Your search keyword '"Biodétérioration"' showing total 1,589 results

1. Spectroscopic mapping of biodeterioration products on cementitious materials in sewer networks exposed to low H2S levels

Author

Ayoub, Janette, Pons, Tony, Guéguen-Minerbe, Marielle, Gouadec, Gwénaël, Simon, Guilhem, Offroy, Marc, Guérin-Rechdaoui, Sabrina, Rocher, Vincent, and Marchetti, Mario

Published

2025

2. Metagenome-resolved functional traits of Rubrobacter species implicated in rosy discoloration of ancient frescoes in two Georgian Cathedrals

Author

Basile, Arianna, Riggio, Filippo Pasquale, Tescari, Marco, Chebbi, Alif, Sodo, Armida, Bartoli, Flavia, Imperi, Francesco, Caneva, Giulia, and Visca, Paolo

Published

2025

3. Early Detection of Facing-Masonry Surface Biodeterioration through Convolutional Neural Networks

Author

D’Orazio, Marco, Gianangeli, Andrea, Monni, Francesco, Quagliarini, Enrico, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Corrao, Rossella, editor, Campisi, Tiziana, editor, Colajanni, Simona, editor, Saeli, Manfredi, editor, and Vinci, Calogero, editor

Published

2025

4. Insight into the microbial diversity and community in the sacrificial pits of Sanxingdui site (Sichuan, China).

Author

Chen, Ruru, Xie, Zhenbin, Xiao, Qing, Wang, Chong, and Wen, Rui

Subjects

MICROBIAL diversity, MICROBIAL genomes, SOIL sampling, STONE, NUCLEOTIDE sequencing

Abstract

Introduction: The Sanxingdui site (Sichuan, China) is the typical representative of the ancient Shu culture, which lasts from the late Neolithic to early Western Zhou. The sacrificial pits are located in the core region of Sanxingdui site, and numerous artifacts are unearthed including ivory, seashells, bronzes, pottery, jade, stone, gold, bone, and horn products. The function of the pits and buried artifacts has always been the focus, but the microbiome around artifacts attracts less attention. Recently, the microbiome in buried ivory soil has just been identified; however, the microbiome around other artifacts has never been studied. In term of the unique perspective for interpretation the archaeological issues, the study was carried out for: (1) the microbial diversity and community of soil in the lower layer of artifacts in sacrificial pits, (2) the potential biodeterioration behavior of organic and inorganic relics, and (3) the impact of sacrificial and burial activities in different sacrificial pits on microbiome. Methods: There were 45 soil samples around different artifacts in three sacrificial pits and 12 raw soil samples inside or outside the sacrificial pit sampling from Sanxingdui site. The microbial genomes were then identified and analyzed using the next-generation high-throughput sequencing. Results: The represented bacterial phyla were Proteobacteria, Actinobacteriota, GAL15, Chloroflexi, Acidobacteriota, Methylomirabilota, Thermoplasmatota, Crenarchaeota, Gemmatimonadota, and Firmicutes, and the represented fungal phyla were Ascomycota, Mortierellomycota, and Basidiomycota. Further microbial functional analysis found that the bacterial genera Sphingopyxis , Limnobacter , and Streptomyces and the fungal genera Cladosporium , Acremonium , and Mortierella were concerned with the degradation of organic matter, while the genera Pseudomonas, Arthrobacter , Variovorax , Aspergillus , and Penicillium might be related to the biocorrosion of bronzes. In addition, the microbial composition and principal co-ordinate analysis (PCoA) demonstrated the significant differences in microbial composition and structure between the raw soil samples and the soil samples around the artifacts and also between the soil samples in different sacrificial pits. Discussion: It is important to understand the biodeterioration of the buried artifacts and the sacrificial activities in Sanxingdui site according to the results of microbial diversity and community. The combination of microbiology and archaeology will shed light on the archaeological issues related to the ancient human activities and behaviors. [ABSTRACT FROM AUTHOR]

Published

2024

5. The crucial role played by material trace analysis in resolving a murder vs. suicide dilemma.

Author

Baciu, Dora Domnica, Tașbac, Bogdan Alexandru, Trușcă, Roxana, and Mihăiescu, Dan Eduard

Subjects

*WOMEN'S shoes, *MICROSCOPY, *EXTERIOR walls, *OPTICAL spectroscopy, *SCANNING electron microscopy

Abstract

In the case of a young woman's death by falling from the window of her boyfriend's sixth‐floor apartment, investigators needed to determine whether the fall was suicidal or if the victim was forcibly pushed. The incident occurred at night, with her boyfriend being the only witness to how the fall happened. Establishing the origin of the material traces found on the woman's stockings and shoes, along with other clues, played a crucial role in resolving this dilemma. The traces found on the stockings and samples collected from the building's external wall were analyzed using digital stereomicroscopy, High‐resolution scanning electron microscopy (HRSEM) coupled with energy dispersive X‐ray spectroscopy (EDX), and optical microscopy. Chlorophyll presence on both the victim's stockings and the surface of the building façade was confirmed using Raman spectroscopy. The inorganic traces found on the shoes and the external wall were examined using stereomicroscopy and HRSEM coupled with EDX and were found to be similar in texture and elemental composition. The correspondence between the biological structures and mineral fragments, along with the dynamic friction marks found on the woman's body and shoes, confirmed physical contact between the victim and the external wall. These findings led to the conclusion that the victim struggled for her life and the fall resulted from a criminal act. [ABSTRACT FROM AUTHOR]

Published

2024

6. Biodegradation potential of Low-Density Polyethylene (LDPE) by soil-inhabiting ascomycetous microfungi isolated from urban dumpsites.

Author

Ramanayake, Gimhani Dalpasari, Udayanga, Dhanushka, Madusanka, Chathura, Undugoda, Lanka, Nugara, Ruwani Nilushi, Nilmini, Renuka, and Manage, Pathmalal

Subjects

*LOW density polyethylene, *ASPERGILLUS flavus, *RIBOSOMAL DNA, *MICROFUNGI, *TALAROMYCES

Abstract

Urban dumpsites are excellent sources of microbes which can biodegrade numerous materials present in waste. This study focused on the assessment of the mycodegradation potential of LDPE (Low-Density Polyethylene) by ascomycetous microfungi from urban dumpsites in Sri Lanka. Out of the collection obtained from five localities in Sri Lanka, eight species of ascomycetes, viz. Talaromyces purpureogenus (GF85), T. beijingensis (GGF03), Penicillium citrinum (GF89), Purpureocillium lilacinum (GF99), Aspergillus flavus (GF94), Aspergillus sp. (GF82), A. terreus (MMF08), and Fusarium falciforme (GF77), demonstrated mycodegradation potential based on the primary screening. All the isolates were accurately identified based on morphology, Sanger sequencing, and phylogenetic analysis of nuclear internal transcribed spacer region with 5.8 s ribosomal DNA (ITS). Among the isolates, T. purpureogenus GF85 showed a 13–17% weight reduction of LDPE. The same fungus showed evidence of remarkable ability to cause biodeterioration of LDPE by Fourier-transform infrared spectroscopy (FTIR) and Scanning Electron Microscopy (SEM). This study highlights the significance of extensive sampling, morphological, molecular characterisation, and comparative analysis of fungi from unexplored habitats towards developing sustainable solutions for the polyethylene waste crisis. [ABSTRACT FROM AUTHOR]

Published

2024

7. Mycological evaluation of the visible deterioration symptoms on the Spectatius family marble tomb (Slovenia)

Author

Kosel, Janez, Tomšič, Nejc, Mlakar, Mojca, Žbona, Nina, and Ropret, Polonca

Abstract

Our objective, as part of the planned conservation work, was to identify culturable fungi related to the formation of various deterioration symptoms occurring on the Spectatius family marble tomb, the largest monument of the Roman Necropolis in Šempeter, Slovenia. By using fluorescent microscopy, microbial cultivation methods and standard DNA sequencing we were able to identify 21 fungal isolates, 16 being filamentous moulds, primarily dominated by xerophilic Cladosporium spp. (mainly Cladosporium langeronii RN 28) and some Alternaria species; and 5 yeast or yeast like species namely Torula fici, Filobasidium wieringae, Rhodotorula babjevae and Blastobotrys peoriensis. Locations on the tomb, which are well sheltered against rainfall, contained higher concentrations of xerophilic fungi to those, which are completely or partially exposed to rain. The black fungal species of Cladosporium spp. and Alternaria spp. formed the bulk of melanized-greyish patina present on the bottom reliefs and within the cracks of the inner dome of the Spectacius tomb. Moreover, the red coloured yeast R. babjevae caused a thick red pigmentation right under the top roof of the monument’s left side. The obtained results indicated that not only moulds but also yeasts can cause significant biodeterioration. Lastly we isolated indigenous mycoparasitic strains of F. wieringae (RN 37 and RN 38) that could potentially be used in biocontrol formulations applicable in situ for the sustainable preservation of the Spectatius family tomb monument. [ABSTRACT FROM AUTHOR]

Published

2024

8. Autofluorescence for the Visualization of Microorganisms in Biodeteriorated Materials in the Context of Cultural Heritage.

Author

Stratigaki, Maria

Subjects

*COLONIZATION (Ecology), *SPATIAL arrangement, *FLUORESCENCE microscopy, *MICROORGANISM populations, *BIOFLUORESCENCE

Abstract

Microorganisms, including fungi, bacteria, cyanobacteria, and algae, frequently colonize the surfaces of cultural heritage materials. These biological agents can cause biodeterioration through various mechanisms, resulting in aesthetic alteration, physical disruption, or compromise of mechanical integrity. To assess the presence and diversity of microorganisms, a combination of microscopy techniques is commonly used in conjunction with results from both culture‐dependent and culture‐independent methods. However, microbial populations are often underestimated. To address this issue, microorganisms can be detected by their intrinsic fluorescence, which can be observed via fluorescence microscopy. This approach facilitates the mapping of the spatial arrangement of microorganisms and the understanding of colonization patterns, thereby complementing established imaging techniques and providing insight into the interactions of microbial communities with the substrate. Given the limited research in this area, we examine the potential of microorganism autofluorescence as a molecular tool for investigating biodeterioration in artistic and architectural heritage, with a particular focus on paper and stone materials. Identifying and understanding the diverse microbiota that may be present is crucial for developing tailored and effective preventive measures and conservation treatments, as some of the species discovered may pose significant risks to both artifacts and human health. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fly Ash Concrete Specimens Admixed with Nanoparticles and Their Interaction with Seawater.

