Chironomidae , commonly known as non-biting midges or chironomids , are a family of

Nematocera The Nematocera (the name meaning "thread-horns") are a suborder of elongated fly, flies with thin, segmented antenna (biology), antennae and mostly aquatic larvae. This group is paraphyletic and contains all flies except for species from suborder ...

flies Flies are insects of the Order (biology), order Diptera, the name being derived from the Ancient Greek, Greek δι- ''di-'' "two", and πτερόν ''pteron'' "wing". Insects of this order use only a single pair of wings to fly, the hindwin ...

with a global distribution. They are closely related to the families

Ceratopogonidae Ceratopogonidae is a family of flies commonly known as no-see-ums, sand flies or biting midges, generally in length. The family includes more than 5,000 species, distributed worldwide, apart from the Antarctic and the Arctic. A 2025 study fro ...

, Simuliidae, and Thaumaleidae. Although many chironomid species superficially resemble mosquitoes, they can be distinguished by the absence of wing scales and elongated mouthparts characteristic of the

Culicidae Mosquitoes, the Culicidae, are a Family (biology), family of small Diptera, flies consisting of 3,600 species. The word ''mosquito'' (formed by ''Musca (fly), mosca'' and diminutive ''-ito'') is Spanish and Portuguese for ''little fly''. Mos ...

(true mosquitoes). The name Chironomidae stems from the Ancient Greek word ''kheironómos'', "a pantomimist".

Common names and biodiversity

This is a large

taxon In biology, a taxon (back-formation from ''taxonomy''; : taxa) is a group of one or more populations of an organism or organisms seen by taxonomists to form a unit. Although neither is required, a taxon is usually known by a particular name and ...

of insects. Some estimates of the species numbers suggest well over 10,000 world-wide. Males are easily recognized by their plumose antennae. Adults are known by a variety of vague and inconsistent common names, largely by confusion with other insects. For example, chironomids are known as "lake flies" in parts of

Canada Canada is a country in North America. Its Provinces and territories of Canada, ten provinces and three territories extend from the Atlantic Ocean to the Pacific Ocean and northward into the Arctic Ocean, making it the world's List of coun ...

and Lake Winnebago,

Wisconsin Wisconsin ( ) is a U.S. state, state in the Great Lakes region, Great Lakes region of the Upper Midwest of the United States. It borders Minnesota to the west, Iowa to the southwest, Illinois to the south, Lake Michigan to the east, Michig ...

, but "bay flies" in the areas near the bay of Green Bay,

. They are called "sand flies," "muckleheads," "muffleheads," "Canadian soldiers," or "American soldiers" in various regions of the

Great Lakes The Great Lakes, also called the Great Lakes of North America, are a series of large interconnected freshwater lakes spanning the Canada–United States border. The five lakes are Lake Superior, Superior, Lake Michigan, Michigan, Lake Huron, H ...

area. They have been called "blind mosquitoes" or "chizzywinks" in

Florida Florida ( ; ) is a U.S. state, state in the Southeastern United States, Southeastern region of the United States. It borders the Gulf of Mexico to the west, Alabama to the northwest, Georgia (U.S. state), Georgia to the north, the Atlantic ...

. In Kansas, they are known as "midges." However, they are not mosquitoes of any sort, and the term " sandflies" generally refers to various species of biting flies unrelated to the Chironomidae. The group includes the wingless ''

Belgica antarctica ''Belgica antarctica'', the Antarctic midge, is a species of flightless midge, endemic to the continent of Antarctica. At long, it is the largest purely terrestrial animal native to the continent. It also has the smallest known insect genome as ...

'', the largest terrestrial animal of

Antarctica Antarctica () is Earth's southernmost and least-populated continent. Situated almost entirely south of the Antarctic Circle and surrounded by the Southern Ocean (also known as the Antarctic Ocean), it contains the geographic South Pole. ...

. Their larvae produce

silk Silk is a natural fiber, natural protein fiber, some forms of which can be weaving, woven into textiles. The protein fiber of silk is composed mainly of fibroin and is most commonly produced by certain insect larvae to form cocoon (silk), c ...

, and

Chironomus ''Chironomus'' is a genus of nonbiting midges in the subfamily Chironominae of the bloodworm family, Chironomidae, containing several cryptic species that can only be distinguished by experts based on the characteristics of their giant chromoso ...

has been studied as an alternative source of silk other than the silk moth, as it is possible to extract it without killing the animal (

Ahimsa silk Ahimsa silk (: Sanskrit for 'nonviolence'), also known as ''peace silk'' is a method of nonviolent silk breeding and harvesting. Wild silk moths are bred rather than the domestic variety. It allows the completion of the metamorphosis of the silkwo ...

). The biodiversity of the Chironomidae often goes unnoticed because they are notoriously difficult to identify and ecologists usually record them by species groups. Each morphologically distinct group comprises a number of morphologically identical (sibling) species that can only be identified by rearing adult males or by cytogenetic analysis of the polytene chromosomes. Polytene chromosomes were originally observed in the larval salivary glands of ''

'' midges by Balbiani in 1881. They form through repeated rounds of DNA replication without cell division, resulting in characteristic light and dark banding patterns which can be used to identify inversions and deletions which allow species identification. Alternatively,

DNA barcoding DNA barcoding is a method of species identification using a short section of DNA from a specific gene or genes. The premise of DNA barcoding is that by comparison with a reference library of such DNA sections (also called " sequences"), an indiv ...

is able to distinguish most species in many taxonomic groups using divergence patterns of commonly-studied gene regions.

