首页|期刊导航|分析化学|应用热裂解-气相色谱-质谱联用技术研究微生物对贝叶经木质纤维素的降解机理

应用热裂解-气相色谱-质谱联用技术研究微生物对贝叶经木质纤维素的降解机理OA

Application of Pyrolysis-Gas Chromatography-Mass Spectrometry in Studying Microbial Degradation Mechanism of Lignocellulose in Palm Leaf Manuscripts

中文摘要英文摘要

贝叶是东南亚地区极具文化价值的传统书写载体,其主要成分木质纤维素易受霉菌侵蚀,导致材质脆化、信息残缺,严重威胁文物存续.为探究霉菌对贝叶的降解机理,本研究采用热裂解-气相色谱-质谱联用技术(Py-GC/MS),以及从贝叶经文物上提取的青霉菌、肉色曲霉菌和链格孢菌,对在28℃、80%相对湿度下模拟降解5周的贝叶样品进行了系统分析.通过对特征裂解产物的定性与半定量分析,揭示了木质纤维素各组分的降解路径与差异.研究结果表明,全纤维素为优先降解组分,其标志性产物左旋葡聚糖和糠醛的相对含量下降,导致全纤维素与木质素的比值(H/L)从初始的0.64降至第5周的0.56~0.24;木质素同时发生解聚,其热解产物中苯酚的相对含量在降解第1周即由0.09显著增加至0.20~0.24,短链苯酚类物质亦呈上升趋势;木质素的降解存在显著的单体选择性,紫丁香基单元(S)在降解初期相较于愈创木基单元(G)更易被降解,表现为S/G比值在第1周显著下降,但是S与G单体降解在1~5周呈现相对波动趋势.进一步解析了3种典型霉菌对贝叶木质纤维素的降解机理,从分子层面揭示了贝叶木质纤维素各组分的差异化降解路径.本研究为后续贝叶经及其它木质纤维素文物的霉变机理研究与针对性保护策略的制定提供了关键的实验依据与分子标志物.

Palm leaves are traditional writing materials with great cultural value in Southeast Asia.Their primary components,lignocelluloses,are highly susceptible to mold degradation,leading to material embrittlement,information loss,and a serious threat to the preservation of these cultural relics.To investigate the degradation mechanism of palm leaf manuscripts by molds,pyrolysis-gas chromatography-mass spectrometry(Py-GC/MS)was employed to systematically analyze the samples inoculated with Penicillium sp.,Aspergillus carneus,and Alternaria sp.isolated from palm leaf manuscripts,after 5 weeks of simulated degradation at 28℃and relative humidity of 80%.Qualitative and semi-quantitative analysis of characteristic pyrolysis products revealed the degradation pathways and differences among lignocellulose components.The results indicated that holocellulose was the preferentially degraded component,as evidenced by a decrease in the relative content of its marker products,such as levoglucosan and furfural,leading to a reduction in the holocellulose-to-lignin(H/L)ratio from an initial 0.64 to a range of 0.56-0.24 at the fifth week.Simultaneously,lignin underwent depolymerization,with the relative content of phenol in its pyrolysis products increasing significantly from 0.09 to 0.20-0.24 within the first week of degradation,accompanied by an upward trend in short-chain phenols.Lignin degradation exhibited notable monomer selectivity,as syringyl(S)units were more readily degraded in the initial stage compared to guaiacyl(G)units,reflected by a significant decrease in the S/G ratio during the first week,however,the degradation of S and G monomers showed relative fluctuations between the first week and the fifth week.This study systematically clarified the degradation mechanism of palm leaf lignocellulose by three typical mold species and represented the first application of Py-GC/MS to reveal the differential degradation pathways of lignocellulose components in palm leaf manuscripts at the molecular level.This research provided crucial experimental evidence and molecular markers for subsequent studies on the mold degradation mechanisms and targeted conservation strategies for palm leaf manuscripts and other lignocellulose-based cultural relics.

李路希;王瑛;杨琴;成小林

中国国家博物馆,北京 100006中国国家博物馆,北京 100006中国国家博物馆,北京 100006中国国家博物馆,北京 100006

热裂解气相色谱质谱微生物降解木质纤维素贝叶经降解机理

Pyrolysis-gas chromatography-mass spectrometryMicrobial degradationLignocellulosePalm leaf manuscriptsDegradation mechanism

《分析化学》 2026 (3)

464-471,中插32-中插36,13

国家重点研发计划项目(No.2022YFF0903904)资助. Supported by the National Key Research and Development Program of China(No.2022YFF0903904).

10.19756/j.issn.0253-3820.251284

评论