Assessment of water-induced soil erosion as a threat to cultural heritage sites: the case of Chania prefecture, Crete Island, Greece

IF 4.2 3区 地球科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Big Earth Data Pub Date : 2021-07-27 DOI:10.1080/20964471.2021.1923231
Christos Polykretis, D. Alexakis, M. Grillakis, A. Agapiou, B. Cuca, Nikos Papadopoulos, Apostolos Sarris
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引用次数: 3

Abstract

ABSTRACT Among the environmental threats, the intensification of natural hazards, such as soil erosion may threaten the integrity and value of cultural heritage sites. In this framework, the present study’s main objective was to identify archaeological sites susceptible by soil erosion, taking the case study of Chania prefecture in Crete Island. Remotely sensed and other available geospatial datasets were analyzed in a GIS-based empirical model, namely Unit Stream Power Erosion and Deposition (USPED), to estimate the average annual soil loss and deposition rates due to water-induced erosion in the study area. The resultant erosion map was then intersected with the locations and surrounding zones of the known archaeological sites for identifying the sites and the portions of their vicinity being at risk. The results revealed that Chania prefecture and its cultural heritage are significantly affected by both soil loss and deposition processes. Between the two processes, soil loss was found to be more intensive, influencing a larger part of the prefecture (especially to the west) as well as a higher amount of archaeological sites. The extreme and high soil loss classes were also detected to cover the most considerable portion of the sites’ surrounding area. The identification of the archaeological sites being most exposed to soil erosion hazard can constitute a basis for cultural heritage managers in order to take preventive preservation measures and develop specific risk mitigation strategies.
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水致土壤侵蚀对文化遗产威胁的评估:以希腊克里特岛哈尼亚州为例
在环境威胁中,水土流失等自然灾害的加剧可能威胁到文化遗产的完整性和价值。在此框架下,本研究的主要目标是确定易受土壤侵蚀影响的考古遗址,并以克里特岛的哈尼亚州为例进行研究。利用基于gis的单位流功率侵蚀与沉积(USPED)经验模型,对遥感和其他可用地理空间数据进行分析,估算研究区因水侵蚀造成的年平均土壤流失量和沉积速率。然后将得到的侵蚀图与已知考古遗址的位置和周围区域相交,以确定遗址及其附近的部分处于危险之中。结果表明,干尼州及其文化遗产受到土壤流失和沉积过程的显著影响。在这两个过程中,土壤流失更为严重,影响了该州的大部分地区(特别是西部)以及更多的考古遗址。极端和高土壤流失等级也覆盖了遗址周围大部分地区。确定最容易受到土壤侵蚀危害的考古遗址可作为文化遗产管理者采取预防性保护措施和制定具体风险缓解战略的依据。
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来源期刊
Big Earth Data
Big Earth Data Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
7.40
自引率
10.00%
发文量
60
审稿时长
10 weeks
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