''Trichonympha'' is a genus of single-celled, anaerobic

parabasalid The parabasalids are a group of flagellated protists within the supergroup Excavata. Most of these eukaryotic organisms form a symbiotic relationship in animals. These include a variety of forms found in the intestines of termites and cockroache ...

s of the order Hypermastigia that is found exclusively in the hindgut of lower termites and wood roaches. ''Trichonympha''’s bell shape and thousands of

flagella A flagellum (; ) is a hairlike appendage that protrudes from certain plant and animal sperm cells, and from a wide range of microorganisms to provide motility. Many protists with flagella are termed as flagellates. A microorganism may have fro ...

make it an easily recognizable cell. The

symbiosis Symbiosis (from Greek , , "living together", from , , "together", and , bíōsis, "living") is any type of a close and long-term biological interaction between two different biological organisms, be it mutualistic, commensalistic, or parasi ...

between lower termites/wood roaches and ''Trichonympha'' is highly beneficial to both parties: ''Trichonympha'' helps its host digest cellulose and in return receives a constant supply of food and shelter. ''Trichonympha'' also has a variety of bacterial symbionts that are involved in sugar metabolism and nitrogen fixation.

Etymology

The word ''Trichonympha'' is a compound of the New Latin word ‘tricho’ and the word ‘nympha’. ‘Tricho’ in its simplest form refers to hair, and in this case makes reference to the many flagella of ''Trichonympha''. The ending ‘nympha’ was chosen by Joseph Leidy in 1877 when he first observed ''Trichonympha'' because their flagella reminded him of nymphs from a “spectacular drama” he had recently enjoyed

History

''Trichonympha'' was first described in 1877 by Joseph Leidy. He described the species ''Trichonympha agilis'' in the termite genus '' Reticulitermes,'' though at the time he was unaware that multiple species of ''Trichonympha'' exist. While fascinated by the unique morphology of ''Trichonympha,'' Leidy was unable to place ''Trichonympha'' in a group due to the now-outdated technology of the time. He determined that ''Trichonympha'' was either a

ciliate The ciliates are a group of alveolates characterized by the presence of hair-like organelles called cilia, which are identical in structure to eukaryotic flagella, but are in general shorter and present in much larger numbers, with a different ...

, a gregarine or a

turbellaria The Turbellaria are one of the traditional sub-divisions of the phylum Platyhelminthes (flatworms), and include all the sub-groups that are not exclusively parasitic. There are about 4,500 species, which range from to large freshwater forms more ...

n, all of which turned out to be incorrect. Since Leidy discovered ''Trichonympha'' in 1877, the genus has been studied extensively. In the 1930s to 1960s Lemuel Cleveland dedicated a large part of his career to studying the inhabitants of wood roach and lower termite hindguts, including ''Trichonympha.'' A large part of what we know about ''Trichonympha'' today stems from the research done by Cleveland. He focused mainly on what happens to hindgut symbionts when their host molts, which directly impacts the lifecycle of ''Trichonympha.'' The sexual cycle of ''Trichonympha'' was first described by Cleveland. In 2008 the

SSU rRNA Small subunit ribosomal ribonucleic acid (SSU rRNA) is the smaller of the two major RNA components of the ribosome. Associated with a number of ribosomal proteins, the SSU rRNA forms the small subunit of the ribosome. It is encoded by SSU- rDNA. ...

of many termite hindgut symbionts was sequenced, including that of ''Trichonympha,'' allowing the

phylogenetic relationship In biology, phylogenetics (; from Greek φυλή/ φῦλον [] "tribe, clan, race", and wikt:γενετικός, γενετικός [] "origin, source, birth") is the study of the evolutionary history and relationships among or within groups o ...

between many genera to be determined. Today, the hindgut symbionts of termites and wood roaches are still being studied in various labs. There is still much to be discovered about the interactions between endosymbionts and their hosts, and how these interactions shape the social behaviour of termites and wood roaches.

Habitat and ecology

''Trichonympha'' lives in a very specific habitat: the hindgut of lower termites and wood roaches. In this relationship, ''Trichonympha'' is referred to as an

endosymbiont An ''endosymbiont'' or ''endobiont'' is any organism that lives within the body or cells of another organism most often, though not always, in a mutualistic relationship. (The term endosymbiosis is from the Greek: ἔνδον ''endon'' "within" ...

