‘Bathroom fly’Clogmia albipunctata (Williston, 1893)
Fig_1.1_Clogmia_Albipunctata.jpg
Figure 1. Clogmia albipunctata. Photo by Keith Ruebeling and licensed under Creative Commons

Table of Contents

1. ****Overview
2. ****Pest control
2.1 Human Health
3. ****Natural History and Biology
3.1 Habitat
3.2 Global Distribution
3.4. Life Cycle
3.5. Diet
4. Taxonomy and Systematics
4.1. Classification
4.2. Synonyms
4.3. Type Information
4.4. Phylogeny

1. Overview

Fun fact #1: This species is also known as moth fly. Upon closer look, it does resemble a moth!
drain-fly_l.jpgFig_&.jpg
Figure 2. Comparison of moth fly (left) and a moth (right). Left photo by Poulin's Pest Control (permission pending). Right photo by Ashley Bradford licensed under Creative Commons License.

The bathroom fly [1] (Clogmia albipunctata) (Williston, 1893) also commonly known as the drain fly, filter fly or sewage fly is most commonly found in under used bathrooms all over the world. Just like other urban flies, the bathroom fly is considered a nuisance and may cause certain health problems [2] .

2. Pest control

Fun fact #2: Caffeine causes high death rate in bathroom fly and disrupts the development of their brain and sex organs [3] . Good news for coffee lovers!

If you have been away on vacation or haven’t used a bathroom in while, you may get freaked out when you see a swarm of tiny flies on your bathroom walls. They are likely to be bathroom flies if,
  • they are grey in colour,
  • they have a very small, hairy body slightly smaller than a grain of rice,
  • they are bad at flying, appearing to be hopping instead [4] .
Learn how to get rid of bathroom flies by watching the video below!


Video 1. Drain Fly Control and Treatment by Do It Yourself Pest Control. Obtained from YouTube under fair use.
Usually, a bathroom fly problem will go away on its own once you start to use the bathroom frequently. After removing the drain flies that you see, be it drowning them or swatting them, start flushing toilets and running water in your sinks. This removes stagnant water where their larvae lives [5] .

Fig_2.1_Pipebrush.jpg
Figure 3. Pipe brush for sewer cleaning. Photo from AliExpress.com under fair use.
To prevent future infestations:
  • Clear the sludge that have accumulated in the sewer regularly. This removes the feeding and breeding site.
  • Make sure that there are no stagnant water and keep the bathroom as dry as possible.
Step-by-step guides on removing bathroom flies are found here and here.

However, because of their size, these flies can easily pass through the drainage covers, small cracks and openings and land on your bathroom. If your drain fly problem persists for more than two weeks, this may be due to a breeding site outside of your home. In that case, seek the help of professional pest controllers [6] .

2.1 Human Health

Fun fact #3: Hairs of bathroom flies are different from ours! They help the fly sense the environment and resists water.

Bathroom flies have been known to be opportunistic agents of myiasis, a condition where the larvae develop inside the bodies of mammals. They can enter the human body via the urinary, nasal and intestinal tract [7] [8] [9] [10] . However, these cases are rare as bathroom flies do not have a preference or need to develop in a host. Usually, myiasis is caused by accidental ingestions of eggs or early-stage larvae in contaminated food [11] .

Fig_2_Hairs.jpg
Figure 4. Hairs on wing of Clogmia albipunctata. Photo by W.P. Armstrong, Palomar College.edu.

When the hairs of these flies are inhaled due to over-infestations indoors, respiratory problems may occur [12] . Also, hairs on the bathroom flies increases its surface area and may be contaminated with bacteria when they move through the sewage, which can infect humans upon contact [13] .

3. Natural History and Biology

Watch the video below for an interesting description of the bathroom fly by a YouTube user.


Video 2. Description of bathroom flies by Eric Hufschmid. Obtained from YouTube under fair use.

3.1 Habitat

The natural habitat of bathroom fly is in mangroves where the larvae can thrive on aquatic, semi-aquatic habitats, decaying matter and many microhabitats of the forest floor [14] . With rapid urbanisation throughout the world, urban habitats similar to mangroves forests floor such as sewage systems provide opportunities for them to thrive in [15] .

3.2 Global Distribution

This species is originally distributed in the tropics [16] but is widespread throughout the world [17] [18] [19] , due to export of contaminated fruits and vegetables in the 1990s [20] .