Fossil record

The oldest chironomid

fossil A fossil (from Classical Latin , ) is any preserved remains, impression, or trace of any once-living thing from a past geological age. Examples include bones, shells, exoskeletons, stone imprints of animals or microbes, objects preserve ...

, ''Aenne triassica'', dates back to the

Late Triassic The Late Triassic is the third and final epoch (geology), epoch of the Triassic geologic time scale, Period in the geologic time scale, spanning the time between annum, Ma and Ma (million years ago). It is preceded by the Middle Triassic Epoch a ...

epoch In chronology and periodization, an epoch or reference epoch is an instant in time chosen as the origin of a particular calendar era. The "epoch" serves as a reference point from which time is measured. The moment of epoch is usually decided b ...

. By the

Late Cretaceous The Late Cretaceous (100.5–66 Ma) is the more recent of two epochs into which the Cretaceous Period is divided in the geologic time scale. Rock strata from this epoch form the Upper Cretaceous Series. The Cretaceous is named after ''cre ...

, chironomids were highly diverse. Tanytarsins appear in the fossil record during the

Middle Eocene The Eocene ( ) is a geological epoch that lasted from about 56 to 33.9 million years ago (Ma). It is the second epoch of the Paleogene Period in the modern Cenozoic Era. The name ''Eocene'' comes from the Ancient Greek (''Ēṓs'', ' Dawn') a ...

Behavior and description

Chironomids as a group are very diverse in their life histories, and exhibit a variety of behaviors during their development. Due to their species ambiguity and this diversity of behaviors, there is much controversy in research on their feeding habits, particularly as adults. Many reference sources in the past century or so have repeated the assertion that the chironomidae do not feed as adults, but an increasing body of evidence contradicts this view. Adults of many species do, in fact, feed. The natural foods reported include fresh fly droppings, nectar, pollen, honeydew, and various sugar-rich materials. The question whether feeding is of practical importance has by now been clearly settled for some ''Chironomus'' species, at least; specimens that had fed on sucrose flew far longer than starved specimens, and starved females longer than starved males, which suggested they had eclosed with larger reserves of energy than the males. Some authors suggest the females and males of certain species apply the resources obtained in feeding differently. Generally, Males expend the extra energy on flight, while females use their food resources to achieve longer lifespans. The respective strategies should be compatible with maximal probability of successful mating and reproduction in those species that do not mate immediately after

eclosion A pupa (; : pupae) is the life stage of some insects undergoing transformation between immature and mature stages. Insects that go through a pupal stage are holometabolous: they go through four distinct stages in their life cycle, the stages th ...

, particularly in species that have more than one egg mass maturing, the less developed masses being oviposited after a delay. Such variables also would be relevant to species that exploit wind for dispersal, laying eggs at intervals. Chironomids that feed on nectar or pollen may well be of importance as pollinators, but current evidence on such points is largely anecdotal. However, the content of protein and other nutrients in pollen, in comparison to nectar, might well contribute to the females' reproductive capacities.

Larvae A larva (; : larvae ) is a distinct juvenile form many animals undergo before metamorphosis into their next life stage. Animals with indirect developmental biology, development such as insects, some arachnids, amphibians, or cnidarians typical ...

of some species are bright red in color due to a

hemoglobin Hemoglobin (haemoglobin, Hb or Hgb) is a protein containing iron that facilitates the transportation of oxygen in red blood cells. Almost all vertebrates contain hemoglobin, with the sole exception of the fish family Channichthyidae. Hemoglobin ...

analog; these are often known as "bloodworms". Their ability to capture oxygen is further increased by making undulating movements. Adults can be pests when they emerge in large numbers. They may cause difficulty during driving if they collide with the windshield, creating an opaque coating which obscures the driver's vision. They can damage paint, brick, and other surfaces with their droppings. When large numbers of adults die, they can build up into malodorous piles. They can provoke allergic reactions in sensitive individuals. These allergic reactions have been shown to be caused by the haemolglobins that are primarily found in Chironomidae larval stages.

Ecology and distribution

Chironomids are highly versatile species that can tolerate a very wide range of environmental stresses. They are found in high abundances in many of the habitats they live in, and represent important food sources for a variety of organisms. In addition, they are found representing a significant number of symbiotic relationships with other aquatic insects, terrestrial insects, and some plants. They are distributed, and in most cases found in high abundance globally. They are found in a wide variety of habitats, from the glaciated areas of the tallest mountains, to the deepest bodies of freshwater.