. However, ''Trichonympha'' is also a host to bacterial symbionts. Both as an endosymbiont and as a host, ''Trichonympha'' plays an important biological role in its habitat.

As an endosymbiont

''Trichonympha'' is found as an endosymbiont in four families of lower termites (

Archotermopsidae Archotermopsidae is a family of termites in the order Blattodea, known as dampwood termites, formerly included within the family Termopsidae. They constitute a small and rather primitive family with five extant genera and 13–20 living species ...

Rhinotermitidae Rhinotermitidae is a family of termites (Isoptera). They feed on wood and can cause extensive damage to buildings or other wooden structures. About 345 species are recognized, among these are severe pests PESTS was an anonymous American activi ...

Kalotermitidae Kalotermitidae is a family of termites, commonly known as drywood termites. Kalotermitidae includes 21 genera and 419 species. The family has a cosmopolitan circumtropical distribution, and is found in functionally arid environments. Biology The ...

, and

Hodotermitidae The harvester termites (from Greek ὁδός (hodós), travelling; Latin '' termes'', woodworm) are an ancient, Old World family of termites, the Hodotermitidae. They are distinguished by the serrated inner edge of their mandibles, and their func ...

) and in the wood roach, ''

Cryptocercus ''Cryptocercus'' is a genus of Dictyoptera (cockroaches and allies) and the sole member of its own family Cryptocercidae. Species are known as wood roaches or brown-hooded cockroaches. These roaches are subsocial, their young requiring considera ...

''. It is thought that the common ancestor of lower termites and wood roaches, Isoptera, acquired ''Trichonympha''. ''Trichonympha'' is a vital part of the hindgut

microbiota Microbiota are the range of microorganisms that may be commensal, symbiotic, or pathogenic found in and on all multicellular organisms, including plants. Microbiota include bacteria, archaea, protists, fungi, and viruses, and have been found ...

of these organisms. Lower termites and wood roaches have a diet composed almost exclusively of wood and wood-related items, such as leaf litter, and therefore, need to digest large quantities of

cellulose Cellulose is an organic compound with the formula , a polysaccharide consisting of a linear chain of several hundred to many thousands of β(1→4) linked D-glucose units. Cellulose is an important structural component of the primary cell wall ...

lignocellulose Lignocellulose refers to plant dry matter ( biomass), so called lignocellulosic biomass. It is the most abundantly available raw material on the Earth for the production of biofuels. It is composed of two kinds of carbohydrate polymers, cellulose ...

and

hemicellulose A hemicellulose (also known as polyose) is one of a number of heteropolymers (matrix polysaccharides), such as arabinoxylans, present along with cellulose in almost all terrestrial plant cell walls.Scheller HV, Ulvskov Hemicelluloses.// Annu Rev ...

. However, they do not have the enzymes necessary to do this. ''Trichonympha'' and other endosymbionts in the hindgut of these organisms help with the digestion of wood related particles. These flagellate protists, including ''Trichonympha,'' convert cellulose into sugar using

glycoside hydrolase Glycoside hydrolases (also called glycosidases or glycosyl hydrolases) catalyze the hydrolysis of glycosidic bonds in complex sugars. They are extremely common enzymes with roles in nature including degradation of biomass such as cellulose ...

s. The sugar is then converted into acetate, hydrogen and carbon dioxide via oxidation. Acetate is the main energy source for lower termites and wood roaches, so without the activity of ''Trichonympha,'' its host would not be able to survive. Higher termites likely do not have flagellates, such as ''Trichonympha'', in their hindgut because they have diversified their diet to include food sources other than wood. The large quantities of hydrogen produced while sugar is converted into the energy for the host's use causes the hindgut of lower termites and wood roaches to be highly anoxic. This creates a very hospitable environment for ''Trichonympha'' as it is anaerobic. In fact, the relationship between ''Trichonympha'' and its host is not only highly beneficial for the host, but for ''Trichonympha'' as well. In exchange for helping the host digest its food, ''Trichonympha'' receives an anaerobic environment to live in, a constant source of food and continuous shelter and protection. The gut of a termite or wood roach is an active place with many moving parts. This is why ''Trichonympha'' has a large complement of flagella; the beating of the flagella helps ''Trichonympha'' hold its place in the gut. However, the hindgut of the host is not always hospitable. Both lower termites and wood roaches molt regularly. During the molting process, lower termites and wood roaches replace their chitinous exoskeleton as well as the cuticle that lines their gut. This means that with each molt ''Trichonympha'' is expelled from the gut. The ''Trichonympha'' in lower termites do not survive this process, but the ones in wood roaches are able to survive by encysting. The hosts thus have to replenish their gut microbiota after every molt. This is accomplished by proctodeal trophallaxis, where nestmates eat each other's hindgut fluid to acquire endosymbionts. They do not eat hindgut fluid that was excreted during the molting process of another lower termite/wood roach, as the endosymbionts in this fluid are already dead. Instead the hindgut fluid of a nestmate that has not recently molted is consumed. This process ensures a reliable transfer of ''Trichonympha'' across generations. Termites and wood roaches play a vital role in the Earth's ecosystems. They are sometimes even known as “ecosystem engineers”. Their consumption and degradation of wood and wood related foods has a major impact on the

