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"长江口二号"沉船木/铁复合构件文物的微生物劣化作用研究

黄河周浩周新光朱晶晶杨朔翟杨吕绍武

文物保护与考古科学2026，Vol.38Issue(2)：15-26,12.

文物保护与考古科学2026，Vol.38Issue(2)：15-26,12.DOI:10.16334/j.cnki.cn31-1652/k.20260103914

"长江口二号"沉船木/铁复合构件文物的微生物劣化作用研究

Study on microbial deterioration of wood-iron composite components from the Yangtze River Estuary No.2 shipwreck

黄河 ¹周浩 ¹周新光 ¹朱晶晶 ²杨朔 ²翟杨 ³吕绍武²

作者信息

1. 上海博物馆,上海 200003||馆藏文物保存环境国家文物局重点科研基地(上海博物馆),上海 200231
2. 吉林大学,吉林长春 130012
3. 上海市文物保护研究中心,上海 200031
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摘要

Abstract

As the largest and best-preserved wooden ancient vessel of the Qing Dynasty in China,the Yangtze River Estuary No.2 shipwreck carries rich marine archaeological and historical-cultural value,making its conservation work of great importance and urgency.In this study,X-ray detection and analysis were employed to clarify the distribution characteristics of iron nails within the wood.By combining high-throughput microbial sequencing,genomics and metabolomics technologies,the structural and functional characteristics of the pathogenic microbial community on the ship hull were analyzed,and the results indicated that the deterioration of the wooden hull might contribute to various mechanisms such as iron oxidation,acidic metabolite production,and cellulase secretion.The results of genomic analysis showed that the bacterial community was dominated by the core dominant genera Acidovorax and Hydrogenophaga,while the fungal community was mainly composed of the saprophytic genera Fusarium and Trichoderma.Functional prediction and metabolite identification revealed that the bacterial community's core metabolic pathways focus on carbohydrate and amino acid metabolism,with a rich diversity of organic acid compounds in metabolites,additionally iron ion transport and redox-related pathways were enriched in severely corroded samples.The fungal community exhibits a clear dominance of saprophytic types,forming a synergistic degradation effect with pathogenic types.These findings preliminarily elucidate the molecular biological mechanisms of iron component corrosion and microbial synergistic interactions,providing a scientific basis for investigating the degradation mechanisms of the Yangtze River Estuary No.2 shipwreck.

关键词

"长江口二号"沉船/木/铁复合构件/微生物/协同劣化/文物保护

Key words

Yangtze River Estuary No.2 shipwreck/Wood-iron composite component/Microorganism/Synergistic deterioration/Cultural heritage conservation

分类

社会科学

引用本文复制引用

黄河,周浩,周新光,朱晶晶,杨朔,翟杨,吕绍武.."长江口二号"沉船木/铁复合构件文物的微生物劣化作用研究[J].文物保护与考古科学,2026,38(2):15-26,12.

基金项目

国家文物局文物科学技术研究自筹项目(2023ZCK013)资助（2023ZCK013）

文物保护与考古科学

OACHSSCD

ISSN：1005-1538

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