A review of the genus Nebo in Oman and the description of three new species

 

Graeme Lowe has published a review of the genus Nebo Simon, 1878 (Diplocentridae) in Oman. Three new species were identified.

Nebo feulneri Lowe, 2026 

Nebo masirahensis Lowe, 2026 

Nebo nebulicola Lowe, 2026 

The existence of the three previously reported species in Oman is confirmed, and redescriptions are provided. The article also includes an identification key for the genus in Oman.

Regarding the major Prendini revision of all scorpion taxa that I recently blogged about, I have started mapping all the changes and their justification. There are several hundred changes, and this work will take some time. I also awaits reactions from the scorpion research community about the changes. The first line in the paper uses the work "consensus" about the content, but that is not in accordance with the reactions I have gotten so far. Many of the suggested changes are accepted, but others are refuted. So I will not update The Scorpion Files until I get some real consensus about the results (to avoid using a lot of time changing The Scorpion Files, and then have to change a lot back again after a few months because new papers will change Prendini's suggested changes. So please be patient and check the Prendini paper if you want to learn more about the changes he has suggested.

Abstract:
The taxonomy of the genus Nebo in Oman is revised based on an analysis of 427 samples from 135 localities spanning the length of the country. All three previously known species, N. franckei Vachon, 1980, N. omanensis Francke, 1980, and N. whitei Vachon, 1980, were found and are redescribed. Three new species, N. feulneri sp. n., N. masirahensis sp. n., and N. nebulicola sp. n. from the Arabian Sea coast are described, and a new record of N. henjamicus is reported from the Musandam Peninsula. Species diagnoses are based on coloration, morphometric ratios, multivariate analyses of sclerite dimensions, scalloping of male pedipalp fingers, and granulation of female carapace and pedipalp movable fingers. The populations of Nebo comprise a series of allopatric or sympatric species distributed over four local centers of endemism on coastal regions of Oman: Al Hajar mountains, northern Central Coast, southern Central Coast, and Dhofar mountains.

Reference:
Lowe G. The genus Nebo Simon, 1878 (Scorpiones: Diplocentridae) in Oman. Euscorpius. 2026(429):1–139.

Family Diplocentridae 

 

Discovery of an unknown cave-dwelling scorpion from Australia

 

It is always interesting to read about new, cave dwelling scorpions. Some of these are just troglophiles without any special morphological adaptions, while others are true troglobites with adaptions like lack of pigments and reduced or no eyes.

In a recent article, Michael Curran and co-workers describe a new scorpion discovered in caves the Pilbara region of Western Australia. The taxonomic status of the scorpion will be treated in a future article, but preliminary analysis place it in the family Bothriuridae. The new species has distinct troglomorphic traits. It lacks eyes and pigmentation, and has weakened/diminished appendages.

It will be interesting to read the follow-up study on the taxonomy of this scorpion and another unknown bothriurid fra the same area. These two specimens represent the first reported troglobitic members of the family Bothriuridae.

Abstract:
We report the first troglobitic members of the scorpion family Bothriuridae from Australia, discovered in the Pilbara region of Western Australia, and provide a brief review of Australian troglofaunal scorpions. Scorpions are rare in subterranean ecosystems, with only 28 species recorded globally. Two described and two undescribed subterranean scorpion species were previously known from Australia. The Pilbara specimen documented herein exhibit pronounced troglomorphic traits, including complete loss of ocelli and pigmentation and weakened/diminished appendages, consistent with obligate subterranean adaptation. Morphological and phylogenetic analyses place the specimen within Bothriuridae. Photographs, collection details, and molecular data are provided. Together with a previously collected undescribed bothriurid from the Pilbara, this discovery represents the first documented troglobitic Bothriuridae globally. Formal taxonomic treatment will follow in a subsequent dedicated study.

