social insects

Tasked to defend the colony from attackers, the specialised soldier caste in some termite species has evolved various impressive mechanisms, including plug-like heads – meant to block intruding ants trying to invade their lairs, and mouthparts designed to bite and pierce.

Still, there are even more spectacular soldiers, such as a recently discovered drywood termite species, whose unique long and slender, stick-like snapping mandibles produce one of the highest acceleration speeds measured in a living organism. Rather than bite, these peculiar ‘jaws’ deliver powerful strikes at enemies bold enough to stand in the way of the soldier termite and its colony.

The scientists describe the new termite’s specialty in detail:

“Roisinitermes employs a unique strategy of snapping, achieved by long and slender mandibles pressed against each other in a defensive encounter. When this potential energy is released, the left mandible springs over the right and the resultant snap is forced onto the opponent if it is in the path of the strike.”

Discovered in Cameroon, this striking species is the first drywood termite found to rely on snapping mandibles as a defense strategy. Given that until now there had been a single subfamily (Termitinae) known to have developed such, the very existence of the new insect poses a whole new set of questions before scientists. Have snapping mandibles evolved independently in two evolutionary lineages? Or, is it that these groups share a distant kin relationship which has gone unnoticed for that long?

The new drywood termite, which is also assigned to a new genus, is named Roisinitermes ebogoensis, and is described in the open access journal ZooKeys by an international team of researchers, led by Dr Rudolf Scheffrahn of the Institute for Food and Agricultural Sciences at University of Florida, Davie, USA. Although this particular species is not thought to be a pest, some drywood termites cause serious damage to wooden structures around the world.

Both colonies studied by the scientists were found near the Ebogo II village, which also stands behind the name of the species. The first unusual colony to draw the attention of the scientists was collected from a forest on an island in the Nyong River, where it lived in a thin (3 cm) and long (over 3 m) broad-leaf tree branch suspended from a canopy. The second one – in a 15-mm thick dead liana branch hanging from a tree in a nearly pristine rainforest.

The team expects that future research will shed more light on the origins and evolution of the newly discovered termite.

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Original source:

Scheffrahn RH, Bourguignon T, Akama PD, Sillam-Dussès D, Šobotník J (2018) Roisinitermes ebogoensis gen. & sp. n., an outstanding drywood termite with snapping soldiers from Cameroon (Isoptera, Kalotermitidae). ZooKeys 787: 91-105. https://doi.org/10.3897/zookeys.787.28195

A total of fifteen new species of bees, where one honors the English broadcaster and naturalist Sir David Attenborough, are described by Thomas Onuferko, PhD candidate at York University in Toronto, Canada. His paper is published in the open access journal ZooKeys.

The new species, called Attenborough’s epeolus (pronounced ee-pee-oh-lus), is rare and known from only nine specimens observed at two localities, in Colorado and New Mexico.

To name the other new species, the author referred to colleagues or relatives, the species’ physical appearance, their collectors, or the flowers on which the insects have been found.

Currently, not much is known about any of the newly described species, except that they belong to a specialized group of bees called cuckoo bees. Much like cuckoo birds, these bees sneakily lay their eggs in the nests of other species. When they hatch, the younglings seek out and kill the host egg or larva and then feed on the pollen stored by the female who has built the nest.

Female of the newly described cuckoo bee species, Epeolus attenboroughi . This specimen is the holotype for the species, meaning it is the one used to describe the new bee.

All new species belong to the cuckoo bee genus Epeolus, known to invade nests of polyester bees in the genus Colletes. In his publication, Thomas speculates that the name ‘epeolus’ is probably a diminutive of Epeus/Epeius, the soldier in Greek mythology said to have come up with the Trojan Horse. The sinister nature of these cleptoparasitic bees must have been compared to the Greek’s famous war strategy.

Cuckoo bees are difficult to recognize as bees because they lack the characteristic fuzzy look, which comes from the numerous long branched hairs evolved to efficiently pick up pollen. Instead, cuckoo bees rely on other bees to collect pollen for their offspring, leading to the trait being lost.

While, as a result, these species would rather be likened to wasps, their appearance is not plain at all. Cuckoo bees, including Attenborough’s epeolus, possess very short black, white, red, and yellow hairs that form beautiful patterns.

“It only seemed appropriate to name a species with such an unusual life strategy and attractive appearance after someone who has dedicated his life to illustrating the beauty and complexity of the natural world,” explains Thomas.

Including the new species, there are now 43 known Epeolus species in North America.

“It may seem surprising to some that in well-researched places like Canada and the United States there is still the potential for the discovery of new species,” says the scientist.

Male of the newly described cuckoo bee species, Epeolus attenboroughi , with its proboscis (i.e. mouthparts) extended. These are elongated in order to reach and feed on the nectar within flowers.

Since cuckoo bees are rarer than their hosts – as predators are rarer than their prey – and relatively small (5.5–10.0 mm in body length), they are likely to go undetected, which partly explains why it’s taken so long to identify these new ones.

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Original source:

Onuferko TM (2018) A revision of the cleptoparasitic bee genus Epeolus Latreille for Nearctic species, north of Mexico (Hymenoptera, Apidae). ZooKeys 755: 1–185. https://doi.org/10.3897/zookeys.755.23939.