Uniting to advance amphibian and reptile conservation: the 10th World Congress of Herpetology

At the event, the Pensoft team met up with authors and editors, showcased its new communication materials, and sponsored a Best Talk award.

The 10th World Congress of Herpetology (WCH) took place on August 5-9, 2024, in Kuching, Malaysia. Maria Kolesnikova, Pensoft’s marketing and sales manager, attended the event, connecting with many current and prospective authors and editors at Pensoft journals.

Maria Kolesnikova standing at Pensoft's booth.

Throughout the congress, our stand attracted numerous visitors, including many editors of our journals, such as Herpetozoa and ZooKeys. The opportunity to connect with our editors in person was invaluable, reinforcing the collaborative spirit that drives our publishing efforts. In addition, many of the authors in our journal visited the Pensoft stand to see their papers in print.

  • Bibiana Rojas, subject editor at Herpetozoa
  • Luciano Javier Avila, subject editor at Biodiversity Data Journal
  • Luis Ceríaco, author and editor at ZooKeys
  • Anthony Herrel, subject editor at ZooKeys
  • Mao-Liang Li, author at Herpetozoa
  • Ilse K. Barraza-Soltero, author at ZooKeys, Herpetozoa, and Check List
  • Artem Lisachov, subject editor at Comparative Cytogenetics and author at Biodiversity Data Journal and Herpetozoa

Many of our editors participated actively in the congress, delivering talks that highlighted cutting-edge research in herpetology.

Luis Ceríaco, author and editor at ZooKeys, presented a talk called “The herpetological results of Alexandre Rodrigues Ferreira’s ‘Philosophical Voyage’ to Brazil (1783–1792)”, where he talked about a huge expedition to explore the Amazon and Cueva rivers.

Umilaela Arifin, subject editor at Zoosystematics and Evolution, delivered a presentation called, “Hang’in there! Toward stabilising phylogeny of Asian ranids with gastromyz ophorous tadpoles,” where she talked about Sumaterana, a new genus that has been identified with gastromyz tadpoles in Sumatra.

Ben Wielstra, subject editor at Herpetozoa, presented to a fully packed hall on the balanced lethal system in Triturus newts.

Hanh Thi Ngo, author at Nature Conservation, gave a talk called “Diversity of karst – adapted bent-toed geckos in Laos and Vietnam.” Karst diversity is in great danger because of human activities in Vietnam, she said. There are publications on this topic in ZK & Nature Conservation by Hanh and Ziegler.

Scientific illustrator Denitsa Peneva has designed Pensoft’s new communication materials, centered around rich, colourful illustrations of species that have been featured in Pensoft’s journals.

Swati Nawani, doctoral researcher at the Wildlife Institute of India, won one of Denitsa’s amazing scientific illustration prints as part of a raffle organised by Pensoft. Swati has researched Himalayan amphibians since 2018.

In a commitment to support and celebrate excellence in herpetological research, Pensoft sponsored the Best reptile conservation talk award. For her talk, “Heat water and reptiles – do the hydro-thermal properties of animals at the source location persist at the translocation site?,” Deanne Trewartha won a free publication in either Herpetozoa or Nature Conservation, as well as another beautiful print by Denitsa Peneva.

The award presentation was a moment of celebration, and we are delighted to support the work of such inspiring researchers.

For Pensoft, the 10th World Congress of Herpetology was a chance to connect with our authors and editors and engage with the global herpetology community. Inspired by all the quality research presented there, we look forward to the next Herpetology Congress – and until then, we will continue publishing and promoting outstanding scientific work.

Eight years of ruin: the legacy of the Mariana dam disaster

Researchers explore the ongoing devastation caused by Brazil’s worst environmental disaster.

Eight years since the collapse of the Fundão tailings dam in Mariana, Brazil, researchers have highlighted ongoing environmental and social devastation caused by the disaster.

A paper published in our open-access journal Nature Conservation underscores the persistent and growing impacts of the collapse, which ranks as one of the world’s most significant environmental tragedies.

Several dead fish on a muddy river bank with a forest in the background.
Dead fish in Marliéria, Minas Gerais, Brazil, about 200 km downstream from the Fundão tailings dam. Photo credit: Elvira Nascimento.

Caused by the Samarco mining company, the 2015 collapse released approximately 50 million cubic meters of toxic mud, burying the village of Bento Rodrigues and severely contaminating over 600 kilometres of river channels and coastal habitats. More than 1 million people across 35 cities were affected, leading to 19 deaths, widespread health issues, and the displacement of hundreds of residents.

