We look back on this incredible journey with pride and appreciation for the countless researchers, authors, reviewers, and supporters who have helped make this dream a reality.
Today, we are thrilled to share with you the celebration of a remarkable milestone in our journey. In July, we marked our 15th birthday – a decade and a half of fostering the free exchange of ideas, data, and knowledge in the vast realm of zoology.
We look back on this incredible journey with pride and appreciation for the countless researchers, authors, reviewers, and supporters who have helped make this dream a reality. From the very inception, our goal has been to create a platform where zoological discoveries can shine brightly, accessible to all who share a passion for the wonders of the animal kingdom.
ZooKeys was born out of our collective desire to push the boundaries of scientific publishing, to embrace innovation, and to provide a space where the brightest minds in zoology could come together. Over the years, we have not only achieved this but, thanks to our publisher Pensoft, have also become pioneers in implementing cutting-edge technologies to enhance the way knowledge is shared and absorbed.
ZooKeys was the first of Pensoft’s open-access journals, set up to accelerate research and free information exchange in taxonomy, phylogeny, biogeography and evolution of animals. Starting as a taxonomic journal, it quickly expanded to other zoology-related sciences, such as ecology, molecular biology, genomics, evolutionary biology, palaeontology, behavioural science, bioinformatics etc… The journal has been thriving since its inception and is currently considered as one of the most prolific and liked Open Access journals in zoology.
Erwin T, Stoev P, Penev L (2018) ZooKeys anniversary: 10 years of leadership toward open-access publishing of zoological data and establishment at Pensoft of like-minded sister journals across the biodiversity spectrum. ZooKeys 770: 1-8. https://doi.org/10.3897/zookeys.770.28105
One of our proudest achievements was being the first taxonomic journal to introduce semantic tagging and content enhancements, revolutionizing the way information is presented and accessed. This endeavor, which began with our 50th issue in 2010, marked a turning point in scholarly publishing.
As of today, we’ve published more than 180,000 pages of research in almost 7,000 articles that have amassed more than 3 million views. Here is a Top 5 of our most popular articles ever:
Helgen K, Pinto M, Kays R, Helgen L, Tsuchiya M, Quinn A, Wilson D, Maldonado J (2013) Taxonomic revision of the olingos (Bassaricyon), with description of a new species, the Olinguito. ZooKeys 324: 1-83. https://doi.org/10.3897/zookeys.324.5827, with 80,500 views,
Bousquet Y (2016) Litteratura Coleopterologica (1758–1900): a guide to selected books related to the taxonomy of Coleoptera with publication dates and notes. ZooKeys 583: 1-776. https://doi.org/10.3897/zookeys.583.7084 with 69,543 views,
Ledford J, Griswold C, Audisio T (2012) An extraordinary new family of spiders from caves in the Pacific Northwest (Araneae, Trogloraptoridae, new family). ZooKeys 215: 77-102. https://doi.org/10.3897/zookeys.215.3547 with 65,446 views,
Ibrahim N, Sereno PC, Varricchio DJ, Martill DM, Dutheil DB, Unwin DM, Baidder L, Larsson HCE, Zouhri S, Kaoukaya A (2020) Geology and paleontology of the Upper Cretaceous Kem Kem Group of eastern Morocco. ZooKeys 928: 1-216. https://doi.org/10.3897/zookeys.928.47517 with 64,456 views,
Bouchard P, Bousquet Y, Davies A, Alonso-Zarazaga M, Lawrence J, Lyal C, Newton A, Reid C, Schmitt M, Slipinski A, Smith A (2011) Family-Group Names In Coleoptera (Insecta). ZooKeys 88: 1-972. https://doi.org/10.3897/zookeys.88.807 with 63,524 views.
Our journey would have been incomplete without you – our avid readers and supporters. Your hunger for knowledge, your curiosity, and your unwavering support have been the wind beneath our wings, motivating us to do better, and reinforcing the importance of what we do. As we celebrate our 15th birthday, we extend our deepest gratitude to each one of you who has been a part of our history.
Looking ahead, the future of ZooKeys looks as bright as ever. We are committed to continuing our legacy of innovation, collaboration, and accessibility. Our goal remains steadfast – to be a beacon of knowledge, a platform that fosters discoveries, and a source of inspiration for the next generation of zoological minds.
As we celebrate our 15th anniversary, we are filled with a sense of awe and wonder at the remarkable achievements we have collectively made. Thank you for being a part of this incredible journey. Here’s to the next 15 years and beyond, as we continue to explore, discover, and celebrate the extraordinary diversity of life on Earth.
The species was previously known on the commercial tarantula market as the “Chilobrachys sp. Electric Blue Tarantula” but no documentation existed describing its distinctive features or natural habitat.
In an exciting discovery, a new species of tarantula with electric blue coloration was found in Thailand.
“In 2022, the bamboo culm tarantula was discovered, marking the first known instance of a tarantula species living inside bamboo stalks. Thanks to this discovery, we were inspired to rejoin the team for a fantastic expedition, during which we encountered a captivating new species of electric blue tarantula” researcher Dr. Narin Chomphuphuang said.
