Second of its kind ‘sharpshooter’ leafhopper from Brazil ‘strikes’ with its colouration

When, in 2014, Brazilian researchers stumbled across a never-before-seen red-eyed leafhopper feeding inside the rosettes of bromeliads, growing in the restingas of southeastern Brazil, they were certain it was a one-of-a-kind discovery. Described as new-to-science species, as well as genus (Cavichiana bromelicola) and added to the sharpshooter tribe Cicadellini, it became the first known case of a leafhopper feeding on otherwise nutrition-poor bromeliads in their natural habitat. 

Newly described sharpshooter species Cavichiana alpina (left) and the only other leafhopper (Cavichiana bromelicola, right) known to feed on bromeliads
Photo by Gabriel Mejdalani

Several years later, however, a team of entomologists from Universidade Federal do Rio de Janeiro carried out fieldwork in a mountainous area of southeastern Brazil and, as a result, another bromelicolous leafhopper species of the genus was discovered: Cavichiana alpina. Only, the new one appeared even more spectacular. 

The new species, described and illustrated in the open-access journal Zoologia, is known from Itatiaia National Park (southeastern Brazil), where it can be found at altitudes above 1,800 m a.s.l. In fact, its characteristic mountainous habitat came to determine its species name (alpina). In contrast, its relative was originally described exclusively from sea level regions, even though the latest field trips have recorded it from a site located at 1,250 m a.s.l. 

Slightly larger than the previously known C. bromelicola and similarly red-eyed, what most remarkably sets apart the newly-described species is its colouration. Rather than a single large yellow blotch contrasting against the dark-brown to black back of the insect, this sharpshooter sports a motley amalgam of red and blue covering most of its upper side.

In conclusion, the researchers explain that the peculiarity of the two known Cavichiana species is best attributed to a putative common ancestor that had likely once been widely distributed in southeastern and southern Brazil. Later, they speculate, a vicariant event, such as the uplift of the southeastern Brazilian mountain ranges during the latest Eocene and Oligocene, might have caused its diversification into two separate species.

Newly described sharpshooter species Cavichiana alpina (top) and the only other leafhopper (Cavichiana bromelicola, bottom) known to feed on bromeliads in their natural habitat
Photo by Gabriel Mejdalani

Original source: 
Quintas V, Takiya DM, Côrte I, Mejdalani G (2020) A remarkable new species of Cavichiana (Hemiptera: Cicadellidae: Cicadellinae) from southeastern Brazil. Zoologia 37: 1-8. https://doi.org/10.3897/zoologia.37.e38783

More assassins on the radar: As many as 24 new species of assassin bugs described

As many as 24 assassin bugs new to science were discovered and described by Dr. Guanyang Zhang and his colleagues. In their article, published in the open access Biodiversity Data Journal, they describe the new insects along with treating another 47 assassin bugs in the same genus. To do this, the scientists examined more than 10,000 specimens, coming from both museum collections and newly undertaken field trips.

Assassin bugs are insects that prey upon other small creatures, an intriguing behavior that gives the common name of their group. There are some 7000 described species of assassin bugs, but new species are still being discovered and described every year.

The new species described by scientists Drs Guanyang Zhang, University of California, Riverside, and Arizona State University, Elwood R. Hart, Iowa State University, and Christiane Weirauch, University of California, Riverside, belong to the assassin bug genus Zelus.

Linnaeus, the Swedish scientist, who established the universally used Linnean classification system, described the first species (Zelus longipes) of Zelus in 1767. Back then, he placed it in the genus Cimex, from where it was subsequently moved to Zelus. All of Zhang & Hart’s new species are from the Americas. Mexico, Panama, Peru, Colombia and Brazil are some of the top countries harboring new species.

To conduct the research, Zhang examined more than 10,000 specimens and nearly all of them have been databased. These specimen records are now freely and permanently available to everybody. Zhang’s work demonstrates the value of natural history collections. The specimens used in his work come from 26 museums in nine countries. The discovery of the new species would not have been possible without these museums actively collecting and maintaining their insect collections.

