Parengyodontium album
Parengyodontium album is a globally distributed fungal species known for breaking down plastics and items of historical importance. Early discoveries of the fungus were found in historical places across the globe, like monuments and museums, being attracted to mainly the materials of stone and paint, and showing its endurance over time in extreme locations. Discoveries in the early 21st century revealed its presence in marine ecosystems, colonizing and breaking down polyethylene, the most abundant plastic in oceans. Marine microbiologists from the Royal Netherlands Institute for Sea Research and collaborators from various international institutions found P. album, along with other marine microbes, living in thin biofilms on plastics scattered throughout the ocean. The fungus and bacteria are found in the Great Pacific Garbage Patch, which is located in the Pacific Ocean, and it is a hub where plastic in the ocean accumulates by the masses. Though many types of bacteria have been shown to break down plastics, Parengyodontium album is one of only four species of marine fungi known to have this capability as of 2024.
Description
Parengyodontium album, also called Engyodontium album, typically grows in moist or waste environments and can be found on common materials like paper, jute, linen, and painted walls. It reproduces through dry, hydrophobic conditions, using a type of spore that allows the fungus to spread through the air and colonize new areas. The fungus forms white, fluffy colonies that can be observed as having clear, colorless undersides. Under a microscope, it displays narrow vegetative hyphae along with fertile hyphae that branch out and bear conidiogenous cells. The spores themselves are smooth, round, and transparent. This fungus, originally described as Tritirachium album Limber, 1940, has undergone several taxonomic changes, initially included in a new genus created for species with verticillately branched conidiophores similar to those of Verticillium but differing in their final zigzag conidia-bearing portion. It was first isolated from a Penicillium colony in a marine biological laboratory, where it was considered a possible contaminant. This fungus is not only common in natural settings but has also been noted for its ability to thrive in human-made environments, and can become pathogenic, particularly in individuals with weakened immune systems.History
As described above, Parengyodontium album has most recently been associated with the Pacific Ocean and the breaking down of plastics. Not only can they be found in the ocean, but they can notably be found in old monuments, museums, libraries, and religious buildings containing wall paints. This includes Leonardo da Vinci's Atlantic Codex dating back to the late Middle Ages. In the past, the organism could also be found in an array of regions across the planet such as Cuban Museums in Central America, stone caverns in North America, and even isolated across territories in Europe. In particular, it has been discovered in Europe in the barracks of the Auschwitz-Birkenau Camp built in 1942. It was also found in caves both from the bare rock of the cave or from wall paintings in the caves and tombs both on the materials themselves or within the air of these locations, often dating from Etruscan and Roman times. Other noteworthy substances where the fungus was isolated were glass windows, wood materials like historical wood staircases of these buildings, paper, plaster, and brick.Parengyodontium album was seen as a variable that can affect and decline the structure of these materials. However, the amount at which they do so varies with each site. In some places, colonization and traces of the fungus were more prevalent and less prevalent in others. Yet, some factors did influence the growth of the fungus. For instance, salt and water or moisture invasion were often present in these sites. Seemingly, it had a liking to humid environments and had a high tolerance to salt. Not too much is known about the effects of temperature on the organism. However, it is generally viewed as an organism that grows well in moderate temperatures and, nonetheless, can still survive in extreme conditions and low temperatures. Yet again, showing its endurance and adaptability. Another example of this is its ability to feed on multiple organic nutrient sources ranging from the low nutrient stone it colonizes on, products in wall paintings, and dead bugs, which have more nutrients.