Habitats

Aquatic habitats

Larval stages of the Chironomidae can be found in almost any aquatic or semiaquatic habitat. In fact, in many freshwater aquatic habitats, especially polluted ones, chironomids are often one of the most abundant insects found. Aquatic habitats can be marine or freshwater, the latter including treeholes, bromeliads, interstitial and benthic zones, as well as man-made sewage and artificial containers. They can also be found inhabiting plant held waters, intertidal zones, interstitial zones. Many species of chironomids are found residing in sediments or benthic levels of water bodies, where Dissolved oxygen is very low. A number of chironomid species inhabit marine habitats. Midges of the genus '' Clunio'' are found in the

intertidal zone The intertidal zone or foreshore is the area above water level at low tide and underwater at high tide; in other words, it is the part of the littoral zone within the tidal range. This area can include several types of habitats with various ...

, where they have adjusted their entire life cycle to the rhythm of the tides. This made the species '' Clunio marinus'' an important model species for research in the field of

chronobiology Chronobiology is a field of biology that examines timing processes, including periodic (cyclic) phenomena in living organisms, such as their adaptation to solar- and lunar-related rhythms. These cycles are known as biological rhythms. Chron ...

Terrestrial habitats

Chironomid larvae can also be found in some terrestrial habitats. Many species that are terrestrial are found living in soil as a dominant part of soil fauna community, particularly in wet soil habitats but also in agricultural land and in early stages of

succession Succession is the act or process of following in order or sequence. Governance and politics *Order of succession, in politics, the ascension to power by one ruler, official, or monarch after the death, resignation, or removal from office of ...

. Some species will use humic soils to develop as larvae on land; usually using decaying vegetation or sometimes living vegetation to survive. One genus of chironomids, '' Camptocladius'', are known to develop as larvae in cow dung. There are also some that are known to burrow deep into soil in cases of temporary aquatic habitats or droughts. Chironomid adults are predominately found in terrestrial habitats.

Roles in the ecosystem

Chironomidae have variable feeding ecology: most species feed on algae and other small soil organisms they can filtrate. Some commensal species feed off of algae on their hosts, which also provides the benefit of protection and additional mobility; particularly when their chosen host site is another predatory larval species. Some species are parasitic, and pierce the integument of its host in order to feed off of its hemolymph. Larvae and pupae are important food items for

fish A fish (: fish or fishes) is an aquatic animal, aquatic, Anamniotes, anamniotic, gill-bearing vertebrate animal with swimming fish fin, fins and craniate, a hard skull, but lacking limb (anatomy), limbs with digit (anatomy), digits. Fish can ...

, such as

trout Trout (: trout) is a generic common name for numerous species of carnivorous freshwater ray-finned fishes belonging to the genera '' Oncorhynchus'', ''Salmo'' and ''Salvelinus'', all of which are members of the subfamily Salmoninae in the ...

, banded killifish, and sticklebacks, and for many other aquatic organisms as well such as

newts A newt is a salamander in the subfamily Pleurodelinae. The terrestrial juvenile phase is called an eft. Unlike other members of the family Salamandridae, newts are semiaquatic, alternating between aquatic and terrestrial habitats. Not all aqua ...

. Many aquatic insects, such as various predatory hemipterans in the families Nepidae,

Notonectidae Notonectidae is a Cosmopolitan distribution, cosmopolitan family of aquatic insects in the order Hemiptera, commonly called backswimmers because they swim "upside down" (inverted). They are all predators and typically range from in length. They ...

, and

Corixidae Corixidae is a family of aquatic insects in the order Hemiptera. They are found worldwide in virtually any freshwater habitat and a few species live in saline water. There are about 500 known species worldwide, in 55 genera, including the genus ...

eat Chironomidae in their aquatic phases. Additionally, predatory water beetles in families such as the

Dytiscidae The Dytiscidae, from the Ancient Greek word δυτικός (''dystikos''), meaning "able to dive", are the predaceous diving beetles, a family of water beetles. They occur in virtually any freshwater habitat around the world, but a few species l ...

and

Hydrophilidae Hydrophilidae, also known colloquially as water scavenger beetles, is a family of beetles. Aquatic hydrophilids are notable for their long maxillary palps, which are longer than their antennae. Several of the former subfamilies of Hydrophilidae ...

have been found to feed on larval chironomids. Flying midges in their adult stage are eaten by fish and insectivorous birds, such as

swallows The swallows, martins, and saw-wings, or Hirundinidae are a family of passerine songbirds found around the world on all continents, including occasionally in Antarctica. Highly adapted to aerial feeding, they have a distinctive appearance. The t ...

and martins. They are also thought to be an especially important food source for tufted duck chicks during their first few days of life. They also are preyed on by bats and flying predatory insects, such as

Odonata Odonata is an order of predatory flying insects that includes the dragonflies and damselflies (as well as the '' Epiophlebia'' damsel-dragonflies). The two major groups are distinguished with dragonflies (Anisoptera) usually being bulkier with ...

and dance flies. They form an important fraction of the macro zoobenthos of most freshwater ecosystems. They are highly tolerant to low dissolved oxygen levels and changing salinity levels, both of which are often resultant from human pollution. Thus, The Chironomidae are important as indicator organisms, i.e., the presence, absence, or quantities of various species in a body of water can indicate whether pollutants are present. Also, their fossils are widely used by palaeolimnologists and paleoentomologists as potential indicators of past environmental changes, including past climatic variability. Although, the results of these tests are often controversial, and there are disagreements as to how beneficial they can be in the paleoentomology world.