carbon cycle The carbon cycle is the biogeochemical cycle by which carbon is exchanged among the biosphere, pedosphere, geosphere, hydrosphere, and atmosphere of the Earth. Carbon is the main component of biological compounds as well as a major componen ...

. Unfortunately, the wood eating of termites and wood roaches also has a negative impact. Termites are known to be ubiquitous pests that can destroy vast amounts of agriculture and forestry. As this would not be possible without ''Trichonympha'', ''Trichonympha'' therefore also has a profound impact on the carbon cycle and contributes to the abundance of termite pests around the world.

As a host

While ''Trichonympha'' has been found to be capable of metabolizing cellulose without any bacterial symbionts, it still needs a wide variety of bacterial ectosymbionts and endosymbionts to survive. It has been found that ''Trichonympha'' and various endosymbiotic bacteria may be evolving together ( cospeciating), suggesting that the symbiosis is a vital part of both the bacterial and ''Trichonympha'' cell's success. The exact composition and function of ''Trichonympha’''s symbionts is still being investigated.

Endosymbionts

Common bacterial endosymbionts of ''Trichonympha'' belong in the class Endomicrobia. They are generally found in the

cytoplasm In cell biology, the cytoplasm is all of the material within a eukaryotic cell, enclosed by the cell membrane, except for the cell nucleus. The material inside the nucleus and contained within the nuclear membrane is termed the nucleoplasm. Th ...

of ''Trichonympha'' and are thought to be involved in a nitrogen fixing process. This is vital to the success of ''Trichonympha,'' as the diet of lower termites and wood roaches lack readily usable nitrogen. Studies have shown that each ''Trichonympha'' cell only contains one

phylotype In taxonomy, a phylotype is an observed similarity used to classify a group of organisms by their phenetic relationship. This phenetic similarity, particularly in the case of asexual organisms, may reflect the evolutionary relationships. The term ...

of Endomicrobia. This suggests cospeciation between ''Trichonympha'' and Endomicrobia by vertical inheritance. New daughter cells most likely inherit their parent cells’ Endomicrobia during cell division. This causes a lineage of Endomicrobia to be established and maintained in ''Trichonympha''. It has also been found that the Endomicrobia found in ''Trichonympha'' are

monophyletic In cladistics for a group of organisms, monophyly is the condition of being a clade—that is, a group of taxa composed only of a common ancestor (or more precisely an ancestral population) and all of its lineal descendants. Monophyletic gro ...

, suggesting that Endomicrobia only entered into symbiosis with ''Trichonympha'' once. Since Endomicrobia are not present in all species of ''Trichonympha'', there are two hypotheses for when this symbiosis arose. One hypothesis suggests that Endomicrobia were present in the common ancestor of all ''Trichonympha'' and then lost in some lineages. The other, simpler, explanation suggests that Endomicrobia were not present in the common ancestor of ''Trichonympha,'' and entered into symbiosis after separate ''Trichonympha'' lineages were already established. Other bacterial endosymbionts of ''Trichonympha'' are still being discovered and investigated. An example of such an endosymbiont is ''Candidatus Desulfovibrio trichonymphae,'' which was discovered to be an endosymbiont of ''Trichonympha agilis'' in 2009. ''

Desulfovibrio ''Desulfovibrio'' is a genus of Gram-negative sulfate-reducing bacteria. ''Desulfovibrio'' species are commonly found in aquatic environments with high levels of organic material, as well as in water-logged soils, and form major community membe ...

