Rubidium measured by XRF as a predictor of soil particle size in limestone and siliceous parent materials

Croffie, Maame E. T.; Williams, Paul N.; Fenton, Owen; Fenelon, Anna M.; Daly, Karen

doi:10.1007/s11368-021-03109-4

Cited by 8 publications

(2 citation statements)

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“…PC2 accounted for 7.29% of the total variance and demonstrated high loadings (>0.71) for pH and Rb. PC3 accounted for 6.29% of the total variance and presented moderate positive loadings (>0.45) for Rb and K. These elements are known to be strongly correlated in soils, and both PC2 and PC3 are likely to reflect lithogenic signatures (Croffie et al, 2022, p. 819). Across all three PCs, EC showed a negative correlation with pH, indicating that areas with a higher concentration of soluble salts or nutrients were generally more acidic.…”

Section: Resultsmentioning

confidence: 99%

The role of geoarchaeology in the interpretation of fragmented buildings and occupation surfaces: The case of coastal settlements in northeast Scotland

Reid,

Milek,

O'Brien

et al. 2023

Geoarchaeology

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Around the world, poorly preserved buildings and occupation deposits often represent the primary evidence for archaeological structures and settlements. Integrated geoarchaeological methods, such as soil chemistry and micromorphology, can be used to maximise the information obtained from such deposits regarding site preservation and the use of space. However, archaeologists are often reluctant to apply these methods if they suspect that preservation is poor or stratigraphy is not visible in the field. To assess the role that geoarchaeology can play in the interpretation of fragmented and poorly preserved structures, this paper presents the results of two case studies in which multiple geoarchaeological methods (microrefuse analysis, pH, electrical conductivity, magnetic susceptibility, loss‐on‐ignition, portable XRF and micromorphology) were applied to poorly preserved occupation deposits and fragmented buildings in early medieval coastal settlements in northeast Scotland. Micromorphology proved to be fundamental for recognising and understanding the composition of occupation deposits that had formerly been floor surfaces. It also aided interpretations for the use of space and maintenance practices and improved an understanding of the post‐depositional processes that had affected stratigraphic visibility at the macroscale. When subjected to principal component analysis, the geochemical, magnetic and microrefuse data were able to provide new details about activity areas, and successfully identified and filtered out the effects of post‐medieval contamination. Most significantly, the integrated approach demonstrates that fragmented buildings and poorly preserved occupation surfaces can retain surviving characteristics of the use of space, even if the floor surfaces were not preserved well enough to be clearly defined in the field or in thin section.

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Section: Resultsmentioning

confidence: 99%

The role of geoarchaeology in the interpretation of fragmented buildings and occupation surfaces: The case of coastal settlements in northeast Scotland

Reid,

Milek,

O'Brien

et al. 2023

Geoarchaeology

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“…Sandy soils are sensitive to slumping, mainly when there is a deficiency in organic matter [58]. More siliceous parent materials, such as illite and kaolinite, create clay minerals with a lower CEC than less siliceous parent materials, such as montmorillonite and vermiculite [59]; therefore, boosting the clay fraction's content could benefit SOC stocks in two different ways, thus playing a relatively greater role in the CEC [60]. Moreover, the predominance of quartz for soils inherent from aeolian and marine deposits would facilitate leaching due to its low surface area and charges [61].…”

Section: The Role Of Parent Materials In Controlling Soil Substrate A...mentioning

confidence: 99%

The Vital Roles of Parent Material in Driving Soil Substrates and Heavy Metals Availability in Arid Alkaline Regions: A Case Study from Egypt

