Pensoft Editorial Team

New beautiful, dragon-like species of lizard discovered in the Tropical Andes

Enyalioides feiruzae is a colourful, highly variable new species of lizard discovered in the upper basin of the Huallaga River in central Peru. The authors, having searched for amphibians and reptiles in the area between 2011 and 2018, have now finally described this stunning reptile as new to science in the open-access journal Evolutionary Systematics. In fact, E. feiruzae is the fourth herp species discovered by the team in this biologically underresearched part of Peru.

The Huallaga River in the Andes of central Peru extends for 1,138 km, making it the largest tributary of the Marañón River, the spinal cord of the Amazon River. This basin harbours a great variety of ecosystems, including the Peruvian Yunga ecoregion, which is considered a shelter of endemic birds, mammals, reptiles and amphibians.

Closeup of a male of Enyalioides feiruzae. Photo by Pablo J. Venegas

How is it possible, then, that this corner of the Tropical Andes remains poorly known to biologists to this day? The main reason is indeed a quite simple one and it lies in the civil wars with terrorist organisations and drug traffickers that were going on in the region in the 1980s, disrupting biological studies.

It wasn’t until the late 1990s that the Peruvian government was able to liberate the area, and that’s when, little by little, some biologists began to venture back to the Huallaga Valley. However, forest destruction by coca plantations during the internal war, which eventually led to the construction of a hydroelectric power plant, left the Huallaga valley highly fragmented, making for an even more urgent need for biodiversity research in the area.

An adult female of *Enyalioides feiruzae*. Photo by Pablo J. Venegas

A new species of wood lizard, Enyalioides feiruzae, was recently confirmed from the premontane forest of the Huallaga river basin, and described in the open-access, peer-reviewed scientific journal Evolutionary Systematics. It took the researchers seven years of field surveys to formally describe it. To do so, they had first to spend plenty of nights in the forests, in order to pick by hand lizards that were sleeping on bushes 20–150 cm above the ground.

The Feiruz wood lizards – especially the males – come in a stunning variety of colours. Males can have brownish turquoise, gray, or greenish brown backs traced with pale lines. Females, in turn, can be greenish brown or floury brown, with faint dark brown lines on their back, limbs and tail, and spots on the sides.

Male specimens of *E. feiruzae*, showing the extreme of intraspecific variation in this species. Photo by Pablo J. Venegas

The researchers believe E. feiruzae might have established as a separate species after it got geographically separated from a very similar lizard, E. rudolfarndti, possibly as a result from tectonic activity and climatic oscillations that occurred from the Late Oligocene to the Early Miocene.

The Feiruz wood lizard was named after – you guessed it – Feiruz – “a female green iguana, muse and lifelong friend”. The owner of Feiruz the iguana, Catherine Thomson, supported the authors’ efforts in taxonomic research and nature conservation.

The habitat of the E. feiruzae is very fragmented by croplands and pastures for cattle ranching, and for now we only know of a single protected population in the Tingo Maria National Park. Much more remains to be discovered about the size and distribution of E. feiruzae populations and their ability to survive and adapt in a fragmented landscape.

The new species belongs to the genus Enyalioides, which contains sixteen species. More than half of the known Enyalioides species have been described in the last two decades, largely due to the recent surveys of remote places in the Tropical Andes from Ecuador and Peru.

Original source:

Venegas PJ, Chávez G, García-Ayachi LA, Duran V, Torres-Carvajal O (2021) A new species of wood lizard (Hoplocercinae, Enyalioides) from the Río Huallaga Basin in Central Peru. Evolutionary Systematics 5(2): 263-273. https://doi.org/10.3897/evolsyst.5.69227

On the amazing discovery of a new species and how to choose names for spiders

Guest blog post by Alireza Zamani

As someone who enjoys taking regular long walks, listening to podcasts has always been an irreplaceable source of pleasure for me. As an arachnologist and taxonomist, I had been hoping for years that someone would start a podcast dedicated to taxonomy and the discovery of new species. Thankfully, earlier this year Dr. L. Brian Patrick from Dakota Wesleyan University started such a project with the New Species Podcast, and the results are much, much better than what I’d been hoping for. I was particularly delighted when I got invited to the show to talk about a paper in which, together with my colleague Dr. Yuri M. Marusik, we described 17 new species of zodariid spiders from Iran and Turkmenistan.