Author

Uthaman, Sudha and Vishwakarma, Vinita

Subjects

*DENATURING gradient gel electrophoresis, *FLY ash, *DETERIORATION of concrete, *BACTERIAL adhesion, *RAMAN lasers

Abstract

This study is on fly ash (FA) concrete admixed with TiO2 nanoparticles (FAT), CaCO3 nanoparticles (FAC), and an equal ratio of TiO2 and CaCO3 nanoparticles (FATC) were exposed to seawater for 365 days in order to find the attachment of macrofoulants on their surface. The pH reduction studies were carried out in order to determine concrete deterioration in seawater, the results showed that FA specimens had more pH reduction than FAT, FAC and FATC. Total viable count, epifluorescence microscopy and denaturing gradient gel electrophoresis (DGGE) analysis confirmed the intensity of bacterial attachment and its diversity on FA, FAT, FAC, and FATC specimens. A systematic and comparative analysis predicted the overall relationship in terms of the dominant bacterial species on the different fly ash concrete specimens. To determine the biodeterioration of the fly ash concrete specimens in seawater, we used thermography experiments to evaluate the regions affected by bacteria on mortar specimens and confirmed that FA and FAC had more degradation and that FAT and FATC were the least degraded. Laser Raman Spectroscopy was interesting to find the white micron-sized particles of sulphur on FAC, FAT, and FATC specimens after 365 days immersed in seawater. We used a confocal laser scanning microscope to estimate the thickness of biofilm growth on FAT (13.91 0.38 mm), FATC (21.64 0.22 mm), FAC (33.56 0.26 mm), and FA (43.36 0.10 mm) specimens. The results showed that FAT and FATC specimens were the superior specimens, with enhanced biofouling and biodeterioration resistance in a seawater environment. Practical Applications: Fly ash is a waste material from thermal power plants and is used as a supplementary cementitious material in the construction industry. However, fly ash concrete has a slow hydration process and early strength problems. To overcome these problems, we used TiO2 and CaCO3 nanoparticles to enhance the properties of fly ash concrete. Nanoparticles have a high surface area and unique functional properties such as maintaining concrete pH, reducing porosity, enhancing pozzolanic activity, and so forth. In this study, we used TiO2 and CaCO3 nanoparticles to improve the strength of fly ash concrete and provide it with antibacterial properties. This study is significant in advancing our knowledge of fly ash concrete modified with nanoparticles and exposed to seawater with respect to its mechanical properties, durability, and antibacterial properties. Addition of nanoparticles upgraded the fly ash concrete towards its practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

10. Termite Resistance of Heat-Treated Eucalyptus OSB Bonded with Eco-Friendly Castor Oil Adhesive.

Author

Sugahara, Estefani S., Dias, André M. A., Maffioletti, Fernanda D., Paes, Juarez B., Christoforo, André L., Botelho, Edson C., Dias, Alfredo M. P. G., and Campos, Cristiane I.

Subjects

ORIENTED strand board, HEAT treatment, RAW materials, WOOD, WOOD products

Abstract

Over the last decade, the oriented strand board (OSB) market presented meaningful growth. However, as a wood-based product, because of its anatomical structure and chemical composition, OSB can be damaged by biodeterioration agents. Given that, the biodeterioration of OSB panels must be investigated to improve its durability. In this way, this work analyses the biological resistance against termites (Cryptotermes brevis and Nasutitermes corniger) of heat-treated OSB panels made with Eucalyptus wood glued with vegetable-based polyurethane-an eco-friendly and sustainable adhesive derived from castor oil. Various panels were produced with different layers compositions (face:core:face of 25:50:25 and 30:40:30) in wood mass proportion and were submitted to postproduction heat treatment (at 175°C and 200°C) replacing the use of chemical insecticides. The influence of the layers variation and heat treatment temperature were evaluated, and these results were compared with commercial panels (made from pinus wood with insecticide). The results showed that the heat treatment did not improve the resistance against termite attack. However, all the experimental panels presented a satisfactory performance that was compatible with the commercial panels produced with insecticide available in the Brazilian market. The combination of Eucalyptus wood and castor oil adhesive to produce OSB, in any variation of layer composition, demonstrated natural resistance against termite attack compatible with the commercial panels, even without using chemical additives to increase durability. [ABSTRACT FROM AUTHOR]

Published

2024

11. Disinfection in Archives—A Short Review of the Sustainable Approaches and Green Perspectives of Using Radiation for Mass Disinfection.

Author

Cicero, Cristina, Vadrucci, Monia, Doni, Giulia, and Trogu, Enrico

Abstract

The conservation of the immense archival heritage of a country like Italy presents scholars with the enormous challenge of finding techniques and procedures that enable rapid and large-scale interventions, especially in cases of biodeterioration. The volume of material to be preserved and often the inadequacy of the storage conditions constitute crucial factors that promote microbial growth on substrates such as paper, leather, and parchment. These materials serve as primary sources of sustenance for fungi and bacteria which can infect the collections, and so it is frequently necessary to adopt chemical mass-disinfection treatments. These treatments are often expensive, polluting, and hazardous to the assets, the operators, and the environment. The use of ionizing radiation can provide an environmentally sustainable alternative to the traditional mass disinfection treatments of library and archive materials, which currently involve chemical agents (such as ethylene oxide) that impact the environment and human health. The use of such chemicals is increasingly subject to stringent restrictions. In this work, we report and discuss the advantages and disadvantages of physical disinfection methods, focusing on the use of radiation for disinfection treatments and their effects. [ABSTRACT FROM AUTHOR]

Published

2024

12. Assessment of Fungal Decomposition Strategies as a Step Towards the Development of Sustainable Pressure Sensitive Adhesives.

Author

Castaño, Jesus D., Hauge, Drew A., Severtson, Steven J., and Zhang, Jiwei

Subjects

SOLID-state fermentation, WHEAT bran, TRAMETES versicolor, SUSTAINABLE design, FUNGAL remediation

Abstract

Water-based pressure-sensitive adhesives (PSAs) are widely used for different applications due to their cost and convenience. However, their synthesis relies on petroleum-based acrylic monomers, which negatively affects their biodegradability and recyclability. Hybrid acrylic polymers combining acrylic monomers and acrylate-functionalized lactide-based macromonomers could help solve this issue. Recently, we reported on the remarkable biodegradability of these hybrid PSAs in their latex format when using fungal treatments. In this study, we focused on the degradation of dried PSA films, a prevalent application format in commercial settings, by utilizing fungal consortia and solid-state fermentation. Our findings indicated that the type of fungal treatment, carbon source provided, and substrate thickness significantly affected biodegradation rates. The co-culture of Pestalotiopsis microspora and Trametes versicolor demonstrated particularly promising results, achieving degradation rates exceeding 50%, notably, when utilizing wheat bran as a carbon source. Moreover, the renewal of culture media and inoculum further amplified PSA biodegradation. These results underscore the potential of fungal consortia in solid-state cultures to substantially enhance the biodegradation of hybrid acrylic PSA films, offering insights for the design of more sustainable adhesive bio-based products and finally leading to an environmentally responsible end of the PSAs lifecycle. [ABSTRACT FROM AUTHOR]

Published

2024

13. Mycological evaluation of the visible deterioration symptoms on the Spectatius family marble tomb (Slovenia)

Author

Janez Kosel, Nejc Tomšič, Mojca Mlakar, Nina Žbona, and Polonca Ropret

Subjects

Biodeterioration, Cultural heritage, Decay, Fluorescence microscopy, Heritage science, Microbes, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Our objective, as part of the planned conservation work, was to identify culturable fungi related to the formation of various deterioration symptoms occurring on the Spectatius family marble tomb, the largest monument of the Roman Necropolis in Šempeter, Slovenia. By using fluorescent microscopy, microbial cultivation methods and standard DNA sequencing we were able to identify 21 fungal isolates, 16 being filamentous moulds, primarily dominated by xerophilic Cladosporium spp. (mainly Cladosporium langeronii RN 28) and some Alternaria species; and 5 yeast or yeast like species namely Torula fici, Filobasidium wieringae, Rhodotorula babjevae and Blastobotrys peoriensis. Locations on the tomb, which are well sheltered against rainfall, contained higher concentrations of xerophilic fungi to those, which are completely or partially exposed to rain. The black fungal species of Cladosporium spp. and Alternaria spp. formed the bulk of melanized-greyish patina present on the bottom reliefs and within the cracks of the inner dome of the Spectacius tomb. Moreover, the red coloured yeast R. babjevae caused a thick red pigmentation right under the top roof of the monument’s left side. The obtained results indicated that not only moulds but also yeasts can cause significant biodeterioration. Lastly we isolated indigenous mycoparasitic strains of F. wieringae (RN 37 and RN 38) that could potentially be used in biocontrol formulations applicable in situ for the sustainable preservation of the Spectatius family tomb monument.