A village, destroyed by the Mariana dam disaster, covered in mud.
The village of Bento Rodrigues after the disaster. Photo credit: Rogério Alves/TV Senado.

According to researchers, the environmental damage has only intensified over the years. High levels of heavy metals continue to threaten human and wildlife health, with significant bioaccumulation observed in endangered species like the Franciscana dolphin. Additionally, the disaster caused the introduction of numerous invasive species, further destabilising the ecosystem.

The paper, led by Dr Cássio Cardoso Pereira and Fernando Goulart of Universidade Federal de Minas Gerais, criticises the slow and controversial response by the Renova Foundation, an entity created by the responsible companies to address the disaster’s aftermath. While some compensation and restoration efforts have been made, the researchers argue that these actions are insufficient and often inadequate.

A Brief History of: The Mariana Disaster by Plainly Difficult.

One of the most concerning findings, they say, is the ongoing risk posed by similar structures across Brazil, where hundreds of dams remain in poor condition. The study advocates for the replacement of these dangerous dams with safer alternatives like dry mining, which significantly reduces the risk of future collapses.

“Urgent, science-based public policies are needed that prioritise the restoration of the Rio Doce basin, in addition to comprehensive compensation for affected communities. To achieve this, we need collaborations involving local and government oversight and independent scientific expertise to prevent further ecological and human disasters.”

Dr Cássio Cardoso Pereira.
Has climate change hijacked the environmental agenda?
Read a guest blog post by Dr Cássio Cardoso Pereira exploring whether biodiversity loss is being overlooked because of climate change.

As the region continues to face the compounded effects of climate change, with increasing cyclones and heavy rains worsening the spread of pollutants, the paper reminds us that the legacy of the Fundão disaster is far from over.

Original source

Pereira CC, Fernandes S, Fernandes GW, Goulart FF (2024) Eight years after the Fundão tailings dam collapse: chaos on the muddy banks. Nature Conservation 56: 77-82. https://doi.org/10.3897/natureconservation.56.133441

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Will climate change lead to the extinction of a newly discovered tarantula species?

The remarkable new species is endemic to the Chiricahua Mountains and is predominately distributed in mid- to high-elevation forests.

A new species of tarantula spider, Aphonopelma jacobii, has been discovered from the Chiricahua Mountains in southeastern Arizona. This small, black and grey tarantula species has fiery red hairs on its abdomen and can be found in the high-elevation habitats of the Chiricahua Mountains, where it survives through bitterly cold winters.

A photo of two small Aphonopelma jacobii standing against each other against a backdrop of foliage.
A male and a female Aphonopelma jacobii. Their small size can be seen when compared to the acorn cap, pine needles, and oak leaf. Photo by Brent E. Hendrixson

The discovery was rather unexpected. “We often hear about new species being discovered from remote corners of Earth, but it is remarkable that these spiders are found in our own backyard, albeit in somewhat difficult-to-access areas of our backyard,” said Dr. Chris Hamilton, assistant professor at the University of Idaho and co-lead author of a study in ZooKeys that reports on the spider. “With Earth in the midst of a human-mediated extinction crisis, it is astonishing how little we know about our planet’s biodiversity, even for conspicuous and charismatic groups such as tarantulas.”

A photo of a female Aphonopelma jacobii.
A mature female Aphonopelma jacobii. Photo by Brent E. Hendrixson

The Chiricahuas, renowned for their exceptional biodiversity and high levels of endemism, compose part of the Madrean Archipelago (colloquially referred to as the Madrean Sky Islands), a complex of forested mountain ranges that span the cordilleran gap between the Colorado Plateau and Rocky Mountains in the southwestern United States and the Sierra Madre Occidental in northwestern Mexico. These montane forest “islands”—separated from each other by low-elevation deserts and arid grasslands—have evolved in isolation, leading to the origin of numerous short-range endemic species, and resulting in a mosaic of biodiversity unlike that of any other region in the United States.

A photo of a mature male Aphonpelma jacobii on foliage.
A mature male Aphonpelma jacobii. Photo by Brent E. Hendrixson

The forests where these tarantulas live are threatened by several factors, perhaps most notably from climate change. Recent studies in the sky island region suggest that these forests will be “pushed off” the mountains over the next several decades as temperatures and precipitation continue to increase and decrease, respectively. Organisms adapted to these cooler and more humid mountain tops—such as these spiders—will likely become extinct as suitable habitat disappears.

Dr. Brent Hendrixson, professor at Millsaps College and co-lead author of the study adds, “These fragile habitats are also threatened by increased exurban development in the San Simon Valley and Portal areas, destructive recreational activities, and wildfires. In addition, there is some concern that these tarantulas will be exploited for the exotic pet trade due to their rarity, striking coloration, and docile disposition. We must consider the impact that unethical collectors might have on these spiders when determining the threats to this species and the implications for its conservation.”