Alnaimy

Elrys

Zeleňáková

et al. 2023

Water

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Despite studies focusing on soil substrates (carbon and nitrogen) and heavy metal availability, the impact of diversified parent materials in arid alkaline regions has received little attention. To reveal the influence of parent material, we investigated four different parent materials: fluvio-marine, Nile alluvial, lacustrine, and aeolian deposits. We assessed the effect of soil parent materials through selected soil physical and chemical properties, such as clay content, bulk density, pH, and available phosphorus (AP). The Tukey HSD test (SPSS ver. 23) was used to assess the soils derived from these different sediments. Using the R “glmulti” package, we examined this effect in a model of mixed-effects meta-regression. The sum of Akaike weights for models that contained each element was used to estimate the importance of each factor. The average contents of soil organic carbon (SOC) and total N in alluvial deposits were greater (p < 0.001) than those of marine, aeolian, and lacustrine deposits. A multivariate analysis in arid regions revealed that parent material, soil pH, and the availability of P had the greatest effects on SOC concentration, whereas clay content, available P, soil pH, parent material, and bulk density had the greatest effects on soil total nitrogen. The average content of Fe in the aeolian deposits was greater (p < 0.001) than those of marine, alluvial, and lacustrine deposits, without any significant differences between the latter two deposits. We found that the highest average contents of zinc (Zn), manganese (Mn), and copper (Cu) were recorded in alluvial deposits, with significant differences between other deposits. Soil parent material was the major factor impacting soil iron (Fe) content, along with clay content and soil pH. However, soil bulk density was the most important factor controlling soil Zn and Mn contents, while SOC drove Cu content. This study will help in developing a more accurate model of the dynamics of soil substrates and availability of heavy metals by considering readily available variables, such as parent materials, soil pH, soil bulk density, and clay content.

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Back to the Roots. Ablest Prospection Techniques for Rediscovering the Chalcolithic Settlement of Cucuteni—Cetățuie, Romania: A Short Retrospective, Novel Recent Data, Prospects for the Future

Asăndulesei,

Tencariu,

Mirea

et al. 2024

One World Archaeology

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In this chapter we discuss the important contribution of non-invasive surveys, along with minimally invasive pedological analyses, in the evaluation, re-evaluation and rigorous documentation of buried archaeological heritage. We propose also an overview of the research background, especially by discussing some key moments in promoting these interdisciplinary methods and techniques in Romanian archaeology. Therefore, we consider a review of the contributions to geophysical research, as well as the main initiatives in the field of pedological studies applied to archaeological contexts. The aim is to highlight the indisputable need for such initiatives in a modest national historiographical landscape.In support of our approach, we have chosen to focus on one of the most well-known and publicised prehistoric archaeological monuments in Romania, the eponymous site of the Chalcolithic Cucuteni Culture (toponym Cetățuie). The site has benefited from special attention over time, but still with multiple questions without an answer.138 years from its discovery and over 50 years from the latest archaeological research, the site is still surprising. Previous research, reflected in dozens of articles, studies and monographs and considered quasi-completed, is, as the latest investigations prove, away from an outcome. Older observations suggested the existence of a prolongation of habitation or satellite settlements near the known settlement on the Cetățuie promontory, but suppositions were not confirmed by previous research. Recent magnetometer surveys and pedological investigations have revealed that the Cucuteni settlement has expanded considerably at a time, with a few tens of highly fired dwellings arranged on rows, with accessways between them, enclosed by other ditches. The new information radically changes the conception over the planimetry and the dynamics of habitation on Cetățuie, opening the way for a large project on the research of this famous settlement, in the context of the European Chalcolithic.

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Rubidium measured by XRF as a predictor of soil particle size in limestone and siliceous parent materials

Cited by 8 publications

References 50 publications

The role of geoarchaeology in the interpretation of fragmented buildings and occupation surfaces: The case of coastal settlements in northeast Scotland

The role of geoarchaeology in the interpretation of fragmented buildings and occupation surfaces: The case of coastal settlements in northeast Scotland

The Vital Roles of Parent Material in Driving Soil Substrates and Heavy Metals Availability in Arid Alkaline Regions: A Case Study from Egypt

Back to the Roots. Ablest Prospection Techniques for Rediscovering the Chalcolithic Settlement of Cucuteni—Cetățuie, Romania: A Short Retrospective, Novel Recent Data, Prospects for the Future

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