Published

2024

14. Evaluation of ten plant-derived biocides for the inhibition of photosynthetic organisms on the karst surfaces of heritage buildings

Author

Mingzhong Long, Kangning Xiong, Jiayu Lin, Boyan Tang, Ziqiang Ao, Yingqiu Chen, and Zhiyi Xu

Subjects

Stone heritage buildings, Biodeterioration, Plant extracts, S. aromaticum, C. cassia, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Biodeterioration is a significant problem in the conservation of stone heritage buildings. In this study, 10 plant essential oils were assessed for their effectiveness in biofilm inhibition on stone heritage building surfaces under laboratory and in situ conditions, and were compared with traditional biocides such as benzalkonium chloride. The plant extracts were tested against algae and mosses. The effect on algae removal was evaluated by measuring the color of the surface before treatment, after 24 h and after 1 month of treatment. The effect on mosses was assessed by measuring the photosynthetic pigment content of mosses after 24 h of treatment. The results showed that the different plant extracts exhibited different levels of antibiotic activity. Benzalkonium chloride, S. aromaticum and C. cassia extracts showed strong antibiotic activity against all algae and mosses tested. T. mongolicus extracts showed antibiotic activity against only some of the algae and mosses, while the application of P. cablin extracts increased chlorophyll b content in the mosses. The other plant extracts were less effective at inhibiting the growth of algae and mosses. GC–MS compositional analysis further indicated that the higher antibiotic activity of S. aromaticum and C. cassia extracts was related to the high content of eugenol and cinnamaldehyde.

Published

2024

15. Greener solutions for biodeterioration of organic-media cultural heritage: where are we?

Author

Benedetta Paolino, Maria Cristina Sorrentino, and Severina Pacifico

Subjects

Organic-media cultural heritage, Biodeterioration, Chemical treatments, Natural products, Green solutions, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Eco-friendly decontamination treatments on works of art made from organic materials are of growing interest. The high risks to human health and the environment associated with traditional biocides (e.g. ecotoxicity, development of biotic resistance) have made it necessary to search for safer alternatives, also looking at the past but innovating it. The current state of the art is explored here, delving into the literature on the topic from 2000 to today, and outlining trends in terms of the most tested artistic supports and types of published research (in vitro/in vivo). An overview of the characteristics and mechanisms of biodegradation processes on different types of organic products and on the microorganisms mainly involved is thus provided. The main chemical-physical action techniques tested are illustrated and their practical-applicative aspects are discussed on the basis of evidence from case studies. Taking stock of the actual situation, literature consultation highlights that if on the one hand research is advancing rapidly towards the discovery of new ecological and safe solutions, on the other hand these are often biocidal treatments whose protocols have yet to be explored and validated.

Published

2024

16. Microbial acidification by N, S, Fe and Mn oxidation as a key mechanism for deterioration of subsea tunnel sprayed concrete

Author

Sabina Karačić, Carolina Suarez, Per Hagelia, Frank Persson, Oskar Modin, Paula Dalcin Martins, and Britt-Marie Wilén

Subjects

Fibre-reinforced sprayed concrete, subsea tunnels, Biodeterioration, Biofilm community, Amplicon sequencing, Metagenomics, Medicine, Science

Abstract

Abstract The deterioration of fibre-reinforced sprayed concrete was studied in the Oslofjord subsea tunnel (Norway). At sites with intrusion of saline groundwater resulting in biofilm growth, the concrete exhibited significant concrete deterioration and steel fibre corrosion. Using amplicon sequencing and shotgun metagenomics, the microbial taxa and surveyed potential microbial mechanisms of concrete degradation at two sites over five years were identified. The concrete beneath the biofilm was investigated with polarised light microscopy, scanning electron microscopy and X-ray diffraction. The oxic environment in the tunnel favoured aerobic oxidation processes in nitrogen, sulfur and metal biogeochemical cycling as evidenced by large abundances of metagenome-assembled genomes (MAGs) with potential for oxidation of nitrogen, sulfur, manganese and iron, observed mild acidification of the concrete, and the presence of manganese- and iron oxides. These results suggest that autotrophic microbial populations involved in the cycling of several elements contributed to the corrosion of steel fibres and acidification causing concrete deterioration.

Published

2024

17. Measuring the Primary and Secondary Bioreceptivity of Stone and Their Implications for Heritage Conservation

Author

Philip J. A. Skipper and Lynda K. Skipper

Subjects

stone conservation, biodeterioration, bioreceptivity, heritage science, bioreceptivity index, Archaeology, CC1-960

Abstract

Bioreceptivity measures the ability of a surface to develop and maintain a permanent ecosystem of microorganisms. In the historic built environment, this is characterised visually by the greening of monuments and other outdoor heritage. Primary and secondary bioreceptivity refer to the potential for biological growth on fresh and weathered stone, respectively. Measuring bioreceptivity helps us understand biological growth rates and allows researchers to characterise the impact of stone conservation treatments on colonisation. Understanding the relative bioreceptivity of stones allows heritage professionals to make more informed selection of replacement stone types for repairs to existing structures. The primary bioreceptivity of stones from different geographical areas cannot currently be easily compared due to a lack of consistency in approaches to measurement. We propose a repeatable lab-based methodology for measuring colour and chlorophyll a levels from a standard algal culture grown on the stone surface as a standardised testing protocol for primary and secondary bioreceptivity. This protocol controls for the effects of mineralogical colour change during testing, which is something that has not been addressed in other methodologies. This method was successfully applied to case studies measuring the bioreceptivity of English granite, sandstone and limestone, determining their position in a bioreceptivity index. Our results demonstrated that for the stones tested, primary bioreceptivity was categorised as very low or low. Secondary bioreceptivity was increased compared to primary bioreceptivity. This research is the first to fully categorise any stones for secondary bioreceptivity and provides the first primary and secondary bioreceptivity data for any UK stones. We encourage others to follow this standard protocol to add additional data and build an international bioreceptivity database accessible to heritage practitioners.

Published

2024

18. Unveiling the menace of lampenflora to underground tourist environments

Author

Rosangela Addesso, Daniela Baldantoni, Beatriz Cubero, José Maria De La Rosa, Sara Gutierrez-Patricio, Igor Tiago, Ana Teresa Caldeira, Jo De Waele, and Ana Z. Miller

Subjects

Photoautotrophic biofilms, Geobiology, Biodeterioration, Show caves, Pertosa-Auletta Cave, Medicine, Science

Abstract

Abstract Permanent artificial lighting systems in tourist underground environments promote the proliferation of photoautotrophic biofilms, commonly referred to as lampenflora, on damp rock and sediment surfaces. These green-colored biofilms play a key role in the alteration of native community biodiversity and the irreversible deterioration of colonized substrates. Comprehensive chemical or physical treatments to sustainably remove and control lampenflora are still lacking. This study employs an integrated approach to explore the biodiversity, eco-physiology and molecular composition of lampenflora from the Pertosa-Auletta Cave, in Italy. Reflectance analysis showed that photoautotrophic biofilms are able to absorb the totality of the visible spectrum, reflecting only the near-infrared light. This phenomenon results from the production of secondary pigments and the adaptability of these organisms to different metabolic regimes. The biofilm structure mainly comprises filamentous organisms intertwined with the underlying mineral layer, which promote structural alterations of the rock layer due to the biochemical attack of both prokaryotes (mostly represented by Brasilonema angustatum) and eukaryotes (Ephemerum spinulosum and Pseudostichococcus monallantoides), composing the community. Regardless of the corrosion processes, secondary CaCO3 minerals are also found in the biological matrix, which are probably biologically mediated. These findings provide valuable information for the sustainable control of lampenflora.

Published

2024

19. Evaluation of ten plant-derived biocides for the inhibition of photosynthetic organisms on the karst surfaces of heritage buildings.

Author

Long, Mingzhong, Xiong, Kangning, Lin, Jiayu, Tang, Boyan, Ao, Ziqiang, Chen, Yingqiu, and Xu, Zhiyi

Subjects

*PLANT extracts, *ALGAL growth, *PHOTOSYNTHETIC pigments, *BENZALKONIUM chloride, *ESSENTIAL oils

Abstract

Biodeterioration is a significant problem in the conservation of stone heritage buildings. In this study, 10 plant essential oils were assessed for their effectiveness in biofilm inhibition on stone heritage building surfaces under laboratory and in situ conditions, and were compared with traditional biocides such as benzalkonium chloride. The plant extracts were tested against algae and mosses. The effect on algae removal was evaluated by measuring the color of the surface before treatment, after 24 h and after 1 month of treatment. The effect on mosses was assessed by measuring the photosynthetic pigment content of mosses after 24 h of treatment. The results showed that the different plant extracts exhibited different levels of antibiotic activity. Benzalkonium chloride, S. aromaticum and C. cassia extracts showed strong antibiotic activity against all algae and mosses tested. T. mongolicus extracts showed antibiotic activity against only some of the algae and mosses, while the application of P. cablin extracts increased chlorophyll b content in the mosses. The other plant extracts were less effective at inhibiting the growth of algae and mosses. GC–MS compositional analysis further indicated that the higher antibiotic activity of S. aromaticum and C. cassia extracts was related to the high content of eugenol and cinnamaldehyde. [ABSTRACT FROM AUTHOR]

Published

2024

20. Biosynthesis of titanium dioxide nanoparticles using probiotic bacterial strain, Lactobacillus rhamnosus, and evaluate of their biocompatibility and antifungal activity.