Symbiotic relationships

A significant portion of the Chironomidae larvae have been reported in

commensal Commensalism is a long-term biological interaction (symbiosis) in which members of one species gain benefits while those of the other species neither benefit nor are harmed. This is in contrast with mutualism, in which both organisms benefit f ...

relationships with other organisms in their ecosystems. Although little is known about host choice and preference, it's been reported widely that Ephemeroptera are typically their most commonly reported host sites. Larval Chironomids often partake in commensal behaviors as a result of limited mobility and defensive morphology. Although they do not have appendages designed for swimming, and most free-living movement is done through undulations, Chironomids do possess strong appendages that help them grasp onto a host.

= Commensalism in chironomids

= Larval Commensal chironomids have been known to compete for space on the host. This competition happens on an interspecies level, but also with other commensal and or phoretic organisms. Chironomids have been reported to compete with ciliated protozoan ''Ephemera danica'', although this competition has resulted in niche-partitioning on the hosts body. These species do not compete for food, but rather for ideal spaces on the host. In these competitive relationships, Chironomids generally choose larger host body sizes, while the protozoans might prefer smaller hosts. In host sites that contained both species, potential micro niches were observed, as these organisms were observed to deliberately space themselves out. Generally however, it seemed that chironomids beat out the protozoan in abundance on a host. A number of biotic and abiotic factors may affect host choice in chironomids. There is evidence that this choice is pressured by hydrological factors. A higher number of chironomids associating phoretically with Ephemeroptera during a rainy season. In the dry season, host choices seemed to diversify a great deal, with many hosts only being found in a dry season. It has been suggested that this may be due to an influx of vegetative debris and detritus that characterizes a rainy season in aquatic environments, which would cause an increase in associated taxa, such as Ephemeroptera. There have been reports of phoretic associates with predatory aquatic insects as well in chironomids. These relationships, although uncommon, represent more steady hosts for chironomids if they are accessible. Phoresy on a predatory host has been suggested to mean a more mobile, and protective host, resulting in an easier development stage for the commensal organism.

Stress tolerance

Heat tolerance

Some chironomids can withstand high temperatures without the need to desiccate and pause development. A Japanese species of chironomid, ''Tokunagayusurika akasumi,'' have adapted to aestivation in sediments below their habitats in the event of high temperatures.

Cold tolerance

Chironomids as a whole are a relatively cold-tolerant group. Overwintering of species is found in almost all its subfamilies. Most of them cocoon during their pupation to overwinter, but this is not found in all individuals within a species. It is hypothesized that this overwintering difference in behavior occurs when temperature are at their lowest, and perhaps has to do with the presence of ice cover in the habitat.

Pollution tolerance

The Chironomidae are important as indicator organisms, i.e., the presence, absence, or quantities of various species in a body of water can indicate whether pollutants are present. Also, their fossils are widely used by palaeolimnologists as indicators of past environmental changes, including past climatic variability. Contemporary specimens are used by forensic entomologists as medico-legal markers for the postmortem interval assessment.

Anhydrobiosis and other stresses

Anhydrobiosis is the ability of an organism to survive in the dry state. Anhydrobiotic larvae of the African chironomid ''Polypedilum vanderplanki'' can withstand prolonged complete desiccation (reviewed by Cornette and Kikawada). These larvae can also withstand other external stresses including ionizing radiation. The effects of anhydrobiosis, gamma ray and heavy-ion irradiation on the nuclear DNA and gene expression of these larvae were studied by Gusev et al. They found that larval DNA becomes severely fragmented both upon anhydrobiosis and irradiation, and that these breaks are later repaired during rehydration or upon recovery from irradiation. An analysis of gene expression and antioxidant activity suggested the importance of removal of reactive oxygen species as well as the removal of DNA damages by repair enzymes. Expression of genes encoding DNA repair enzymes increased upon entering anhydrobiosis or upon exposure to radiation, and these increases indicated that when DNA damages occurred, they were subsequently repaired. In particular, expression of the ''Rad51'' gene was substantially up-regulated following irradiation and during rehydration. The Rad51 protein plays a key role in homologous recombination, a process required for the accurate repair of DNA double-strand breaks. Many species of chironomids have adapted high tolerances to desiccation, particularly those inhabiting temporary aquatic habitats or places where droughts frequently occur. Anhydrobiosis, which is the resultant of complete desiccation, is the loss of most or all water in the body. Although its more common in terrestrial species, tolerance for drought within the Chironomidae is similar in both terrestrial and aquatic species. A species from Africa was found with extreme tolerance to desiccation. This species was able to completely desiccate, and within 48 hours movement was found after rehydration. This same species is able to withstand this pause in development for an extended period of time, with records of it surviving up to 17 years completely dehydrated.

Chironomids and humans

Chironomids can be both beneficial and nuisance to humans. In many areas of the world, anglers and aquarium hobbyists use them as bait or a food source, particularly bloodworms. They are also historically important food sources for some communities in Africa. Some Chironomid larvae thrive in very heavily polluted habitats. These habitats are often man-made, and result in little to no biodiversity, which implies no natural predators present to keep midge populations at natural levels. These conditions often worsen emergence events, which also take place near human-dominated habitats.