Following the announcement of Taksinus bambus in Thailand, he and his research team, along with JoCho Sippawat, a local wildlife YouTuber, embarked on a survey expedition in the Phang-Nga province. During their survey, they not only identified this new tarantula species by its distinctive electric-blue coloration but also discovered its unique natural history. This is the first tarantula species ever found in a Thai mangrove forest.
“The first specimen we found was on a tree in the mangrove forest. Collecting them was challenging due to the muddy and waterlogged ground. These tarantulas inhabit hollow trees, and the difficulty of catching an electric-blue tarantula lies in the need to climb a tree and lure it out of a complex of hollows amid humid and slippery conditions. During our expedition, we walked in the evening and at night during low tide, managing to collect only two of them,” Narin said.
“The first specimen we found was on a tree in the mangrove forest. Collecting them was challenging due to the muddy and waterlogged ground. These tarantulas inhabit hollow trees, and the difficulty of catching an electric-blue tarantula lies in the need to climb a tree and lure it out of a complex of hollows amid humid and slippery conditions. During our expedition, we walked in the evening and at night during low tide, managing to collect only two of them,” Narin said.
“Allow us to introduce our exciting discovery: a new species of tarantula that exhibits a mesmerizing blue-violet hue, reminiscent of electric blue sparks. The secret behind the vivid blue coloration of our tarantula lies not in the presence of blue pigments, but rather in the unique structure of their hair, which incorporates nanostructures that manipulate light to create this striking blue appearance,” Narin said.
Blue is one of the rarest colors to appear in nature, which makes blue coloration in animals particularly fascinating. The scarcity of the color blue in nature can be attributed to the challenges associated with absorbing and reflecting specific wavelengths of light. Blue is difficult to produce in nature because, to appear blue, an object needs to absorb very small amounts of energy while reflecting high-energy blue light. This is challenging, because blue light has shorter wavelengths and higher energy compared to other colors. Generating molecules capable of absorbing this energy is complex, making blue in nature relatively rare.
In essence, what we perceive as a blue tarantula is, in fact, a result of how light interacts with the nanostructure-covered hairs on the tarantula’s body, causing some colors to cancel each other out and allowing only blue to be reflected. These biological photonic nanostructures create a remarkable iridescent effect that changes as you alter your viewing angle, making the tarantula even more captivating.
What’s even more fascinating is its ability to not only display blue but also a beautiful violet hue. Violet light occupies only a small portion of the visible light spectrum, and there are very few nanostructures precise enough to exclusively scatter violet light. Moreover, violet wavelengths are even more energetic than blue.
The violet hue of the top view depends on the viewing angle due to the iridescent effect from biological photonic nanostructures. Photo by Yuranan Nanthaisong
In terms of coloration, female and juvenile male C. natanicharum exhibit unique characteristics attributed to the presence of two distinct types of hair. Notably, they possess a more pronounced metallic-blue coloration on various parts of their bodies, while violet hues are predominantly observed in specific areas such as the chelicera, carapace, and certain leg segments. In adult male C. natanicharum, a similar coloration pattern is retained on the chelicera, carapace, and legs, although it appears less intense compared to females. Furthermore, there is a notable shift in coloration on their legs and body, transitioning to white due to the increased density of white setae.
Juvenile C. natanicharum Photo by Yuranan NanthaisongAdult male C. natanicharumPhoto by Paveen Piyatrakulchai
“This species was previously found on the commercial tarantula market. There, it was known as the “Chilobrachys sp. Electric Blue Tarantula” but no documentation existed describing its distinctive features or natural habitat. The exact location where the Electric Blue Tarantula lived remained a mystery until our recent discovery. This has led us to speculate that C. natanicharum may be present in the southern region of Thailand, especially in the remaining forest areas close to where it was found,” Narin said.
The habitat of C. natanicharum includes mangrove forests (left) and highland (right) Photos by Narin Chomphuphuang
According to a study just published in the journal ZooKeys, C. natanicharum exhibits adaptability in inhabiting evergreen and mangrove forests, where tarantulas live inside tree hollows. They can be found at elevations ranging from sea level to highland areas, and live in both arboreal and terrestrial burrows within evergreen forests, at elevations of up to 57 m.
“Unlike our previous discovery, the bamboo culm tarantula, which is specifically associated with bamboo, the electric blue tarantula demonstrates remarkable adaptability. These tarantulas can thrive in arboreal as well as terrestrial burrows in evergreen forests. However, when it comes to mangrove forests, their habitat is restricted to residing inside tree hollows due to the influence of tides, and they cannot be found living terrestrially within mangroves.” Narin said.
Photo by Narin Chomphuphuang
The scientific name of Chilobrachys natanicharum was chosen after an auction campaign for naming the new species. The winner of the auction campaign was Nichada Properties Co., Ltd., Thailand, which suggested a combination of the names of Mr. Natakorn Changrew and Ms. Nichada Changrew, who are company executives.