A photo of a coniferous forest in front of mountains.
A photograph of Aphonopelma jacobii‘s habitat high up in the Chiricahua Mountains. Photo by Michael A. Jacobi

Aphonopelma jacobii is named after Michael A. Jacobi, who helped find several of the first specimens which led to the description of this new species.

“This discovery represents the 30th species of tarantula documented from the United States. Aphonopelma is the most species diverse tarantula genus on the planet (at least for documented species). Our research adds to this number and continues to advance our understanding of the true species diversity in this incredibly interesting and important biodiversity hotspot,”Dr. Hamilton says in conclusion.

Research article:

Hamilton CA, Hendrixson BE, Silvestre Bringas K (2024) Discovery of a new tarantula species from the Madrean Sky Islands and the first documented instance of syntopy between two montane endemics (Araneae, Theraphosidae, Aphonopelma): a case of prior mistaken identity. ZooKeys 1210: 61-98. https://doi.org/10.3897/zookeys.1210.125318

Assessing the impact of invasive plants on ecosystems: a new framework

By combining several new advancements, the framework will aid in the management of plant invasions.

Invasive plant species pose a major threat to biodiversity and ecosystem health worldwide. However, predicting the exact impact of these invasions is challenging due to the complexity of interactions between invading species, native communities, and impacted ecosystems.

To combat this issue, researchers from the University of Freiburg and Justus Liebig University Giessen have developed a framework to better assess the impact of invasive plant species on ecosystems.

Outlined in a study published in the open-access journal NeoBiota, the framework combines new technologies and techniques to learn and predict how invasive plants alter ecosystems over time and in different environments.

Animated model visualisation of spatial-temporal dynamics of invader impacts. Click here to download a detailed explanation of the model.

The new framework integrates several modern advancements:

Environmental mapping: Progress in remote sensing and ecological monitoring allow researchers to capture detailed information about the environmental conditions of invaded areas. Drones, satellites, and advanced sensory networks can be used to create detailed ecosystem maps, which show how invasive species interact with their environment.

Functional tracers: These are specific indicators that reflect changes in ecosystem functions caused by invasive species. For example, researchers can track the impact of nitrogen-fixing invasive plants on ecosystems using nitrogen isotopes.

Spatio-temporal modelling: By combining environmental data with new modelling techniques, such as AI, researchers can create detailed models showing the spread and impact of invasive species on ecosystems over time. Such models can predict how changes in environmental conditions, such as climate change, might influence an invasive species’ success.

Infographic showing the mechanisms that determine the impact of invasive plants on ecosystems.
Mechanisms determining plant invasion impact.

Beyond scientific analysis, novel technologies also facilitate communication of ecological impacts, as the authors demonstrate in an animated 3D-video visualisation.

“The framework we’ve introduced offers researchers deeper insights into how invasive plant species interact with their environments, enabling more targeted management to lessen their ecological impact. We advocate for stronger collaboration between ecologists and technical experts to refine and expand these methods.

“Going forward, further research and integration of the wide range of recent methods and tools are needed to enhance the framework’s effectiveness.”

The research team behind the new framework: Christiane Werner, Christine Hellmann and André Große-Stoltenberg.

Original source

Werner C, Hellmann C, Große-Stoltenberg A (2024) An integrative framework to assess the spatio-temporal impact of plant invasion on ecosystem functioning. NeoBiota 94: 225-242. https://doi.org/10.3897/neobiota.94.126714

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Starved and hunted: the cruel reality of lion farming in South Africa revealed

Whistleblowers have exposed the controversial industry fuelling the illegal international trade of big cat bones.

South Africa’s lion farming industry is rife with cruelty and is fuelling the illegal international trade of big cat bones, according to a new research paper published in the scientific journal Nature Conservation.

The study by World Animal Protection is based on direct interviews with whistleblowing workers at two closed-access lion facilities in South Africa’s North West Province.

According to the report, legal activities such as commercial captive lion breeding and canned hunting – the hunting of captive-bred wild animals in small, fenced enclosures with no chance of escape – are being used to mask involvement in the illegal international trade of lion and tiger bones.

Four young lions behind a fence.
Lions at a commercial breeding facility in South Africa (not from the study).

Several animal welfare violations were also reported, including malnutrition, lack of clean water, filthy enclosures and animals being deliberately starved throughout the low-hunting season.

