Fissidens ezukanmae: A new species of Moss from Termite mounds in Nigeria.

Mosses (Bryophytes) are simple plants which lack vascular systems to pump water and nutrients from a root system, instead relying on what they can absorb through their leaves, and generally only reaching a few cm in height. This means that they are at their most diverse in moist habitats, though some species are surprisingly drought-tolerant. Despite their simple nature, Mosses are an important part of ecosystems the world over, creating a water-holding layer which covers soil, rocks, trees and some animals, inside which entire miniature communities of organisms thrive. Mosses also differ from vascular plants in that they are haploid (have one set of chromosomes) rather than diploid (have paired chromosomes); though they have a diploid spore stage used to propagate the species in the same way that the (haploid) pollen of vascular plants is.

In a paper published in the journal Cryptogamie Bryologie on 27 March 2019, Maria Bruggeman-Nannenga of Zeist in the Netherlands describes a new species of Moss from Termite mounds in Nigeria.

The new species is placed in the genus Fissidens, a group of highly distictive and predominantly aquatic Mosses with a global distribution, and given the specific name ezukanmae, in honour of Izuchukwu Ezukanma, who collected the specimens from which the species is described from Termite mounds in Taraba State, Nigeria. The new species closely resembles the pan-tropical species Fissidens pellucidus, having rather large, clear laminal cells with firm walls and leaves elimbate or with limbidia restricted to the upper leaves (either not having elongate cells which help to support the leaves, or having these only on the upper surfaces)of perichaetial plants (plants in their reproductive stage during which they produce enlarged leaves that surround the reproductive cells). The new species has genuine mammillose cells (hair-bearing cells) and limbidia on both the upper as well the mid leaves of perichaetial stems. Moreover, it has axillary archegonia (spore producing bodies) in addition to the usual terminal perichaetium.

Fissidens ezukanmae: (A) Stem with terminal perichaetium; (B) branched vegetative stem; (C) part of stem with axillary archegonia (upper one left anomalously developed); (D)-(G) leaves; (H) basal part of vaginant lamina of subperichaetial leaf with limbidium; (I) leaf apex; (J) mid leaf; (K) insertion of leaf; (L) detail mid-vaginant lamina; (M) cross-section of stem; (N) cross-section of lleaf with bryoides-type of costa. Scale bars: (A), (B) 1 mm; (C) 0.5 mm; (D) 0.1 mm; (E)-(G) 0.1 mm; (H) 50 μm; (I) 100 μm; (J), (K) 50 μm; (L), (M) 50 μm. Bruggeman-Nannenga (2019).

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Unravelling the diversity of Podaxis Fungi in Southern Africa.

Fungi of the genus Podaxis are found in dry grasslands and deserts throughout the tropics and subtropics. They are highly modified Puffball Fungi noted for their relationship with grass-cutting Termites, living on the dung of Termites in grass storage areas within the mounds and extruding large fruiting bodies from the surface of the mounds. It is unclear if or how this benefits the Termites, but the tolerance shown by the termites towards the Fungi is remarkable, as they will not otherwise tolerate Fungi or Plants growing on the surface of their mounds. Whatever the relationship between the Fungi and the Termites, neither group appears to be dependent on the other; the Fungi are not found on all Termite mounds, and are found growing away from mounds, particularly in arid regions where Termites are rare. The first of these Fungi was described by Linnaeus in 1781, based upon a sample from India, and he later described two further species from Western Cape in South Africa and Senegal. However the taxonomy of the group is controversial, as putative species can be hard to differentiate by physical examination, with some experts arguing as early as the 1930s that the Fungi might possibly be better referred to as a single widespread species, while others have continued to describe new species, with 44 species described to date from Africa alone.

In a paper published in the journal Fungal Biology on 7 June 2016, Benjamin Conlon of the Centre for Social Evolution at the University of Copenhagen and Molecular Ecology at the Martin-Luther-University Halle-Wittenberg, Wilhelm de Beer of the Department of Microbiology at the University of Pretoria, Henrik de Fine Licht of the Section for Organismal Biology at the University of Copenhagen, Duur Aanen of the Laboratory of Genetics at Wageningen University and Michael Poulsen, also of the Centre for Social Evolution at the University of Copenhagen, describe the results of a study of Podaxis Fungi in Southern Africa, which attempts to use genetic analysis to determine relationships within the group.

Mature Podaxis fruiting bodies in South Africa in the southern Free Stat Province. Conlon et al. (2016).

Conlon et al. took samples from 32 Podaxis specimens from museums, representing all none provinces of South Africa, as well as specimens from Namibia. Genetic sequences obtained from these were then compared to previously described genetic sequences from Podaxis specimens from other parts of the world.