Fig_3_distribution.png
Figure 5. Map of the world indicating where specimens of Clogmia albipunctata are stored (Global Biodiversity Information Facility, 2017) [21] . Disclaimer: This map only shows where the specimens are stored. Global distribution is probably much more widespread.

Singapore being a city with high rise buildings and vast sewage systems is an ideal habitat for the bathroom fly. They are commonly found in public toilets of MRT and petrol stations.

3.4. Life Cycle

Fun fact #4: Adult flies survived for about 12 days and therefore you may want to contact a professional if your bathroom fly problem persists for more than 2 weeks. Not so fun after all!


Before mating, the female needs to be impressed by the dance moves of the male. Watch the video to learn some impressive dance moves!


Video 3. Mating behaviour of bathroom flies by Roger Pratt. Obtained from YouTube under fair use.
As with other flies, bathroom flies undergo complete metamorphosis with egg, larval, pupal and adult stages [22] . The life cycle starts when female lay eggs in moist organic matter and ends at the adult stage. Eggs hatch in about 3 days. Larvae are divided into 4 stages and last for about 18 days before pupation. Adults emerge about 5 days after pupation, mates immediately and lay eggs about 3 days later. A total of about 27 days is required for the life cycle to complete [23] . Depending on conditions such as temperature and humidity, the time taken for the life cycle to complete may vary [24] .

Fig_5_life cycle.png
Figure 6. Life cycle of Clogmia albipunctata adapted from Jiménez-Guri et al., 2014.

3.5. Diet

Just like typical flies, the bathroom flies feed on different food sources at different stages. Larvae feed on a bacterial slime of decaying organic matter often built up in the plumbing of drains. This may be beneficial to prevent clogging of pipes and drains [25] . Alternatively, the larvae can feed on piles of wet leaves of other organic materials. Pupae do not feed. Adults feed on nectar and other liquid sugars which means they do not bite humans for food nor require blood for producing eggs [26] .

4. Taxonomy and Systematics

4.1. Classification

Learning time!: Classifying living things is important for the understanding and scientific study of life. Living things are classified based on similar characteristics that are shared among one another. For more information on how living things are classified, click here.


Class: Insecta

Order: Diptera

Suborder: Nematocera

Family: Psychodidae

Subfamily: Psychodinae

Genus: //Clogmia// Enderlein, 1937

The above classification is adapted from the Universal Protein Resource (UniProt).

4.2. Synonyms

Learning time!: Have you ever wondered how a species is name? Naming a species is a complicated business and scientists have created a code dedicated for this. Just like how laws are passed to determine what are lawful conducts or misconducts in a country, International Code of Zoological Nomenclature determines the correct way that a species should be named.

“I am known by many names, but you may call me...Tim.”
― Graham Chapman from Monty Python and the Holy Grail

Many synonyms are attributed to this species due to the complexity of the taxonomic history of its family Psychodidae[2]. The genus Clogmia was considered to be synonym for Telmatoscopus for a long time while many other independent descriptions of this species resulted to many less common synonyms[2].


Psychoda albipunctata (Williston, 1893) (Original description)
Telmatoscopus meridionalis (Eaton, 1894)
Psychoda snowii (Haseman, 1907)
Psychoda albonigra (Brunetti, 1908)
Telmatoscopus albipunctatus (Tonnoir, 1921)
Psychoda erecta (Curran, 1926)
Clogmia albipunctata (Enderlain, 1937)
Telmatoscopus albipunctatus (Vaillant, 1972)

While most medical literature still refer to this species as Telmatoscopus albipunctatus, Clogmia albipunctata is considered the valid name by most taxonomists [27] .

4.3. Type Information

Learning time!: A type species may not be representative of the genus. Just like how apple does not represent fruits, bathroom fly does not represent the genus Clogmia. To learn more about how a type species is designated, visit the International Code of Zoological Nomenclature website.

Type locality: Havana, Cuba
Kind of type: Lectotype
Depository of type: National Museum of Natural History, Washington, D.C., United States of America [28]

Psychoda albipunctata Williston, 1893, now regarded as a synonym of Clogmia albipunctata, is the type species for the genus Clogmia[3].