Loveh region in northern Iran, where *Mesiotelus patricki* was found. Photo by Barbod Safaei-Mahroo

I first met Brian in person at the 19th International Congress of Arachnology in Taiwan in 2013, where we had a fruitful discussion about various collecting methods for spiders and other arthropods. I personally believe that it is of utmost importance that efforts like Brian’s to popularize taxonomy – especially in these trying times – should be publicly acknowledged. And what better way to acknowledge someone’s efforts in popularizing the discovery of new species than to actually dedicate a new species name to them? For this reason, together with my colleague Dr. Marusik we decided to name one of our newly discovered species of Iranian spiders after Brian, in recognition of his wonderful job on the production of the podcast.

*Mesiotelus patricki*. Photo by Alireza Zamani

I am deeply moved and flattered that anyone would name a species after me. I think they must have run out of ideas for specific epithets if they’re naming a species after me!

I am glad that the podcast has inspired at least a few people, and I am trying to help more people understand that dozens to hundreds of new species are described almost every day of the year. I want people to understand the process of biodiversity discovery and the lab and field work associated with that process. Most importantly, I hope that people recognize that we are losing species before we can even find them.
L. Brian Patrick

The new species is named Mesiotelus patricki and is a member of the family Liocranidae. Commonly known as spiny-legged sac spiders, this family is relatively poorly studied globally, with less than 300 currently recognized species; most liocranids are free-living ground-dwelling spiders that can be found within the forest litter and under rocks and stones, usually in well-vegetated habitats.

Oh, WOW, I am so deeply moved (I shed a tear!) that my friend and colleague @Persian_spiders named a new spider species after me! Mesiotelus patricki Zamani & Marusik, 2021 in @ZooKeys_Journal, and named to honor me and the @PodcastSpecies work that I have done. Thanks, Alireza! pic.twitter.com/nxYLLEnbOK
— L Brian Patrick (@LBrianPatrick) August 3, 2021

In the same paper, we also described a new genus and another nine new species of spiders from Iran. Among these, Brigittea avicenna was named after the preeminent Persian polymath Avicenna, while Zagrotes borna and Zagrotes parla were named using Persian given names, meaning “young” and “glowing”, respectively.

It is noteworthy that all of the specimens used in this study had been collected in the 70s by Austrian and Swiss zoologists, and had been sitting on museum shelves for decades, waiting to be “discovered” and formally described. This clearly demonstrates the importance of natural history museums and the value of their scientific collections, as major institutes around the world house hundreds of thousands of undescribed species that are just out there, waiting to be named. We hope that efforts like Brian’s podcast would bring more attention to taxonomy and discovery of new species, as more and more people and investments are indeed needed in this field to unveil the magnificent biodiversity of our planet.

Editor’s note: Alireza will be a guest speaker in L. Patrick Brian’s New Species Podcast this Tuesday, August 17, to discuss the ten new species of spiders he and Yuri Marusik discovered and published in the open-access, peer-reviewed journal ZooKeys. This is not his first appearance on the show – in May, he talked about another 17 new species of spiders he described. Other New Species Podcast highlights include booty-shaking peacock spiders, glow-in-the-dark caterpillars and a whole bunch of trapdoor spiders.

Rare new orchid species just discovered in the Andes

Three new endemic orchid species were discovered in Ecuador and described in the open-access, peer-reviewed journal PhytoKeys. Lepanthes microprosartima, L. caranqui and L. oro-lojaensis are proof that Ecuador – one of the world’s megadiverse countries – hides much more biodiversity waiting to be explored.

For its size, Ecuador has an impressive biological diversity that harbours a unique set of species and ecosystems, many of them endemic or threatened. Because of this great biodiversity, most studies still focus on recording species richness and very little is known about how these species actually interact. This is why in 2017 Dr Catherine H. Graham from the Swiss Federal Institute for Forest, Snow and Landscape Research WSL, with support from the European Research Council and local NGO Aves y Conservation, initiated an ambitious project in the northwestern Andes of Ecuador to study the ecology of plant-hummingbird interactions along an altitudinal and land-use gradient.