Author

Abdel-Maksoud, Gomaa, Abdel-Nasser, Mahmoud, Hassan, Saad El-Din, Eid, Ahmed M., Abdel-Nasser, Aya, and Fouda, Amr

Abstract

The main goal of the current study is to biosynthesize titanium dioxide nanoparticles (TiO2-NPs) using green approach to biocontrol of different fungal strains isolated from historical Description of Egypt book. Nineteen fungal strains were isolated from deteriorated parts and identified by the traditional and molecular methods as Aspergillus flavus (8-isolates), Aspergillus versicolor (2-isolates), Aspergillus ustus (4-isolates), Aspergillus chinensis (2-isolates), Penicillium citrinum (2-isolates), and Penicillium chrysogenum (1-isolate). These fungal strains showed high cellulase, amylase, pectinase, and gelatinase activities which have a significant role in biodeterioration. The biomass filtrate of probiotic strain, Lactobacillus rhamnosus, was used to fabricate TiO2-NPs which characterized by UV-Vis, FT-IR, XRD, TEM, SEM, EDX, DLS, and zeta potential. The obtained data showed the successful formation of spherical and anatase phase NPs with sizes of 3–7 nm and zeta potential values of – 19.9 and – 36.8 mV. The main components of as-formed nanomaterial were Ti and O with weight percentages of 55.91 and 46.25, respectively. The biocompatibility of synthesized TiO2-NPs was investigated toward two normal cell lines, WI38 and HFB4, which reveal the low toxicity at high concentrations (IC50 > 300 μg mL–1). Therefore, concentrations ≤ 300 μg mL–1 were used to biocontrol of isolated fungi. Data showed the promising activity of various concentrations (300, 200, and 100 μg mL–1) of TiO2-NPs to inhibit the growth of fungal strains with varied inhibition zones and dose-dependent manner. This study exhibited the efficacy of probiotic bacterial strains in the synthesis of TiO2-NPs that can be used to preserve historical books from fungal deterioration. [ABSTRACT FROM AUTHOR]

Published

2024

21. New Refined Experimental Analysis of Fungal Growth in Degraded Bio-Based Materials.

Author

Kosiachevskyi, Dmytro, Abahri, Kamilia, Trinsoutrot-Gattin, Isabelle, Castel, Lisa, Daubresse, Anne, Chaouche, Mohend, and Bennacer, Rachid

Subjects

NUCLEIC acid isolation methods, MATERIAL biodegradation, DNA, FUNGAL growth, EXTREME environments, MORTAR

Abstract

When exposed to different building environmental conditions, bio-composite materials, such as hemp mortars, represent a risk of mold proliferation. This later plays a critical role in the biodeterioration of the materials when their physical properties are locally modified by the natural aging process. The primary objectives of the present work are first to assess the evolution of the surface of contaminated mortar; second, to investigate an accurate DNA extraction method that could be used for both bio-composite mortars and their fiber sources collected in situ; then, to understand the process of the proliferation of mold strains on both hemp shives and hemp mortar; and finally, to compare mold strains present in these phases to show their relationship to mold contamination and their impact on human health. In situ hemp mortar contamination behavior was investigated in the region of Pau (France) two months after hemp mortar application in extreme conditions (high humidity, low temperature, no aeration), which did not match the standard conditions under which hemp mortar must be used. The SEM observations and FTIR and pH analyses highlighted the decrease in pH level and the presence of organic matter on the mortar surface. DNA sequencing results showed that hemp shives were the main source of fungal contamination of hemp mortar. A mold population analysis showed that the most dominant phylum was Ophistokonta, which represented 83.6% in hemp shives and 99.97% in hemp mortar. The Acrostalagmus genus representatives were the most abundant, with 42% in hemp shives and 96% in hemp mortar. The interconnection between the mold strain characteristics (particularly the ability to grow in extreme environments) and the presence of hemp mortar was emphasized. [ABSTRACT FROM AUTHOR]

Published

2024

22. Microbial acidification by N, S, Fe and Mn oxidation as a key mechanism for deterioration of subsea tunnel sprayed concrete.

Author

Karačić, Sabina, Suarez, Carolina, Hagelia, Per, Persson, Frank, Modin, Oskar, Martins, Paula Dalcin, and Wilén, Britt-Marie

Abstract

The deterioration of fibre-reinforced sprayed concrete was studied in the Oslofjord subsea tunnel (Norway). At sites with intrusion of saline groundwater resulting in biofilm growth, the concrete exhibited significant concrete deterioration and steel fibre corrosion. Using amplicon sequencing and shotgun metagenomics, the microbial taxa and surveyed potential microbial mechanisms of concrete degradation at two sites over five years were identified. The concrete beneath the biofilm was investigated with polarised light microscopy, scanning electron microscopy and X-ray diffraction. The oxic environment in the tunnel favoured aerobic oxidation processes in nitrogen, sulfur and metal biogeochemical cycling as evidenced by large abundances of metagenome-assembled genomes (MAGs) with potential for oxidation of nitrogen, sulfur, manganese and iron, observed mild acidification of the concrete, and the presence of manganese- and iron oxides. These results suggest that autotrophic microbial populations involved in the cycling of several elements contributed to the corrosion of steel fibres and acidification causing concrete deterioration. [ABSTRACT FROM AUTHOR]

Published

2024

23. Greener solutions for biodeterioration of organic-media cultural heritage: where are we?

Author

Paolino, Benedetta, Sorrentino, Maria Cristina, and Pacifico, Severina

Subjects

*ORGANIC products, *NATURAL products, *CULTURAL property, *HUMAN ecology, *BIODEGRADATION

Abstract

Eco-friendly decontamination treatments on works of art made from organic materials are of growing interest. The high risks to human health and the environment associated with traditional biocides (e.g. ecotoxicity, development of biotic resistance) have made it necessary to search for safer alternatives, also looking at the past but innovating it. The current state of the art is explored here, delving into the literature on the topic from 2000 to today, and outlining trends in terms of the most tested artistic supports and types of published research (in vitro/in vivo). An overview of the characteristics and mechanisms of biodegradation processes on different types of organic products and on the microorganisms mainly involved is thus provided. The main chemical-physical action techniques tested are illustrated and their practical-applicative aspects are discussed on the basis of evidence from case studies. Taking stock of the actual situation, literature consultation highlights that if on the one hand research is advancing rapidly towards the discovery of new ecological and safe solutions, on the other hand these are often biocidal treatments whose protocols have yet to be explored and validated. [ABSTRACT FROM AUTHOR]

Published

2024

24. Investigating the Role of Microclimate and Microorganisms in the Deterioration of Stone Heritage: The Case of Rupestrian Church from Jac, Romania.

Author

Ilieș, Dorina Camelia, Apopei, Andrei-Ionuț, Mircea, Cristina, Ilieș, Alexandru, Caciora, Tudor, Zharas, Berdenov, Barbu-Tudoran, Lucian, Hodor, Nicolaie, Turza, Alexandru, Pereș, Ana Cornelia, Hassan, Thowayeb H., Safarov, Bahodirhon, and Noje, Ioan-Cristian

Subjects

STONE, MICROBIAL contamination, COLONIZATION (Ecology), WEATHERING, MICROSCOPY, CHEMICAL weathering

Abstract

Natural stone can undergo disaggregation from various causes, including physical actions such as freeze–thaw cycles, temperature and humidity variations, chemical actions such as the solubilization of minerals by organic and inorganic acids, as well as biological actions due to the colonization of organisms that can produce biocorrosion and biomineralization. This research investigates the impact of microclimatic conditions and microbial activity on the physical and chemical integrity of stone heritage, particularly the biodeterioration caused by fungi in the case of a Romanian rock church. Various analytical techniques were employed, including macroscopic and optical microscopy, Raman spectroscopy, X-ray diffraction, and culture-based identification methods, to characterize the mineral composition and microbial contamination of the rock samples. The analyses revealed that the sandstone consists primarily of quartz (over 90%), muscovite (5–10%), and feldspars. The identified fungi included Cladosporium herbarium, Aspergillus niger, and Mortierella hyalina. The SEM images showed fungal hyphae and spores within the kaolinite–illite matrix, indicating significant microbial colonization and its role in rock deterioration. Additionally, microclimatic data collected over a 12-week period highlighted the substantial fluctuations in temperature and relative humidity within the church, which contribute to the physical and chemical weathering of the stone. This study also noted high levels of particulate matter (PM2.5 and PM10) and volatile organic compounds, which can exacerbate microbial growth and stone decay. The comprehensive analysis underscores the need for targeted preservation strategies that consider both microclimatic factors and microbial colonization to effectively conserve stone heritage sites, ensuring their longevity and structural integrity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Unveiling the menace of lampenflora to underground tourist environments.

Author

Addesso, Rosangela, Baldantoni, Daniela, Cubero, Beatriz, De La Rosa, José Maria, Gutierrez-Patricio, Sara, Tiago, Igor, Caldeira, Ana Teresa, De Waele, Jo, and Miller, Ana Z.

Subjects

*NEAR infrared radiation, *BIOFILMS, *VISIBLE spectra, *GEOBIOLOGY, *TOURISTS, *PROKARYOTES, *INFORMATION resources management

Abstract

Permanent artificial lighting systems in tourist underground environments promote the proliferation of photoautotrophic biofilms, commonly referred to as lampenflora, on damp rock and sediment surfaces. These green-colored biofilms play a key role in the alteration of native community biodiversity and the irreversible deterioration of colonized substrates. Comprehensive chemical or physical treatments to sustainably remove and control lampenflora are still lacking. This study employs an integrated approach to explore the biodiversity, eco-physiology and molecular composition of lampenflora from the Pertosa-Auletta Cave, in Italy. Reflectance analysis showed that photoautotrophic biofilms are able to absorb the totality of the visible spectrum, reflecting only the near-infrared light. This phenomenon results from the production of secondary pigments and the adaptability of these organisms to different metabolic regimes. The biofilm structure mainly comprises filamentous organisms intertwined with the underlying mineral layer, which promote structural alterations of the rock layer due to the biochemical attack of both prokaryotes (mostly represented by Brasilonema angustatum) and eukaryotes (Ephemerum spinulosum and Pseudostichococcus monallantoides), composing the community. Regardless of the corrosion processes, secondary CaCO3 minerals are also found in the biological matrix, which are probably biologically mediated. These findings provide valuable information for the sustainable control of lampenflora. [ABSTRACT FROM AUTHOR]

Published

2024

26. PHYSICAL AND NATURAL DURABILITY PROPERTIES OF PLANTATION GROWN ANOGEISSUS LEIOCARPA AND EUCALYPTUS CAMALDULENSIS IN THE SAVANNAH ECOLOGICAL ZONE, GHANA.

