Biodeterioration of Building Timbers in the High-Water-Activity Built Environment of Nigeria

Moulds have been reported to destroy volumes of timbers in buildings annually. As a result, timber components within the built environment decline and fail to fulfill their basic requirements. This research focused on the isolation and evaluation of the prevalence and effects of deteriorating moulds in the rain forest and swampy rain forest regions of Nigeria where the water activity is as high as 0.7. To accomplish this, decayed timber samples were aseptically collected on buildings from six strategic locations. The samples were serially diluted and inoculated onto Sabouraud Dextrose Agar medium in Petal dishes. The Petri dishes were incubated for 72 h at 30 ~C. Thereafter, moulds were isolated through visual and microscopic observations. The commonly encountered moulds were evaluated and analyzed. It was observed that, prevalence of moulds on buildings used for non residential purpose were higher. There was no significant difference between the prevalence on the components located inside the building and those outside the building. Ceiba pentandra exhibited highest degradation while Masonia altissima resisted most. The most deteriorating moulds were Aspergillus, Mucor, Rhizopus and Gliocladium. The deteriorations of Ceiba pentandra, Afzelia africana, Lophira alata, Anogessus leocarpus and Gossweilerodendron balsamiferum timbers under Aspergillus attack were projected.

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

Over the last decade,the oriented strand board(OSB)market presented meaningful growth.However,as a woodbased 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 ecofriendly 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℃ and 200℃)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.

辽宁奉国寺彩绘泥塑木骨架生物病害研究

辽宁义县奉国寺的彩绘泥塑群中多尊泥塑发生倾斜,初步勘察为木骨架糟朽导致。为确认木骨架糟朽原因,经过现场勘察,采集糟朽木骨架木材、进行树种鉴定、微生物分离和甲虫尸体鉴定。结果显示:两彩绘泥塑木骨架样品分别为硬木松(Pinus sp.)和杨木(Populus sp.);真菌多样性测序结果表明子囊菌门霉菌为优势真菌,从糟朽木材中分离到一株曲霉(Aspergillus sp.),未见其他腐朽菌;虫体经鉴定为鞘翅目象甲科、窃蠹科、皮蠹科和拟步甲科昆虫。辽宁位于木材腐朽危害中等风险区域(D2),分析认为木骨架糟朽的原因主要为窃蠹和象甲科害虫危害导致,根据甲虫的侵染途径和生长特性,推断木骨架木材在应用之初或者维修替换的新木材未进行预处理,没有杀灭虫卵导致虫卵孵化为幼虫,底部被蠹虫幼虫蛀空导致倾斜。经进一步对奉国寺建筑木构件勘察发现部分柱、梁等构件也出现直径3 mm左右蠹虫羽化孔,说明彩绘泥塑所处的古建筑木构也存在类似的虫害。本研究揭示了窃蠹和象科甲虫对彩绘泥塑的破坏影响,说明了彩绘泥塑木骨架与古建筑木构件在加工使用前进行预防性保护的重要性,为彩绘泥塑的生物病害预防和维修工程中木材防虫害预处理提出了建议。

石质文物微生物腐蚀机理研究

危害石质文物的因素很多,微生物降解作用是主要危害因素之一。本工作研究了微生物腐蚀过程的生物化学和生物物理机理,包括细菌、真菌、光合类微生物和地衣等有关微生物的侵蚀作用过程。了解这一过程对于我们管理和保护石质文物具有重要意义。

文化遗产微生物研究方法进展

文化遗产的生物退化与生物降解问题普遍存在。从方法学的角度回顾了针对不同类型文化遗产微生物病害与防治研究中常用的方法和技术,总结了国内外当前所取得的主要研究进展,提出了该领域研究中未来面临的问题和挑战,并展望了应对策略和今后发展趋势。文化遗产微生物研究方法经历了传统培养、显微镜分析、分子生物学技术、酶活性和代谢产物分析以及快速发展的多组学及生物信息学分析等多个阶段,在微生物多样性、群落特征、生理生态学及其退化机理方面的认识已逐渐深入,以文化遗产保护为目标的病害微生物防治技术不断发展。近年来通过新一代测序和宏基因组学技术获得了文化遗产微生物的诸多重要信息,但其作用机理和影响因素的研究还不够。本综述突出了结合传统与现代方法技术开展研究的重要性,旨在为文化遗产微生物学领域研究提供参考和借鉴。

两种硫氧化细菌诱导钢铁腐蚀的电化学评估

两种硫氧化细菌诱导钢铁腐蚀的电化学评估张英，戴明安，王秋（青岛海洋腐蚀研究所青岛２６６０７１）（青岛海洋大学青岛２６６００３）１前言各国学者对由生物的生命活动引起材料的腐蚀（ＭＩＣ）或降解（Ｂｉｏｄｅｔｅｒｉｏｒａｔｉｏｎ）进行了大量的研究，大多数文...