Illegal hunting practices abound, including animals being drugged and hunted within an hour of release in enclosures that violate legal minimum size requirements.

Finally, the whistleblowers reported hazardous conditions for workers at the facilities, and suggested there may be shifts towards commercial exploitation of other felid species like tigers which could be used as substitutes in the bone trade.

It is estimated that between 8,000-12,000 lions and other big cats, including tigers, are bred and kept in captivity in more than 350 facilities across the country. To evade detection during professional inspections, farm owners use various strategies, such as security cameras, patrols, and messaging apps.

“Our study highlights the troubling reality of South Africa’s captive lion industry. Legal activities are being exploited to facilitate illegal trade, and this is compounded by serious animal welfare violations and unsafe conditions for workers. Urgent action is needed to protect lions and people.”

Lead researcher Dr Angie Elwin, Research Manager at World Animal Protection.

Although the commercial captive breeding and canned hunting of lions remains legal, though poorly regulated in South Africa, the export of lion skeletons – including claws and teeth – was declared unconstitutional by the South African High Court in 2019.

In 2021, the South African Government announced its intention to immediately halt the “domestication and exploitation of lions, and to ultimately close all captive lion facilities in South Africa”.

However, a lack of enforcement of regulations and clarity on the future of the industry, has left a legal grey area, enabling some farms to operate what on the surface appear to be legitimate captive breeding and ‘canned’ trophy hunting businesses – but which in reality supply the illegal international big cat bone trade facilitated by organised crime gangs.

In light of these revelations, the study calls for the South African Government to implement a comprehensive and well-managed plan to transition away from current practices in the captive lion industry. Key recommendations include:

  • Full Audit of the Industry: To ensure all commercial captive lion farms are officially registered and compliant with regulations until the industry is phased out.
  • Breeding Moratorium: Establishment of an immediate moratorium on breeding to prevent further growth of the commercial captive lion population.
  • Prevention of Bone Stockpiling: Development and enforcement of plans to prevent the accumulation of lion bones, which risks fuelling the illegal international lion bone trade.
  • Phase out Plan: Enactment of a time-bound strategic plan to phase out the captive lion farming industry, ensuring ethical treatment of animals and safety for workers.

The South African Government must take immediate action to fulfil its public pledge to end the controversial captive lion industry. Without a comprehensive time-bound plan and stringent enforcement, this commercial industry will continue to pose significant legal, animal cruelty, and conservation concerns.

Senior researcher Dr Neil D’Cruze, Head of Wildlife Research at World Animal Protection.
Fraudulent microchip use and compliance issues found on controversial lion farms in the Free State, South Africa

This study serves as a crucial call to action for both the South African Government and the international community to address and resolve the complex issues surrounding the captive lion industry.

The publication comes at a time when South African NGO Blood Lions encourages the public to raise their voice by sharing the 2024 World Lion Day “You’re killing them softly” campaign message, aimed at informing tourists and visitors to lion farms about the hidden suffering and cruelty involved, and to sign this petition urging the South African government among others to extend the ban on captive lion breeding and trading to other predators.

Original source:

Elwin A, Asfaw E, D’Cruze N (2024) Under the lion’s paw: lion farming in South Africa and the illegal international bone trade. Nature Conservation 56: 1–17. https://doi.org/10.3897/natureconservation.56.124555

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Plants, prizes and paella: Pensoft at the International Botanical Congress 2024

Held every six years, the world’s largest botany event hosted thousands of researchers and enthusiasts in Madrid, Spain.

Towards the end of July 2024, members of the Pensoft team travelled to Madrid for the XX International Botanical Congress, where an estimated 3,000 botanists gathered for the biggest event of the year.

Held once every six years, the congress has enlarged its scope over more than a century to become an integrated forum for knowledge on the plant and mycological world.

Proceedings kicked off with a fantastic lecture from PhytoKeys Editor-in-Chief Sandy Knapp titled, “Why botany? Why now?” The following day, Thorsten Lumbsch, Editor-in-Chief of MycoKeys, gave a keynote lecture titled, “Unravelling diversity and evolution of lichens in the genomic era.”

In fact, many authors, editors and readers of Pensoft’s journals were in attendance. And several gave presentations, including a plenary talk by renowned PhytoKeys editor, Pamela S. Soltis, on the changing face of herbarium collections.

Pensoft and PhytoKeys stand at the International Botany Congress.
Denitsa Peneva greeting researchers at the Pensoft stand.
A man giving a presentation at the Pensoft and PhytoKeys stand at the International Botany Congress.
Lyubomir Penev giving a presentation to PhytoKeys editor.

