Tag: crickets

A “Balrog” in the Tunnels: Scientists discover a new cave cricket species on the tiny island of Kastellorizo, Greece

This previously unknown species of cave cricket was found thriving within a network of man-made tunnels.

 Despite the intensity of modern exploration, the eastern Mediterranean continues to yield unexpected discoveries. On the small Greek island of Kastellorizo, researchers have documented a previously unknown cave cricket thriving within a network of man-made tunnels.

The species, named Dolichopoda balrogi, was described by researchers from Greece and published in the open-access Journal of Orthoptera Research. This discovery highlights how even small and seemingly ordinary habitats can shelter unique and previously unknown life.

  • Individuals of the newly discovered Dolichopoda balrogi sp. nov. in the artificial tunnel of Kastellorizo on 17 October 2025 – Male individual. Photo credit: Konstantinos Kalaentzis.
  • Juvenile. Photo credit: Konstantinos Kalaentzis.

A mysterious cricket in underground tunnels

The new species belongs to the genus Dolichopoda, a group of cave crickets that inhabit dark, humid environments such as caves, crevices, and underground spaces across southern Europe and the eastern Mediterranean. These insects are well known to evolutionary biologists because their isolated populations often evolve into distinct species on islands or in separate cave systems.

On the easternmost Greek island of Kastellorizo, researchers surveyed an artificial tunnel that serves as the island’s sole accessible land cave. To their surprise, they encountered a population of cave crickets bearing characteristics of the cave-dwelling genus Dolichopoda.

Detailed morphological and molecular study confirmed that the specimens represented a species new to science.

Artificial tunnel of Kastellorizo. Photo credit: Konstantinos Kalaentzis.

Why “balrogi”?

The species name balrogi was inspired by the Balrog, a legendary fire-demon from J.R.R. Tolkien’s The Lord of the Rings. In Tolkien’s story, the Balrog is an ancient creature hidden deep beneath the mountains, emerging from darkness. Its discovery is a fitting parallel; the cricket’s preference for deep, dark tunnel systems kept it outside the known record for decades.

The name also alludes to the circumstances of discovery of the species, which was found exclusively in a man-made tunnel. In Tolkien’s narrative, the Balrog is revealed only after the Dwarves “delved too deep”; similarly, Dolichopoda balrogi was discovered on Kastellorizo due to anthropogenic excavation on Mount Vigla, as the island lacks accessible caves. The epithet thus symbolically links deep excavation with the revelation of hidden subterranean fauna.

Dolichopoda balrogi sp. nov. Image credit: Konstantinos Kalaentzis.

Fortunately, unlike Tolkien’s fearsome creature, Dolichopoda balrogi is harmless – although equally well adapted to life in darkness.

Hidden biodiversity in unexpected places

Kastellorizo is a very small island, covering only about 9 square kilometers. Yet its position in the eastern Mediterranean between Asia and Europe makes it an important biogeographic hotspot.

Geographic distribution of Eastern Mediterranean Dolichopoda species. Image credit: © Environmental Systems Research Institute, Inc., CC BY 3.0.

The discovery of D. balrogi demonstrates that even small islands can host unique endemic species. It also suggests that artificial underground environments, such as tunnels and abandoned infrastructure, can function as refuges for specialised cave-dwelling organisms.

“These findings remind us that biodiversity discoveries are not limited to remote tropical forests or deep oceans. Even familiar landscapes and human-made structures can harbour species that have remained unnoticed.”

Konstantinos Kalaentzis

Protecting small and fragile ecosystems

Cave-adapted organisms like Dolichopoda crickets often have very restricted distributions, sometimes occurring in only a single cave or underground system. Because of this, they can be particularly vulnerable to habitat disturbance. The authors suggest that documenting and understanding these hidden species is an important first step toward their conservation.

Bayesian inference phylogenetic tree based on mitochondrial COI sequences of Dolichopoda species. Image credit: Konstantinos Kalaentzis.

As research continues across the Mediterranean, the researchers note that the countless Greek islands – many still poorly explored biologically – are likely to hold many more hidden biodiversity treasures awaiting discovery.

Cover image:

Newly discovered Dolichopoda balrogi sp. nov. in the artificial tunnel of Kastellorizo on 17 October 2025 – Female individual. Photo credit: Konstantinos Kalaentzis.