Immature Podaxis fruiting bodies growing on a termite mound in the central Free State Province, South Africa. Conlon et al. (2016).

The southern African Podaxis specimens were found to belong to four distinct clades (a clade is a group of organisms with a shared common ancestor; all members of the clade must descend from that ancestor and everything shown to be descended from that ancestor must be included in the clade), identified as Clades A-D. The data from this study also enabled the identification of a fifth clade, Clade E, comprising specimens from southwest North America (California, Arizona and Mexico), which had not been possible from the low number of Podaxis genetic sequences previously available. 

One of the Southern African clades (Clade C) was found to form no association with Termites. This clade was found entirely in the Namib desert of Northern Cape Province and Namibia. A single previously described sequence was also placed with Clade C, a desert growing specimen from Ethiopia. Clade C was also found to be most closely related to Clade E, which grows in the deserts of the southwestern US and Mexico, and which also does not form associations with Termites. This suggests that the genus may have previously been exclusively a Termite-mound dweller, with one lineage within the genus secondarily adapting to free-living in arid environments.

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Truncospora wisconsinensis: A new species of Bracket Fungus from Wisconsin.        Bracket Fungi, Polyporales, are Basidiomycote Fungi that predominantly grow on dead, rotting, wood, though some species are significant pathogens of trees...

Anthracoidea pamiroalaica: A new species of Smut Fungus infecting Sedge Plants in the Pamir Alai Mountins of Tajikistan.                 Smut Fungi, Ustilaginales, are parasitic Basidiomycote Fungi infecting a wide range of plants, including many commercial crops. They have a slightly complex life cycle, with wind-blown monokaryotic spores (cells with a single nucleus), which are non-parasitic. These spores settle on potential host plants, and if...

Penicillium excelsum: A new species of Fungi from the Brazil Nut Tree Ecosystem in the Amazon Basin.                                           Fungi of the genus Penicillium are considered to be highly important both ecologically and economically. They act as major biodegrading agents in many ecosystems, helping to recycle a wide range of biological material, but this also makes them spoiling agents capable of rotting food and man made...

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Interpreting the relationship between Ants and Termites from a single piece of Mexican Amber.

Ants and Termites are eusocial Insects that have dominated many tropical ecosystems since at least the Early Cretaceous. Relationships between the two groups (which are not closely related) are complex, with some species able to tolerate one-another and even share nests, while others are deeply hostile, typically with Ants feeding on Termites or Termites fighting to keep all Ants away from their territories. However, while these relationships have been extensively studied in modern representatives of the group, understanding how these Insects may have interacted in the remote past is much more difficult.

In a paper published in the journal PLoS One on 20 August 2014, David Coty of the Muséum National d’Histoire Naturelle in Paris, Cédric Aria of the Department of Natural History-Palaeobiology at the Royal Ontario Museum and the Department of Ecology & Evolutionary Biology at the University of Toronto, and RomainGarrouste, Patricia Wils, Frédéric Legendre and André Nel, also of the of the Muséum National d’Histoire Naturelle in Paris, describe a single piece of amber from the Salt River Amber Mine in Chiapas State, Mexico, which includes several different Ants and Termites, and discuss the implications of this for relationships between the groups.

General configuration of the Mexican amber. (A) Overview of the amber piece, under optical microscope. Scale bar is 3 mm. (B) Three dimensional replica of the same; colours define taxonomic groups, viz. purple for Azteca Ants, blue for Nasutitermes Termites, red for Neivamyrmex Ant, green for small Psocodea. Labels: Az1, Azteca Ant nearest to predation scene; Az2 and Az3, two other Azteca Ants, both trapped in a flow distinct to that of the others inclusions and whose physical density matches that of the Nasutitermes soldier; Na1, Nasutitermes worker trapped between the Neivamyrmex mandibles; Na2, isolated Nasutitermes termite closest to predation scene; Na3, Nasutitermes worker with damaged gaster; Na4, Nasutitermes soldier; Ne, Neivamyrmex Ant; Ps, Psocodea; Scale bar is 3 mm. Aria et al. (2014).

The Amber contains four Termites assigned to a single (unknown) species of the genus Nasutitermes, three workers and a soldier, as well as three Ants of the genus Azteca and one Neivamyrmex Army Ant.

