A European-Scale Investigation of Soil Erosion Threat to Subsurface Archaeological Remains

Αγαπίου, Άθως; Lysandrou, Vasiliki; Hadjimitsis, Diofantos

doi:10.3390/rs12040675

Cited by 14 publications

(14 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Soil erosion by water is a natural phenomenon that involves the detachment of soil material rainfall and the flow traction (Erosion by Water, 2021). Models regarding (2015); for more related literature, see Agapiou et al (2020a). These studies have used various models to better estimate and predict soil loss (Quinton, 2011).…”

Section: Soil Erosionmentioning

confidence: 99%

“…Therefore, evaluating the risk of subsurface archaeological remains from soil erosion over large areas is peculiarly difficult. In a recent article, Agapiou et al (2020a) used Kibblewhite et al (2015) datasets to develop a sub-surface archaeological proxy map at a European level. In their work, Kibblewhite et al (2015) have categorised European soil according to how the various archaeological materials can be affected by the pertinent soil type, following a standard taxonomic classification.…”

Section: Soil Erosionmentioning

confidence: 99%

See 1 more Smart Citation

Remote Sensing Studies on Monitoring Natural Hazards Over Cultural Heritage Sites in Cyprus

Αγαπίου

Lysandrou

2022

Applications of Space Techniques on the Natural Hazards in the MENA Region

Self Cite

View full text Add to dashboard Cite

This chapter presents examples of remote sensing studies for monitoring natural hazards related to ancient monuments and archaeological sites in Cyprus. Through these studies, the use of Earth Observation, and specifically the contribution of the European Copernicus Programme, is highlighted. Most of them have been carried out during the last years, within the framework of funded research projects. The various case studies presented in this chapter underscore Earth Observation's mingling with other remote sensing techniques (both middle range and terrestrial) and geoinformatics towards inclusive monitoring of cultural heritage and prevention against possible hazards.The chapter unfolds in two parts: The first part introduces an overview of the potential contribution of Earth Observation to the Cultural Heritage Disaster Risk Management (DRM) cycle, with specific focus on the Eastern Mediterranean basin. The DRM includes six consecutive steps that require various inputs, including the context, threats and monitoring phases. For each step, the role of Earth Observation sensors and their related products are discussed.The second part of this chapter focuses on studies dealing with natural hazards in Cyprus using optical and radar datasets. These studies include the following: (a) soil erosion by water, (b) vegetation growth, and (c) detection of surface displacements, in sites with archaeological interest.The chapter ends with a comprehensive risk assessment report of various hazards (both natural and anthropogenic) using the Analytical Hierarchy Process (AHP) method. This assessment concerns the western part of Cyprus, namely the Paphos District, where more than 200 monuments are found.

show abstract

Section: Soil Erosionmentioning

confidence: 99%

Section: Soil Erosionmentioning

confidence: 99%

Remote Sensing Studies on Monitoring Natural Hazards Over Cultural Heritage Sites in Cyprus

Αγαπίου

Lysandrou

2022

Applications of Space Techniques on the Natural Hazards in the MENA Region

Self Cite

View full text Add to dashboard Cite

show abstract

“…Soil erosion data were generated using empirical soil loss models (revised universal soil loss equation-RUSLE), with inputs from satellite images [31]. The specific European atlas of soil loss was recently used by [32] to visualize and quantify soil loss in potential subsurface remains. Examples from the literature regarding the identification of other risks based on satellite image analysis beyond soil erosion can be found in [28,30,33,34].…”

Section: Step 2: Identifymentioning

confidence: 99%

Earth Observation Contribution to Cultural Heritage Disaster Risk Management: Case Study of Eastern Mediterranean Open Air Archaeological Monuments and Sites

2020

Self Cite

View full text Add to dashboard Cite

Disaster risk management (DRM) for cultural heritage is a complex task that requires multidisciplinary cooperation. This short communication underlines the critical role of satellite remote sensing (also known as earth observation) in DRM in dealing with various hazards for cultural heritage sites and monuments. Here, satellite observation potential is linked with the different methodological steps of the DRM cycle. This is achieved through a short presentation of recent paradigms retrieved from research studies and the Scopus scientific repository. The communication focuses on the Eastern Mediterranean region, an area with an indisputable wealth of archaeological sites. Regarding the cultural heritage type, this article considers relevant satellite observation studies implemented in open-air archaeological monuments and sites. The necessity of this communication article emerged while trying to bring together earth observation means, cultural heritage needs, and DRM procedures.

show abstract

“…Global cultural heritage sites are not only being threatened by anthropic (e.g., Aykan, 2018) but also by climate change effects (e.g., Fatorić and Seekamp, 2017). At an international level, constant efforts are made to detect (Tapete and Cigna, 2019), monitor (Agapiou et al, 2020), and assess (Nicu, 2016) mass wasting processes for cultural heritage management. Other efforts are aimed towards the improvement of adaptation measures (Guzman et al, 2020), sustainable development (Guo et al, 2019) and valorisation (Lorusso et al, 2018) of cultural heritage resources.…”

Section: Introductionmentioning

confidence: 99%

Advanced non-destructive techniques for the diagnosis of historic buildings: The Loka-Hteik-Pan temple in Bagan

Costamagna

Quintero

Bianchini

et al. 2020

Journal of Cultural Heritage

View full text Add to dashboard Cite

Cultural heritage is the foundation upon which global and historical values are based on. It connects us to the legacy left by our ancestors and identifies who we are as part of the modern society. Globally and specifically in the northeastern Romania, the landscape where cultural heritage sites were built on is constantly evolving due to mass wasting processes. Among these processes, landslide and gullies can disrupt the gravitational equilibrium directly or around these sites, threatening their very existence and our capacity to pass them on to future generations. Because landsliding and gullying are stochastic processes, the use of spatial statistics has often been employed to map locations at risk. In this work, we make use of advanced spatial Bayesian statistics to model landslide and gully erosion susceptibilities, separately. And, we ultimately combine these two outputs into a unified multi-hazard susceptibility model which we cross with the known cultural heritage sites in a study area close to the city of Iaşi, in Romania. Specifically, we implement a Bayesian version of a Generalized Additive Model (GAM) which assumes that the two separate landslide and gully presence/absence distributions to behave according to a Bernoulli probability distribution. Contrary to common practices in the literature, the two susceptibility models both feature fixed and random effects, including covariates acting at a latent level. We do this to also capture the unexplained but spatially coherent distribution of properties not directly included in the model. As for the properties directly expressed as covariates, our GAM features terrain attributes obtained from a LIDAR survey, in addition to land use and soil layers.The two single models outstandingly perform (AUC > 0.9) both during the calibration and validation phases. This modeling procedure ensures that the probability of occurrence of the two mass wasting processes under consideration is well estimated and therefore can be used to reliably plan conservation practices for local cultural heritage sites deemed at risk.

show abstract

A European-Scale Investigation of Soil Erosion Threat to Subsurface Archaeological Remains

Cited by 14 publications

References 47 publications

Remote Sensing Studies on Monitoring Natural Hazards Over Cultural Heritage Sites in Cyprus

Remote Sensing Studies on Monitoring Natural Hazards Over Cultural Heritage Sites in Cyprus

Earth Observation Contribution to Cultural Heritage Disaster Risk Management: Case Study of Eastern Mediterranean Open Air Archaeological Monuments and Sites

Advanced non-destructive techniques for the diagnosis of historic buildings: The Loka-Hteik-Pan temple in Bagan

Contact Info

Product

Resources

About