Author

TAMPORI, Enoch Gbapenuo, APPIAH-KUBI, Emmanuel, BIH, Francis Kofi, CHAKURAH, Issah, and ANTWI, Kwakw

Subjects

*RENEWABLE natural resources, *EUCALYPTUS camaldulensis, *WOOD, *FURNITURE making, *ECOLOGICAL zones

Abstract

Physical properties of wood have significant influence on its natural durability and resistant to biodegradable factors while in service. Wood as a valuable and multipurpose renewable natural resource therefore is liable to degrade as biological agents may alter its behaviour, with negative effects on some of the physical and durability properties. As such, the major characteristics that validate wood adaptability for commercial utilization in the construction and furniture industries includes the physical and natural durability properties. The physical and natural durability properties of plantation grown exotic timber species (Anogeissus leiocarpa and Eucalyptus camaldulensis) were determined in accordance to BS 373 and EN 252 standards. Wood samples were prepared from three stem heights (butt, mid and top) as well as the heartwood and sapwood for the test. The results from the study howed that, moisture content increased from butt to the top. Where as the density decreased from the butt to the top. In terms of volumetric swelling, the tangential direction records the highest percentage, followed by the radial and the longitudinal direction. Percentage mass loss instigated by termites and other biodeteriorating agents was generally low as the decay intensity was not severe. The exotic timber species in-service would be highly resistant against termite attacks. As such, Anogeissus leiocarpa and Eucalyptus camaldulensis woods can be recommended for use in the furniture industry. [ABSTRACT FROM AUTHOR]

Published

2024

27. Measuring the Primary and Secondary Bioreceptivity of Stone and Their Implications for Heritage Conservation.

Author

Skipper, Philip J. A. and Skipper, Lynda K.

Subjects

*STONE, *BUILT environment, *STANDARDIZED tests, *DATABASES, *RESEARCH personnel

Abstract

Bioreceptivity measures the ability of a surface to develop and maintain a permanent ecosystem of microorganisms. In the historic built environment, this is characterised visually by the greening of monuments and other outdoor heritage. Primary and secondary bioreceptivity refer to the potential for biological growth on fresh and weathered stone, respectively. Measuring bioreceptivity helps us understand biological growth rates and allows researchers to characterise the impact of stone conservation treatments on colonisation. Understanding the relative bioreceptivity of stones allows heritage professionals to make more informed selection of replacement stone types for repairs to existing structures. The primary bioreceptivity of stones from different geographical areas cannot currently be easily compared due to a lack of consistency in approaches to measurement. We propose a repeatable lab-based methodology for measuring colour and chlorophyll a levels from a standard algal culture grown on the stone surface as a standardised testing protocol for primary and secondary bioreceptivity. This protocol controls for the effects of mineralogical colour change during testing, which is something that has not been addressed in other methodologies. This method was successfully applied to case studies measuring the bioreceptivity of English granite, sandstone and limestone, determining their position in a bioreceptivity index. Our results demonstrated that for the stones tested, primary bioreceptivity was categorised as very low or low. Secondary bioreceptivity was increased compared to primary bioreceptivity. This research is the first to fully categorise any stones for secondary bioreceptivity and provides the first primary and secondary bioreceptivity data for any UK stones. We encourage others to follow this standard protocol to add additional data and build an international bioreceptivity database accessible to heritage practitioners. [ABSTRACT FROM AUTHOR]

Published

2024

28. Rock Art Painting Taphonomy: the Role of Environmental and Technological Factors.

Author

Ozán, Ivana L., Oriolo, Sebastián, Gutiérrez, Lucía, Esnal, Analía Castro, Latorre, Andrés, Castro, María A., and Fazio, Alejandra

Subjects

*ART conservation & restoration, *ROCK art (Archaeology), *PRESERVATION of painting, *BINDING mediums (Paint), *RAINFALL

Abstract

This work aims discussing the contribution of environmental and technological factors in rock art painting preservation, based on a 3-year experimental program and two archaeological cases from Patagonia (South America). Concerning technological factors, microscopic information of experimental and archaeological contexts indicate that fine-grained pigments have a better preservation potential than coarse-grained ones, likely related to the high binder adsorption capacity of silty and clay size particles, resulting in a strong pigment agglutination and substrate adherence. Mechanical entrapment/translocation of such small particles into the substrate further contributes to preservation. The experiment also evidences that blood-bearing paints present preservation advantages over fat/water-based ones, probably due to clotting and drying processes which agglutinate pigments and seal rock voids, avoiding binder migration. In contrast, experimental gypsum- and, to a lesser extent, charcoal-based paints show a rapid and significant deterioration, particularly in the temperate and humid context. The low archaeological expectancy derived from these results is supported by the scarce and/or ambiguous regional representation of these black pigments in ancient Patagonian paintings. Among natural factors, water-related processes (i.e., rainfall, snow, freezing and water infiltration) play a decisive role in the physicochemical paint degradation, also favoring bioactivity. Raman spectroscopy of neoformed white crystals in experimental paints may evidence, in a short term, a first stage of the profuse biomineralizations archaeologically observed, associated with lichens, fungus, and endolithic organisms. Finally, sheep rubbing and wind abrasion are proposed as the main agents affecting vertical frequencies and integrity of archaeological motifs at the cave and open-air contexts, respectively, whereas differences related to cardinal insolation likely impact in frequencies, motif color and weathering stages at the open-air site too. [ABSTRACT FROM AUTHOR]

Published

2024

29. Assessing the Impact of Lichens on Saint Simeon Church, Paşabağ Valley (Cappadocia, Turkey): Potential Damaging Effects versus Protection from Rainfall and Winds.

Author

Casanova Municchia, Annalaura, Giordani, Paolo, Taniguchi, Yoko, and Caneva, Giulia

Subjects

WORLD Heritage Sites, PRESERVATION of monuments, CALCIUM oxalate, WEATHERING, SUBSTRATES (Materials science), CHEMICAL weathering

Abstract

The impact of lichens on the conservation of monuments, such as the World Heritage Site (WHS) of Cappadocian churches, presents a multifaceted challenge for conservators. Previous studies have shown that lichens can both induce deterioration processes of stone through their penetration into the substrate and chemical interactions as well as provide bioprotection, forming encrustations including calcium oxalate layers, which help mitigating the effects of weathering, reducing water penetration and eolian erosion. Evaluating the impact of lichens requires a comprehensive understanding of various factors, which include the type of rock substrate, the colonizing lichen species, the monument architecture, and the prevailing physic-chemical weathering processes. This study aims to provide a comprehensive analysis of the impact of lichen colonization on Saint Simeon Church in the Paşabağı Valley (Turkey) with a multidisciplinary approach to investigate the interplay between lichens, microclimatic conditions, and the degradation of stone. Specifically, this study examines the influence of wind-driven rain (WDR) occurrences on lichen distribution and stone weathering to develop comprehensive conservation strategies. The results confirmed the previous observations and showed a prevalence of the protective role of lichens over their deterioration. The northwest side of the church, despite being heavily impacted by environmental factors such as WDR and freezing–thawing cycles, showed reduced deterioration due to extensive lichen coverage. In contrast, the northeast side, with lower lichen colonization, demonstrated more severe deterioration. These findings suggest that integrating the protective aspects of lichen colonization into conservation strategies can enhance their preservation. [ABSTRACT FROM AUTHOR]

Published

2024

30. The Hypogeous Roman Archeological Museum of Positano: Study of the Evolution of Biological Threaten and Development of Adequate Control Protocols.

Author

Antonelli, Federica, Iafrate, Sara, Tescari, Marco, Giandomenico, Manuel, Kumbaric, Alma, and Bartolini, Marco

Subjects

BIOLOGICAL evolution, MURAL art, PRESERVATION of painting, LIGHT sources, UNDERGROUND areas

Abstract

Hypogea are natural or artificial spaces located underground often of great interest from an anthropological, archeological, religious, artistic, or historic point of view. Due to their features, these environments usually present conservative problems and biological colonization could be considered as one of the main threats. The present three-year study was carried out by specialists of the Central Institute for Restoration of Rome (ICR) in the hypogeous site preserved in the Roman Archeological Museum of Positano (Positano MAR) and focused on characterizing biological alterations present on the mural paintings; setting up efficient strategies and protocols for biodeterioration control; and monitoring the efficacy of direct and indirect interventions. Patinas with different morphologies were analyzed through microscopic observations, cultural analyses and next-generation sequencing. The results proved that the alterations comprised a great variety of microorganisms forming very distinct communities, differently distributed over space and time. The main taxa represented were bacteria of phyla Pseudomonadota and Actinomycetota, fungi belonging to the genus Fusarium and Gliocladium, and algae of the genus Chlorococcum. Preservation protocols were set up considering the alterations' composition and included the application of biocides, limiting daily temperature changes, decreasing illuminance values on painted surfaces, and the screening of natural light sources. [ABSTRACT FROM AUTHOR]

Published

2024

31. Microorganisms in Red Ceramic Building Materials—A Review.

Author

Stanaszek-Tomal, Elżbieta

Subjects

MATERIAL biodegradation, MICROBIAL growth, DIRECT action, BUILDING performance, MANUFACTURING processes

Abstract

Ceramic materials have a very long tradition of use in construction. Their durability is related to the surface of the material and the action of the corrosive environment. One of the corrosive factors acting on ceramic materials is microorganisms. They can contribute to the deterioration of the technical and performance properties of building materials. Aesthetic, physical, and chemical deterioration are considered to be the main destructive processes in ceramic materials. This work shows how the different types of the most commonly used ceramic materials, i.e., brick and tiles, are damaged. Each of these types is susceptible to microbial growth. Most microorganisms that occur on ceramic materials produce staining substances and thus form coloured biofilms. The direct action of metabolic products secreted by organisms on inorganic substrates is the main cause of chemical biodeterioration. Therefore, this work presents the impact of microorganisms on ceramic building materials. [ABSTRACT FROM AUTHOR]

Published

2024

32. Insight into the microbial diversity and community in the sacrificial pits of Sanxingdui site (Sichuan, China)

Author

Ruru Chen, Zhenbin Xie, Qing Xiao, Chong Wang, and Rui Wen

Subjects

Sanxingdui site, high-throughput sequencing, microbiome, biodeterioration, burial activity, Microbiology, QR1-502