Original source:

Kalaentzis K, Alexiou S, Christopoulos A, Minoudi S, Koutsogiannopoulos D, Kotselis C, Triantafyllidis A (2026) Delving too deep: Morphological and molecular description of the cave-dwelling Dolichopoda balrogi sp. nov. (Orthoptera, Rhaphidophoridae) from Kastellorizo Island, Greece. Journal of Orthoptera Research 35(2): 259-266. https://doi.org/10.3897/jor.35.187943

For more interesting articles on orthoptera, visit the Journal of Orthoptera Research website and follow us on Bluesky and Facebook.

Australian winged wētā population in Auckland increasing, posing a threat to native invertebrates

In a peer-reviewed study published in the Journal of Orthoptera Research, the insect has been traced back to its origin in Queensland.

A fearsome-looking insect commonly referred to as “winged wētā” may look like a flying wētā, but it is not a wētā at all. It belongs to the family of the raspy crickets, which is not native to New Zealand. Like all of its family members, it has the ability to secrete silk from its mouth parts, which it uses to build shelters in foliage.

A close-up photo of a brown cricket resting on a green fern leaf.
Adult male winged wētā (Pterapotrechus salomonoides) in its natural habitat. Photo by Danilo Hegg

The “winged wētā” was first detected in Auckland in 1990. Within thirty years, it had expanded its range north to Cable Bay, Northland; east to Coromandel Peninsula, and south to Raglan, Waikato. While sightings in New Zealand became more and more numerous, the insect remained unidentified. New Zealand entomologist Danilo Hegg recently travelled to Queensland, Australia, to trace the “winged wētā” back to its population of origin and put a name to the species. In a peer-reviewed study now published in the Journal of Orthoptera Research, Hegg showed that the insect originates from the montane rainforests south of Brisbane, at the border of Queensland and New South Wales.

A map of Australia and New Zealand highlighting specific locations in Queensland and New South Wales, including Brisbane, Tamborine Mountain, and Auckland.
Collection localities in New Zealand and Australia.

“The insect is heavily built, has relatively short wings, and is a poor flyer,” says Hegg. “While Australian butterflies do occasionally reach our shores carried by westerly winds, the 2,300km journey across the Tasman Sea is almost certainly too much for the winged wētā. It is highly unlikely that it would have reached New Zealand by natural means”. Australian insects carried by the wind may land anywhere between Cape Reinga and Rakiura / Stewart Island. The fact that the “winged wētā” was first detected in Auckland, New Zealand’s largest import hub, only adds weight to the hypothesis of an accidental introduction by anthropogenic means.

Not only has the “winged wētā” been expanding its range in New Zealand; it has also been building up numbers. Its population density has at least quintupled in Auckland during the past twelve years. And like many other invasive species, it appears to be found in higher numbers in its new territory than in its country of origin. “In Queensland, I could spend a night out and find one or two individuals at most. In Auckland, I was able to capture seven specimens in a two-hour walk” says Hegg.

A photo of two crickets nestled together inside curled green leaves.
Nymphs of winged wētā (Pterapotrechus salomonoides) in rolled leaves held together by silk strands

The “winged wētā” is an omnivore and an agile hunter. Strictly nocturnal, it prowls in the foliage in trees and pounces on any invertebrate that is small enough for it to tackle. Observations conducted in captivity and in the wild have shown that the “winged wētā” preys on just about anything that moves at night. Including juvenile Auckland tree wētā, one of New Zealand’s largest insects.

A close-up photo of a brown cricket resting on a green leaf and holding insect wings in its mandibles.
A winged wētā (Pterapotrechus salomonoides) Nymph with winged termite (Schedorhinotermes sp.) prey.

Given its high population density and its predatory habits, there are concerns the invasive insect could have an impact on New Zealand’s native invertebrate wildlife. “There is still a lot we don’t know” says Hegg “we need to study its diet in the wild, and we need to understand whether the winged wētā is also taking hold in intact native forest habitats, or only in urbanised areas, where the majority of the sightings are. But it poses a threat that needs to be taken seriously”.

New Zealand’s invertebrates are already being decimanted by introduced rodents, mustelids, hedgehogs, cats and wasps. The Australian winged wētā is only going to add to their woes.

Research article:

 Hegg D (2025) An Australian raspy cricket established in New Zealand, Pterapotrechus salomonoides (Orthoptera, Gryllacrididae), with notes on ecology and first description of the male. Journal of Orthoptera Research 34(1): 77-94. https://doi.org/10.3897/jor.34.134391