4.4. Phylogeny

Learning time!: Scientists learn how species are related to one another by creating phylogenies. Just like how you and your cousin is related based on common ancestry (grandparents), all life forms are related to one another evolutionarily based on common ancestry. Click here to watch a video explanation of the tree of life by David Attenborough.

The bathroom fly belongs to the family Psychodidae and the phylogenetic relationships of this family is controversial as different studies have established different phylogenies for this family [29] .

A recent study conducted by Jiménez-Guri et al. suggests that Psychodomorpha (taxon that includes Psychodidae) is sister group to Branchycera and thus, not a sister group with Neodiptera. This is in contrast with a previous study conducted by Wiegmann et al. which concluded that Psychodidae is a sister group to Neodiptera and this divergence happened around 250 million years ago [30] .

By comparing the methods of both study, we can safely conclude that the phylogeny established by Jiménez-Guri et al. may be more accurate because more data were considered when establishing the character matrix and nuclear genes were used. The study conducted by Jiménez-Guri et al. uses a more advanced method (phylome reconstruction [31] , where whole genomes of species are used as the seed) which, in this case, compares 160 genes that were further analysed using maximum likelihood [32] (bootstrap support = 91%). On the other hand, Wiegmann et al. used a nucleotide set consisting of 12 nuclear protein-coding genes, 18S and 28S ribosomal DNA, and complete mitochondrial genomes (bootstrap support = 95%). Even though the bootstrap support is higher, the relatively fewer characters being considered in Wiegmann et al. study as compared to Jiménez-Guri et al. calls for doubt on the phylogeny created (imagine comparing your relationship with a stranger using the character eye colour only as compared to more characters being used, which will be more accurate?).
figure 7.2.png
Figure 7. Phylogeny of Diptera. Psychodidae is labeled in red arrow. Edited from Wiegmann et al., 2011.
F8.1_phylo.jpg
Figure 8. Phylogeny of Diptera based on comparison amongst 21 species. Clogmia albipunctata is boxed in red. Edited from Jiménez-Guri et al., 2013.
  1. ^

    Boumans, L., Zimmer, J. Y., & Verheggen, F., 2009. First records of the'bathroom mothmidge'Clogmia albipunctata, a conspicuous element of the Belgian fauna that went unnoticed (Diptera: Psychodidae). Phegea, 37(4): 153­–160.
  2. ^ “Moth Flies in the Home,” by Jacobs, S. B. The Pennsylvania State University, Jan 2014. URL: http://ento.psu.edu/extension/factsheets/moth-flies-in-the-home (accessed on 31 Oct 2017).
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    Sehgal, S. S., Simöes, L. C. G. and Jurand, A., 1977. Effects of caffeine on growth and metamorphosis of moth fly Telmatoscopus Albipunctatus (Diptera: Psychodidae). Entomologia experimentalis et Applicata, 21(2): 174–181.
  4. ^ “10: Get Rid of Drain Flies,” by Ruebeling, K. Larue Pest Management, Inc., August 2017. URL: http://www.pestcontrolservicesforlife.com/10-get-rid-of-drain-flies/ (accessed on 14 Nov 2017).
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    "Drain Flies or Moth Flies," by Townsend, L. Entomology at the University of Kentucky., July 2007. URL: https://entomology.ca.uky.edu/ef615 (accessed on 14 Nov 2017).
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    “How To Get Rid Of Drain Flies,” by Anonymous. Do It Yourself Pest Control., June 2017. (accessed on 14 Nov 2017)
  7. ^