Neivamyrmex, like all Army Ants, are voracious predators, attacking invertebrate and invertebrate prey alike, typically with a sudden attack by a large number of Army Ants overwhelming the prey. Other Ants and Termites are favoured prey for such Insects, and nests will always be attacked when encountered. The Neivamyrmex Ant in the amber has a small worker Termite in its jaws, which suggests that it was engaged in such an attack when it became stuck in, and overwhelmed by, the plant resin which later became preserved as amber. Potentially the Termite could have been seized reflexively by the trapped, dying Ant, or the Ant could have become trapper while trying to scavenge a Termite previously caught in the resin, but one of the other worker Termites shows signs of damage typical of an Army Ant attack suggesting that the two species were fighting before becoming overwhelmed. The presence of a soldier Termite also supports this hypothesis, as in modern members of the genus Nasutitermes, members of this caste remain inside the nest for most of the time, only emerging when the nest is threatened or attacked, and never moving far from the nest.

Details of the Termites. (A) General side view of the NeivamyrmexAnt holding a Nasutitermes Termite (Na1) between its mandibles, under optical microscope, scale bar is 1 mm. (B) Detail of damaged gaster of Nasutitermes worker (Na3) closely contiguous to a Nasutitermes soldier (Na4), scale bar is 1 mm. (C) Side view of closely contiguous Nasutitermes soldier (Na4) and worker (Na3), black arrow: digestive tube of Nasutitermes worker scale bar is 1 mm.Aria et al. (2014).

The situation with the AztecaAnts is more complex. Some modern members of this genus are able to co-occupy the nests of some species of Nasutitermes, on either a seasonal or permanent basis. This is not an entirely benign relationship, as the Ants do consume some of the Termites, but the benefits to the Termites appear to outweigh the costs of removing the Ants; the Termites consume dead Ants, which are a rich source of nitrogen, although they do not actively predate the Ants, and the two species appear to cooperate when defending the nest against mutual threats, such as Army Ants. Aria et al. suggest that the presence of Azteca Ants alongside Nasutitermes Termites that were apparently engaged in defending their nest against an Army Ant attack strongly suggests that such a relationship was occurring in this instance, and that the Ants and Termites were engaged in a defence of a mutual nest against the invading Army Ants.

The precise age of amber from the Salt River Mine has yet to be determined, however it is thought to be at least Middle Miocene in age, suggesting that the mutualistic relationship between Azteca Ants and Nasutitermes Termites is at least that old.

See also…

Fungal Parasites from the gardens of Leafcutter Ants.

Leafcutter Ants harvest vegetation from the tropical rainforests of South and Central America, which they then carry back to their nests and use as feed in fungal farms. Each species of Ant has its own unique...

A new species of Thief Ant from Saudi Arabia.

Thief Ants of the genus Solenopsis are one of the most numerous and widespread Ant groups, particularly in the tropics. However they are not greatly studied or understood, despite the fact that some species are...

A new species of Ant from late Eocene Danish Amber.

Ants are among the most widespread and abundant of Insect groups, with over 13 000 described species. They play a major role in the shaping of modern ecosystems and landscapes, and many other species of animals, plants and even fungi have commensal...

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A new species of Soldierless Termite from the Caribbean, Central and South America.

Termites (Isoptera) are an ancient group of social insects related to Cockroaches; in fact many entomologists (scientists that study insects) now regard them as a specialized group of social Cockroaches rather than a separate group. Termites consume woody, cellulose-rich plant material that most other Insects (or animals of any sort) cannot digest, and have a unique stomach fauna that helps them do so, comprising either Eukaryotic Flagellates (most Termites) or a variety of Prokaryotic organisms (members of the Family Termitidae). Termites are eusocial Insects with a caste system comprising sexual adults that breed and workers that forage for food and feed the young and sexual adults, as well as building and maintaining their nests. Many Termite species also produce a soldier cast, which defend foraging workers and the nest against invaders and predators (particularly Ants) but which cannot forage or feed for themselves and have to be looked after by the workers.

In a paper published in the journal Zootaxa on 17 May 2013, Rudolf Scheffrahn of the Fort Lauderdale Research and Education Center of the Institute for Food and Agricultural Sciences at the University of Florida, describes a new species of Termite from a number of locations in Central and South America and the Caribbean.

The new species is named Compositermes vindai, where 'Compositermes' means an aggregation, something made up of parts, a reference to the structure of the gut, and 'vindai' honours Boudanath (Vinda) Maharajh, an entomologist from Trinidad and Tobago who worked with the Fort Lauderdale team on surveys in various countries and who died in 2009. It is placed in the Subfamily Apicotermitinae, members of the Ternitidae that lack a soldier cast and which are known from South America and Africa. Compositermes vindai was found living in small colonies under rocks or in larger colonies of Termites belonging to the genus Cornitermes, a mound-building species which does have a soldier caste.