*Lepanthes oro-lojaensis*. Photo by Diego Francisco Tobar Suàrez

To this end, researchers established 18 transects in areas of well-preserved cloud forest and sites at different altitude and with different levels of disturbance, and visited them monthly to count the flowers that attract hummingbirds and to place time-lapse cameras in flowering plants.

Lepanthes microprosartima. Photo by Diego Francisco Tobar Suàrez

Several new species to science were discovered during the intensive botanical work of identifying the nearly 400 plant species recorded by the surveys and cameras. One of them is a new orchid species called Lepanthes microprosartima.

Found on the western slopes of Pichincha volcano in northern Ecuador, L. microprosartima is endemic to the Yanacocha and Verdecocha reserves, where it grows at 3200 to 3800 m above sea level in evergreen montane forest – remarkably, this species can thrive even under deep shade in the forest.

Over three years of monitoring, only 40 individuals of L. microprosartima were found, which suggests it is a rare species. Because of this, and because it is only found in a small area, researchers preliminarily assessed it as Critically Endangered according to IUCN criteria.

*Lepanthes caranqui*. Photo by Diego Francisco Tobar Suàrez

Within the same hummingbird monitoring project, another new orchid – Lepanthes caranqui – was discovered in eastern Pichincha. Around the same time, a different research group from the Pontifical Catholic University of Ecuador found the same species in Imbabura. While in Imbabura it was found growing in páramo, with small groups on roadside embankments, in Pichincha it grew in evergreen montane forest, on top of tree trunks or lower branches, in the company of other orchid species. Its name, Lepanthes caranqui, honors the Caranqui culture that historically occupied the areas where this plant grows.

But the wonders of Ecuadorean biodiversity don’t stop there – a research project of Ecuador’s National Institute of Biodiversity found another new species, as small as 3 cm, in the southwest of El Oro. Lepanthes oro-lojaensis was actually discovered on the border between El Oro and Loja provinces, hence its name. It was only found from one locality, where its populations are threatened by cattle ranching, fires, plantations of exotic species, and the collection of shrubs as firewood. This is why researchers believe it should be listed as Critically Endangered according to IUCN criteria.

These additions to the Ecuadorean flora are all described in the open-access, peer-reviewed journal PhytoKeys. They are proof that Ecuador – one of the world’s megadiverse countries – hides much more biodiversity waiting to be explored.

Original source:

Suarez FT, López MF, Gavilanes MJ, Monteros MF, García TS, Graham CH (2021) Three new endemic species of Lepanthes (Orchidaceae, Pleurothallidinae) from the highlands of Ecuador. PhytoKeys 180: 111-132. https://doi.org/10.3897/phytokeys.180.62671

48 years of Australian collecting trips in one data package

From 1973 to 2020, Australian zoologist Dr Robert Mesibov kept careful records of the “where” and “when” of his plant and invertebrate collecting trips. Now, he has made those valuable biodiversity data freely and easily accessible via the Zenodo open-data repository, so that future researchers can rely on this “authority file” when using museum specimens collected from those events in their own studies. The new dataset is described in the open-access, peer-reviewed Biodiversity Data Journal.

While checking museum records, Dr Robert Mesibov found there were occasional errors in the dates and places for specimens he had collected many years before. He was not surprised.

“It’s easy to make mistakes when entering data on a computer from paper specimen labels”, said Mesibov. “I also found specimen records that said I was the collector, but I know I wasn’t!”

One solution to this problem was what librarians and others have long called an “authority file”.

“It’s an authoritative reference, in this case with the correct details of where I collected and when”, he explained.

“I kept records of almost all my collecting trips from 1973 until I retired from field work in 2020. The earliest records were on paper, but I began storing the key details in digital form in the 1990s.”

The 48-year record has now been made publicly available via the Zenodo open-data repository after conversion to the Darwin Core data format, which is widely used for sharing biodiversity information. With this “authority file”, described in detail in the open-access, peer-reviewed Biodiversity Data Journal, future researchers will be able to rely on sound, interoperable and easy to access data, when using those museum specimens in their own studies, instead of repeating and further spreading unintentional errors.