Subfamilies and genera

The family is divided into 11 subfamilies: Aphroteniinae, Buchonomyiinae, Chilenomyiinae,

Chironominae Chironominae is a subfamily of midges in the non-biting midge family (biology), family (Chironomidae). Genera *Tribe Chironomini **''Axarus'' Roback 1980 **''Baeotendipes'' Jean-Jacques Kieffer, Kieffer, 1913 **''Beckidia'' Ole A. Sæther, Sæth ...

, Diamesinae, Orthocladiinae, Podonominae, Prodiamesinae, Tanypodinae, Telmatogetoninae, and Usambaromyiinae. Most species belong to Chironominae, Orthocladiinae, and Tanypodinae. Diamesinae, Podonominae, Prodiamesinae, and Telmatogetoninae are medium-sized subfamilies with tens to hundreds of species. The remaining four subfamilies have fewer than five species each. Chironomidae sp

*'' Aagaardia'' Sæther, 2000 *'' Abiskomyia'' Edwards, 1937 *'' Ablabesmyia'' Johannsen, 1905 *'' Acalcarella'' *'' Acamptocladius'' Brundin, 1956 *'' Acricotopus'' Kieffer, 1921 *'' Aedokritus'' * '' Aenne'' *'' Afrochlus'' *'' Afrozavrelia'' Harrison, 2004 * '' Allocladius'' * '' Allometriocnemus'' * '' Allotrissocladius'' *'' Alotanypus'' Roback, 1971 * '' Amblycladius'' * '' Amnihayesomyia'' * '' Amphismittia'' * '' Anaphrotenia'' *'' Anatopynia'' Johannsen, 1905 *'' Ancylocladius'' *'' Andamanus'' *'' Antillocladius'' Sæther, 1981 *'' Anuncotendipes'' *'' Apedilum'' Townes, 1945 *'' Aphrotenia'' *'' Aphroteniella'' *'' Apometriocnemus'' Sæther, 1984 *'' Apsectrotanypus'' Fittkau, 1962 *'' Archaeochlus'' *'' Arctodiamesa'' Makarchenko, 1983 *'' Arctopelopia'' Fittkau, 1962 *'' Arctosmittia'' *'' Asachironomus'' *'' Asclerina'' *'' Asheum'' Sublette & Sublette, 1983 *'' Australopelopia'' *'' Austrobrillia'' *'' Austrochlus'' *'' Austrocladius'' *'' Axarus'' Roback 1980 *'' Baeoctenus'' *'' Baeotendipes'' Kieffer, 1913 *'' Bavarismittia'' *'' Beardius'' Reiss & Sublette, 1985 *'' Beckidia'' Sæther 1979 *''

Belgica Gallia Belgica ("Belgic Gaul") was a Roman province, province of the Roman Empire located in the north-eastern part of Roman Gaul, in what is today primarily northern France, Belgium, and Luxembourg, along with parts of the Netherlands and German ...

'' *'' Bernhardia'' *'' Bethbilbeckia'' *'' Biwatendipes'' *'' Boreochlus'' Edwards, 1938 *'' Boreoheptagyia'' Brundin 1966 *'' Boreosmittia'' *'' Botryocladius'' *'' Brillia'' Kieffer, 1913 *'' Brundiniella'' *'' Brunieria'' *'' Bryophaenocladius'' Thienemann, 1934 *'' Buchonomyia'' Fittkau, 1955 *'' Caladomyia'' *'' Camposimyia'' *'' Camptocladius'' van der Wulp, 1874 *'' Cantopelopia'' *'' Carbochironomus'' Reiss & Kirschbaum 1990 *'' Cardiocladius'' Kieffer, 1912 *'' Chaetocladius'' Kieffer, 1911 *'' Chasmatonotus'' *'' Chernovskiia'' Sæther 1977 *'' Chilenomyia'' *'' Chirocladius'' *''

Chironomidae Chironomidae , commonly known as non-biting midges or chironomids , are a family of Nematoceran flies with a global distribution. They are closely related to the families Ceratopogonidae, Simuliidae, and Thaumaleidae. Although many chironomid ...

'' *

* Chironomini *''