All proceeds from the auction were donated to support the education of Lahu children in Thailand and poor cancer patients.
“The Lahu people are an indigenous hill tribe in northern Thailand (Musoe) and are known for their vibrant culture and traditional way of life. Unfortunately, many Lahu children are denied access to education due to poverty, leaving them with limited opportunities for their future. The goal is to help change this by providing educational opportunities for Lahu children, giving them a chance to break out of the cycle of poverty. Additionally, cancer remains a significant public health issue globally, affecting millions of people each year. Many cancer patients struggle with financial hardship, which can make accessing quality care even more difficult. We believe that everyone deserves access to quality healthcare, regardless of their financial situation,” the researchers write in their paper.
The proceeds from the auction campaign to choose the scientific name of the new species C. natanicharum were used to support Lahu children in Thailand. Photo by JoCho Sippawat
“We often encounter the question, ‘What are the benefits of studying new species of tarantulas?’ It’s essential for the general public to understand the significance of taxonomy as a fundamental aspect of research. Taxonomy serves a vital role, ranging from the basic, such as when people inquire on social media about the name of a spider, to conducting crucial research aimed at preserving these species from extinction.” Narin said.
These mangrove forest areas serve as the habitat for the electric-blue tarantula C. natanicharum. Photo by Narin Chomphuphuang.
Mangrove forests are invaluable ecosystems offering numerous benefits. However, they face the looming threat of deforestation, which is a destructive process caused by activities such as logging, commercial development, pollution, overfishing, and the impacts of climate change. The electric blue tarantula, the first tarantula species discovered in the mangrove forests of Thailand, is also one of the world’s rarest tarantulas. “When we examine the causes behind the decline of mangrove forests, it becomes apparent that many of these threats are human-induced, both directly and indirectly. This raises a critical question: Are we unintentionally contributing to the destruction of their natural habitats, pushing these unique creatures out of their homes? Or should we advocate for the protection of mangrove forests, not only for the sake of the Electric-Blue Tarantula but also for the preservation of this remarkable jewel of the forest?,” the researchers ask.
Research article:
Chomphuphuang N, Sippawat Z, Sriranan P, Piyatrakulchai P, Songsangchote C (2023) A new electric-blue tarantula species of the genus Chilobrachys Karsh, 1892 from Thailand (Araneae, Mygalomorphae, Theraphosidae). ZooKeys 1180: 105-128. https://doi.org/10.3897/zookeys.1180.106278
Nine years ago, University of Wyoming entomologist Scott Shaw and colleague Eduardo Shimbori gained a moment of fame by naming several newly discovered South American insect species for celebrities — including a wasp for singer and musician Shakira (Aleiodes shakirae).
Today, the Shakira wasp is one of only 18 animal species featured in a museum exhibition in Denmark. “From Rock Fossils to Pop Insects” at the Naturama Museum in Svendborg, Denmark, highlights species named after famous rock musicians and pop stars, including an ancient mammal for Mick Jagger (Jaggermeryx) and a deep-sea crab named for Metallica (Macrostylis metallicola).
This is the panel in an exhibition at the Naturama Museum in Svendborg, Denmark, that highlights the naming of the Shakira wasp (Aleiodes shakirae) by UW Professor Scott Shaw and colleague Eduardo Shimbori.
The exhibition was planned and created by Thomas Berg, a senior scientist and curator at the museum.
“Discover the fascinating old fossils, listen to the music and find out why scientists use rock music when naming fossils,” says a Naturama website promoting the exhibition, which is open to the public for viewing through November.
The Shakira wasp is a parasite of caterpillars, feeding and developing inside them — and causing them to bend and twist their abdomens in a distinctive way, which reminded Shaw and Shimbori of belly dancing, for which the Colombia-born singer also is famous. The Shakira wasp and other insect species were described in a 2014 volume of the international research journal ZooKeys, which is dedicated to advancing studies of the taxonomy, phylogeny, biogeography and evolution of animals.
“It’s gratifying to see our discovery included in this exhibition in such a creative and artistic way,” Shaw says. “I hope this public attention will help to draw new students to studies of tropical insects and the urgent field of tropical forest conservation.”
Aleiodesshakirae.
Berg says he chose the Shakira wasp for the exhibition because Shakira is a world-class singer and musician — and because of the researchers’ story behind the naming of the insect.
“Shaw and Shimbori’s personal story was captivating, with clear references to the parasitic wasp’s effect on its victim,” Berg says. “I’ll also admit that I’m a huge fan of Shakira, and it was such a gift to have the world’s best argument to include Aleiodes shakirae in the exhibition.”
National Science Foundation-funded fieldwork conducted in the cloud forests of eastern Ecuador by Shaw and colleagues led to the discovery of 24 new species of Aleiodes wasps that mummify caterpillars. Some of these were named for other celebrities, including Jimmy Fallon, Jon Stewart, Stephen Colbert and Ellen DeGeneres. One of these, Aleiodes colberti — named after Colbert — was featured on the Jan. 22, 2022, segment of Colbert’s “Late Show” on CBS.