“There are 3829 collecting events in the authority file”, said Mesibov, “from six Australian states and territories. For each collecting event there are geospatial and date details, plus notes on the collection.”

Mesibov hopes the authority file will be used by museums to correct errors in their catalogues.

“It should also save museums a fair bit of work in future”, he explained. “No need to transcribe details on specimen labels into digital form in a database, because the details are already in digital form in the authority file.”

Mesibov points out that in the 19th and 20th centuries, lists of collecting events were often included in the reports of major scientific expeditions.

“Those lists were authority files, but in the pre-digital days it was probably just as easy to copy collection data from specimen labels.”

“In the 21st century there’s a big push to digitise museum specimen collections”, he said. “Museum databases often have lookup tables with scientific names and the names of collectors. These lookup tables save data entry time and help to avoid errors in digitising.”

“Authority files for collecting events are the next logical step,” said Mesibov. “They can be used as lookup tables for all the important details of individual collections: where, when, by whom and how.”

###

Research paper:

Mesibov RE (2021) An Australian collector’s authority file, 1973–2020. Biodiversity Data Journal 9: e70463. https://doi.org/10.3897/BDJ.9.e70463

###

Robert Mesibov’s webpage: https://www.datafix.com.au/mesibov.html

Robert Mesibov’s ORCID page: https://orcid.org/0000-0003-3466-5038

The first Red List of Taxonomists in Europe is calling for the support of insect specialists

The Red List of Taxonomists portal, where taxonomy experts in the field of entomology can register to help map and assess expertise across Europe, in order to provide action points necessary to overcome the risks, preserve and support this important scientific community, will remain open until 31^st October 2021.

About 1,000 insect taxonomists – both professional and citizen scientists – from across the European region have already signed up on the Red List of Taxonomists, a recently launched European Commission-funded initiative by the Consortium of European Taxonomic Facilities (CETAF), the International Union for Conservation of Nature (IUCN) and the scholarly publisher best-known for its biodiversity-themed journals and high-tech innovations in biodiversity data publishing Pensoft.

Insect taxonomists, both professional and citizen scientists, are welcome to register on the Red List of Taxonomists portal at: red-list-taxonomists.eu and further disseminate the registration portal to fellow taxonomists until **31^st** October 2021.

Within the one-year project, the partners are to build a database of European taxonomy experts in the field of entomology and analyse the collected data to shed light on the trends in available expertise, including best or least studied insect taxa and geographic distribution of the scientists who are working on those groups. Then, they will present them to policy makers at the European Commission.

By recruiting as many as possible insect taxonomists from across Europe, the Red List of Taxonomists initiative will not only be able to identify taxa and countries, where the “extinction” of insect taxonomists has reached a critical point, but also create a robust knowledge base on taxonomic expertise across the European region to prompt further support and funding for taxonomy in the Old Continent.

On behalf of the project partners, we would like to express our immense gratitude to everyone who has self-declared as an insect taxonomist on the Red List of Taxonomists registration portal. Please feel welcome to share our call for participation with colleagues and social networks to achieve maximum engagement from everyone concerned about the future of taxonomy!

***

Read more about the rationale of the Red List of Taxonomists project.

***

Follow and join the conversation on Twitter using the #RedListTaxonomists hashtag.

Recruiting participants to the first European Red list of insect taxonomists

New alpine moth solves a 180-year-old mystery

Butterflies and moths (order Lepidoptera) are one of the most diverse animal groups. To date, scientists have found as many as 5,000 species from the Alps alone. Having been a place of intensive research interest for 250 years, it is considered quite a sensation if a previously unknown species is discovered from the mountain range these days. This was the case when a Swiss-Austrian team of researchers described a new species of alpine moth in the open-access, peer-reviewed journal Alpine Entomology, solving a 180-year-old mystery.

Decades of research work

Initially, the team – Jürg Schmid, a full-time dentist, author and passionate butterfly and moth researcher from Switzerland, and Peter Huemer, head of the natural science collections of the Tyrolean State Museums in Innsbruck and author of more than 400 publications, needed a lot of patience.

