Microbiome and nitrate removal processes by microorganisms on the ancient Preah Vihear temple of Cambodia revealed by metagenomics and N-15 isotope analyses

Preah Vihear temple is one of the most significant representatives of the ancient Angkorian temples listed as United Nations Educational, Scientific and Cultural Organization (UNESCO) World Heritage Sites. The surfaces of this Angkor sandstone monument are covered with deteriorated materials, broadl...

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Bibliographic Details
Published in:Applied microbiology and biotechnology 2020-11, Vol.104 (22), p.9823-9837
Main Authors: Ding, Xinghua, Lan, Wenshen, Wu, Jiapeng, Hong, Yiguo, Li, Yiliang, Ge, Qingya, Urzì, Clara, Katayama, Yoko, Gu, Ji-Dong
Format: Article
Language:English
Subjects:
Ammonia
Ammonia-oxidizing bacteria
Ammonium
Archaea
Biodegradation
Biodeterioration
Biomedical and Life Sciences
Bioremediation
Biotechnology
Cambodia
Carbon cycle
Carbon sequestration
Community composition
Control
Cultural heritage
Cultural resources
Datasets
Denitrification
Deoxyribonucleic acid
DNA
Environmental Biotechnology
Flora
Genetic aspects
Genetic transformation
Genomics
Historic sites
Historical buildings
Isotope analysis
Life Sciences
Metabolism
Metagenomics
Methods
Microbial colonies
Microbial Genetics and Genomics
Microbiology
Microbiomes
Microbiota
Microorganisms
Next-generation sequencing
Nitrate reduction
Nitrate removal
Nitrates
Nitrates - analysis
Nitrogen
Nitrogen Isotopes
Nitrogen removal
Nutrient removal
Oxidation
Oxidation-Reduction
Phylogenetics
Phylogeny
Sandstone
Sediment samplers
Sediments
Sequence analysis
Sulfur
Temples
World Heritage Areas
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Summary:Preah Vihear temple is one of the most significant representatives of the ancient Angkorian temples listed as United Nations Educational, Scientific and Cultural Organization (UNESCO) World Heritage Sites. The surfaces of this Angkor sandstone monument are covered with deteriorated materials, broadly called “sediments” here, resulting from a long time of weathering of the sandstone. The sediments might adversely affect the ancient sandstone substratum of this cultural heritage, and the potential risk from them is essential information for current strategies and on-going protection and management. The extracted DNA from the sediment samples of this temple was used for Illumina high-throughput sequencing analysis, resulting in approximately 12 Gb of metagenomic dataset. The results of this shotgun metagenomic analysis provided a thorough information of the phylogenetic groups presented in the microbiome of the sediment samples, indicating that potential metabolic activities, involving different geomicrobiological cycles, may occur in this microbiome. The phylogenetic result revealed that the majority of metagenomic reads were affiliated with Proteobacteria , Acidobacteria , Actinobacteria , and Bacteroidetes at the phylum level. The metabolic reconstruction results indicated that the important geomicrobiological cycling processes include carbon sequestration, and nitrogen and sulfur transformation as the potentially active ones in the sediments of the sampling sites. Specifically, the dissimilatory nitrate reduction to ammonium (DNRA) and the newly discovered complete ammonia oxidation (comammox) were retrieved from this metagenomic dataset. Furthermore, the genetic information on the presence of acid-producing processes by sulfur- and ammonia-oxidizing bacteria and archaea in this metagenomic dataset suggested that the microbial flora in these samples has the potential to participate in the degradation of sandstone cultural heritage by producing acids. N-15 isotope amendment and incubation analysis results confirmed the presence of active denitrification, but not anammox activity at this temple. These results are important for our knowledge on the microbial community composition and microbial biodeterioration processes affecting this sandstone cultural heritage and will aid in the protection and management of the ancient Preah Vihear temple. Key Points • Microbiota on Preah Viher temple was analyzed using NGS. • Nitrate-N transformation by DNRA, comammox, a
ISSN:0175-7598
1432-0614
DOI:10.1007/s00253-020-10886-4