A UW faculty member since 1989, Shaw is the curator of UW’s Insect Museum in the College of Agriculture, Life Sciences and Natural Resources. He received that college’s Vanvig Lifetime Achievement Award in 2018. He has published more than 200 scientific publications about insects as well as a book, “Planet of the Bugs: Evolution and the Rise of Insects,” which tells of dominant insect species and how they shaped life on Earth.
News piece originally by the University of Wyoming. Republished with permission.
A new species of spiny mouse has been discovered in Ecuador, making it the 14th of its genus to be identified in the past five years. Neacomys marci, which was previously confused with another species, is around the length of a tennis ball, with a long tail, pale suede belly fur and a white throat.
Live specimen of new species Neacomys marci in its natural habitat. Photo by: Jorge Brito
Discovered in the Chocó biogeographic region in northwestern Ecuador, it is the 24th formally recognised species in its genus, which has seen significant upheaval in recent years.
Neacomys is a widely distributed genus of small spiny or bristly rodents that occupy habitats in eastern Panama and the northern half of South America. Since 2017, studies of the genus have been remarkably dynamic, resulting in the description of several new species.
Live specimen of new species Neacomys marci in its natural habitat. Photo by: Jorge Brito
However, as there are still many unexplored areas in South America and adjacent Central America (Panama), some of the currently recognised species have not been studied thoroughly, and the true diversity of the genus may be underestimated.
The Chocó biogeographic region is considered one of the most diverse biodiversity hotspots in South America, but one of the least studied despite its great size (along the Pacific coasts of Panama, Colombia and Ecuador). The rainforests of northwestern Ecuador have high biodiversity and endemism due to the influence of the Chocó and the Andes Mountains.
Habitat where specimens of Neacomys marci were collected in the study. Photo by: Jorge Brito
Major reviews of museum collections and increased field collection efforts have helped scientists understand Neacomys marci and other species. Molecular analysis is also being used to assist with more accurate animal group identification.
The new species was named after Marc Hoogeslag of Amsterdam, the Netherlands, who was co-founder and leader of the International Union for Conservation of Nature – Netherlands Land Acquisition Fund, which helps local groups around the world establish new ecological reserves and conserve endangered species. The EcoMinga Foundation‘s Manduriacu Reserve, home to this new species, is one of many reserves that have benefited from Hoogeslag’s program.
Original Source:
Tinoco N, Koch C, Colmenares-Pinzón JE, Castellanos FX, Brito J (2023) New species of the Spiny Mouse genus Neacomys (Cricetidae, Sigmodontinae) from northwestern Ecuador. ZooKeys 1175: 187-221. https://doi.org/10.3897/zookeys.1175.106113
An international research team including the University of Göttingen has described seven previously unknown species of leaf insects, also known as walking leaves. The insects belong to the stick and leaf insect order, which are known for their unusual appearance: they look confusingly similar to parts of plants such as twigs, bark or – in the case of leaf insects – leaves.
An adult female of Pulchriphyllium anangu, one of the newly described species, observed July 2016 at Kadumane Estate, India by iNaturalist user @ashwinv (Ashwin Viswanathan) https://www.inaturalist.org/observations/29374627)
This sophisticated camouflage provides excellent protection from predators as well as presenting a challenge to researchers. Genetic analysis enabled the researchers to discover “cryptic species”, which cannot be distinguished by their external appearance alone. The findings are not only important for the systematic study of leaf insects, but also for the protection of their diversity. The results were published in the scientific journal ZooKeys.
Taxonomy – meaning the naming, description and classification of species – is difficult in the case of leaf insects: individuals of different species can be difficult to tell apart, yet there can be huge variations within a species. “Individuals of different species are often counted as belonging to the same species based on their appearance. We were only able to identify some of the new species by their genetic characteristics,” explains the Project Lead, Dr Sarah Bank-Aubin, Göttingen University’s Animal Evolution and Biodiversity Department.
An adult female of Pulchriphyllium crurifolium, observed September 2019 at Sans Souci, Mahé, Seychelles, by Juan Jose Areso uploaded by iNaturalist user @liahg (Amalia Herrera Grau) (https://www.inaturalist.org/observations/76082181)
Some individual insects from India were previously thought to belong to a species that is widespread in Southeast Asia. But now the researchers have found out that they are a completely new species of leaf insects. Bank-Aubin emphasises: “The finding is important for species conservation: if all the individuals die out in India, it is not just a group within a species that is reduced, as was previously thought. In fact, a whole distinct species is being wiped out. This means that the Indian species is particularly important to protect.” Other newly discovered species come from Vietnam, Borneo, Java and the Philippines.
Three of the newly discovered leaf insect species. Left to right: A female of Phyllium ortizi, an adult male of Pulchriphyllium anangu observed November 2019 in Pakkalakunja, Karnataka, India by iNaturalist user @sanath_ramesh_manimoole (Sanath R M) (https://www.inaturalist.org/observations/103401996), and a female of Pulchriphyllium bhaskarai.