Habitat of *Dichrorampha velata*. Photo by Jürg Schmid

Almost thirty years ago, in the 1990s, the two researchers independently discovered the same moth species. While they found it was similar to a moth of the leaf-roller family Tortricidae and commonly named as Dichrorampha montanana which had been known to science since 1843, it was also clearly different. Wing pattern and internal morphology of genitalia structures supported a two-species hypothesis. Moreover, the two were found at the same time in the same places – a further indication that they belong to separate species. Extensive genetic investigations later confirmed this hypothesis, but the journey of presenting a new species to science was far from over.

The Hidden Alpine Moth

To “baptise” a new species and give it its own name, scientists first have to check that it hasn’t already been named. This prevents the same species from having two different names, and essentially means looking at descriptions of similar species and comparing the new one against them to prove it is indeed unknown to science. In the case of this new moth, there were six potentially applicable older names that had to be ruled out before it could be named as new.

*Dichrorampha velata*. Photo by Jürg Schmid

Intensive and time-consuming research of original specimens in the nature museums of Paris, Berlin, Frankfurt and London eventually led to the finding that all six ancient names actually referred to one and the same species – Dichrorampha alpestrana, which has been known since 1843 and had to be adopted as the valid older name for Dichrorampha montanana as having been described a couple of months earlier. Similarly, all other available names proved to belong to Dichrorampha alpestrana. The species discovered by Schmid and Huemer, however, was different, not yet named, and could finally be described as new to science. The authors chose to name it Dichrorampha velata – the Latin species name means “veiled” or “hidden,” pointing to the complicated story behind its discovery.

Lots of unanswered questions

The Hidden Alpine Moth is a striking species with a wingspan of up to 16 mm and a characteristic olive-brown color of the forewings with silvery lines. It belongs to a group of mainly diurnal moths and is particularly common locally in colorful mountain flower meadows. For now, we know that its distribution extends at least from Salzburg and Tyrol through southern Switzerland and the Jura to the French and Italian Alps, with isolated finds known from the Black Forest in Germany, but the researchers believe it might have a wider range in Central Europe.

The biology of the new species is completely unknown, but Huemer and Schmid speculate that its caterpillars may live in the rhizome of yarrow or chrysanthemums like other species of the same genus. As with many other alpine moths, there is a strong need for further research, so we can get a better understanding of this fascinating insect.

Original source:

Schmid J, Huemer P (2021) Unraveling a complex problem: Dichrorampha velata sp. nov., a new species from the Alps hitherto confounded with D. alpestrana ([Zeller], 1843) sp. rev. = D. montanana (Duponchel, 1843) syn. nov. (Lepidoptera, Tortricidae). Alpine Entomology 5: 37-54. https://doi.org/10.3897/alpento.5.67498

Not Your Typical Conference Abstract #TDWG2021

TDWG 2021, the virtual conference of Biodiversity Information Standards (TDWG) being held 18–22 October, issued a call for abstracts representing presentations in fifteen symposia, as well as posters (including infographics), and contributed oral presentations appropriate to the conference theme Connecting the world of biodiversity data: uniting people, processes, and tools. Registration is now open, with the deadline for abstract submission set to 2 August 2021.

Joint blog post by #TDWG2021 Program Committee and Pensoft Editorial Team

TDWG 2021, the virtual conference of Biodiversity Information Standards (TDWG) being held 18–22 October, issued a call for abstracts representing presentations in fifteen symposia, as well as posters (including infographics), and contributed oral presentations appropriate to the conference theme Connecting the world of biodiversity data: uniting people, processes, and tools. Registration is now open, with the deadline for abstract submission set to 2 August 2021.

Detailed instructions have also been made available to guide authors through the process. Abstract publication costs are included in the conference registration. All presenters must be fully registered before their abstracts can be published.

Why are these not your typical conference abstracts?

In short, each published abstract is a mini-paper designed to entice conference participants to attend your presentation, but, even more importantly, to let you provide something more enduring, a snapshot of your research progress the size of a written elevator pitch.