植物胶压裂液杀菌防腐剂的研究与应用

华北油田在配制植物胶水基压裂液时 ,曾使用 40 %甲醛水溶液 (加量 0 .5 %— 1.0 % )为杀菌防腐剂 ,未能控制压裂液的霉腐变质 ,霉变率 (坏罐率 )高达 10 %以上。本文报道的杀菌防腐剂JA 1,为一种有机胺类制剂。在室内实验评价中 ,加量 0 .0 5 %— 0 .5 %的JA 1的防腐效果为甲醛液的 10倍 ;在低温应用条件下 (浅井压裂 )可使交联剂硼砂的用量减少 40 %— 6 0 % ,在高温应用条件下 (深井压裂 )可使压裂液冻胶的运动粘度提高 2— 3.7倍。JA 1在华北油田各地区投入使用以来 (1992— 1999) ,压裂液的霉变率 (坏罐率 )降低到平均仅为 0 .9%

日本高松冢古坟微生物病害及其防治研究概述

高松冢古坟是日本国宝级文化遗产,对其实施的原址保护一度是文物保护界的样板工程和国际典范,然而正是逐渐失控的微生物病害导致古坟解体搬迁至异地保护,复杂的人为介入手段是否有助于墓葬壁画的原址保护,值得更进一步探讨和反思。本研究回顾了高松冢古坟自发掘至今的保护历程,重点总结了侵害古坟石室及壁画微生物类群的调查分析及其防治措施的研究。通过对古坟病害微生物群落特征、环境因素变化及防治干预措施等方面相关文献资料的全面梳理和解读,客观评价了该遗址所取得的研究进展及经验教训,为我国乃至世界其他同类环境中壁画保护提供启示与借鉴。

建筑石材的生物腐蚀

论述了建筑石材的生物腐蚀情况、侵蚀机理和有关的主要微生物的作用 ,讨论了防止石材生物腐蚀的措施 。

地衣对建筑物的生物破坏作用

大量的证据表明地衣可以诱发和加速矿质基质的物理、化学风化过程 ,着生于建筑物表面的地衣能对建筑材料导致明显的生物破坏。其中 ,地衣菌丝在矿质基质中的穿插生长、原植体随环境变化表现出的膨胀收缩、冻融交替等机制对建筑物造成机械破坏。而地衣分泌的草酸等简单有机酸以及大量的高分子有机化合物诱发和促进矿质基质的生物 -化学风化过程。受其影响 ,矿质建材中原生矿物遭受溶解、蚀变 ,并产生多种次生矿物。最终破坏建筑物的坚固程度、缩短其使用寿命、减低其美学价值。

测量船水声换能器透声板防腐涂料测试

针对测量船声学换能器透声板表面腐蚀问题,分析了发生原因和防腐措施的技术途径。提出了兼顾防腐、透声和化学兼容等性能的技术路线,对选择的三种涂料进行声学测试,确定采用在防海生物性能、透声性能和材料间结合性能等方面达到适用的技术方法和涂料。

古建筑、壁画及土遗址中常见害虫防治研究的现状与展望

不可移动文物是反映过去社会生产力发展和社会生活状况的重要实物资料,具有极高的历史、艺术及科学价值,是文物研究的重要对象。长期处于室外环境使不可移动文物遭受各种劣化,由虫害引起的生物劣化是文物损坏的重要原因之一。其中,古建筑、壁画及土遗址3类不可移动文物受虫害影响尤为严重。本文根据文物种类划分阐述了古建筑、壁画及土遗址中主要虫害类型及机理,对当前的文物虫害防治方法进行归纳总结。传统的文物虫害防治以物理、化学治理方法为主。化学方法是较为快速有效的除虫方法,但化学药剂给生态环境带来了较大的污染,且文物自身的脆弱性使化学杀虫剂应用受到限制。当前,多种具有长效性和环境友好性的绿色杀虫剂对传统化学方法进行了极大的改进。此外,利用生物天敌或寄生生物控制害虫的生物防治法不仅对生态系统影响较小,且具有较长持效性,是新型害虫防治研究的热点,但用于防治的生物种类是否会对文物造成危害还有待进一步的研究。文物虫害防治作为一个交叉研究领域,建筑、农业等领域的虫害防治方法对其有较大启发意义和参考价值。最后,本文针对不可移动文物常见害虫的防治研究现状进行讨论和展望,期望为文物害虫防治研究提供参考。

