Long-term monitoring to inform the geophysical detection of archaeological ditch anomalies in different climatic conditions

IF 2.1 3区 地球科学 0 ARCHAEOLOGY
Daniel Boddice, Nicole Metje, David Chapman
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Abstract

Contrasts in electromagnetic properties between the target feature and surrounding soil are of importance for detection of archaeological features with Ground Penetrating Radar. These vary because of changing climatic conditions and soil type and are currently poorly understood. Long-term in situ monitoring of apparent relative dielectric permittivity, bulk electrical conductivity and soil temperature over two archaeological ditch features on sites with different soil types (one clay and one free draining) was employed to understand the detection dynamics and processes by which these properties change over time. Results were correlated with geotechnical properties of the soil for both archaeological ditchfills and the surrounding natural soil matrix and previously derived laboratory relationships between water content, temperature and geophysical properties to find the timing and reasons for the optimum geophysical contrasts. Monitoring included two distinct, relatively stable periods: one wet and one dry. In contrast to previous perception that there are significant differences in infiltration between the ditch and surrounding natural soil, time-lagged correlation analysis showed no significant differences in infiltration speed. The key differences between archaeological and natural soils were the amount of water held in a saturated state, the rates at which the different soils dried and the temperature. Thus, the optimum time for surveys was after a sustained period of several days of hot (>15°C) weather, which accentuates both water content and temperature contrasts. However, on freely draining sites that had a greater difference in the soil texture and therefore water holding capacity between the archaeological and natural soils, the timing is less critical.

Abstract Image

长期监测,为不同气候条件下考古沟异常的地球物理探测提供信息
目标地物与周围土壤之间的电磁特性对比对于利用地面穿透雷达探测考古地物非常重要。这些特性因气候条件和土壤类型的变化而不同,目前人们对其了解甚少。为了了解这些特性随时间变化的探测动态和过程,我们采用了对不同土壤类型(一种为粘土,一种为自由排水土壤)遗址上的两个考古沟渠特征的表观相对介电常数、体积电导率和土壤温度进行长期原位监测的方法。监测结果与考古沟填土和周围天然土壤基质的岩土特性以及之前实验室得出的含水量、温度和地球物理特性之间的关系相关联,以找出最佳地球物理对比的时间和原因。监测包括两个不同的、相对稳定的时期:一个潮湿时期和一个干燥时期。与之前认为沟渠和周围自然土壤之间的渗透存在显著差异的看法不同,时滞相关分析表明渗透速度没有显著差异。考古土壤和天然土壤的主要差异在于饱和状态下的持水量、不同土壤的干燥速度和温度。因此,最佳勘测时间是在持续数天的高温(15°C)天气之后,这将加剧含水量和温度的对比。然而,在排水通畅的地点,土壤质地差异较大,因此考古土壤和天然土壤之间的持水能力差异也较大,此时的时机就不那么重要了。
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来源期刊
Archaeological Prospection
Archaeological Prospection 地学-地球科学综合
CiteScore
3.90
自引率
11.10%
发文量
31
审稿时长
>12 weeks
期刊介绍: The scope of the Journal will be international, covering urban, rural and marine environments and the full range of underlying geology. The Journal will contain articles relating to the use of a wide range of propecting techniques, including remote sensing (airborne and satellite), geophysical (e.g. resistivity, magnetometry) and geochemical (e.g. organic markers, soil phosphate). Reports and field evaluations of new techniques will be welcomed. Contributions will be encouraged on the application of relevant software, including G.I.S. analysis, to the data derived from prospection techniques and cartographic analysis of early maps. Reports on integrated site evaluations and follow-up site investigations will be particularly encouraged. The Journal will welcome contributions, in the form of short (field) reports, on the application of prospection techniques in support of comprehensive land-use studies. The Journal will, as appropriate, contain book reviews, conference and meeting reviews, and software evaluation. All papers will be subjected to peer review.
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