The Pensoft team welcomed attendees with a bespoke stand, complete with print copies, illustrations and various promotional materials depicting beautiful species featured in PhytoKeys.

Lyubomir Penev, founder of Pensoft and founding editor of PhytoKeys, hosted a gathering of PhytoKeys editors at the stand, where he presented the story, latest results and highlights of the journal.

A woman posing with a PhytoKeys journal at the Pensoft and PhytoKeys stand at the International Botany Congress.
Two men posing at the Pensoft and PhytoKeys stand at the International Botany Congress.
A man and a woman posing at the Pensoft and PhytoKeys stand at the International Botany Congress.
Researchers who found their publications on display at the Pensoft stand.

The congress included numerous lectures, symposia sessions, workshops and meetings across a variety of subject matters, all of which can be found on the IBC 2024 website. The major topics of the event were:

  • Systematics, phylogenetics, biogeography and evolution
  • Ecology, environment and global change, including invasive species and plant-animal interactions
  • Biodiversity and conservation
  • Structure, physiology and development, including Evo-Devo
  • Genetics, genomics and bioinformatics
  • Plants and Society

At the closing ceremony, multiple awards were presented, including Pensoft’s Early Career Researcher Talk Award. Sandy Knapp presented the award to Sonia Molino for her talk on a global study of the genus Parablechnum, a lineage of ferns of the family Blechnaceae. The award grants her a free publication in PhytoKeys. 

Describing her study, Sofia Molino said: “To date there has been no study that takes into account all the centres of diversity of the genus at the same time, and what we have found is that it has a very complex evolutionary history, with several cases of cryptic diversity, hybridisation and rapid radiation.”

On her plans to use her free publication for a pending study on a series of novelties within Parablechnum in Bolivia, she added: “Although this is probably the country in South America where Parablechnum has been studied the most, after one expedition we have still found a lot of new things, such as several undescribed species, hybrids and new localities of some species that were only known from type material.”

The next International Botanical Congress is in 2029 and will take place in South Africa, where the Pensoft team looks forward to seeing plenty of new faces and old friends!

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The race to discover biodiversity: 11 new marine species and a new platform for rapid species description

The initiative boasts the discovery of eleven new marine species from all over the globe, occurring at depths from 5.2 to 7081 meters.

Accelerating global change continues to threaten Earth’s vast biodiversity, including in the oceans, which remain largely unexplored. To date, only a small fraction of an estimated two million total living marine species have been named and described. A major challenge is the time it takes to scientifically describe and publish a new species, which is a crucial step in studying and protecting these species. The current scientific and publishing landscape often results in decade-long delays (20-40 years) from the discovery of a new species to its official description. As an alternative to this, the Ocean Species Discoveries initiative was launched, offering a new platform for rapid but thorough taxonomic description of marine invertebrate species.

Lepechinella naces, a newly described amphipod, on a black background.
One of the newly described species, Lepechinella naces.

Ocean Species Discoveries is coordinated by the Senckenberg Ocean Species Alliance (SOSA), a project of the Senckenberg Research Institute and Natural History Museum Frankfurt. SOSA’s goal is to facilitate the discovery, protection, and awareness of marine invertebrate species before they become extinct.

The project coordinated 25 different researchers and produced data on thirteen marine invertebrate taxa, including one new genus, eleven new species, and one redescription and reinstatement. The species, which originate from all over the globe and at depths from 5.2 to 7081 meters, are brought together in an open-access publication in the Biodiversity Data Journal.

Only by leveraging the collective strengths of global progress, expertise, and technological advancements, will we be able to describe the estimated 1.8 million unknown species living in our oceans.

Prof. Dr. Julia Sigwart

This is the first of a series of publications related to SOSA’s initiative, in collaboration with Biodiversity Data Journal, presenting a revolutionary approach in new species descriptions, thanks to which the publication of new species takes years, sometimes even decades, less. The ARPHA publishing platform, which powers the Biodiversity Data Journal, further expedites species descriptions and their use in studies and conservation programs by employing a streamlined data publishing workflow. ARPHA automatically exports all species data, complete with images and descriptions, to GBIF—the Global Biodiversity Information Facility and the Biodiversity Literature Repository at Zenodo, from where other researchers can easily find and use them.

Dorsal, ventral, and lateral images of a newly described hydrothermal vent limpet, Lepetodrilus marianae, on a black background.