Abstract

IntroductionThe Sanxingdui site (Sichuan, China) is the typical representative of the ancient Shu culture, which lasts from the late Neolithic to early Western Zhou. The sacrificial pits are located in the core region of Sanxingdui site, and numerous artifacts are unearthed including ivory, seashells, bronzes, pottery, jade, stone, gold, bone, and horn products. The function of the pits and buried artifacts has always been the focus, but the microbiome around artifacts attracts less attention. Recently, the microbiome in buried ivory soil has just been identified; however, the microbiome around other artifacts has never been studied. In term of the unique perspective for interpretation the archaeological issues, the study was carried out for: (1) the microbial diversity and community of soil in the lower layer of artifacts in sacrificial pits, (2) the potential biodeterioration behavior of organic and inorganic relics, and (3) the impact of sacrificial and burial activities in different sacrificial pits on microbiome.MethodsThere were 45 soil samples around different artifacts in three sacrificial pits and 12 raw soil samples inside or outside the sacrificial pit sampling from Sanxingdui site. The microbial genomes were then identified and analyzed using the next-generation high-throughput sequencing.ResultsThe represented bacterial phyla were Proteobacteria, Actinobacteriota, GAL15, Chloroflexi, Acidobacteriota, Methylomirabilota, Thermoplasmatota, Crenarchaeota, Gemmatimonadota, and Firmicutes, and the represented fungal phyla were Ascomycota, Mortierellomycota, and Basidiomycota. Further microbial functional analysis found that the bacterial genera Sphingopyxis, Limnobacter, and Streptomyces and the fungal genera Cladosporium, Acremonium, and Mortierella were concerned with the degradation of organic matter, while the genera Pseudomonas, Arthrobacter, Variovorax, Aspergillus, and Penicillium might be related to the biocorrosion of bronzes. In addition, the microbial composition and principal co-ordinate analysis (PCoA) demonstrated the significant differences in microbial composition and structure between the raw soil samples and the soil samples around the artifacts and also between the soil samples in different sacrificial pits.DiscussionIt is important to understand the biodeterioration of the buried artifacts and the sacrificial activities in Sanxingdui site according to the results of microbial diversity and community. The combination of microbiology and archaeology will shed light on the archaeological issues related to the ancient human activities and behaviors.

Published

2024

33. From process to product: exploring microbial diversity in paints

Author

Mutschlechner, Mira, Gstir, Ronald, Schöbel, Harald, Rössler, Albert, Lass-Flörl, Cornelia, and Bach, Katrin

Published

2025

34. Biodeterioration of polyethylene by Bacillus cereus and Rhodococcus equi isolated from soil

Author

Liu, Xinbei, Dong, Xusheng, Wang, Dandan, and Xie, Zhihong

Published

2024

35. Deterioration-associated microbiome of a modern photographic artwork: the case of Skull and Crossbones by Robert Mapplethorpe

Author

Mariagioia Petraretti, Antonino De Natale, Angelo Del Mondo, Romualdo Troisi, Olga De Castro, Nicolina Mormile, Mariano Avino, Gennaro Tortino, Giuseppe Oreste Graziano, Alessandro Vergara, and Antonino Pollio

Subjects

Fungi, Biodeterioration, High, Throughput sequencing, Raman microspectroscopy, Historical photographs, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract The preservation of cultural heritage, including ancient photographic materials, is of paramount importance in the field of conservation science. In this context, the microbial diversity of ‘Skull and Crossbones’, a 1983 photograph by Robert Mapplethorpe printed on silver gelatine, was assessed. We employed both culture-dependent and culture-independent methods to characterize microbial communities inhabiting this artwork. Vibrational Raman micro spectroscopy and FT-IR spectroscopy were utilized to assess the chemical degradation condition and characterize the chemical components of the silver gelatin print. The combination of molecular sequencing methods (Sanger and HTS approach) and non-invasive vibrational spectroscopy yielded valuable insights into the microbial communities thriving on photographic material and the chemical degradation of the print. Isolated fungal strains were added to the Fungal Collection at the University of Naples Federico II, and their deteriorative potential was investigated by adding substrates, commonly used in canvas photographs to the culture media. These results establish a link between microbial communities colonizing ancient photographic materials, paper decomposition, and the enzymatic patterns of the retrieved microorganisms. This information is invaluable for understanding and addressing biodeterioration progression on valuable works of art, such as historical photographs, which remain understudied.

Published

2024

36. The engineered in situ silver nanocomposite as a surface protective coating with antimicrobial activity used in stony cultural heritage.

Author

Lak, Mandana, Mohammadi, Parisa, and Ghadam, Parinaz

Subjects

*PROTECTIVE coatings, *CULTURAL property, *FIELD emission electron microscopes, *SURFACE coatings, *NANOCOMPOSITE materials

Abstract

The biodeterioration of cultural heritage monuments is a worldwide phenomenon, closely linked to the presence of microorganisms and macroorganisms. Microbial colonization leads to physical, chemical damage and esthetic changes. Synthetic polymers, particularly acrylics, are often used to consolidate and protect monuments and artistic stone surfaces. To increase acrylics performances regarding to durability and antimicrobials' activity, nanoparticles (NPs) were added to polymers. In this study, silver NP was biosynthesized by Malva sylvestris aqueous extract. Furthermore, the in situ method was used for nanocomposite synthesis, which would be simplified the procedure of synthesis. For this, the precursors including the plant aqueous extract, AgNO3 solution and polymer were mixed, and nanocomposite was formed. The morphological characteristics of the obtained nanocomposite were determined using field emission scanning electron microscope (FESEM). The energy-dispersive X-ray (EDX) confirmed AgNPs existence in the composite. Next, the nanocomposite's antibacterial properties were tested on Bacillus subtilis, Pseudomonas aeruginosa, Escherichia coli, Cladosporium cladosporioides, Aspergillus niger, and Alternaria alternata. The antibacterial activity of bioengineered nanocomposite compared to acrylic polymer, alone. The results of antimicrobial experiments have shown that the number of bacterial and fungal cells was decreased by 1 logarithm in the polymer, and by 2 to 4 logarithms in the nanocomposite that the antimicrobial effect of latter was notably increased. This study was based on applying this nanocomposite to improve conservation strategies for stony cultural heritage. Further experiments should be performed to evaluate the efficacy of this nanocomposite on outdoor stony model. [ABSTRACT FROM AUTHOR]

Published

2024

37. Evaluación de la carga microbiana del aire interior y condiciones microclimáticas en la biblioteca del campus de la Universidad Militar Nueva Granada.

Author

LADINO-QUINTERO, NATALI, GARAVITO, IBSEN, PATIÑO, MARÍA CAMILA, and RAMÍREZ, OMAR

Subjects

*BACTERIA classification, *HUMIDITY, *PRESERVATION of books, *GRAM'S stain, *GRAM-negative bacteria, *MICROBIOLOGICAL aerosols

Abstract

Fungal and bacterial bioaerosols have the potential to induce biodeterioration in books and archival materials stored within libraries through their metabolic processes. The progression of these processes is dependent on microclimatic factors, including relative humidity and temperature. At the national level, research on biodeterioration in libraries and investigations into bioaerosols in indoor environments have been limited. These topics are of great significance as they have an impact on both public health and book preservation. This study aims to determine the microbial load within the indoor air of the library situated on the campus of Universidad Militar Nueva Granada in Cajicá, Colombia. Simultaneously, it seeks to investigate the microclimatic conditions of this environment. We used a MAS-100 Eco air sampler with an airflow rate of 100 L/min for a duration of 2.5 minutes. Nutrient agar and rose Bengal were employed as culture media. The samples were incubated for 8 days, and colony counting was performed on Petri dishes. For fungal identification, we used lactophenol blue staining, and Gram staining was employed for bacterial classification. Microclimatic conditions were continuously monitored using a data logger equipped with a USB connection. The results revealed microbial loads ranging from 220 to 921 CFU/m³, with temperatures fluctuating between 18.2 and 18.6°C, and relative humidity levels within the range of 60.8% to 64.7%. The identification of fungal genera, including Aspergillus, Penicillium, and Cladosporium, as well as both Gram-positive and Gram-negative bacteria, was successfully achieved. An interesting observation emerged, indicating a corresponding increase in the concentration of fungal aerosols as relative humidity levels rose. In conclusion, this study emphasizes that microclimatic conditions, especially relative humidity, may increase the risk of biodeterioration within the library. [ABSTRACT FROM AUTHOR]

Published

2024

38. Repairing and destructive effects of microorganisms in buildings.

Author

CÓRDOVA ALBORES, LILIANA CAROLINA and RÍOS LLAMAS, CARLOS

Subjects

LITERATURE reviews, PARALLEL processing, SUSTAINABILITY, BIODEGRADATION, MICROORGANISMS

Abstract

Copyright of ESTOA: Revista de la Facultad de Arquitectura y Urbanismo de la Universidad de Cuenca is the property of ESTOA Revista de la Facultad de Arquitectura y Urbanismo de la Universidad de Cuenca and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

39. INHIBITORY EFFECT OF PLANTS EXTRACT AGAINST THE FUNGAL GROWTH ON THE ARCHAEOLOGICAL SANDSTONES IN TELL-BASTA OPEN AREA.

Author

Elnaggar, M., Ghally, M., Adam, M., and Mansour, M.

Subjects

FUNGAL growth, PLANT extracts, X-ray fluorescence, PLANT growth, SCANNING electron microscopy

Abstract

Copyright of Egyptian Journal of Archaeological & Restoration Studies is the property of Sohag University, Archaeological & Restoration Center and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

40. Biofilms and Biodeterioration: The Case of an Ancient Indian Monument.

Author

Sachdeva, Saloni, Srivastava, Priyansh, Alam, Nawaz, and Sarethy, Indira P.

