The Bioerosion of Submerged Archeological Artifacts in the Mediterranean Sea: An Overview

Perasso, Carlotta Sacco; Antonelli, Federica; Calcinai, Barbara; Casoli, Edoardo; Gravina, Maria Flavia; Ricci, Sandra

doi:10.3389/fmars.2022.888731

Cited by 7 publications

(2 citation statements)

References 137 publications

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“…However, because of the influence of global climate and environmental change, some harmful gases and water molecules will produce corrosive compounds, and chemical corrosion of stone cultural relics disease. To effectively prevent chemical corrosion disease on stone cultural relics "cultural heritage carrier" caused irreparable serious losses, accurate detection of stone cultural relics disease process parameter change information, for the analysis of its disease mechanism and law, its effective preventive protection are extremely important [2].…”

Section: Introductionmentioning

confidence: 99%

In-situ monitoring of temperature and micro-strain during chemical corrosion of stone cultural relics by fiber Bragg gratings

Wu,

Xie,

Liu

et al. 2024

International Conference on Optoelectronic Materials and Devices (ICOMD 2023)

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Section: Introductionmentioning

confidence: 99%

In-situ monitoring of temperature and micro-strain during chemical corrosion of stone cultural relics by fiber Bragg gratings

Wu,

Xie,

Liu

et al. 2024

International Conference on Optoelectronic Materials and Devices (ICOMD 2023)

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“…Air pollutants, micro-organisms and continuous climatic variations [3] produce physical and chemical phenomena such as breakdown, exfoliation, efflorescence, cracks and black crusts. Similarly, exposed stone surfaces in a submerged environment undergo different forms of degradation that depend on different and mutable exposure conditions [4]. Stone materials in contact with the aquatic environment behave as attachment substrates for a variety of micro-organisms that can modify the stone's surface, resulting in alteration and deterioration processes [5].…”

Section: Introductionmentioning

confidence: 99%

Surface-Active Ionic-Liquid-Based Coatings as Anti-Biofilms for Stone: An Evaluation of Their Physical Properties

Luci,

De Leo,

De Pascale

et al. 2023

Coatings

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The biodeterioration of stone surfaces can be a threat to the conservation of built heritage. Much effort has been put into finding treatments and processes to mitigate biocolonization and its effects, both in terrestrial and underwater environments. Recently, the use of surfactant ionic liquids has been shown to have biocidal and antifouling effects on stone. However, little information is currently available on the morphological and physical properties of such coatings. In this paper, we report on the physical characterization of coatings based on an ionic liquid (IL) consisting of N-(2-hydroxyethyl)-N,N-dimethyl-1-do-decanaminium cation and a combination of bromide and dodecylbenzenesulfonate (DBS) anions in a molar ratio of 3:1, respectively. Nanosilica and tetraethyl orthosilicate were used as binders to promote the adhesion of the ionic liquid to the stone surface. The coatings were applied on Carrara marble samples and analyzed using Scanning Electronic Microscopy (SEM), static contact angles, colorimetric measurements and capillary water absorption. The resistance to UV radiation and seawater was also investigated. The results show that the IL behaves differently depending on the binder. The latter influences the arrangement of the IL and its wettability, which decreases in the case of NanoEstel, whereas this parameter increases in the case of Estel. In addition, the coatings show good resistance to the degradation agents.

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A Case Study in Maritime Heritage Ecology: Understanding How Structural Changes to the 1898 Shipwreck Portland Affect Biological Diversity and Colonization

Mires

Meyer-Kaiser

2023

J Mari Arch

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Shipwrecks are irreplaceable cultural and historical resources, and they also serve as biological habitats.The physical structure of a shipwreck provides habitat for hard-bottom organisms, including sessile invertebrates (anemones, sponges) and protected areas for sh. The structure of a shipwreck is in uenced by cultural and natural site formation processes over time. A key unanswered question is: how do site formation processes and changes in biological communities (ecological succession) in uence one another? We studied the shipwreck Portland in Stellwagen Bank National Marine Sanctuary to answer this question, working within the interdisciplinary framework of Maritime Heritage Ecology. Analysis of sonar and video data from 2002-2010 and 2019-2021 revealed substantial structural changes to the bow, freight deck, and stern. Site formation on the bow and stern was clearly anthropogenic, as shown by entangled shing ghost gear. The assemblage of sessile invertebrates in each of the three shipwreck areas also saw changes in community structure, including changes in the relative abundance of species. We also observed changes in the sh community, but these are more likely the result of regional climatic change. Overall, our study showed that ghost gear is a signi cant threat to Portland and other shipwrecks in Stellwagen, and that site formation drives changes in the biological community over time.

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The Bioerosion of Submerged Archeological Artifacts in the Mediterranean Sea: An Overview

Cited by 7 publications

References 137 publications

In-situ monitoring of temperature and micro-strain during chemical corrosion of stone cultural relics by fiber Bragg gratings

In-situ monitoring of temperature and micro-strain during chemical corrosion of stone cultural relics by fiber Bragg gratings

Surface-Active Ionic-Liquid-Based Coatings as Anti-Biofilms for Stone: An Evaluation of Their Physical Properties

A Case Study in Maritime Heritage Ecology: Understanding How Structural Changes to the 1898 Shipwreck Portland Affect Biological Diversity and Colonization

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