One of the new OSD species – a hydrothermal vent limpet, Lepetodrilus marianae. Photo credit: Chong Chen, Hiromi Kayama Watanabe, and Miwako Tsuda

One of the new species described in the Ocean Species Discoveries is Cunicolomaera grata, a curious amphipod whose burrows along the seafloor perplexed scientists. Another is a wrinkly-shelled limpet called Lepetodrilus marianae that lives on hydrothermal vents, underwater volcanoes in the deep-sea where temperatures can reach 400 degrees C. Normally, the descriptions for these two very different species wouldn’t be in the same publication, but this new publication format allows for species descriptions from different marine invertebrate taxa to be published together in one ‘mega-publication,’ offering a huge incentive for researchers to make their discoveries public.

Top: a newly described hole-making amphipod, Cunicolomaera grata, on a black background. Bottom: A photo of burrows on the ocean floor where the amphipod is presumed to live.
One of the new OSD species – a hole-making amphipod, Cunicolomaera grata. Photo credit: Anne Helene S. Tandberg and Anna M. Jażdżewska

“Currently, there’s a notable delay in naming and describing new animals, often because journals expect additional ecological or phylogenetic insights. This means many marine species go undescribed due to lack of data. OSD addresses this by offering concise, complete taxonomic descriptions without requiring a specific theme, refocusing attention on taxonomy’s importance,” says Dr. Torben Riehl, who is one of the researchers featured in Ocean Species Discoveries.

Top: Psychropotes buglossa, a newly described sea cucumber species. Bottom: Psychropotes buglossa grabbed by the mechanic arm of a remote-operated vehicle.

The reinstated OSD species – a purple long-tailed sea cucumber, Psychropotes buglossa. Photo credit: Amanda Serpell-Stevens, Tammy Horton, and Julia Sigwart

Reducing the time it takes to get from discovering a new animal to a public species description is crucial in our era of increasing biodiversity loss. The wrinkly-shelled limpet and two other species described in the Ocean Species Discoveries live in hydrothermal vent zones – an environment threatened by deep-sea mining. Another OSD species, Psychropotes buglossa, a purple sea cucumber (sometimes also called a gummy squirrel), lives in the North Atlantic, but similar species live in areas of high economic interest, where polymetallic-nodule extraction could soon endanger sea life. Threats like these risk driving species to extinction before we even get the chance to know and study them. Through efforts like SOSA’s Ocean Species Discoveries, we can get closer to understanding the biodiversity of our oceans and protecting it before it’s too late.

Dorsal and ventral views of a newly described species of deep-sea chiton, Placiphorella methanophila.

One of the new OSD species – a deep-sea chiton, Placiphorella methanophila. Photo credit: Katarzyna Vončina

“Only by leveraging the collective strengths of global progress, expertise, and technological advancements, will we be able to describe the estimated 1.8 million unknown species living in our oceans. Every taxonomist specialized on some group of marine invertebrates is invited to contribute to the Ocean Species Discoveries,” says Prof. Dr. Julia Sigwart in conclusion.

Research article:

(SOSA) SOSA, Brandt A, Chen C, Engel L, Esquete P, Horton T, Jażdżewska AM, Johannsen N, Kaiser 5, Kihara TC, Knauber H, Kniesz K, LandschoffJ, Lörz A-N, Machado FM, Martínez-Muñoz CA, Riehl T, Serpell-Stevens A, Sigwart JD, Tandberg AHS, Tato R, Tsuda M, Vončina K, Watanabe HK, Went C, Williams JD (2024) Ocean Species Discoveries 1-12 — A primer for accelerating marine invertebrate taxonomy. Biodiversity Data Journal 12: e128431. https://doi.org/10.3897/BDJ.12.e128431

Local scientists discover new species of cave pseudoscorpion named after Boulder, Colorado

A research associate with the Zoology Department at the Denver Museum of Nature & Science, found the new pseudoscorpion along with his wife and son.

Denver Museum of Nature & Science researchers discovered of a new species of cave-dwelling pseudoscorpion near the Flatirons in City of Boulder Open Space and Mountain Parks. David Steinmann, a research associate with the Zoology Department at the Denver Museum of Nature & Science, found the new pseudoscorpion along with his wife Debbie and son Nathan. The newly discovered species, Larca boulderica named after Boulder, marks the sixth cave-adapted species of the Larca genus from caves in North America. 

The new species of pseudoscorpion, Larca boulderica, on rocky substrate.
The new species of pseudoscorpion, Larca boulderica, inside the cave. Photo by David Steinmann

In 2008, the Steinmann family went looking for invertebrates in a small cave west of Boulder when David saw an unusual-looking pseudoscorpion clinging to the bottom of a jagged stone. Steinmann sent the specimens to Mark Harvey, a pseudoscorpion expert at the Western Australian Museum, and Harvey determined that the tiny animals represent a new species. Harvey and Steinmann described and named Larca boulderica in a paper recently published in ZooKeys. The specimen used in the species description will now be deposited in the arachnology collection at the Denver Museum of Nature & Science.  

