Lens or camera fungus is the popular name for the infestation of optical devices such as lenses, low pass filter (OLPF) or the camera sensor, by fungal threads (

mycelium Mycelium (plural mycelia) is a root-like structure of a fungus consisting of a mass of branching, thread-like hyphae. Fungal colonies composed of mycelium are found in and on soil and many other substrate (biology), substrates. A typical single ...

). By germination of fungal spores and further spore formation, the infestation can spread beyond the initial fungal network. The sensor or glass surfaces of the lens are clouded by the fungal attack and lens coatings may be etched away. The fungus can range from small, barely visible points to an irregularly spreading mesh, to complete "blindness" of the optics. Fungus low pass filter camera sensor

The fungi that attack surfaces belong to the groups of water mold (

Oomycetes Oomycota forms a distinct phylogenetic lineage of fungus-like eukaryotic microorganisms, called oomycetes (). They are filamentous and heterotrophic, and can reproduce both sexually and asexually. Sexual reproduction of an oospore is the result ...

) and sac fungi (

Ascomycota Ascomycota is a phylum of the kingdom Fungi that, together with the Basidiomycota, forms the subkingdom Dikarya. Its members are commonly known as the sac fungi or ascomycetes. It is the largest phylum of Fungi, with over 64,000 species. The def ...

, especially the

fungi imperfecti The fungi imperfecti or imperfect fungi, are fungi which do not fit into the commonly established taxonomic classifications of fungi that are based on biological species concepts or morphological characteristics of sexual structures because thei ...

). "The lens fungus" is not a specific type of fungus.

Food source, and growth

The lens fungus does not feed on the glass itself, but on materials that were used in the manufacture of the optics and/or that adhere to it (leather, paint, wood, putty, adhesives, fibers). Lens surfaces can be attacked if organic material has deposited on them, such as fingerprints, vapors from plastics or grease. The fungus can also eat its way from the edge of the lens into a layer of cement between cemented lenses.

Cleaning

The fungi can be cleaned from accessible lens surfaces under some circumstances, but irreparable damage to the affected glass surfaces can also occur from (often acidic) metabolic products of the fungus. Cleaning can be easy to very difficult, depending on whether and how the glass has been surface treated. In the case of more expensive lenses, it is sometimes advisable to ask the manufacturer or an optical expert to do the work. In the case of uncoated non-optical glass, such as glass panes and drinking glasses, similar fungal glass damage or clouding of the glass due to periodically changing humidity and dryness can sometimes be remedied by cleaning the glass with a mixture of vinegar and salt. The glass must be thoroughly rubbed with the mixture, then rinsed with water, and then finally polished with a clean cloth.

Prevention

Proper storage of optical devices can prevent fungal growth. The fungus thrives at temperatures of 10C to 35C and relative humidity of 70% or more. Thus, dry and warm storage is recommended, but the temperature should not exceed 50C, and the humidity should not be below 30%, as this could damage the optics. The development of the fungus is also hindered by light. * The relative humidity should be between 30% and 60%. * A temperature of around 40C is preferred to prevent fungal growth. * Optical devices should be dried if necessary before they are packed up, or stored with desiccant. * The surfaces of the front and rear lenses should be kept free from dust, fibres and other organic material, so as not to provide nutrition for fungus. * Light and adequate ventilation should be provided.

References

{{Commons category, Mycelia_on_photographic_lenses, collection of images, videos, and audio file Lenses