四川乐山大佛地衣与苔藓群落中的微生物多样性

为了探究生物侵蚀微生物的种类,通过高通量测序手段对乐山大佛地衣(lichen,LI)和苔藓样本进行了微生物(细菌、古菌和真菌)多样性分析.结果发现:地衣、活苔藓(living moss,LM)和苔藓残体(dead moss residue,DM)样本中的细菌和真菌组成在组内样本之间能进行聚类,组间差异也能良好区分;在细菌群落中,地衣与活苔藓样本中的细菌组成较为相似,两个样本的优势细菌均为蓝细菌(Cyanobacteria)和醋酸菌(Acetobacteraceae);在真菌群落中,地衣样本的优势真菌是煤炱目(Capnodiales),但其在活苔藓样本中含量较少,活苔藓样本的优势真菌是子囊菌门(Ascomycota),且其在地衣和苔藓残体样本中也有一定含量(7.47%»52.6%);古菌群落的组内差异较大,其中与氮转化相关的泉古菌(soil Crenarchaeotic group,SCG)总体丰度占比较高,并发现了较多未归类古菌(unclassified-k-norank).

The Study of Resistance of Cement Composites against Microbial Attack

The start and the course of bio-corrosion are conditioned by many factors which include biological effects like the influence of vegetation and microorganisms causing the deterioration of materials. The influence of bacteria causing the deterioration of concrete has been linked to the generation of biogenic sulphuric and nitric acids which originate in corrosion process by dissolution of calcium containing minerals from the concrete matrices. This paper primarily focuses on the investigation of influence of sulphur-oxidising bacteria Acidithiobacillus thiooxidans and sulphate-reducing bacteria Desulfovibrio desulfuricans at the resistance degree of cement composites. Various concrete composites with 5% addition of black coal fly ash as cement replacement as well as the reference samples without coal fly ash addition were studied in the experiments environments of sewage system proceeded during 90 days. The The laboratory experiments as well as experiments in situ in real corrosion was manifested by surface changes and weight changes of cement composites samples as well as changes in pH values of leachates. Considerable surface changes were detected in all investigated samples by microscopic methods. Crystals precipitated on concrete samples surface were identified by EDX as mixture of gypsum and ettringite. The roughness increases of surface of cement microscopy. composites were determined by confocal laser scanning

原油及燃料油品生物腐蚀的研究及防治

针对微生物污染对原油及燃料油品的破坏性能,从原油及燃料油品的微生物污染途径,引起原油及燃料油品生物腐蚀的主要微生物种类,原油及燃料油品生物污染的监控和防治等方面,研究了原油及燃料油品的生物腐蚀与防治方法。研究认为:不但好氧微生物腐蚀原油及燃料油品,厌氧微生物也在其中扮演了重要的角色,原油和燃料油品微生物污染是可监控的,防治方法主要有物理方法和化学方法。该研究对能源安全与节能环保具有重要意义。

嘉峪关魏晋墓腐蚀壁画真菌群落组成分析

微生物腐蚀与降解是嘉峪关魏晋墓砖壁画保存过程中所面临的主要问题之一。本研究采用现代分子生物学技术,对造成魏晋墓砖壁画腐蚀的真菌类群进行了检测和分析。通过样品总DNA提取,目标片段扩增,克隆文库构建,序列测定与比对后发现,魏晋墓腐蚀砖壁画真菌序列主要隶属于曲霉属、Phialosimplex属和侧齿霉属。常年受人为扰动,墓室内腐蚀砖壁画真菌多样性下降,群落结构发生改变。墓室常年开放或常年关闭均不利于砖壁画的长久保存。分子技术在快速、准确检测壁画微生物群落组成方面优势明显,应加以推广应用。

古建筑木构件有机型防腐防虫剂制备及其效果

【目的】制备一种环境友好型的水基化有机型防腐防虫微乳剂,以满足古建筑木构件不同生物危害防治需求,因地制宜保护古建筑木结构免受生物败坏。【方法】选择木材防腐效果较好的丙环唑、防霉抑菌的1,2-苯并异噻唑啉-3-酮(BIT)和杀虫活性较高的高效氯氟氰菊酯为主成分,采用助剂添加和乳化技术制备水基化有机型防腐防虫微乳剂,通过稳定性测试、有效成分抗流失性能测试、室内抑菌活性测试、室内防腐性能测试以及野外埋地测试等评价微乳剂的性能和防腐防虫效果。【结果】制备的水基化有机型防腐防虫微乳剂兑水稀释250倍后可稳定存放60天以上且仍保持透明,-25℃下放置过夜未结冰;微乳剂稀释后处理木材的有效成分固着率达90%以上,各有效成分在木材中的固着率与其在水中的溶解度有关,溶解度高的有效成分固着率低;微乳剂处理后木材外观色泽几乎没有变化;微乳剂对木材白腐菌、褐腐菌、霉菌和变色菌抑菌效果良好;处理辐射松边材时,载药量高于161.3 g·m^(-3)(丙环唑与高效氯氟氰菊酯配比为20∶1)时木材质量损失率低于5%,耐腐等级达到I级强耐腐等级;载药量在134.8 g·m^(-3)以上(丙环唑与高效氯氟氰菊酯配比为20∶1)的辐射松处理材埋地半年的腐朽和白蚁蛀蚀完好值皆为10,而未处理材白蚁蛀蚀完好值为5.8。【结论】本研究制备的含丙环唑、BIT和高效氯氟氰菊酯的水基化有机型防腐防虫微乳剂有效成分含量≥10%,低毒,性能稳定,有效成分在木材中固着率高,具有良好的防腐和防白蚁效果,实际应用时可根据古建筑实际生物危害防治需求灵活调节有效成分配比。