'' Meigen, 1803 *'' Chrysopelopia'' *'' Cladopelma'' Kieffer, 1921 *'' Cladotanytarsus'' Kieffer, 1921 *'' Clinotanypus'' Kieffer, 1913 *'' Clunio'' Haliday, 1855 *'' Coelopynia'' *'' Coelotanypus'' *'' Coffmania'' *'' Collartomyia'' *'' Colosmittia'' *'' Compteromesa'' Sæther 1981 *'' Compterosmittia'' *'' Conchapelopia'' Fittkau, 1957 *'' Conochironomus'' *'' Constempellina'' Brundin, 1947 *'' Corynocera'' Zetterstedt, 1838 *'' Corynoneura'' Winnertz, 1846 *'' Corynoneurella'' Brundin, 1949 *'' Corytibacladius'' *'' Cricotopus'' van der Wulp, 1874 *'' Cryptochironomus'' Kieffer, 1918 *'' Cryptotendipes'' Lenz, 1941 *'' Cyphomella'' Sæther 1977 *'' Dactylocladius'' *'' Daitoyusurika'' *'' Demeijerea'' Kruseman, 1933 *'' Demicryptochironomus'' Lenz, 1941 *'' Denopelopia'' *'' Derotanypus'' *'' Diamesa'' Meigen in Gistl, 1835 * Diamesinae *'' Dicrotendipes'' Kieffer, 1913 *'' Diplocladius'' Kieffer, 1908 *'' Diplosmittia'' *'' Djalmabatista'' Fittkau, 1968 *'' Doithrix'' *'' Doloplastus'' *'' Doncricotopus'' *'' Dratnalia'' *'' Echinocladius'' *'' Edwardsidia'' *'' Einfeldia'' Kieffer, 1924 *'' Endochironomus'' Kieffer, 1918 *'' Endotribelos'' *'' Epoicocladius'' Sulc & ZavÍel, 1924 *'' Eretmoptera'' *'' Eukiefferiella'' Thienemann, 1926 *'' Eurycnemus'' van der Wulp, 1874 *'' Euryhapsis'' Oliver, 1981 *'' Eusmittia'' *'' Fissimentum'' *'' Fittkauimyia'' *'' Fleuria'' *'' Freemaniella'' *'' Friederia'' *'' Georthocladius'' Strenzke, 1941 *'' Gillotia'' Kieffer, 1921 *'' Glushkovella'' *'' Glyptotendipes'' Kieffer, 1913 *'' Goeldichironomus'' *'' Graceus'' Goetghebuer, 1928 *'' Gravatamberus'' *'' Gressittius'' *'' Guassutanypus'' *'' Guttipelopia'' Fittkau, 1962 *'' Gymnometriocnemus'' Goetghebeur, 1932 *'' Gynnidocladius'' *'' Gynocladius'' Mendes, Sæther & Andrade-Morraye, 2005 *'' Hahayusurika'' *'' Halirytus'' *'' Halocladius'' Hirvenoja, 1973 *'' Hanochironomus'' *'' Hanocladius'' *'' Harnischia'' Kieffer, 1921 *'' Harrisius'' *'' Harrisonina'' *'' Hayesomyia'' Murray & Fittkau, 1985 *'' Heleniella'' Gouin, 1943 *'' Helopelopia'' Roback, 1971 *''

Henrardia ''Henrardia'' is a genus of Asian plants in the Poaceae, grass family. ; Species * ''Henrardia persica'' (Boiss.) C.E.Hubb. - Kazakhstan, Kyrgyzstan, Turkmenistan, Uzbekistan, Tajikistan, Afghanistan, Iran, Turkey, Pakistan, Syria, Lebanon * ''H ...

'' *'' Heptagyia'' *'' Heterotanytarsus'' Spärck, 1923 *'' Heterotrissocladius'' Spärck, 1923 *'' Hevelius'' *'' Himatendipes'' *'' Hirosimayusurika'' *'' Hudsonimyia'' Roback, 1979 *'' Hydrobaenus'' *'' Hydrosmittia'' *'' Hyporhygma'' *''

Ichthyocladius ''Ichthyocladius'' is a genus of Chironomidae, chironomid midges that belongs to the subfamily Orthocladiinae described by Fittkau based on one species, ''Ichthyocladius neotropicus'', from Peru, though some other species were recognised, the la ...

'' Fittkau, 1974 *'' Ikiprimus'' *'' Ikisecundus'' *'' Imparipecten'' *'' Indoaxarus'' *'' Indocladius'' *'' Ionthosmittia'' *'' Irisobrillia'' *'' Kaluginia'' *'' Kamelopelopia'' *'' Kaniwhaniwhanus'' *'' Kiefferophyes'' *'' Kiefferulus'' Goetghebuer, 1922 *'' Knepperia'' *'' Kloosia'' Kruseman 1933 *'' Krenopelopia'' Fittkau, 1962 *'' Krenopsectra'' *'' Krenosmittia'' Thienemann & Krüger, 1939 *'' Kribiobius'' *'' Kribiocosmus'' *'' Kribiodosis'' *'' Kribiopelma'' *'' Kribiothauma'' *'' Kribioxenus'' *'' Kurobebrillia'' *'' Kuschelius'' *'' Labrundinia'' Fittkau, 1962 *'' Lappodiamesa'' Serra-Tosio, 1968 *'' Lappokiefferiella'' *'' Lapposmittia'' *'' Larsia'' Fittkau, 1962 *'' Lasiodiamesa'' Kieffer, 1924 *'' Laurotanypus'' *'' Lauterborniella'' Thienemann & Bause, 1913 *'' Lepidopelopia'' *'' Lepidopodus'' *'' Lerheimia'' *'' Limaya'' *'' Limnophyes'' Eaton, 1875 *'' Lindebergia'' *'' Linevitshia'' *'' Lipiniella'' Shilova 1961 *'' Lipurometriocnemus'' *'' Lithotanytarsus'' *'' Litocladius'' Andersen, Mendes & Sæther 2004 *'' Ljungneria'' *'' Lobodiamesa'' *'' Lobomyia'' *'' Lobosmittia'' *'' Lopescladius'' *'' Lunditendipes'' *'' Lyrocladius'' Mendes & Andersen, 2008 *'' Macropelopia'' Thienemann, 1916 * Macropelopini *''

Manoa Manoa (, ; ) is a valley on the island of Oahu, Hawaii. It is a residential neighborhood of Honolulu, Hawaii. The neighborhood is approximately three miles (5 km) east and inland from downtown Honolulu and less than a mile (1600 m) from ...