Subjects

BIOFILMS, SEDIMENTARY rocks, MICROORGANISMS, CHLOROPHYLL, ECOLOGICAL succession

Abstract

Historical buildings are substantially built with sedimentary rocks, especially limestone, and form an important component of a country's cultural heritage. The monuments are exposed to external environmental forces (humidity and temperature) that facilitate the proliferation of microorganisms and biofilms in an ecological succession. Feroz Shah Kotla is an ancient monument in Delhi, India, dating back to 1354 ad, and constructed of limestone, and with a discoloured façade now. The main objective of the present study was to characterise the biofilm present in areas of monuments exposed to sun and shaded areas, as influenced by two seasons—winter and monsoon (rainy), in terms of moisture, chlorophyll, protein and exopolysaccharide (EPS) as a function of carbohydrate concentration. The moisture, protein and EPS contents were higher in samples obtained from sun-exposed areas of rainy season samples and least in shaded areas of winter samples, while the chlorophyll content was highest in sun-exposed winter samples. The ICP-MS analysis showed that Ca concentration was highest (15,967.92 µg−1). Scanned electron microscope images show the presence of coccoid, bacillus and filamentous forms of microorganisms, and sparser in the dry season. The results of the present study provide significant clues that the deterioration of such ancient monuments is correlated to the establishment and continued presence of biofilms which eventually weaken and corrode the surface; appropriate conservation actions can be congruent in targeting biofilms successfully. [ABSTRACT FROM AUTHOR]

Published

2024

41. Eco-Friendly Preservation of Pharaonic Wooden Artifacts using Natural Green Products.

Author

Geweely, Neveen S., Abu Taleb, Amira M., Grenni, Paola, Caneva, Giulia, Atwa, Dina M., Plaisier, Jasper R., and Ibrahim, Shimaa

Subjects

GREEN products, NATURAL products, THYMES, BASIL, ESSENTIAL oils, PLANT extracts, ANTIFUNGAL agents, CARYOPHYLLENE

Abstract

Featured Application: The cross-disciplinary investigation conducted here utilized natural green products (essential oils and plant extracts) as effective eco-friendly antifungal agents for the preservation of archaeological wooden artifacts. The biodeterioration of wooden cultural heritage is a severe problem worldwide and fungi are the main deteriorating agents. The identification of effective natural products, safer for humans and the environment, is a current challenge. Ten deteriorated archaeological objects (a wooden statue of a seated man, an anthropoid wooden coffin with a cartonnage mummy of Nespathettawi, and a wooden box of Padimen's son), stored at the Egyptian museum in Cairo, were considered here. The wood species of the three most deteriorated objects were previously identified as Acacia nilotica, Ficus sycomorus, and Tamarix gennessarensis. Twenty-six fungal species were isolated and identified from the wooden objects and the four most frequent species belonged to the genus Aspergillus. Fourteen fungal species among those isolated showed the greatest biodeterioration activity on the experimental wood blocks of the archaeological objects. The antifungal activities of several eco-friendly plant essential oils (from cinnamon, eucalyptus, frankincense, geranium, lavender, lemongrass, menthe, rosemary, tea tree, and thyme) and plant extracts (from basil, eucalyptus, henna, melia, and teak) were tested against the fungal species with the greatest biodeterioration activity. The essential oils (Eos) were more effective than the plant extracts. Thyme EO, followed by geranium and cinnamon ones, was the most active (minimum inhibitory concentrations: 0.25–1 µL/mL). These EO; also showed inhibitory effects on the enzymatic activities (cellulase, amylase, and protease) of the four most dominant fungal species. Thymol and p-cymene were the two main components of thyme oil, while geraniol and beta-citronellol were those of geranium oil; eugenol and caryophyllene were those of the cinnamon EO. Thyme oil applied to the most deteriorated experimental aged A. nilotica wooden cubes inoculated with the four highly frequent fungal species was effective in wood preservation. Moreover, no significant interference was observed in the wood before and after thyme treatment. Thyme oil seems to be a promising eco-friendly antifungal agent for the preservation of archaeological wooden artefacts. [ABSTRACT FROM AUTHOR]

Published

2024

42. Stealing from Phytotherapy—Heritage Conservation with Essential Oils: A Review, from Remedy to Sustainable Restoration Product.

Author

Reale, Rita, Medeghini, Laura, and Botticelli, Michela

Abstract

Essential oils represent a good alternative to chemical biocides as they have antiseptic, antibacterial and antifungal properties, inhibiting the formation and proliferation of biofilms which can occur on outdoor and indoor surfaces of ancient and modern artworks. In this review, we illustrate how their antimicrobial properties, known since antiquity in phytotherapy, have been studied and tested for conservation purposes since the 1970s. In vitro tests on a wide range of plant extracts and in situ applications of specific volatile compounds have shown selective antibacterial and antifungal properties after the individual action of pure components or as the synergic effects of pre-determined mixtures. The review emphasizes the broad spectrum of materials—organic and inorganic—that essential oils can be applied to as biocides and finally emphasizes how the demand for commercial solutions has rapidly grown in bioconservation. The review demonstrates how research on the subject has been powerfully boosted by the ecofriendly and harmless character of essential oil applications, which makes them one of the most sustainable options in heritage conservation nowadays. The review elucidates how research is developing novel solutions for the application of EO blends—like encapsulation and microemulsions—and their optimization in commercial products for heritage conservation. [ABSTRACT FROM AUTHOR]

Published

2024

43. Essential oils and extracts of plants as biocides against microorganisms isolated from the ruins of the Roman city of Conímbriga (Portugal).

Author

Mateus, Dina M. R., Ferraz, Eduardo, Perna, Vera, Sales, Pedro, and Hipólito-Correia, Virgílio

Subjects

ESSENTIAL oils, PLANT extracts, BIOCIDES, VEGETABLE oils, CARBONATE rocks, ETHANOL, CARBONATES

Abstract

Biodeterioration of monumental complexes is in large part due to the proliferation of various microorganisms that attack the physical–chemical structures of support materials. Various conservation and restoration interventions use commercial biocides of synthetic origin, which exhibit some human and environmental toxicity and sometimes side effects on support materials. The main objective of this work is the assessment of new biocides obtained from endemic Mediterranean plants, to be used in the preservation of cultural heritage with the goal of contributing to the sustainable use of ecosystems and to the development of Mediterranean local communities. The biocidal potential of essential oils (EOs) and solvent extracts (SEs) (ethanol and n-hexane) obtained from four plants were evaluated: Thymus mastichina (Tm), Mentha pulegium (Mp), Foeniculum vulgare (Fv), and Lavandula viridis (Lv). Microorganisms collected at an emblematic site of Portuguese cultural heritage, the ruins of the Roman city of Conímbriga, were used to evaluate the biocidal activity of the EOs and SEs. It can be concluded that (i) SEs did not exhibit fungicidal nor bactericidal activity, except for one fungus specie; (ii) biocidal activity of EOs depends on the microorganism specie. The EOs showed a relative average biocidal activity (when compared to the commercial biocide Biotin T (1% v/v)) of 64%, 32%, 30%, and 25% for Mp, Fv, Lv, and Tm. On carbonate rocks, the application of Fv and Mp EOs up to 3 layers do not promote significant color/tonality changes in the surface of the rock. And the application of three layers of Lv and four layers of Fv, Mp, and Lv OEs only promote the occurrence of blurs or stains (variation of tonality) on rocks that presents very low porosity. It can also be noted that the EO of Mp has the broadest spectrum of activity. The results allow considering the use of Mp, Fv, Lv, and Tm EOs as valid alternatives to commercial biocides, providing a prospective application in the field of green conservation of building heritage. [ABSTRACT FROM AUTHOR]

Published

2024

44. Assessment of the potential effects of plants with their secreted biochemicals on the biodeterioration of archaeological stones.

Author

Elgohary, Yomna M., Mansour, Maisa M. A., and Salem, Mohamed Z. M.

Abstract

Archaeological sites and structures suffer from several factors of deterioration. The present survey focuses on the biodeterioration by plants, which is not less important than the rest of the deterioration factors; moreover, in many cases, it leads to their occurrence. Despite the importance of plants in our lives and their aesthetic appearance around stone monuments, they pose a threat to their survival. Therefore, it is necessary to have such a review to detail this topic and understand its severity by identifying the most common and harmful plant species, the co-factors for their existence, and the mechanism of damage. Physical damage through causing cracks, detachment, and loss of structural integrity and chemical damage from root secretions-biological damage by encouraging microorganisms and insects supported by examples of sites that have been damaged by plants. The results will help to apply appropriate methods of prevention and control by mentioning the advantages and disadvantages of each method. [ABSTRACT FROM AUTHOR]

Published

2024

45. A Review of Plastic Pollution; Conventional and Recent Bioremediation Technologies.

Author

UDEKWU, Chinedum Chukwuemeka, FRANCIS, Uchechukwu Chidiebere, OJETUNDE, Mercy Mayowa, OKAKPU, Joseph Chinemelu, AWAH, Favour Matthew, and AWE, Omoniyi Babajide

Subjects

BIOREMEDIATION, DECORATION & ornament, INTERNET of things, GREENHOUSE gas mitigation, MICROORGANISMS

