Intensity and persistence of water repellency at different soil moisture contents and depths after a forest wildfire

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-2022-0031

G. Caltabellotta, M. Iovino, V. Bagarello

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引用次数: 3

Abstract

Abstract The Mediterranean mixed coniferous and broad-leaved forest of Moarda (Palermo) was affected by a large wildfire in summer 2020. In spring 2021, burned and unburned loam soil sites were sampled and the water drop penetration time (WDPT) and ethanol percentage (EP) tests applied to assess the influence of wetting-drying processes and soil water content on post-fire soil water repellency (SWR) as well as its vertical distribution. According to the WDPT test, the surface layer of the natural unburned soils was severely hydrophobic at intermediate soil water contents roughly corresponding to wilting point and SWR reduced either for very dry conditions (air- or oven-dried conditions) or wetter conditions close to field capacity. For these soils, EP test yielded results in agreement with WDPT. An influence of the wetting/drying cycle was detected as, for a given soil water content, WDPT was generally higher for the drying than the wetting process. The surface of burned soils was always wettable independently of the soil water content. The vertical distribution of SWR was modified by wildfire and the maximum hydrophobicity layer, that was located at the surface of the unburned soils, moved to a depth of 2–4 cm in the soils of burned sites. The results confirmed that wildfire can induce destruction of soil water repellency (SWR) naturally occurring at the surface of forest soils and create a shallow hydrophobic layer that may increase overland flow and erosion risk.

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森林野火后不同土壤含水量和深度的拒水强度和持久性

摘要2020年夏天，莫阿尔达（巴勒莫）的地中海针阔叶混交林受到一场大火的影响。2021年春季，对燃烧和未燃烧的壤土场地进行了采样，并应用水滴渗透时间（WDPT）和乙醇百分比（EP）测试来评估干湿过程和土壤含水量对火灾后土壤拒水性（SWR）及其垂直分布的影响。根据WDPT测试，天然未燃烧土壤的表层在大致对应于枯萎点的中等土壤含水量下具有严重的疏水性，并且在非常干燥的条件（空气干燥或烤箱干燥的条件）或接近田间容量的潮湿条件下SWR降低。对于这些土壤，EP试验得出的结果与WDPT一致。检测到润湿/干燥循环的影响，因为对于给定的土壤含水量，干燥的WDPT通常高于润湿过程。焚烧土壤的表面总是可湿润的，与土壤含水量无关。野火改变了SWR的垂直分布，位于未燃烧土壤表面的最大疏水层在燃烧场地的土壤中移动到2-4厘米的深度。研究结果证实，野火会破坏森林土壤表面自然发生的土壤拒水性，并形成一层浅疏水层，这可能会增加地表径流和侵蚀风险。

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.