'' had previously been localized to the hindgut of lower termites, but it was not known that it is an endosymbiont of ''Trichonympha''. ''Desulfovibrio'' are coccoid and rod-shaped cells, that are found in the cortical layer of ''Trichonympha''. Their function in ''Trichonympha'' may be to take sugars from ''Trichonympha''’s cytoplasm and convert them into acetate, hydrogen and ethanol. They are also thought to be involved in a sulfate reducing process.

Ectosymbionts

''Trichonympha'' has a variety of ectosymbionts. Some of the most common bacterial ectosymbionts are spirochetes, of the order Bacteroidales. They are found on a variety of flagellate termite and wood roach endosymbionts, including ''Trichonympha,'' but also as free-living bacteria in the hindgut of lower termites. They are thought to be involved in a variety of processes including nitrogen fixation,

acetogenesis Acetogenesis is a process through which acetate is produced either by the reduction of CO2 or by the reduction of organic acids, rather than by the oxidative breakdown of carbohydrates or ethanol, as with acetic acid bacteria. The different bact ...

and the degradation of lignin. As previously mentioned, Endomicrobia are important endosymbionts of ''Trichonympha.'' However, it has recently been determined that they may also play a role as ectosymbionts. Endomicrobia attach to the cell membrane and flagella of ''Trichonympha'' via protrusions. They are not present on every ''Trichonympha'' individual, suggesting that this symbiosis is facultative, not obligatory.

Description

Morphology

The morphology of ''Trichonympha'' has been studied since the 19th century. ''Trichonympha'' is a bell-shaped cell varying in width from 21μm to 30μm and in length from 90 to 110 μm. The anterior tip of the cell is referred to as the rostrum and is composed of the outer and inner operculum. In some species the outer operculum has been observed to have elongated protrusions, referred to as frills. The outer operculum is filled with fluid to give it a cushioning effect, as the function of the outer and inner operculum is to protect the centrioles that lie directly beneath them. The centrioles are located in the rostral tube, which is an internal component of the cell, that leads to the rostrum. The rostral tube is made up of lamellae in a circular arrangement. Each cell has two centrioles, one long and one short, located beneath the inner cap, in the anterior end of the rostral tube. These centrioles have a fixed position in the cell and play an important role in asexual reproduction. The entire cell is covered in thousands of flagella which arise from

basal bodies A basal body (synonymous with basal granule, kinetosome, and in older cytological literature with blepharoplast) is a protein structure found at the base of a eukaryotic undulipodium ( cilium or flagellum). The basal body was named by Theodor ...

. There are several patterns of how the flagella attach to the cell at the posterior end of the rostrum. In some species the flagella attach exclusively to the rostrum while in others the flagella attach to the rostrum, as well as adhering to each other. Another pattern of flagella adherence involves flagella emerging from flagellar folds, which are grooves that run parallel to the cell, and then attaching to each other. Another key component of a ''Trichonympha'' cell is the basal body and parabasal fibres. ''Trichonympha'' has long basal bodies which give rise to the flagella. These basal bodies lie along the rostral tube and are made up of microtubules. The basal bodies are connected to a large Golgi complex via parabasal fibres. This large Golgi complex is often referred to as the parabasal body and originates anterior to the single nucleus, which it extends around. ''Trichonympha'' do not have traditional mitochondria. Instead, they have highly reduced versions of mitochondria, called

hydrogenosome A hydrogenosome is a membrane-enclosed organelle found in some anaerobic ciliates, flagellates, and fungi. Hydrogenosomes are highly variable organelles that have presumably evolved from protomitochondria to produce molecular hydrogen and ATP i ...

s. A hydrogenosome is a membrane bound, redox active organelle. They produce hydrogen gas from the oxidation of pyruvate, and function in anaerobic environments.

Life cycle

''Trichonympha'' live exclusively in lower termite or wood roach guts throughout all stages of their life cycle. ''Trichonympha'' cells have a zygotic meiosis life cycle, where the life stage that undergoes meiosis is the

zygote A zygote (, ) is a eukaryotic cell formed by a fertilization event between two gametes. The zygote's genome is a combination of the DNA in each gamete, and contains all of the genetic information of a new individual organism. In multicellula ...

