Stairway to heaven

Here is another nice paper about microbes degrading human buildings. I guess I am just fascinated by that topic! No matter what we build, microbes will find a way in or on, and will start chewing on things.

This paper by a group of Austrian researchers came out a couple of days ago in PLOS ONE, and describes how microbes were threatening to eat up a very old wooden staircase.

Biodeterioration Risk Threatens the 3100 Year Old Staircase of Hallstatt (Austria): Possible Involvement of Halophilic Microorganisms – Guadalupe Piñar, Dennis Dalnodar, Christian Voitl, Hans Reschreiter, Katja Sterflinger – PLOS ONE (OA)

Hallstatt, a UNESCO World Cultural Heritage site, is one of the most important archaeological sites in Austria, containing many excavations from the Bronze Age. Since prehistoric times, this area is known for salt mining. From local burial sites it is known that people who lived here were wealthy, and the salt in the old mines has preserved many of the ancient organic artefacts, such as shoes, clothing and tools, including wooden and leather backpacks.

One of the great findings in Hallstatt’s prehistoric mines is a wooden staircase, built arond 1100 BC. It was discovered in 2004, and is believed to be the oldest known staircase in Europe. To preserve the staircase from earth movements in this area, it was carefully disassembled and brought to the Museum of Natural History in Vienna in 2014, where it was thoroughly analyzed by biologists and chemists. In 2015, it was brought back to Hallstatt and is now on display within the “show-mine“.

 

The staircase of Hallstatt. The 3100 years old staircase is 8 m long and 1.20 wide, and is representative of the construction typical of the Bronze Age.
The staircase of Hallstatt.
The 3100 years old staircase is 8 m long and 1.20 wide, and is representative of the construction typical of the Bronze Age.

Like with many other artefacts from this site, the salty environment in the mines was thought to have preserved microbial growth on the staircase. But as soon as the staircase was moved to Vienna, fungi started to grow on the wood despite attempts to preserve it.

Fungal mycelia developing on the wood and on the old dark deposits on the surface of the stairs
Fungal mycelia developing on the wood and on the old dark deposits on the surface of the stairs

Most of these microorganisms, now growing on the staircase in its new environment, were believed to be airborne contaminants. The authors write in the Discussion:

The knowledge of the nature of the colonizing microbiota was of great concern because
future conservation treatments should be derived from the scientific investigations. To this
end, we analyzed the micro-flora thriving on the wood and on the old patina in order to check
for possible biodegradative microorganisms that might become active under the new storage
conditions.

To investigate the composition of the microorganisms growing on the wood, samples were collected at the Vienna museum using non-invasive contact plates and a-bit-invasive scrapings of the visible mycelia and dark spots. Fungi and bacteria were cultured on a range of different media with variable amounts of salt. Cultured strains were genotyped by amplification and sequencing of the ribosomal ITS region and cellobiohydrolase genes (fungi), or 16S rRNA genes (bacteria). In addition, PCRs were performed directly on DNA extracted from the wood scrapings, and amplicons were analyzed using DGGE and sequencing of clone libraries.

The 26 fungal isolates were affiliated with the phyla Ascomycota and Basidiomycota. Of these, Phialosimplex spp. recovered on media containing 10% NaCl, were the most abundant. Some typical cellulose degraders, namely Stachybotrys spp. and Cladosporium spp. were detected as well. The 59 bacterial strains belonged to Proteobacteria (mainly Halovibrio), Firmicutes (Marinococcus), and Actinobacteria. Twelve archaeal strains were cultured as well including Halococcus and Halorubrum. As with the fungi, most bacterial and archaeal isolates were found on media containing medium to high salt concentrations, up to 20%. Culture-independent sequence analysis of small clone libraries complemented the cultivation findings, detecting some additional uncultivable archaea.

Based on the presence of the cbh-I gene or close similarity to strains with cellulolytic capabilities, many of the microorganisms cultured from the prehistoric staircase are believed to be capable of cellulose degradation.

The results clearly showed the presence of some cellulose degraders that may become active if the requirements for growth and the environmental conditions turn suitable; therefore, these microorganisms must be regarded as a threat to the wood.

Based on these observations, the Vienna museum experts decided to dry the staircase and ship it back to Hallstatt, where it is now on permanent display in a protective chamber. And the story has a happy ending!

The staircase is separated from the visitors by an airtight transparent foil, and is stored by constant conditions: 8—9°C and 69—72% relative humidity. The climate in the showcase, and in the visitor area is permanently monitored by several measuring sensors. Until July 2015 no fungal mycelia could be observed on the staircase.

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Elisabeth Bik

After receiving my PhD at Utrecht University in The Netherlands, I worked at the Dutch National Institute for Health and the St. Antonius Hospital in Nieuwegein. In 2001, I joined the Department of Microbiology and Immunology at Stanford, where I have worked on the characterization of the microbiome of human oral, gastric, and intestinal samples, as well as samples from marine mammals. Since November 2016, I am the new Science Editor at uBiome, a microbiome genomics company enabling citizen science. But you might also find me working on the detection of science misconduct, at my blog Microbiome Digest , an almost daily compilation of scientific papers in the rapidly growing microbiome field, on Twitter at @MicrobiomDigest.

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