'' *'' Maoridiamesa'' *'' Mapucheptagyia'' *'' Maryella'' *'' Mecaorus'' *'' Megacentron'' *'' Mesocricotopus'' *'' Mesosmittia'' Brundin, 1956 *'' Metriocnemus'' van der Wulp, 1874 *'' Microchironomus'' Kieffer, 1918 *'' Micropsectra'' Kieffer, 1909 *'' Microtendipes'' Kieffer, 1915 *'' Microzetia'' *'' Molleriella'' *'' Mongolchironomus'' *'' Mongolcladius'' *'' Mongolyusurika'' *'' Monodiamesa'' Kieffer, 1922 *'' Monopelopia'' Fittkau, 1962 *'' Murraycladius'' *'' Nakataia'' *'' Nandeva'' *'' Nanocladius'' Kieffer, 1913 *'' Naonella'' *'' Nasuticladius'' *'' Natarsia'' Fittkau, 1962 *'' Neelamia'' *'' Neobrillia'' *'' Neopodonomus'' *'' Neostempellina'' *'' Neozavrelia'' Goetghebuer, 1941 *'' Nesiocladius'' *'' Nilodorum'' *'' Nilodosis'' *'' Nilotanypus'' Kieffer, 1923 *'' Nilothauma'' Kieffer, 1921 *'' Nimbocera'' *'' Notocladius'' *'' Odontomesa'' Pagast, 1947 *'' Okayamayusurika'' *'' Okinawayusurika'' *'' Olecryptotendipes'' Zorina, 2007 *'' Oleia'' *'' Oliveridia'' Sæther, 1980 *'' Omisus'' Townes, 1945 *'' Onconeura'' *'' Ophryophorus'' *'' Oreadomyia'' * Orthocladiinae *'' Orthocladius'' van der Wulp, 1874 *'' Oryctochlus'' *'' Oukuriella'' *'' Pagastia'' Oliver, 1959 *'' Pagastiella'' Brundin, 1949 *'' Paraboreochlus'' Thienemann, 1939 *'' Parachaetocladius'' *'' Parachironomus'' Lenz, 1921 *'' Paracladius'' Hirvenoja, 1973 *'' Paracladopelma'' Harnisch, 1923 *'' Paracricotopus'' Thienemann & Harnisch, 1932 *'' Parakiefferiella'' Thienemann, 1936 *'' Paralauterborniella'' Lenz, 1941 *'' Paralimnophyes'' Brundin, 1956 *'' Paramerina'' Fittkau, 1962 *'' Parametriocnemus'' Goetghebuer, 1932 *'' Pamirocesa'' *'' Paraborniella'' * Parachironominae *'' Paradoxocladius'' *'' Paraheptagyia'' *'' Paranilothauma'' *'' Parapentaneura'' *'' Paraphaenocladius'' Thienemann, 1924 *'' Paraphrotenia'' *'' Parapsectra'' Reiss, 1969 *'' Parapsectrocladius'' *'' Parasmittia'' *'' Paratanytarsus'' Thienemann & Bause, 1913 *'' Paratendipes'' Kieffer, 1911 *'' Paratrichocladius'' Thienemann, 1942 *'' Paratrissocladius'' ZavÍel, 1937 *'' Parochlus'' Enderlein, 1912 *'' Parorthocladius'' Thienemann, 1935 *'' Parvitergum'' *'' Paucispinigera'' *'' Pelomus'' *'' Pentaneura'' *'' Pentaneurella'' * Pentaneurini *'' Pentapedilum'' *'' Petalocladius'' *'' Phaenopsectra'' Kieffer, 1921 *'' Physoneura'' *'' Pirara'' *'' Platysmittia'' Sæther, 1982 *'' Plhudsonia'' *'' Podochlus'' *'' Podonomopsis'' *'' Podonomus'' *'' Polypedilum'' Kieffer, 1912 *'' Pontomyia'' *'' Potthastia'' Kieffer, 1922 *'' Prochironomus'' * Procladiini *'' Procladius'' Skuse, 1889 *'' Prodiamesa'' Kieffer, 1906 *'' Propsilocerus'' *'' Prosmittia'' *'' Protanypus'' Kieffer, 1906 *'' Psectrocladius'' Kieffer, 1906 *'' Psectrotanypus'' Kieffer, 1909 *'' Pseudobrillia'' *'' Pseudochironomus'' Malloch, 1915 *'' Pseudodiamesa'' Goetghebuer, 1939 *'' Pseudohydrobaenus'' *'' Pseudokiefferiella'' Zavrel, 1941 *'' Pseudorthocladius'' Goetghebuer, 1932 *'' Pseudosmittia'' Goetghebuer, 1932 *'' Psilochironomus'' *'' Psilometriocnemus'' Sæther, 1969 *'' Pterosis'' *'' Qiniella'' *'' Reissmesa'' *'' Rheochlus'' *'' Rheocricotopus'' Brundin, 1956 *'' Rheomus'' *'' Rheomyia'' *'' Rheopelopia'' Fittkau, 1962 *'' Rheosmittia'' Brundin, 1956 *'' Rheotanytarsus'' Thienemann & Bause, 1913 *'' Rhinocladius'' *'' Riethia'' *'' Robackia'' Sæther, 1977 *'' Saetheria'' Jackson, 1977 *'' Saetheriella'' Halvorsen, 1982 *'' Saetherocladius'' *'' Saetherocryptus'' *'' Saetheromyia'' *'' Saetherops'' *'' Sasayusurika'' *'' Schineriella'' Murray & Fittkau, 1988 *'' Semiocladius'' *'' Setukoyusurika'' *'' Seppia'' *'' Sergentia'' Kieffer, 1922 *'' Shangomyia'' *'' Shilovia'' *'' Skusella'' *'' Skutzia'' *'' Smittia'' Holmgren, 1869 *'' Stackelbergina'' *'' Stelechomyia'' *'' Stempellina'' Thienemann & Bause, 1913 *'' Stempellinella'' Brundin, 1947 *'' Stenochironomus'' Kieffer, 1919 *'' Stictochironomus'' Kieffer, 1919 *'' Stictocladius'' *'' Stictotendipes'' *'' Stilocladius'' Rossaro, 1979 *'' Sublettea'' *'' Sublettiella'' *'' Sumatendipes'' *'' Symbiocladius'' Kieffer, 1925 *'' Sympotthastia'' Pagast, 1947 *'' Syndiamesa'' Kieffer, 1918 *'' Synendotendipes'' Grodhaus, 1987 *'' Synorthocladius'' Thienemann, 1935 * Tanypodinae *'' Tanypus'' Meigen, 1803 *

