mediterranean basin (^{Gonçalves and Sousa, 2017}). Fires can change greatly the physical characteristics of the soils and, consequently, the dynamics of the water and vegetation, as well as microbioma activities (^{Hrelja et al., 2020}). As a result, the soil can be prone to other degradation processes such as erosion.

Fire severity and duration, and intrinsic soil characteristics contribute to distinct post fire recovery of the soil-plant system and its productivity. Therefore, studying the postfire dynamics of soil physical properties is of major concern for the conservation and productivity of ecosystems.

Various studies have focused on post fire soil changes according to fire severity (^{Heydari et al., 2017}), being the short term post fire dynamics the most studied subject in Mediterranean regions (^{Ekinci, 2006}; ^{Pereira et al., 2015}, 2018). However, few studies have been done for the long term assessment (^{Fonseca, 2017}; ^{Francos et al., 2020}). Furthermore, studies for cork oak forests are scarce, despite the high economic and ecological value of these ecosystems.

This work aims to evaluate post fire physical soil properties of cork oak forests eight and 16 years after the wildfire, and to understand the natural recovery of the soil-plant system.

MATERIAL AND METHODS

Study area

The study area is located in Serra do Caldeirão, a mountain range in southern of Portugal, which constitutes a natural limit between Algarve and Alentejo regions. The landscape is characterized by vast areas of cork oak forests and shrub cover dominated by Cistaceae species. The climate is Mediterranean classified as Csa in ^{Köppen classification (Köppen, 1936}). The soils were developed on schist and greywackes, included in the Mira Formation (^{Oliveira, 1982}), and can be classified as Leptosols and Cambisols (WRB, 2014).

Two very large wildfires occurred in the study area in the past decades. The fire of 2004 burned about 13600 ha and the fire of 2012 burned about 24300 ha. These burned areas correspond to 17% and 30% of the study area, respectively.

A total of 47 plots (with an area of about 441 m² per plot) were selected at the study area: 12 unburned plots, 25 plots burned in 2004 and 10 plots burned in 2012. Areas without fire occurrence for at least 25 years were considered as unburned. At each plot, three undisturbed soil samples were collected until 5 cm of depth and analyzed for the physical parameters (Table 1).

Table 1 Soil physical analysis done in the present study

Soil physical parameters	Description of analyses
Moisture	Drying 24-48 h
Coarse and fine fractions (> and < 2 mm)	Sieving at 2 mm
Bulk density	Core ring
Porosity	Calculated from bulk density

One-way ANOVA was used to test significant differences of physical soil properties among unburned, burned in 2004 and burned in 2012 plots. An alternative non parametric Kruskall Wallis test was conducted in case of assumptions violation.

RESULTS AND DISCUSSION

The physical soil properties analysed did not show significant differences among burned and unburned plots, independently of the fire year (Figures 1-3).

Bulk density and porosity are important physical properties, especially in Mediterranean conditions, since they are linked to soils water retention and infiltration capacity. Values of bulk density varied between 0.91 and 1.9, representing a porosity between 27 to 69 % of total volume (Figure 1).

Figure 1 Bulk density (cm³/cm³) and porosity (%) in the superficial layer (0-5 cm of depth) of the soils from cork oak forests (unburned, burned in 2004 and burned in 2012).

Post fire changes of these parameters are dependent on fire severity, organic matter concentration in soil and ashes amount (^{Hrelja et al., 2020}). Bulk density can increase immediately after the fire due to ash incorporation in soil or the degradation of organo-mineral aggregates, and as a result, the soil porosity decreases (^{Certini, 2005}). Nonetheless, strong plant development in the study area, especially pioneer shrub species such as Cistus ladanifer that rapidly colonize burned areas, may have improved the soil structure, which led in the long-term to similar values of bulk density and porosity for both unburned and burned plots (Figure 1). In fact, plant development in burned areas was higher than in unburned ones (data not shown). Moreover, soils from burned plots presented higher organic matter content than from unburned plots, which also increased with years following the fire (11.53, 18.12 and 36.76 g C_organic/kg for unburned, burned in 2004, and burned in 2012, respectively).

The similar values in bulk density and porosity for both burned and unburned plots can also explain the low values of moisture in the soils (Figure 2).

Figure 2 Percentage of moisture in the superficial layer (0-5 cm of depth) of the soils from cork oak forests (unburned, burned in 2004 and burned in 2012).

Although, post fire selective removal of soil fine fraction due to erosion, in present study this is not clear. In fact, soils presented a higher proportion of fine fraction (<2 mm), in relation to coarse fraction, consistently across all burned and unburned plots (Figure 3).

Figure 3 Percentage of coarse (> 2 mm) and fine (<2 mm) fractions in the superficial layer (0-5 cm of depth) of the soils from cork oak forests (unburned, burned in 2004 and burned in 2012).

CONCLUSIONS

In this study, soil physical parameters were analysed in order to assess long-term post fire effects and soil resilience. There were no significant differences for all parameters between unburned and burned plots, independently of the fire year, which indicates soil recovery to the pre-fire state. Further analyses are needed in order to better understand recovery processes of cork oak forests soils after fire.

Acknowledgements

This work was co-financed by REMAS project (SOE3/P4/E0954) from Interreg SUDOE 2014-2020 program (FEDER Funds) and national funds through Fundação para a Ciência e Tecnologia within the scope of the projects UID/AGR/04129/2020 and UID/BIA/50027/2019.

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(*E-mail: yacinebenhalima@isa.ulisboa.pt)

This is an open-access article distributed under the terms of the Creative Commons Attribution License

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Revista de Ciências Agrárias

versão impressa ISSN 0871-018Xversão On-line ISSN 2183-041X

Rev. de Ciências Agrárias vol.45 no.4 Lisboa dez. 2022 Epub 01-Dez-2022

https://doi.org/10.19084/rca.28765