The researchers from Göttingen University worked with leaf insect expert Royce Cumming, City University New York. This research collaboration has led to the identification of over twenty new species. Dr Sven Bradler, who has been researching the evolution of stick and leaf insects at the University of Göttingen for more than 20 years, explains: “There are around 3,500 known species of stick and leaf insects and there are currently just over 100 described species of leaf insect. Although they only make up a small fraction of this diverse family of insects, their spectacular and unexpected appearance makes them unique.”
Research article:
Cumming RT, Le Tirant S, Linde JB, Solan ME, Foley EM, Eulin NEC, Lavado R, Whiting MF, Bradler S, Bank S (2023) On seven undescribed leaf insect species revealed within the recent “Tree of Leaves” (Phasmatodea, Phylliidae). ZooKeys 1173: 145-229. https://doi.org/10.3897/zookeys.1173.104413
Guest blog post by Dr Alireza Zamani (@Arachno_AZ)
In the latest issue (1174th) of the scientific open-access journal ZooKeys, you can find our paper describing a new species of tarantula (family Theraphosidae) found in northwestern Iran.
This species belongs to Chaetopelma, a relatively small genus, distributed in Crete, Sudan, and the Middle East, and one of the only two tarantula genera inhabiting the Mediterranean region.
Our discovery is significant for several reasons. Firstly, it marks the first record of this genus in Iran and the third known species of tarantulas in this country. Additionally, it extends the known range of Chaetopelma spiders by almost 350 km eastwards.
We named this species Chaetopelma persianum, paying homage to its occurrence in Iran, which has historically been known as Persia. As a potential common name, we suggest “Persian Gold Tarantula”, where we are also making a reference to the “woolly, golden hairs’’ on its carapace.
The newly described tarantula species (Chaetopelma persianum) seen in a defensive posture. Photo by Kari Kaunisto.
For the purpose of our study, we only had one specimen: a female with a leg span of almost 9 cm, available. Yet, its distinct characteristics allowed us to confidently differentiate it from other known Chaetopelma species.
This tarantula is an obligate burrower and inhabits high elevations in well-vegetated mountainous regions of the northern Zagros Mountains. The holotype specimen was collected from a self-made ground burrow on sloped rocky ground, amidst sparse low vegetation and grasses.
It all started with local nature enthusiast Mehdi Gavahyan, who photographed a wandering male and sent me the photo. When I figured it was most likely an undescribed species, I asked him to team up with Amir Hossein Aghaei, a nature enthusiast and a friend of mine, and send me specimens of these spiders for further examination. Unfortunately, they only managed to collect that one female. However, it turned out to be enough for us to describe the Persian Gold Tarantula!
Additionally, thanks to local citizen scientists and naturalists, we later also got hold of photos of another two males of the same genus, taken very close to the type locality of the new species: one in Sardasht in West Azerbaijan Province of Iran, and the other in the surroundings of Sulaymaniyah in Iraq. While it is highly probable that both these males belong to Ch. persianum, this cannot be confirmed until further examination of collected material from both sexes is conducted.
Burrow of Persian Gold Tarantulas in West Azerbaijan Province, Iran. The arrow in the photo on the right indicates the location of the burrow. Photos by Amir Hossein Aghaei.
During our research, we also noted that one species of Chaetopelma described from Cameroon is misclassified and should be transferred to another genus. However, this transfer is pending until the type material undergoes examination.
Looking ahead, we believe that more comprehensive investigations employing integrative methods would greatly benefit the taxonomy of Chaetopelma.
Habitat of the newly described Persian Gold Tarantula (Chaetopelma persianum) in West Azerbaijan Province, Iran. Photo by Amir Hossein Aghaei.
For example, Ch. olivaceum, a species with seven junior synonyms and one of the broadest ranges within the entire family, covering an area of approximately 1,493,978 km2, might potentially have cryptic species within its range. Moreover, the disjunct distribution of Ch. olivaceum in Turkey, where it occurs both in the southern regions and as far north as Istanbul, raises the possibility of distinct species status for the latter population, which is geographically isolated from the rest of the recorded occurrences. Integrative studies incorporating molecular data could offer insights into this.
Additionally, further collection efforts in lesser-sampled or completely unexplored regions, such as Saudi Arabia, Syria, Iraq, eastern Turkey and western Iran, could lead to the discovery of additional Chaetopelma species or records. These findings would be instrumental in gaining a more comprehensive understanding of the taxonomy and distribution of this genus.
When people think about corals, most picture the multi-hued reef-builders that reside in balmy waters off tropical beaches. But not all corals stick to the shallows. For example, most members of the order Antipatharia do not live within 160 feet of the surface. Some even reside at depths deeper than 26,000 feet. Commonly known as black corals due to their ink-colored skeletons, these corals are staples of deep-sea ecosystems around the world.