. Therefore, the entire adult stage of ''Trichonympha'' is haploid. The life cycle stage of ''Trichonympha'' is largely coordinated with its host. The majority of the time, ''Trichonympha'' reproduces asexually. However, molting of the host has a significant impact on ''Trichonympha.'' In lower termites, ''Trichonympha'' dies when molting occurs, while in wood roaches ''Trichonympha'' encysts and then reproduces sexually. A common misconception about the molting process is that the ''Trichonympha'' cells die when they are shed with the hindgut of the lower termite or wood roach. This is incorrect, as the ''Trichonympha'' cells are generally dead or encysted up to 6 days before molting occurs. There are two hypotheses for why this may occur: # The gut environment becomes hostile as the lower termite or wood roach prepares to molt. The hostile factors include lack of food, the formation of oxygen bubbles and increased viscosity of the hindgut fluid. # Death/encystment is caused by changes in hormonal levels of the lower termite or wood roach.

Asexual reproduction

The majority of ''Trichonympha’''s reproduction is asexual via

binary fission Binary may refer to: Science and technology Mathematics * Binary number, a representation of numbers using only two digits (0 and 1) * Binary function, a function that takes two arguments * Binary operation, a mathematical operation that ta ...

. First, the cell separates into two halves, starting at the rostrum. This causes an aflagellate region to be present on both daughter cells. The newly formed daughter cells then mass-produce cytoplasm to increase their size. Lastly, centrioles cause new flagella to be formed, as well as a new parabasal body.

Sexual reproduction

Sexual reproduction in ''Trichonympha'' occurs in three distinct phases:

gametogenesis Gametogenesis is a biological process by which diploid or haploid precursor cells undergo cell division and differentiation to form mature haploid gametes. Depending on the biological life cycle of the organism, gametogenesis occurs by meiotic d ...

fertilization Fertilisation or fertilization (see spelling differences), also known as generative fertilisation, syngamy and impregnation, is the fusion of gametes to give rise to a new individual organism or offspring and initiate its development. Proce ...

and

meiosis Meiosis (; , since it is a reductional division) is a special type of cell division of germ cells in sexually-reproducing organisms that produces the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately resu ...

. Gametogenesis occurs when gametes are produced by the division of a

haploid Ploidy () is the number of complete sets of chromosomes in a cell, and hence the number of possible alleles for autosomal and pseudoautosomal genes. Sets of chromosomes refer to the number of maternal and paternal chromosome copies, respecti ...

cell that has encysted in response to the wood roach host molting. The nucleus and the cytoplasm of the haploid cell divide to produce two unequal gametes. The unequal division is caused by the production of unequal daughter chromosomes, each of which goes to a specific pole. One of the gametes, referred to by Cleveland as the “egg”, develops a ring of fertilization granules at its posterior. These granules attract the other gamete. Inside the ring is a fertilization cone, which provides an entry point for the other gamete, referred to by Cleveland as the “sperm”. During fertilization the “sperm” enters the “egg” and their cytoplasms fuse to form a zygote The “sperm” loses all of its extranuclear organelles, such as its flagella, parabasal body and centrioles. After fertilization the zygote undergoes meiosis. Meiosis I occurs a few hours after fertilization. During meiosis I the zygote's chromosomes duplicate and the zygote divides. During meiosis I, the centromeres are not duplicated. After meiosis I, meiosis II occurs, during which the centromeres, but not the chromosomes, are duplicated, and the cell divides again. The overall result of meiosis is 4 haploid cells.

Fossil record

There is not a lot of fossil history pertaining to ''Trichonympha,'' but some fossils of termite gut symbionts have been found. The fossils of a kalotermitid termite provide evidence that the symbiosis between lower termites and ''Trichonympha'' already existed in the Mesozoic Era.

List of species

* ''Trichonympha acuta'' * ''Trichonympha agilis'' * ''Trichonympha algoa'' * ''Trichonympha campanula'' * ''Trichonympha chula'' * ''Trichonympha collaris'' * ''Trichonympha deweyi'' sp. * ''Trichonympha grandis'' * ''Trichonympha hueyi'' sp. * ''Trichonympha lata'' * ''Trichonympha lighti'' * ''Trichonympha louiei'' sp. * ''Trichonympha magna'' * ''Trichonympha okolona'' * ''Trichonympha parva'' * ''Trichonympha postcylindrica'' * ''Trichonympha quasili'' * ''Trichonympha saepiculae'' * ''Trichonympha sphaerica'' * ''Trichonympha tabogae'' * ''Trichonympha webbyae'' sp.

References

External links

Gut Contents of Termite - Nikon 2015 Small World Video Competition
{{Taxonbar, from=Q1833991 Metamonads Excavata genera