Soils hydraulic conductivity tests in slopes affected by fire: an example on Pisani Mountains (Tuscany, Italy)

IF 0.4 Q4 GEOSCIENCES, MULTIDISCIPLINARY Rendiconti Online Societa Geologica Italiana Pub Date : 2023-11-01 DOI:10.3301/rol.2023.52
Lorenzo Mori, Matteo Nigro, Ilaria Baneschi, Marco Doveri, Matia Menichini, Roberto Giannecchini
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Abstract

Forest fires are responsible for altering the hydrological dynamics and hydraulic properties of soils, including hydraulic conductivity. This affects several processes, including surface runoff, infiltration into the unsaturated zone, leaching and transport of soil chemical components into groundwater. In August 2021 a forest fire burnt 25 hectares of pine tree forest and olive groves in the southern part of the Pisani Mountains (Tuscany, Italy). The objective of the work is to provide a characterization of in-situ hydraulic conductivity values of the soils of a small catchment intersecting the burnt area.To perform rapid in-situ repeatable soil measurements, four replicas of the Di Prima (2015) automatic single ring infiltrometer were built. These infiltrometers are capable of performing autonomous infiltration test thanks to the automated data acquisition system and their water supply system, reducing disturbances of the tested material.The infiltrometric survey allowed for identification of statistically significant differences in soil hydraulic conductivity between vegetational types, and between burnt and unburnt areas. The soil hydraulic conductivity results lower in the burnt pine tree forest compared with the olive groves. The automatic infiltrometers proved to be a repeatable and rapid soil hydraulic properties survey devices also in a rough mountainous environment.
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受火影响斜坡的土壤水力导电性试验:以比萨尼山(意大利托斯卡纳)为例
森林火灾会改变土壤的水文动力学和水力特性,包括水力导电性。这影响了几个过程,包括地表径流、渗入非饱和带、土壤化学成分的淋滤和输送到地下水中。2021年8月,一场森林大火烧毁了皮萨尼山脉南部(意大利托斯卡纳)25公顷的松树林和橄榄林。这项工作的目的是提供一个小集水区的土壤的原位水力导电性值的特征。为了进行快速的原位可重复土壤测量,构建了四个Di Prima(2015)自动单环渗透计的复制品。由于采用了自动数据采集系统和供水系统,这些渗透仪能够进行自主渗透测试,减少了对被测材料的干扰。渗透法调查可以识别植被类型之间以及燃烧和未燃烧地区之间土壤水力导电性的统计显著差异。与橄榄树林相比,烧焦松林土壤的水导率较低。在山区恶劣环境下,自动渗透仪也是一种可重复、快速测量土壤水力特性的仪器。
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来源期刊
Rendiconti Online Societa Geologica Italiana
Rendiconti Online Societa Geologica Italiana GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
0.80
自引率
0.00%
发文量
19
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