However, black corals remain enigmatic due to the challenges of studying them in the deep sea. This makes it difficult for scientists to assess how black corals, whose skeletons (which are made out of chitin, the same material that composes an insect’s exoskeleton) are prized components of jewelry, are responding to threats like poaching, ocean acidification and climate change.
“Describing these species is fundamental information to make conservation decisions,” said Jeremy Horowitz, a postdoctoral researcher at the National Museum of Natural History who specializes in studying black corals. “You have to know it before you can protect it.”
Jeremy Horowitz, a postdoctoral researcher in the museum’s invertebrate zoology department, examines a coral specimen during a subsequent expedition off Puerto Rico earlier this year. Credit: Jeremy Horowitz, NMNH
In a paper published this week in the journal ZooKeys, Horowitz and his colleagues at the museum and the University of Puerto Rico described Aphanipathes puertoricoensis, a new species of black coral that sports branching features found in multiple coral groups that diverged roughly 100 million years ago.
Taken by the deep-sea ROV Global Explorer, this image offered the scientists the first glimpse of the black coral species in its natural habitat. Image courtesy of Illuminating Biodiversity in Deep Waters of Puerto Rico 2022
The new black coral species was discovered in April 2022 during a joint Smithsonian and National Oceanic and Atmospheric (NOAA) expedition to a stretch of the Caribbean Sea just south of Puerto Rico. Here, the seafloor bottoms out into a network of deep-sea canyons and seamounts that remain largely unexplored.
The expedition, led by research zoologist Andrea Quattrini, the museum’s curator of corals and one of Horowitz’s co-authors on the new paper, aimed to explore some of this abyssal terrain and catalog some of the creatures that reside there. Many of these animals live far deeper than human divers can go. So the researchers deployed a remotely operated unmanned vehicle (ROV) called the Global Explorer to depths as deep as 4,000 feet below the ocean’s surface.
Andrea Quattrini, the expedition’s lead researcher, aboard the Nancy Foster research vessel. Image courtesy of Illuminating Biodiversity in Deep Waters of Puerto Rico 2022
Over seven dives, the ROV mapped 180 square nautical miles of the deep-sea floor. It collected a suite of biological samples and hours of footage for the researchers to parse on the research vessel above. They observed ghostly, blob-like predators called tunicates, gangly bristle stars, vibrant comb jellies and tiny crustaceans with fused eyes that live inside glass sponges. They even collected a colony of small invertebrates called bryozoa that had not been collected since a Smithsonian expedition to the Puerto Rico Trench in 1933.
One of the deep-sea anemones observed during the expedition. Image courtesy of Illuminating Biodiversity in Deep Waters of Puerto Rico 2022
They also found a multitude of species new to science. While exploring a canyon nearly 1,200 feet below the surface, the ROV came across a scraggly patch of black coral reminiscent of a deep-sea tumbleweed. As the ROV snipped off one of the coral’s spindly branches, Quattrini sent Horowitz, who was back in Washington, a picture of the coral on the ROV’s live feed. “She shared a picture of this coral and I immediately had no idea what it was,” Horowitz said.
When the expedition’s trove of specimens arrived in Washington, Horowitz could finally take a closer look at the puzzling coral. With long, coiled branches emanating from a short stalk like a tiny tree, the coral sported features found in multiple genera, or groups, of black coral that diverged long ago.
A microscopic close-up of the black coral’s spines taken with the help of the museum’s scanning electron microscope. Credit: Jeremy Horowitz, NMNH
To assign the new species in the right group, Horowitz placed a fragment of the coral specimen underneath a high-powered scanning electron microscope at the museum. That gave him a microscopic view of the miniscule spines that line the coral skeleton. Like a fingerprint, a coral species’ spines have their own distinct shape. Comparing these spines to known black coral species allowed Horowitz to get a better idea of where this new species may slot into the black coral family tree. To be sure, the researchers also used cutting edge techniques to compare the new species’ genetic code with other corals.
All this work allowed the researchers to find a taxonomic home for the new species in the genus Aphanipathes. They christened the black coral with the species name puertoricoensis in homage to the island near where it was found.
Discarded fishing gear sits on a thicket of black coral in the deep sea off of Puerto Rico. Image courtesy of Illuminating Biodiversity in Deep Waters of Puerto Rico 2022
Horowitz believes its resemblance to other groups of black coral reveals how helpful a simple body type is for survival in the deep-sea. “This simple morphological structure is evolving over and over again, probably because the conditions are the same in these different areas,” he said. “This simple structure is what works.”
The team is still examining the specimens collected and expects to name additional new species in the near future. There are also plans to go back and conduct further field research in the deep-sea canyons and ridges off Puerto Rico. “Every time we go back to this region, we find new species,” Horowitz said.
But there is also plenty to uncover closer to home. The piece of black coral from Puerto Rico recently joined the museum’s 4,000 other black coral specimens — the largest such collection in the world. Many of these black coral specimens likely represent undescribed species hiding in plain sight. According to Horowitz, “we don’t even have to go offshore to find new species.”