Using Pensoft’s ARPHA writing tool, you can enhance your abstract, so that it includes figures, keywords, references, and supplementary materials. Slides, posters, and video links can also be added to the abstract’s media tab after the conference, to build a well-rounded understanding of your work. TDWG’s open access Pensoft journal, Biodiversity Information Science and Standards (BISS), will even provide metrics about views, downloads, citations, or even online mentions of your abstract.

Benefits of publishing your TDWG conference abstract:

Free and open access to your abstract ahead of the conference via the society’s open access Pensoft journal, Biodiversity Information Science and Standards (BISS)
A Digital Object Identifier (DOI), a unique, persistent, and citable reference assigned to each abstract
Distribution of abstracts under the terms of Creative Commons attribution licenses, either CC BY 4.0 (default) or CC0 (by request).
Review provided by at least two editors for each abstract.
Readers can comment or ask questions within the Comment tab in the publication. Authors may also use the Comment tab for updates or errata.
Automatic linking of your abstract to your author record via ORCID and/or Web of Science (Publons) ResearcherID.
To prompt discoverability, all articles, including abstracts, are automatically harvested upon publication by a range of indexers, from AGRIS to ZDB.
Technical editors are cited as part of the article metadata.
Abstracts are associated with the conference session in which they were presented.
Easy to create buzz around your presentation by sharing your abstract on Twitter, Facebook, Mendeley, Reddit, or via email with a single click thanks to share buttons.

While BISS is currently known as (just) a place to publish conference proceedings, this is a misconception. Authors are encouraged to publish full articles of methods, standards, guidelines, case studies, software descriptions, forum papers, editorials, correspondence, data or software reviews. BISS provides a discount on the article processing charges (APCs) for TDWG members.

***

Join the conversation around this year’s Biodiversity Information Standards (TDWG) conference on Twitter via #TDWG2021.

***

Visit BISS Journal website at: https://biss.pensoft.net/ and follow on Twitter and Facebook.

Dolichomitus meii Wasp Discovered in Amazonia Is Like a Flying Jewel

“The species’ striking colouring protects it from birds that prey on insects. They do not snatch the wasp sitting on the tree trunk as they think it will taste bad or that it is dangerous.”

Parasitoid wasps (Hymenoptera) are one of the most species rich animal taxa on Earth, but their tropical diversity is still poorly known. Now, scientists have discovered the Dolichomitus meii and Polysphincta parasitoid wasp species previously unknown to science in South America. The new species found in the rainforests entice with their colours and exciting habits. Researchers at the University of Turku have already described 53 new animal species this year.

Researchers at the Biodiversity Unit of the University of Turku, Finland, study insect biodiversity particularly in Amazonia and Africa. In their studies, they have discovered hundreds of species previously unknown to science. Many of them are exciting in their size, appearance, or living habits.

“The species we have discovered show what magnificent surprises the Earth’s rainforests can contain. The newly discovered Dolichomitus meii wasp is particularly interesting for its large size and unique colouring. With a quick glance, its body looks black but glitters electric blue in light. Moreover, its wings are golden yellow. Therefore, you could say it’s like a flying jewel,” says Postdoctoral Researcher Diego Pádua from the Instituto Nacional de Pesquisas da Amazônia (INPA) in Brazil, who has also worked at the Biodiversity Unit of the University of Turku.

Dolichomitus parasitoid wasps are parasitic on insect larvae living deep in tree trunks. They lay a single egg on the insect larva and the wasp hatchling eats the host larva as it develops.

“The ovipositor of the Dolichomitus meii wasp is immensely long. It sticks the ovipositor into holes in the wood and tries to find host larvae inside. The species’ striking colouring protects it from birds that prey on insects. They do not snatch the wasp sitting on the tree trunk as they think it will taste bad or that it is dangerous,” says Professor of Biodiversity Research Ilari E. Sääksjärvi from the University of Turku.

Polysphincta Parasitoid Wasps Manipulate the Behaviour of the Host Spider

At the same time as the publication on the Dolichomitus meii species, the researchers published another research article on South American wasp species. The article describes altogether seven new wasp species belonging to the Polysphincta genus.