Reference:
Curran M, Rodman S, Huey J, Floeckner S, Gunawardene N, Lythe M, et al. First record of troglobitic Bothriuridae (Scorpiones) in Australia from the Pilbara. Subterr Biol. 2026;56:85–101. [Open Access]

Thanks to Matt Simon and Francesco Frigioni for sending me this article!

Heavy metal scorpions

 

No, I'm blogging about the heavy metal band Scorpions! :)

Sam Campbell and co-workers have recently published an interesting study looking into how scorpions can harden their weapons. The scorpions main weapons are their powerful claws and their stinger (used to inject venom). The study hypothesizes that the scorpions are using metal enrichment in these structure to make them harder and stronger.

The study shows that metals like Zinc are used in strengthening the claws and the stinger, but not simultaneously. In species where Zinc was richly concentrated in the claws, it was scarce in the stinger, and vice versa. Scorpions with big claws usually crush prey and do not use the stinger, while species with more slender claws depend on the stinger and venom for subduing a prey. Interestingly, it was the latter groups where the metal content of the claws was highest. This has probably evolved as a compensation for the structural fragility of the scorpion withe slender claws.

An interesting study that both looks into the distribution and placing of the metals in the scorpion exoskeleton and discuss this in an evolutionary context.

Abstract:
Scorpions diverged from their closest relatives around the Ordovician Period, and since then, environmental interactions have shaped the evolution of the material properties of their exoskeletons. Hardening of this structure via the incorporation of transition metals has enabled biomechanical advancements in weapon development. Scorpion weapons consist of the stinger (telson) and claws (chelae) and contain diverse metals such as zinc, manganese and iron, though little is known about comparative patterns of incorporation across the wider clade. In this study, we harness X-ray-driven microanalytical techniques to characterize the different elemental enrichment patterns within the weapons of 18 species from a range of scorpion families. We hypothesized that enrichment by metal would be inversely correlated between weapons, tied to their functional roles and morphological diversity. We identified cryptic enrichment strategies, including weapon-selective elemental replacement and an inverse enrichment of Zn between weapons. Chela enrichment by Zn was found to positively correlate with a morphological indicator of chelae pinch strength, wherein Zn enrichment was greater in specimens with reduced crushing power. This study supports a growing body of research into the evolution of metal enrichment among invertebrates and provides a greater understanding of the material properties of the exoskeleton within weapon development.
 

Reference:
Campbell SI, Vicenzi EP, Lam T, Fry BG, Wood HM. Heavy metal predators: diverse elemental enrichment across the weapons of scorpions. J R Soc Interface. 2026;23(237). [Open Access]

A new species of Scorpio from Saudi Arabia

 

Abdulhadi Aloufi and co-workers have recently published an article describing a new species of Scorpio Linnaeus, 1758 (Scorpionidae) from Saudi Arabia.

Scorpio furvus Aloufi, Afifeh, Al-Saraireh & Amr, 2026 

Abstract:
A new species of Scorpio Linnaeus, 1758 is described from Al Ula Governorate, Al Madinah Province, Saudi Arabia. Scorpio furvus sp. nov. is distinguished from closely related congeners, including S. fuscus, S. kruglovi, S. palmatus, S. jordanensis, and S. yemenensis, by a unique combination of morphological characters notably the granulation pattern of the pedipalp chela, metasomal proportions, pectinal structure and length, and overall dark coloration. Morphometric comparisons further support its distinct status. The discovery of this species highlights the underestimated diversity of the genus Scorpio in the Arabian Peninsula and reinforces the view that the Scorpio maurus complex comprises multiple geographically restricted taxa requiring continued integrative taxonomic investigation.

Reference:
Aloufi A, Abu Afifeh B, Al-Saraireh M, Amr ZS. A New Species of Scorpio from Saudi Arabia (Scorpiones: Scorpionidae). Taxonomy. 2026;6(2):26. [Open Access]

Thanks to Luis A. Roque for informing me about the new species.

Family Scorpionidae