Reference:
Horowitz J, Opresko DM, González-García MP, Quattrini AM (2023) Description of a new species of black coral in the family Aphanipathidae (Anthozoa, Antipatharia) from Puerto Rico. ZooKeys 1173: 97-110. https://doi.org/10.3897/zookeys.1173.104141
Story originally published by the Smithsonian Magazine. Republished with permission.
In busy Los Angeles, few people pay attention to what’s under their feet, but a new underground movement has people looking at the subterranean world just below the surface. A team of scientists discovered a new species of millipede crawling just beneath the soil surface in Los Angeles and Orange counties.
These never-before-seen creatures are pale, blind, thin, inch-long burrowers with the ability to produce a silk-like sticky substance, similar to spider silk. Measuring in at 0.5 millimeters wide and 2 1/2 centimeters long, these creatures are about the width of the a thin graphite lead of a mechanical pencil and about as long as a small paperclip.
The Los Angeles Thread Millipede’s size compared with a nickel. Photo by Paul Marek for Virginia Tech
Despite being so small, they are described as having a gaping toothy mouth and over 480 legs. The species in question is called the Los Angeles Thread Millipede, formally named Illacme socal.
This minute critter, the Los Angeles Thread Millipede has gone unnoticed beneath feet until now. Photo by Paul Marek for Virginia Tech
“We hope that this discovery will encourage conservation efforts to protect these unique creatures and their habitats,” said Marek. “The discovery of Illacme socal highlights the importance of research into subterranean fauna.”
The discovery of Illacme socal was made possible by funding from the National Science Foundation. The research team included scientists from Virginia Tech, West Virginia University, and the University of California, Berkeley. The findings were published in the journal ZooKeys.
The team captured a video of the millipede burrowing and moving through small spaces and crevices underground. This is the first-ever video of this species in action and provides insight into the unique behaviors of these fascinating creatures.
This research discovery highlights the importance of habitat preservation efforts to protect the environment and prevent the loss of biodiversity. The millipede was found in two parks in the Los Angeles and Orange counties but almost certainly lived in other parts of the metropolis in the past.
The fact that populations of this species is living in two small well-known areas that are near constant development emphasizes the need for conservation efforts to protect this and other threatened organisms.
Research article:
Marek PE, Hall CL, Lee C, Bailey J, Berger MC, Kasson MT, Shear W (2023) A new species of Illacme from southern California (Siphonophorida, Siphonorhinidae). ZooKeys 1167: 265-291. https://doi.org/10.3897/zookeys.1167.102537
Press release originally published by Virginia Tech. Republished with permission.
The Colombian Pacific region, nestled within the heart of the Chocó Biogeographic Region, has unveiled some of its remarkable biological wonders. Recognized as one of the world’s most enigmatic biodiversity hotspots, this area has remained largely unexplored, particularly when it comes to spider diversity. A groundbreaking biological expedition, conducted at the Jardín Botánico del Pacífico (JBP) in Bahía Solano, has revealed some taxonomic novelties that are set to redefine our understanding of this captivating ecosystem. The area not only serves as a tourist attraction but also plays a pivotal role in the conservation of the tropical rainforests and mangroves in the region.
Led by a team of dedicated researchers, the study focused on Mygalomorphae spiders, aiming to shed light on their intricate world. This enigmatic spider group includes tarantulas, trapdoor spiders, funnel-web spiders, millimeter-sized spiders with little use of the silk, and bald-legged spiders with the ability to attach substrate to their bodies. They are predatory, mostly terrestrial, and very often have restricted geographic distributions and high levels of endemism.
In this first-of-its-kind exploration of the Colombian Pacific rainforest, the team discovered and documented four remarkable spider species. One of them is Ummidia solana, an exceptional trapdoor spider. Additionally, the researchers identified three species of tarantulas: Euthycaelus cunampia, Neischnocolus mecana, and Melloina pacifica.
A female Neischnocolus mecana.
“These taxonomic breakthroughs represent the first recorded instances of their respective genera in the region, expanding their geographical distribution. Each species was meticulously illustrated, described, and scientifically discussed, offering valuable insights into their morphological characteristics, taxonomy, and biogeography. The results of this study serve as a significant contribution to our understanding of the region’s biological diversity, known for its exceptional species richness and endemism,” say the researchers.
A male Ummidia solana.
Let us delve deeper into the newfound species. Ummidia solana, derived from the municipality of Bahía Solano, captures the essence of the stunning Colombian Pacific coast, with its mesmerizing landscapes and abundant vegetation. This discovery also marks the first record of the Ummidia genus within the Chocó Biogeographic Region.
Melloina pacifica, named after the Colombian Pacific region it inhabits, represents the first described species of the Melloina genus in Colombia. While Melloina is known to thrive in diverse ecosystems, including caves, this specific record expands the genus’ known distribution, previously documented solely in Venezuela and Panama.
A male Melloina pacifica.