It took more than a century for some of the new species to be formally recognized and described. The first specimens of the species Zelus panamensis and Zelus xouthos, for example, had been collected in 1911 and 1915 from Panama and Guatemala. However, since then they had been waiting quietly in the collection of the Smithsonian National Museum of Natural History, USA. Now, over 100 years later, they are finally discovered and given scientific names.

Meanwhile, more recently collected specimens also turned out to be new species. Specimens of Zelus lewisi and Zelus rosulentus were collected in 1995 and 1996 from Costa Rica and Ecuador, about two decades ago, a timeframe considered relatively short for taxonomic research. These interesting patterns of time lapse between specimen collecting and scientific description suggest that it is equally important to examine both long deposited in museums specimens and those newly collected from the field.

The kind of research performed by Zhang and his colleagues is called revisionary taxonomy. In revisionary taxonomy a researcher examines a large number of specimens of a group of organisms of his or her interest. This can be either a monophyletic lineage or organisms from a particular region. The scientist’s goal is to discover and describe new species, but also examine and revise previously published species.

Besides describing new species, the present taxonomic monograph treats another 47 previously described species. Nearly all species now have images of both males and females and illustrations of male genitalia. Some of these insects are strikingly brightly colored and some mimic wasps.

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Original source:

Zhang G, Hart E, Weirauch C (2016) A taxonomic monograph of the assassin bug genusZelusFabricius (Hemiptera: Reduviidae): 71 species based on 10,000 specimens. Biodiversity Data Journal 4: e8150.doi: 10.3897/BDJ.4.e8150

New blind and rare planthopper species and genus dwells exclusively in a Brazilian cave

This cave planthopper species new to science is only the second dwelling exclusively in the subterranean depths of Brazil from its family. Surviving without seeing the light of the day at any point of its life, this species has neither the eyes, nor the vivid colouration, nor the functional wings typical for its relatives.

Yet, these are only part of the reasons why the new planthopper needed to have a separate new genus established for itself. The new species is described by a research team from the Center of Studies on Subterranean Biology, Brazil, in the open access journal Deutsche Entomologische Zeitschrift.

The planthopper is called Iuiuia caeca, with the genus name (Iuiuia) referring to the locality, where it was found, and its species name (caeca) translating to ‘blind’ in Latin. It is predominantly yellowish insect that measures only 3 mm, which is small even by planthopper standards.

At first glance, the new cave planthopper appears as if it has been hiding from human eyes all along. So far, it has been located in a single cave in the Iuiú municipality, Bahia state, Brazil, where the team of Prof. Rodrigo Ferreira, Federal University of Lavras (UFLA), Brazil, spotted the insect. He then contacted cave planthopper specialist at the Museum für Naturkunde, Berlin, Prof. Hannelore Hoch, and collaboratively they decided to document and describe the new species. The limestone cave is yet to be fully explored since it floods during the rainy periods.Image 2

In the meantime, the cave’s only entrance is a small opening, which, on the other hand, clearly imposes a huge stability to the atmosphere. Moreover, although the researchers visited the cave on five occasions, they managed to find the species on two of them only. The planthopper was nowhere to be find in the neighbouring subterranean habitats either, which strongly suggests that it is a rare short-range endemic.

Being such a rarity, the blind new planthopper ought to be on the conservation radar. Although the scientists did not notice any signs of the cave having ever been visited by humans before; and its immediate surroundings have not been impacted by mining activities, yet, such threat is not to be excluded. In fact, the area is being currently evaluated for its potential for limestone extraction.

“It is to be hoped that legal measures for the conservation of the subterranean fauna of Brazil – which constitutes one of the country’s unique biological resources – will be developed and consequently reinforced,” conclude the authors.

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Original source:

Hoch H, Ferreira RL (2016) Iuiuia caeca gen. n., sp. n., a new troglobitic planthopper in the family Kinnaridae (Hemiptera, Fulgoromorpha) from Brazil. Deutsche Entomologische Zeitschrift63(2): 171-181. doi: 10.3897/dez.63.8432