*Polysphincta bonita* refers to the species’ beautiful appearance. The species is parasitic on spiders. Picture: Diego Padúa and Ilari E. Sääksjärvi

The Polysphincta parasitoid wasps are parasitic on spiders. The female attacks a spider in its web and temporarily paralyses it with a venomous sting. After this, the wasp lays a single egg on the spider, and a larva hatches from the egg. The larva gradually consumes the spider and eventually pupates.

“The wasps that are parasitic on spiders are extremely interesting as many of them can manipulate the behaviour of the host spider. They can change the way a spider spins its web, so that before its death, the spider does not spin a normal web to catch prey. Instead, they spin a safe nest for the parasitoid wasp pupa,” describes Professor Sääksjärvi.

Researchers at University of Turku Have Already Discovered 53 New Species This Year

The new species are often discovered through extensive international collaboration. This was also the case with the newly published studies.

“For example, the discovery of the Dolichomitus meii species was an effort of six researchers. Moreover, these researchers all come from different countries,” says Professor Sääksjärvi.

The work to map out biodiversity previously unknown to science continues at the University of Turku and there are interesting species discoveries ahead.

“I just counted that, in 2021, the researchers of the Biodiversity Unit at the University of Turku have described already 53 new species from different parts of the globe – and we’re only halfway through the year,” Sääksjärvi announces cheerfully.

The discoveries of the research group were published in the Biodiversity Data Journal and ZooKeys.

Research articles:

Di Giovanni F, Pádua DG, Araujo RO, Santos AD, Sääksjärvi IE (2021) A striking new species of Dolichomitus Smith, 1877 (Hymenoptera: Ichneumonidae; Pimplinae) from South America. Biodiversity Data Journal 9: e67438. https://doi.org/10.3897/BDJ.9.e67438

Pádua DG, Sääksjärvi IE, Spasojevic T, Kaunisto KM, Monteiro RF, Oliveira ML (2021) A review of the spider-attacking Polysphincta dizardi species-group (Hymenoptera, Ichneumonidae, Pimplinae), with descriptions of seven new species from South America. ZooKeys 1041: 137-165. https://doi.org/10.3897/zookeys.1041.65407

Trapdoor spiders named after Neil Gaiman, Peter Gabriel and Brandi Carlile among 33 new to science species

New species named after famous novelist Neil Gaiman, musician and human rights activist Peter Gabriel and singer-songwriter Brandi Carlile are among thirty-three new trapdoor spiders described from across North and South America. Following the discovery, published in the openly accessible, peer-reviewed scholarly journal ZooKeys, the known species in the genus Ummidia increased more than twice.

In a recent revision of the trapdoor spider genus Ummidia completed at the University of California, Davis, co-authors Dr. Rebecca Godwin (Piedmont University, GA) and Dr. Jason Bond (University of California, Davis, CA) described 33 new species found throughout North and South America. Their study is published in the openly accessible, peer-reviewed scholarly journal ZooKeys. A number of these species were named after popular artists, including Neil Gaiman, Peter Gabriel and Brandi Carlile.

“I think anything we can do to increase people’s interest in the diversity around them is worthwhile and giving species names that people recognize but that still have relevant meaning is one way to do that,” says Dr. Godwin.

A male *Ummidia brandicarlileae* from Yucatán, Mexico

The newly described trapdoor spider Ummidia brandicarlileae is named after singer-songwriter and activist Brandi Carlile, and occurs in Yucatán, Mexico, where Carlile’s annual Girls Just Wanna Weekend Festival is held. The event was created to counter the lack of female representation at mainstream music festivals.

A male *Ummidia neilgaimani* from Roanoke Co., Virginia, U.S.

Similarly, Ummidia neilgaimani is named after fantasy and horror writer, Neil Gaiman, author of a number of fantasy and horror books with spider-based characters, and a particular favorite of Dr. Godwin.

A male *Ummidia gabrieli* from Baja California Sur, Mexico

In addition to these pop culture references, Godwin and Bond named several species in honor of various people and places. The Pine Rockland trapdoor spider, found in southern Florida, is named after the critically endangered pine rockland habitat in which it is found. Ummidia paulacushingae is named for Dr. Paula Cushing, long-time collaborator and friend of Bond and friend, and mentor to Godwin.