Dave and Debbie Steinmann at the barred entrance of a small cave.
Dave and Debbie Steinmann at a small cave where L. boulderica lives. Photo by Ryan Prioreschi

“Dave Steinmann’s discovery of new species of pseudoscorpions from Colorado’s cave systems demonstrates how much we still have to discover about this planet’s biodiversity,” said Paula Cushing, senior curator of invertebrate zoology at the Museum. “Dave’s work in these challenging and unique habitats is critical in such discoveries.”  

About the size of a sesame seed with crab-like pincers, Larca boulderica survives in dry and dusty habitats such as packrat middens. Boulder is the only place in the world they are known to live. Pseudoscorpions have been around for millions of years, including when Tyrannosaurus rex roamed the planet.

A photo of the pseudoscorpion Larca boulderica under a microscope.
Larca boulderica as seen under a microscope. Photo by David Steinmann

“Pseudoscorpions are fascinating creatures. They look like tiny scorpions without a stinger. Few people encounter them, and even fewer find them in caves,” said Frank Krell, senior curator of entomology at the Museum. “David Steinmann has found many tiny creatures in Colorado caves that nobody has found before. The city of Boulder is now immortalized in the name of this new species.” 

Research article:

Harvey MS, Steinmann DB (2024) A new troglomorphic species of Larca (Pseudoscorpiones, Larcidae) from Colorado. ZooKeys 1198: 279-294. https://doi.org/10.3897/zookeys.1198.120353

Press release originally published by the Denver Museum of Nature and Science. Republished with permission.

From science to literature: New arachnid taxa named after Gabriela Mistral and Pablo Neruda

A taxonomic revision describes 22 new species, with two of the names honoring prominent figures of Chilean culture.

Guest blog post by Willians Porto and Abel Pérez González

The third-largest group of arachnids, in terms of number of known species, is the harvestmen, with nearly 7,000 described species, ranking just behind spiders and mites. Despite this number, a considerable portion of their diversity is unknown, and many species still remain undescribed.

An individual of Fresiax spinulosa in a natural setting.
Fresiax spinulosa. Photo by Abel Pérez-González

The harvestmen of the family Triaenonychidae comprise 404 known species and have a peculiar distribution. They are found in temperate regions of the southern hemisphere, with representatives in Australia, New Zealand, South Africa, Madagascar, and southern South America— a typical temperate Gondwana distribution. In the America continent, the diversity is concentrated in the Southern Cone of South America, mainly in the Chilean Valdivian Forest, where 26 species were previously recorded.

A map of Chile showing the distribution of 16 harvestman species.
A map of Chile showing the distribution of Lautaria ceachei.
A map of Chile showing the distribution of Laftrachia robin.
A map of Chile showing the distribution of Chilenuncia chilensis and Chilenuncia rostrata.
A map of Chile showing the distribution of Mistralia ramirezi and Mistralia verrucosa.
A map of Chile showing the distribution of five harvestman species.
Distribution maps for 27 harvestman species in Chile.

In our latest work published in ZooKeys, we present the result of a taxonomic and systematic revision of the South American triaenonychids previously included in the mainly New Zealand genus Nuncia. After examining hundreds of specimens, we redescribed all the four previously known species and described 22 new ones. All these species were included in six genera─one resurrected and five new to science─regarding the genus Nuncia as exclusively to New Zealand.  The new systematic arrangement was supported by a comprehensive new phylogenetic analysis based on molecular (UCE + Sanger) data.

An individual of Laftrachia robin in a natural environment.
Laftrachia robin, one of the new species described in the study. Photo by Abel Pérez-González

The proposed phylogenetic hypothesis reveals the relationships between South American Triaenonychidae and their counterparts from the rest of the world, indicating that the diversity of triaenonychids in the Southern Cone is polyphyletic, reflecting an ancient diversification predating the Gondwana breakup.

A brown spider in a natural environment.
A species of the newly described Nerudiella genus. Photo by Abel Pérez-González
A bust of Chilean poet Pablo Neruda.
A bust of Pablo Neruda. Photo by Wally Gobetz under a CC BY-NC-ND 2.0 license

Our work represents the most comprehensive contribution to the taxonomy and systematic of South American triaenonychids, almost doubling the number of previously known species. For naming the new taxa, we select names derived from geography, historical figures, and recognized intellectuals. Since most of the newly discovered fauna is distributed across various regions of Chile, the authors decided to honor two prominent figures of Chilean literature. The poet Gabriela Mistral (1889-1957), Nobel laureate in literature in 1945, was honored with the new genus Mistralia, and Pablo Neruda (1904-1973), Nobel laureate in literature in 1971, was honored with the new genus Nerudiella. In addition to tributes to globally renowned Chilean poets, the new species also include dedications to members of the arachnological scientific community and researchers who collaborated on this work.