宁波东钱湖石刻群微生物病害研究

宁波东钱湖石刻群为第五批全国重点文物保护单位,代表了南宋石刻和石雕的艺术成就。由于所处环境和气候条件的影响,石刻群微生物病害情况较严重。为了尝试筛选适宜的微生物去除方法和防止石刻表面生长微生物的材料,通过微生物种属鉴定、清除方法试验以及防止石刻表面生长微生物的材料筛选,确定了石刻上所生长的微生物种类,初步得出了东钱湖石刻群生物病害治理措施,为南方地区潮湿环境下石刻微生物防治提供了借鉴。

出土木质文物中分离真菌的生长特性研究

【目的】为了解馆藏原位保存的出土木质文物上真菌病害特点,以针对性制定综合保护措施,本研究对南越国宫署遗址原位保存出土木质水槽上分离的11株真菌进行木材败坏测试和生物学特性观察。【方法】将分离的真菌分别表面接种木材,观察对木材表面的影响;通过质量损失率测试各真菌对木材的生物降解程度;并通过对真菌在不同培养基上培养,观察其生长速率、产孢情况和显微特点等生物学特性;利用对峙生长试验研究其相互影响。【结果】从木材表面接种测试观察到枝孢瓶霉菌、木霉菌、福氏拟青霉、篮状菌、黄暗青霉和镰孢菌在接种木材表面产生菌丝或孢子,使木材表面附着霉斑或者菌丝,聚壳座菌和节菱孢霉菌可使木材表面颜色发生显著变化。木材降解测试12周,担子菌纯黄白鬼伞使杨木的质量损失率接近10%,其他10株子囊菌基本未对杨木造成质量损失。PDA培养基上生长速率测试显示:木霉菌生长速度最快,每天生长近35 mm,其次是聚壳座菌、节菱孢霉菌、福氏拟青霉和镰孢菌,每天生长8~13 mm,较为缓慢是纯黄白鬼伞、聚多曲霉菌、黄暗青霉、篮状菌、枝顶孢霉菌和枝孢瓶霉菌,每天生长低于5 mm;除聚壳座菌、节菱孢霉菌和纯黄白鬼伞外,其余真菌均较易在不同培养基上产生孢子。对峙培养观察,木霉菌YN4-5对遗址中其他真菌生长都有一定的抑制作用,抑制率为11.0%~64.6%,对担子菌纯黄白鬼伞的抑制率最大。【结论】分离的11种真菌中8种子囊菌可引起木质文物表面发霉或变色,担子菌纯黄白鬼伞有降解木质文物的风险;其中生长最快的木霉菌可通过竞争生长环境的方式抑制其他真菌生长,对有降解木材作用的纯黄白鬼伞的抑制作用最大,使木质文物降低了生物降解风险,从而分析认为目前该馆藏出土木质文物上的微生态相互作用已经达到一个平衡。

Combined Use of NMR, LC-ESI-MS and Antifungal Tests for Rapid Detection of Bioactive Lipopeptides Produced by Bacillus

The science and technology interact with the art in several ways. Biotechnological coupled with analytical approaches can play an important role in protecting and preserving cultural heritage for future generations. Many microorganisms influenced by environmental conditions are the main responsible for biological contamination in built heritage. Biocides based on chemical compounds have been used to mitigate this problem. Thus, it is vitally important to develop proper remediation actions based on environmentally innocuous alternative. Bacillus specie is emerging as an optimistic alternative for built heritage treatment due to their capacity to produce secondary metabolites with antagonistic activities against many fungal pathogens. Therefore, the intent of this work was to access a rapid evaluation of antifungal potential of bioactive metabolites produced by Bacillus strains and simultaneously their characterization using spectroscopic (NMR) and chromatographic techniques (LC-ESI-MS). The high antifungal activity obtained for Bacillus sp. active compounds produced in this study confirms the great potential to suppress biodeteriogenic fungi growth on historical artworks. Additionally, the proposed methodology allowed to access bioactive metabolites produced without need of the laborious total previous isolation and could be used as a viable alternative to be employed for screening and production of new green biocides.