With the names of the new to science species, the authors were also able to shed light on lesser-known historical figures. Ummidia bessiecolemanae is named for Bessie Coleman (1892–1926), the first African American and Native American woman to obtain her pilot’s license.

Trapdoor spiders are unique compared to most of the spiders that we are familiar with in that they don’t use silk to make a web. Instead, they live in burrows lined with silk and covered with a “trapdoor”.

Trapdoor spiders in the genus Ummidia are actually very widespread—they can be found from Maryland west to Colorado through Mexico and Caribbean as far south as Brazil. However, because they spend most of their lives underground, people rarely ever encounter a trapdoor spider. When trapdoor spiders are young, they leave their mother’s burrow and make one of their own. Females will spend their entire lives (which can be decades) in those burrows if they aren’t disturbed, but when a male spider matures (5 to 7 years of age), they emerge in search of females. This is when people are most likely to see them.

“I am continually blown away by how little we know about what is out there living on this planet with us. Most people don’t even realize they are sharing their space with these creatures literally right under their feet”
Dr. Rebecca Godwin

“Given the fact that these spiders tend to have very limited ranges and have very low dispersal, entire species can be winked out of existence without us ever knowing they were here, and I find that kind of heartbreaking. Documenting the diversity of groups like Ummidia gives us knowledge we need to appreciate and conserve the rich and diverse life that surrounds us.”

Research article:

Godwin RL, Bond JE (2021) Taxonomic revision of the New World members of the trapdoor spider genus Ummidia Thorell (Araneae, Mygalomorphae, Halonoproctidae). ZooKeys 1027: 1-165. https://doi.org/10.3897/zookeys.1027.54888

ARPHA expands to computer science with International Journal of Universal Computer Science

The scholarly publisher and technology provider Pensoft and its self-developed publishing platform ARPHA welcome The International Journal of Universal Computer Science (J.UCS) to their portfolio. With this addition, the publisher, best known for a wide range of biodiversity-themed journals, steps into the field of computer science.

Since 1995, J.UCS has been publishing, digitally and in print, research articles and editorials on all aspects of computer science. With a free-of-charge policy for both authors and readers, and a review process usually taking between 6 and 10 weeks, its volumes have been documenting, connecting and reflecting novel aspects of computer science. J.UCS’ peer-reviewed monthly issues, as well as special issues on selected topics, continuously serve as one of the major knowledge bases for the research community in computer science. Currently, its Impact Factor stands at 1.139 (2020), and its CiteScore is at 2.0 (2020).

The journal is already publishing on a brand-new, user-friendly website under Pensoft’s scholarly publishing platform ARPHA. Its latest issue features a model for forecasting air travel demand with machine learning; an analysis of the effect of different stimuli, such as video and sound on a user’s sense of presence in a virtual environment; and a new approach for solving the 15-puzzle problem using the artificial bee colony algorithm.

By moving to ARPHA, J.UCS now enjoys a long list of high-tech perks, which dramatically enhance the entire publishing process, from submission to publication, distribution and archiving. All users of the journal’s system – authors, editors, and reviewers, can benefit from ARPHA’s integrated approach, which ensures that once submitted, each manuscript goes through the whole cycle: from manuscript submission, review and copy/layout editing to publication, dissemination and archiving, without ever leaving ARPHA’s collaboration-focused online environment.

The easy-to-use platform offers features such as papers available in a machine-readable XML format, automated data export to aggregators, automated notifications and reminders, usage metrics and web-service integrations with major global indexing databases, which ensure that published articles are easy to discover, access, cite and reuse by both humans and machines all over the world.

“Since its foundation, J.UCS has built on and even created innovative features for digital libraries. By moving to the ARPHA platform, the J.UCS community can take advantage of the latest publishing features and technologies, including long-time archiving and review acknowledgement. Thus, the J.UCS team can concentrate on the journal’s core business and content quality, and can rely on professional service and support. Moving to the new platform was only possible due to the financial support of our consortium partners Graz University of Technology, ZBW, American University and California Polytechnic State University, and by in-kind support from Internet Studio Isser and photographer Christian Trummer for their graphical design contribution.”
Christian Gütl, Managing Editor-in-Chief.