The taxonomic revision includes hundreds of images that are extremely important for species identification. These images consist of various optical microscopy, stereomicroscopy, and numerous scanning electron microscopy micrographs.

Scanning electron microscope image showing detailed views of the male genitalia of Mistralia verrucosa.
Scanning electron microscope image showing various detailed views of the male genitalia of Mistralia verrucosa.

This work is one of the products of years of collaboration between the Arachnology Division of the Museo Argentino de Ciencias Naturales Bernardino Rivadavia (MACN) and the Giribet Lab in Harvard University and Museum of Comparative Zoology (MCZ). It also represents a continuation of the collaboration initiated in the 20th century by the late Argentinean arachnologist Emilio Maury (MACN) with the Chilean zoologist Tomás Nicolás Cekalovic (Museo de Zoología de la Universidad de Concepción) and the American Museum of Natural History.

Research article:

Porto W, Derkarabetian S, Giribet G, Pérez-González A (2024) Systematic revision of the South American “Nuncia” (Opiliones, Laniatores, Triaenonychidae). ZooKeys 1207: 1-149. https://doi.org/10.3897/zookeys.1207.120068

New clam species discovered in South Africa’s kelp forest

It was discovered while working on the 1001 Seaforest Species project, which focuses on raising awareness about the rich kelp bed ecosystems of South Africa.

A new study sheds light on the unexplored diversity of galeommatoidean bivalves, a little-known group of marine mollusks, from the western coast of South Africa. The research, led by Paul Valentich-Scott from the Santa Barbara Museum of Natural History, along with collaborators from the University of Cape Town, Sea Change Trust, Stellenbosch University, and the University of Colorado Boulder, offers a curious glimpse into the habitats, symbiotic relationships, and taxonomy of these interesting creatures.

An unusual galeommatid clam, Melliteryx mactroides, living in tidepools near Cape Town, South Africa. Video by Jannes Landschoff

Published in the scientific journal ZooKeys, the study focuses on four species of galeommatoidean bivalves collected from the Western Cape region of South Africa. Among these is one new species, Brachiomya ducentiunus. This small clam, which is only 2 mm (less than 1/8th inch) in length, spends its life crawling between the spines of sea urchins.

The newly discovered species, Brachiomya ducentiunus, crawing on a sea urchin spine. Photo by Craig Foster

The new species has so far only been found in one locality in False Bay, South Africa, where it was found attached to the burrowing sea urchin Spatagobrissus mirabilis in coarse gravel at a depth of about 3 m. It has not been observed free-living, without the host urchin.

Brachiomya ducentiunus was discovered while preparing and working on the 1001 Seaforest Species project, a research and storytelling program aimed at increasing awareness of regional kelp bed ecosystems colloquially referred to as ‘the Great African Seaforest’.

Dozens of the new species crawling on the surface of a sea urchin. Photo by Charles Griffiths

“This study marks a significant advancement in our understanding of the biodiversity and ecological interactions of galeommatoidean bivalves,” says lead author Paul Valentich-Scott. “By uncovering the hidden lives of these small but ecologically important organisms, we hope to contribute to the broader knowledge of marine biodiversity and the conservation of these unique habitats.”

Co-author Charles L. Griffiths, emeritus professor at the University of Cape Town, says, “A large proportion of smaller marine invertebrates remain undescribed in western South Africa and almost any project that samples specialized habitats turns up many new records and species.”

The new clam species feeding between the spines of a sea urchin. Video by Craig Foster

In a similar vein, co-author Jannes Landschoff, marine biologist at the Sea Change Trust, says “Creating foundational biodiversity knowledge is a most important step to the humbling realization of how fascinating and uniquely diverse a place is. I see this every day through our work in the rich coastal waters of Cape Town, where an extensive underwater kelp forest, the ‘Great African Seaforest,’ grows.

Research article: 

Valentich-Scott P, Griffiths C, Landschoff J, Li R, Li J (2024) Bivalves of superfamily Galeommatoidea (Mollusca, Bivalvia) from western South Africa, with observations on commensal relationships and habitats. ZooKeys 1207: 301-323. https://doi.org/10.3897/zookeys.1207.124517