    Nevill, E. M., Basson, P. A., Schroonraad, J. H., & Swanepoel, K. A., 1970. A case of nasal myiasis caused by the larvae of Telmatoscopus albipunctatus (Williston) 1893 (Diptera: Psychodidae). Tropical Diseases Bulletin, 67(4): 512–514.
  8. ^ El-Badry, A. A., Salem, H. K., & Edmardash, Y. A. E. A., 2014. Human urinary myiasis due to larvae of Clogmia(Telmatoscopus) albipunctata Williston (Diptera: Psychodidae) first report in Egypt. Journal of vector borne diseases, 51(3): 247.
  9. ^ Mohammed, N., & Smith, K. G. V., 1976. Nasopharyngeal myiasis in man caused by larvae of Clogmia (= Telmetoscopus) albipunctatus Williston (Psychodidae, Dipt.). Transactions of the Royal Society of Tropical Medicine and Hygiene, 70(1): 91.
  10. ^ Mokhtar, A.S., Braima, K.A.O., Peng Chin, H., Jeffery, J., Mohd Zain, S.N., Rohela, M., Lau, Y.L., Jamaiah, I., Wilson, J.J. and Abdul-Aziz, N.M., 2016. Intestinal Myiasis in a Malaysian Patient Caused by Larvae of Clogmia albipunctatus (Diptera: Psychodidae). Journal of medical entomology, 53(4): 957–960.
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    Tu, W. C., Chen, H. C., Chen, K. M., Tang, L. C., & Lai, S. C., 2007. Intestinal myiasis caused by larvae of Telmatoscopus albipunctatus in a Taiwanese man. Journal of clinical gastroenterology, 41(4): 400–­402.
  12. ^

    Faulde, M., & Spiesberger, M., 2012. Hospital infestations by the moth fly, Clogmia albipunctata (Diptera: Psychodinae), in Germany. Journal of Hospital Infection, 81(2), 134–136.
  13. ^ Faulde, M. and Spiesberger, M., 2013. Role of the moth fly Clogmia albipunctata (Diptera: Psychodinae) as a mechanical vector of bacterial pathogens in German hospitals. Journal of Hospital Infection, 83(1): 51–60.
  14. ^

    Glime, J. M., 2017. Terrestrial Insects: Holometabola – Diptera Overview. Chapt. 12-17. In: Glime, J. M. Bryophyte Ecology. 1 Volume 2. Bryological Interaction.
  15. ^Clogmia albipunctata Williston 1893,” by Irina Blake. Natural History Museum, Lodon., Mar 2009. URL:http://diptera.myspecies.info/content/clogmia-albipunctata-williston-1893 (accessed on 15 Nov 2017).
  16. ^

    Vaillant, F., 1972. Psychodidae in Lindner E.(ed.): Die Fliegen der palaearktischen Region. Stuttgart, 291: 49–78.
  17. ^ Jezek, J., Lukáš, J., Kvifte, G. M., & Oboňa, J., 2012. New faunistic records of non-biting moth flies (Diptera: Psychodidae) from the Czech Republic and Slovakia. Klapalekiana, 48: 121–126.
  18. ^ Kvifte, G. M., Stokkan, M., & Wagner, R., 2016. Review of the Psychodinae from Mallorca, Spain, with description of Pericoma unipennata, sp. n. (Diptera, Psychodidae). ZooKeys, 577: 149.
  19. ^ Ciliberti, P., Dek, N.J. and Kvifte, G.M., 2017. Three species of moth flies (Diptera: Psychodidae) new for the Netherlands. Entomologische Berichten, 77(2): 62–65.
  20. ^ Boumans, L., 2009. De WC-motmug Clogmia albipunctata, een opvallend maar onopgemerkt element van onze fauna (Diptera: Psychodidae). Nederlandse Faunistische Medelingen, 30: 1–10.
  21. ^ Clogmia albipunctatus (Williston, 1893) Williston, 1893 in GBIF Secretariat (2017). GBIF Backbone Taxonomy. Checklist Dataset https://doi.org/10.15468/39omei accessed via GBIF.org on 2017-11-06.
  22. ^

    “Moth or Drain Flies,” by Theuret, D. and Gerry, A. University of California Statewide IPM Program, Mar 2014. URL: http://ipm.ucanr.edu/PMG/PESTNOTES/pn74167.html(accessed on 14 Nov 2017).
  23. ^ Jiménez-Guri, E., Wotton, K.R., Gavilán, B. and Jaeger, J., 2014. A staging scheme for the development of the moth midge Clogmia albipunctata. PLoS One, 9(1): p.e84422.
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    Wagner, R., 2004. Fauna Europaea: Psychodidae. Fauna Europaea Web Service version, 2(2).
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    Huerta-Cepas, J., Capella-Gutierrez, S., Pryszcz, L. P., Denisov, I., Kormes, D., Marcet-Houben, M. and Gabaldón, T., 2010. PhylomeDB v3.0: an expanding repository of genome-wide collections of trees, alignments and phylogeny-based orthology and paralogy predictions. Nucleic acids research, 39(suppl_1): D556–D560.
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