Variability of soil properties with fire severity in pine forests and reforested areas under Mediterranean conditions

IF 2.3 4区环境科学与生态学 Q3 WATER RESOURCES

Journal Of Hydrology And Hydromechanics Pub Date : 2022-11-16 DOI:10.2478/johh-2022-0028

M. Lucas‐Borja, C. Fernández, P. Plaza‐Álvarez, B. Carrà, D. Zema

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引用次数: 2

Abstract

Abstract It is well known how fires affect the properties of forest soils depending on its severity. A better understanding of the magnitude of these impacts is essential to setup effective management actions after fire against the losses of soil and biodiversity. However, physical, chemical and biological processes in burnt soils are complex, resulting in a diversity of fire-induced changes, as acknowledged in many literature studies. Moreover, these changes may be even variable between natural forests and reforested areas. This study explores the changes in the most important soil properties with fire severity, from low to high. The main chemical parameters of soils were measured after field sampling in different pine forests (burnt natural stands, reforested areas as well as unburnt sites) of Castilla La Mancha (Central Eastern Spain). In comparison to the unburnt soils, the investigation has shown in the burnt areas: (i) no evident changes in soil pH at all fire severities, except in natural stands burnt at a very high severity (showing an increase of about 10%); (ii) increases in the organic carbon content (by about 70%) of soils burnt at a moderate fire severity under both forest ecosystems, and in reforested areas at very high fire severities (+95%); (iii) small differences in the nitrogen content of soil, except for a significant increase measured in soils burnt at an moderate fire severity under both the natural pine stand and reforested area (about +300%); (iv) a limited variability of the phosphorous content in the soil, with only an increase in soils under natural pine stands burnt at moderate fire severity (by 250%); (v) increases in magnesium and potassium contents in soils burnt at the highest fire severities for both land conditions, and decreases in calcium content in reforested areas burnt at the highest severity. Due to some negative impacts (increase in pH and decrease in organic carbon), the implementation of post-fire management actions at natural pine stands burnt at the highest fire severity should be a priority over reforested areas. Overall, this study did not show a straightforward pattern between soil properties, fire severity and land condition. This means that other parameters (for instance, the hydrological properties of soils) that were not explored in this investigation could have played an important role, and therefore must be taken into consideration when defining post-fire management actions.

查看原文本刊更多论文

地中海条件下松林和重新造林地区土壤性质随火灾严重程度的变化

摘要火灾对森林土壤性质的影响取决于火灾的严重程度，这是众所周知的。更好地了解这些影响的程度对于在火灾后建立有效的管理行动以防止土壤和生物多样性的损失至关重要。然而，正如许多文献研究所承认的那样，烧焦土壤的物理、化学和生物过程是复杂的，导致火灾引起的变化的多样性。此外，这些变化在天然林和再造林地区之间甚至可能是不同的。本研究探讨了最重要的土壤性质随火灾严重程度的变化，从低到高。对西班牙中东部Castilla La Mancha不同松林(燃烧过的天然林分、重新造林过的林分和未燃烧过的林分)进行了土壤主要化学参数的野外采样。与未烧过的土壤相比，调查显示:(i)除了烧过非常严重的自然林分(增加约10%)外，所有火灾严重程度的土壤pH值均无明显变化;(ii)在森林生态系统和再造林地区中，在中度火灾严重程度下燃烧的土壤有机碳含量增加(约70%)，在非常严重的火灾严重程度下(+95%);(iii)土壤氮含量差异不大，除了在自然松林和再造林地区的中度火灾下燃烧的土壤显著增加(约+300%);(iv)土壤中磷含量的变化有限，仅在中度火灾下燃烧的天然松林土壤中增加(增加250%);(v)在两种土地条件下，在最严重的火灾条件下燃烧的土壤中，镁和钾含量增加，而在最严重的火灾条件下，再造林地区的钙含量减少。由于一些负面影响(pH值增加和有机碳减少)，在火灾严重程度最高的天然松林实施火灾后管理行动应优先于重新造林的地区。总的来说，这项研究并没有显示土壤性质、火灾严重程度和土地状况之间的直接模式。这意味着本次调查中未探讨的其他参数(例如，土壤的水文特性)可能发挥了重要作用，因此在确定火灾后管理行动时必须考虑到这些参数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal Of Hydrology And Hydromechanics 环境科学-水资源

CiteScore

4.20

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： JOURNAL OF HYDROLOGY AND HYDROMECHANICS is an international open access journal for the basic disciplines of water sciences. The scope of hydrology is limited to biohydrology, catchment hydrology and vadose zone hydrology, primarily of temperate zone. The hydromechanics covers theoretical, experimental and computational hydraulics and fluid mechanics in various fields, two- and multiphase flows, including non-Newtonian flow, and new frontiers in hydraulics. The journal is published quarterly in English. The types of contribution include: research and review articles, short communications and technical notes. The articles have been thoroughly peer reviewed by international specialists and promoted to researchers working in the same field.