Compositermes vindai workersand nymph in gallery of Cornitermes sp. mound. Scheffrahn (2013).

The sexual adult, or imago, of Compositermes vindai is unknown; most Termite species have their description based upon the imago, however Compositermes vindai has been collected by scientists from the University of Florida from sites in French Guiana, Panama, Paraguay, Tobago and Trinidad over the period 1996 to 2010, and given the large number of specimens Scheffren suggests it is appropriate to formally describe the species from the worker.

Collection localities of Compositermes vindai (red dots) and University of Florida collection localities (small black dots). Scheffrahn (2013).

See also A new species of Stick Insect from southern Spain, New species of Mantis from Brazil and A fossil termite from the Late Oligocene of northern Ethiopia.

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A new species of Corythoderine Scarab Beetle from Cambodia.

Scarabs of the Tribe Corythoderini are small Beetles found living in the nests of Termites, found across much of Africa and south Asia. They are tolerated by the Termites, and apparently produce secretions which the Termites use in some way, though the relationship is not well understood.

In a paper published in the journal Zootaxa on 20 November 2012, Munetoshi Maruyama of the Kyushu University Museum describes a new species of Corythoderine Scarab Beetle from Angkor Wat in Cambodia, the first time a member of the group has been found in the country.

The new species is named Eocorythoderus incredibilis, meaning the Incredible Dawn-Corythoderine (dawn because this is the furthest east any member of the group has been found. It is a millimeter long, flightless brown Beetle, found living in the fungus-gardens of the Termite Macrotermes gilvus, the first time a Corythoderine has been found living with a Termite in the genus Macrotermes; they are more usually associated with the genus Odontotermes.

Eocorythoderus incredibilis in dorsal view. Maruyama (2012).

Eocorythoderus incredibilis (Top) being carried by a Termite. The Beetle retracts its legs while being carried, and the Termite caries it by a projection on its back, similar to one found on Termite nymphs, (Bottom) in lateral view, with arrow indicating the projection by which the Termite carries it. Maruyama (2012).

See also Two new species of Ground Beetle from the Pyrenees, Six new species of Jewel Beetle from Southeast Asia, A Rove Beetle from the Late Triassic of Virginia, A new species of Blister Beetle from southeast Iran and Two new species of Semiaquatic Rove Beetle from China.

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A fossil termite from the Late Oligocene of northern Ethiopia.

Termites are an ancient group of social insects related to Cockroaches; in fact many entomologists (scientists that study insects) now regard them as a specialized group of social Cockroaches rather than a separate group. Though the group is thought to be very old, it does not have a very good fossil record, with the oldest unambiguous fossils coming from the Cretaceous, though structures thought to be termite nests have been found from the Triassic of Australia, and isolated wings that may have come from early Termites from the Permian of Kansas.

In a forthcoming paper in the journal Acta Palaeontologica Polonica, Michael Engel of the Division of Entomology (Paleoentomology) at the Natural History Museum, and the Department of Ecology & Evolutionary Biology at the University of Kansas, Aaron Pan of the Don Harrington Discovery Center and the Botanical Research Institute of Texas and Bonnie Jacobs of the Roy M. Huffington Department of Earth Sciences at Southern Methodist University announce the discovery of a fossil termite from the Late Oligocene of Ethiopia, incidentally the first fossil termite ever found in Africa.

The new species is described from a pair of shed wings (breeding termites undertake a single flight after which they shed their wings, and settle down to found a new colony; non-reproductive castes never have wings), and named Chilgatermes diamatensis; Chilgatermes meaning termite from Chilga (the region in which it was found) and diamatensis deriving from Diamat, an ancient kingdom that included this part of Ethiopia, as well as part of neighboring Eritrea.

The shed wings from which Chilgatermes diamatensis is described. The wing is 17.4 mm × 5.9 mm.  Engel et al. (2012).

Chilgatermes diamatensis is thought to be a member of the Stolotermitidae, a group of termites that nest in rotting wood. It is part of the Guang River assemblage, which is almost entirely made up of plant fossils, leading Engel et al. to suggest there is a good chance of discovering traces of its nesting behavior. 

Stolotermes, a modern Stolotermitid Termite found in South Africa, Australia and New Zealand. Barbara Thorne/United Nations Environment Program. 

See also New species of moth from Yunnan Province, New species of Owlfly from Morocco, Evidence of fungal parasites modifying the behavior of ants from the Eocene Messel Shale, Giant Fleas from the Jurassic of China and Insect borings in Triasic wood.

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