Euthycaelus cunampia pays tribute to Don José and Don Antonio, members of the Emberá indigenous community from Mecaná, Chocó. Their transition from hunting traditions to becoming touristic and academic guides for the JBP inspired the species name. Notably, this discovery marks the first published record of the Euthycaelus genus and the subfamily Schismatothelinae outside the Andean Region and Eastern Cordillera for Colombia.
A male Euthycaelus cunampia.
Lastly, Neischnocolus mecana, named after a township in Bahía Solano, underscores the commitment of the Jardín Botánico del Pacífico community to conserve the region’s rich biodiversity. This is the fourth described species of the Neischnocolus genus in Colombia and represents its first record in the Chocó biogeographic region and the Colombian Pacific. Notably, this description expands the known geographic range of the genus.
“This groundbreaking study serves as a testament to the potential existence of undiscovered species and the need for comprehensive taxonomic research,” the scientists say in conclusion.
Research article
Echeverri M, Gómez Torres S, Pinel N, Perafán C (2023) Four new species of mygalomorph spiders (Araneae, Halonoproctidae and Theraphosidae) from the Colombian Pacific region (Bahía Solano, Chocó). ZooKeys 1166: 49–90. https://doi.org/10.3897/zookeys.1166.101069
A spectacular crocodile newt from the Central Highlands of Vietnam was just published in the international peer-reviewed open-access academic journal ZooKeys.
“It is an exceptional discovery as it is one of the most colourful species in the genus Tylototriton. This is also the first time that a crocodile newt species is recorded from the Central Highlands of Vietnam. Occurring at elevations from 1,800 to 2,300 m above sea level, this discovery sets an elevational record for the genus in the country, with former distribution ranges between 250 m and 1,740 m.”
says discoverer and first author of the study Trung My Phung.
Furthermore, the discovery by the Vietnamese-German researcher team, which was supported by the Vietnam Academy of Science and Technology and the Cologne Zoo (Germany), represents the southernmost distribution range of the genus known to date.
The habitat of the new species is located approximately 370 air km away from the nearest Tylototriton population, which makes it an important discovery in terms of evolution and zoogeography.
The name “ngoclinhensis” refers to the type locality of the new species, Ngoc Linh Mountain. Restricted to evergreen montane forest, the Ngoc Linh Crocodile Newt is currently known only from the Ngoc Linh Nature Reserve, Kon Tum Province, in the Central Highlands of Vietnam. This is the eighth salamander taxon described from Vietnam, and is the thirty-ninth Tylototriton species officially recognized.
The newly described crocodile newt Tylototritonngoclinhensis sp. nov. Photo by Prof. Dr. Tao Thien Nguyen.
Crocodile newts, scientifically known as the genus Tylototriton,include nearly 40 species inhabiting montane forest areas throughout the Asian monsoon climate zone. Remarkably, 15 of these species have been described in the past five years, and there remain several unnamed taxa, which contain cryptic species that are morphologicallydifficult to distinguish.
Established in 1986, Ngoc Linh Nature Reserve is a key biodiversity area for rare species like the endangered Golden-winged Laughingthrush and the Truong Son Muntjac. The Ngoc Linh Crocodile Newt certainly will represent another flagship species of this protected area and its surroundings, say the researchers.
“[The Central Highlands is] where the highest amphibian species diversity was recorded for Vietnam, with 130 species, while also containing the highest number of regionally occurring, micro-endemic amphibians, amounting for 26 species,”
This recent discovery is another remarkable case, “demonstrating that the Central Highlands play a special role in Vietnamese amphibian diversification and evolution,” by the words of co-author Dr. Cuong The Pham from IEBR.
The Ngoc Linh Crocodile Newt belongs to the group of range-restricted, so-called micro-endemic species, which face the greatest risk of extinction because of their presumably small population size. Unfortunately, on top of its special zoogeographic situation and rarity, its particularly colorful appearance will likely make it highly attractive to illegal collectors.
“Therefore, this discovery is of high conservation relevance,”
Now, conservation activities on site have priority, but the team is already working on breeding conservation measures, which is in line with the One Plan Approach to Conservation, developed by IUCN’s Conservation Planning Specialist Group, which combines in-situ and ex-situ efforts and various expertises for the optimum protection of a species.
“This has already been successfully implemented for another recently discovered, micro-endemic crocodile newt species from Vietnam, Tylototriton vietnamensis, of which already more than 350 individuals could have successfully been reproduced at the Cologne Zoo in Germany and also at the Melinh Station for Biodiversity in Vietnam, which is a promising example for IUCN’s Reverse the Red campaign and the idea of the conservation zoo”,
says Prof. Dr. Thomas Ziegler, Vietnam conservation team member and coordinator from Cologne Zoo, Germany.
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Research article:
Phung TM, Pham CT, Nguyen TQ, Ninh HT, Nguyen HQ, Bernardes M, Le ST, Ziegler T, Nguyen TT (2023) Southbound – the southernmost record of Tylototriton (Amphibia, Caudata, Salamandridae) from the Central Highlands of Vietnam represents a new species. ZooKeys 1168: 193-218. https://doi.org/10.3897/zookeys.1168.96091