Abstract

The discovery of the first artificial plastic in 1869, initially known as celluloid and invented by John Hyatt, aimed to replace ivory in ornaments and artistry, reducing the demand for elephant tusks. Hyatt's breakthrough involved dissolving camphor in nitrocellulose and alcohol under heat. While celebrated as a pioneering scientific achievement, little attention was paid to the long-term consequences of plastic proliferation. Today, the widespread use of plastics poses severe threats to marine and terrestrial ecosystems, including habitat competition, water contamination, and the release of environmental toxins, leading to widespread pollution. Developing countries, such as Nigeria, face disproportionate impacts due to the global surge in plastic production and consumption, which outpaces efforts in degradation and recycling. This article reviews the environmental effects of biodegradable (BPs) and non-biodegradable plastics (NBPs), focusing on disposal challenges and management strategies in such regions. It explores microbial degradation as a sustainable solution, synthesizing data from academic databases (PubMed, Scopus, Web of Science) spanning 2000 to 2023. Studies were screened based on relevance to plastic production, usage, disposal methods, and environmental outcomes, particularly in developing countries. The findings highlight that while developed nations manage plastic waste effectively through stringent regulations and innovative recycling, developing countries struggle with inefficient disposal methods, like landfilling and incineration, which contribute to soil and water contamination and greenhouse gas emissions. Microbial degradation is a promising, cost-effective approach to naturally breaking down plastics. The study advocates for enhanced research into microbial degradation and adopting bioremediation technologies globally, emphasizing knowledge sharing and best practices transfer from developed to developing nations. This review underscores the urgency of addressing plastic pollution through sustainable waste management practices, particularly in regions facing significant environmental and health challenges. Prioritizing microbial degradation aligns with environmental sustainability goals and offers a pragmatic solution for tackling plastic waste worldwide [ABSTRACT FROM AUTHOR]

Published

2024

46. Microbial Assessment in A Rare Norwegian Book Collection: A One Health Approach to Cultural Heritage.

Author

Sequeira, Sílvia O., Pasnak, Ekaterina, Viegas, Carla, Gomes, Bianca, Dias, Marta, Cervantes, Renata, Pena, Pedro, Twarużek, Magdalena, Kosicki, Robert, Viegas, Susana, Caetano, Liliana Aranha, Penetra, Maria João, Silva, Inês, Caldeira, Ana Teresa, and Pinheiro, Catarina

Subjects

CULTURAL property, NUCLEOTIDE sequencing, RARE books, DUST, MICROBIAL contamination, COLONIZATION (Ecology), AZOLES

Abstract

Microbial contamination poses a threat to both the preservation of library and archival collections and the health of staff and users. This study investigated the microbial communities and potential health risks associated with the UNESCO-classified Norwegian Sea Trade Archive (NST Archive) collection exhibiting visible microbial colonization and staff health concerns. Dust samples from book surfaces and the storage environment were analysed using culturing methods, qPCR, Next Generation Sequencing, and mycotoxin, cytotoxicity, and azole resistance assays. Penicillium sp., Aspergillus sp., and Cladosporium sp. were the most common fungi identified, with some potentially toxic species like Stachybotrys sp., Toxicladosporium sp., and Aspergillus section Fumigati. Fungal resistance to azoles was not detected. Only one mycotoxin, sterigmatocystin, was found in a heavily contaminated book. Dust extracts from books exhibited moderate to high cytotoxicity on human lung cells, suggesting a potential respiratory risk. The collection had higher contamination levels compared to the storage environment, likely due to improved storage conditions. Even though overall low contamination levels were obtained, these might be underestimated due to the presence of salt (from cod preservation) that could have interfered with the analyses. This study underlines the importance of monitoring microbial communities and implementing proper storage measures to safeguard cultural heritage and staff well-being. [ABSTRACT FROM AUTHOR]

Published

2024

47. Sulfate Reducing Bacterial Corrosion of Mild Steel in Liquid and Solid Media.

Author

Sattar, Sanaullah, Hussain, Ali, Qazi, Javed Iqbal, Javid, Arshad, and Mehmood, Shahid

Abstract

This study was carried out to check the corrosive impact of sulfate-reducing bacteria (SRB) on mild steel coupons in solid and liquid media under two variable nutritional conditions. The bacterial species for the experimental trials was isolated from buried corroded metallic installment and found motile, Gramnegative, non-spore former and identified by 16S rRNA gene sequencing as Desulfovibrio desulfuricans. The corrosive impact of SRB on steel coupons was performed in water as liquid medium and the processed clay as the solid medium without and with the provision of Postgate B medium. After 60 days of anaerobic incubation, corrosion rate (CR) and average percent weight loss (APWL) of the steel pieces were calculated. Higher CR and APWL were observed in the liquid medium (water) than in the solid medium (clay). The CR and APWL in water were 249 ± 2 μg dm-2 d-1 and 4.16 ± 0.25 %, respectively, while the corresponding figures for CR and APWL in clay were 108 ± 2 and 1.88 ± 0.29, respectively. In addition, the CR and APWL were higher in the presence of Postgate B medium compared to the medium without it. X-ray diffraction (XRD) and Fourier transform infrared (FTIR) spectroscopic analyses reveals the presence of FeS in the corrosion product. Our findings of this study will be helpful for devising corrosion-protecting strategies. [ABSTRACT FROM AUTHOR]

Published

2024

48. Deterioration-associated microbiome of a modern photographic artwork: the case of Skull and Crossbones by Robert Mapplethorpe.

Author

Petraretti, Mariagioia, De Natale, Antonino, Del Mondo, Angelo, Troisi, Romualdo, De Castro, Olga, Mormile, Nicolina, Avino, Mariano, Tortino, Gennaro, Graziano, Giuseppe Oreste, Vergara, Alessandro, and Pollio, Antonino

Abstract

The preservation of cultural heritage, including ancient photographic materials, is of paramount importance in the field of conservation science. In this context, the microbial diversity of 'Skull and Crossbones', a 1983 photograph by Robert Mapplethorpe printed on silver gelatine, was assessed. We employed both culture-dependent and culture-independent methods to characterize microbial communities inhabiting this artwork. Vibrational Raman micro spectroscopy and FT-IR spectroscopy were utilized to assess the chemical degradation condition and characterize the chemical components of the silver gelatin print. The combination of molecular sequencing methods (Sanger and HTS approach) and non-invasive vibrational spectroscopy yielded valuable insights into the microbial communities thriving on photographic material and the chemical degradation of the print. Isolated fungal strains were added to the Fungal Collection at the University of Naples Federico II, and their deteriorative potential was investigated by adding substrates, commonly used in canvas photographs to the culture media. These results establish a link between microbial communities colonizing ancient photographic materials, paper decomposition, and the enzymatic patterns of the retrieved microorganisms. This information is invaluable for understanding and addressing biodeterioration progression on valuable works of art, such as historical photographs, which remain understudied. [ABSTRACT FROM AUTHOR]

Published

2024

49. Exploring airborne fungal contaminations and air quality pollution in nine ancient stone temples, Surin, Thailand.

Author

Pathomsiriwong, Wattanachai, Aroonsrimorakot, Sayam, Taratima, Worasitikulya, Maneerattanarungroj, Pitakpong, and Reanprayoon, Pradub

Subjects

AIR quality, AIR pollution, INDOOR air quality, MICROBIOLOGICAL aerosols, INDOOR air pollution, TEMPLES, PRINCIPAL components analysis

Abstract

This study provided crucial insights into the concentrations of airborne fungi, environmental parameters, and atmospheric pollution in Thailand's ancient stone temples. Airborne fungi were identified based on morphological characteristics. Airborne fungi, meteorological parameters, and atmospheric pollutants concurrently assessed during each sampling event, evaluating indoor/outdoor ratio. Prevalent genera included Penicillium (14.36%), Aspergillus (10.94%), Cladosporium (10.74%), Rhizopus (6.31%), and Fusarium (5.90%), with an average fungi concentration of 4884.46 ± 724.79 CFU/m3. Eighteen fungal species out of the 64 airborne fungi identified were well-known serious pathogenic agents, contributing not only to structural deterioration but also to human health. Significant variations were observed between indoor and outdoor environments and across diverse landscapes, particularly for PM10 (ranging from 43.47 to 121.31 µg/m3) and PM2.5 (ranging from 29.59 to 89.60 µg/m3), with intensive incense burning identified as a prominent source of indoor atmospheric pollution. Historical temples, particularly situated in urban areas, were identified as significant reservoirs of airborne fungi. Correlations between meteorological parameters and pollutants revealed strong associations. Furthermore, principal component analysis (PCA) and cluster analysis elucidated distinct patterns in airborne fungal concentrations and contaminations. This study analyzed environmental factors, pollutants, airborne fungi, and geographical variations from July 2020 to March 2021. Understanding prevalent genera, airborne fungi concentrations, pathogenic species, biodeterioration, and environmental dynamics provided strategies for improving indoor air quality and mitigating airborne fungal contamination in archaeological buildings worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

50. Circinaria persepolitana (Megasporaceae), a new lichen species from historic stone surfaces in Persepolis, a UNESCO World Heritage Site in Iran.

Author

Sohrabi, Mohammad, Paukov, Alexander, Pérez-Ortega, Sergio, Nourozi, Hooman, Fadaie, Hamid, Favero-Longo, Sergio Enrico, Talebian, Mohammad Hassan, and de los Ríos, Asunción

Subjects

*LICHENS, *WORLD Heritage Sites, *STONE, *SPECIES, *SCANNING electron microscopy

Abstract

Persepolis, a UNESCO World Heritage Site in south-western Iran, dates back to more than 2500 years ago, and is colonized by a great diversity of lichen-forming fungi. A survey of the lichen-forming fungi revealed a species abundant in different areas of the cultural site, which turned out to be a new species of the genus Circinaria. The new species, Circinaria persepolitana , is introduced and described on the basis of morphological and molecular data. Circinaria persepolitana is characterized by having a crustose thallus, rimose to areolate, usually with bullate areoles, with an olive green to olive-brown surface and angular to elongate areoles in the marginal zone. Phylogenetic analyses including other species of the genus showed that the new species is phylogenetically close to C. mansourii , C. ochracea and C. reptans. We propose a new combination of Circinaria reptans (Looman) Sohrabi, Owe-Larsson & Paukov. The bioweathering capacity of the new species was also analyzed by scanning electron microscopy, examining the interface between the lichen thallus and the lithic substratum to assess its potential threat to the conservation of heritage surfaces. We found this species to be a potential biodeteriogenic agent, as thalli were closely attached to the lithic substratum and biogeophysical and biogeochemical changes at the rock surface could be associated with the colonization. [ABSTRACT FROM AUTHOR]

Published

2024