Tanytarsini Tanytarsini is a Tribe (biology), tribe of nonbiting midges in the family Chironomidae. There are more than 20 genera and 1,000 described species in Tanytarsini. Genera These 26 genera belong to the tribe Tanytarsini: * ''Afrozavrelia'' Harri ...

*'' Tanytarsus'' van der Wulp, 1874 *'' Tavastia'' *'' Telmatogeton'' Schiner, 1866 *'' Telmatopelopia'' Fittkau, 1962 *'' Telopelopia'' *'' Tempisquitoneura'' *'' Tethymyia'' *'' Thalassomya'' Schiner, 1856 *'' Thalassosmittia'' Strenzke & Remmert, 1957 *'' Thienemannia'' Kieffer, 1909 *'' Thienemanniella'' Kieffer, 1911 *'' Thienemannimyia'' Fittkau, 1957 *'' Thienemanniola'' *'' Tobachironomus'' *'' Tokunagaia'' Sæther, 1973 *'' Tokunagayusurika'' *'' Tokyobrillia'' *'' Tosayusurika'' *'' Townsia'' *'' Toyamayusurika'' *'' Tribelos'' Townes, 1945 *'' Trichochilus'' *'' Trichosmittia'' *'' Trichotanypus'' Kieffer, 1906 *'' Trissocladius'' Kieffer, 1908 *'' Trissopelopia'' Kieffer, 1923 *'' Trondia'' *'' Tsudayusurika'' *'' Tusimayusurika'' *'' Tvetenia'' Kieffer, 1922 *'' Unniella'' Sæther, 1982 *'' Usambaromyia'' Andersen & Sæther, 1994 *'' Virgatanytarsus'' Pinder, 1982 *'' Vivacricotopus'' *'' Wirthiella'' *'' Xenochironomus'' Kieffer, 1921 *'' Xenopelopia'' Fittkau, 1962 *'' Xestochironomus'' *'' Xestotendipes'' *'' Xiaomyia'' *'' Xylotopus'' * '' Yaeprimus'' * '' Yaequartus'' * '' Yaequintus'' * '' Yaesecundus'' * '' Yaetanytarsus'' * '' Yaetertius'' *''

Yama Yama (), also known as Kāla and Dharmarāja, is the Hindu god of death and justice, responsible for the dispensation of law and punishment of sinners in his abode, Naraka. He is often identified with Dharmadeva, the personification of ''Dharm ...

'' *'' Zalutschia'' Lipina, 1939 *'' Zavrelia'' Kieffer, 1913 *'' Zavreliella'' Kieffer, 1920 *'' Zavrelimyia'' Fittkau, 1962 * '' Zelandochlus'' * '' Zhouomyia'' * '' Zuluchironomus''

References

External links

The Chironomid Home Page

Chironomidae and Water Beetles of Florida

* ttps://web.archive.org/web/20060516165621/http://www.mapmate.co.uk/checklist/chironomidae.htm Checklist of UK Recorded Chironomidae
Chironomidae at Nomina Insecta Nearctica

Chironomidae at Australian Faunal Directory
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Diptera.info
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