Category: Zookeys

Bay Area high school students describe two new species of scorpions with California Academy of Sciences

Identified on the community science platform iNaturalist, the species add to California’s rich biodiversity.

California now has two new scorpions on its list of species, thanks to the efforts of two keen-eyed high school students from the Bay Area and the California Academy of Sciences. Harper Forbes and Prakrit Jain, avid users on the community science platform iNaturalist, discovered the new-to-science scorpions while trawling the thousands of observations uploaded by other users in the state.

New species Paruroctonus soda and Paruroctonus conclusus are playa scorpions, meaning they can only be found around dry lake beds, or playas, from the deserts of Central and Southern California. For scientists, conservation managers, and the growing communities of wildlife observers on platforms like iNaturalist, these newly described species provide a better understanding of California’s biodiversity and the places most in need of protection—a cornerstone of the Academy’s Thriving California initiative.

The budding naturalists collaborated with Curator of Arachnology  Lauren Esposito, PhD, to formally describe the species in a study published today in ZooKeys

This female scorpion is one of the newly described species (Paruroctonus soda) and is seen carrying 51 juveniles. (© Prakrit Jain)

In 2019, Forbes and Jain came across an unknown scorpion species on iNaturalist observed near Koehn Lake—an ephemeral lake in the Mojave Desert—that had remained unidentified since it was uploaded six years earlier. 

“We weren’t entirely sure what we were looking at,” Jain says. “Over the next couple years, we studied scorpions in the genus Paruroctonus and learned they frequently evolve to live in alkali playas like Koehn Lake. When we returned to that initial observation, we realized we were looking at an undescribed Paruroctonus species.” 

Harper Forbes (left), Prakrit Jain (right), and Academy Curator of Arachnology Lauren Esposito, PhD, (center) search for scorpions. (Gayle Laird 2022 © California Academy of Sciences)

Serendipitously, another unknown scorpion observed in San Luis Obispo County was uploaded to iNaturalist shortly after their discovery in May of 2021. With a few years of arachnid research under their belts, Forbes and Jain knew right away that it was a new species in the same genus. They immediately contacted Esposito to assist, resulting in two new-to-science scorpions—P. soda and P. conclusus—and a published paper in which Forbes and Jain are first authors. 

“Harper and Prakrit went through all the steps to formally describe a species, sampling the populations and comparing them with existing specimens in our collection,” Esposito says. “There’s a lot of work involved, but they are incredibly passionate about this research. It’s inspiring to see that their hobby is one that advances biodiversity science.”

The new scorpions species were discovered on community science platform iNaturalist. (Gayle Laird 2022 © California Academy of Sciences)

P. soda and P. conclusus are both alkali sink specialists, meaning they have adapted to the alkaline basins—dry, salty playas with high pH soils—in which they evolved. Each species has a very limited range and can only be found in the playas where they were discovered: Soda Lake (the former’s namesake) and Koehn Lake. During their summer break, Forbes and Jain visited the lakes to collect specimens of each new species. After scouting the alkali flats during the daytime for habitats most suited for playa scorpions, they set out with their vials and forceps at dusk, as these desert dwellers are primarily active at night. Luckily, most scorpions fluoresce under ultraviolet light, so the researchers used blacklights to scour the open playas while keeping an eye out for their glowing subjects. They also searched the scorpions’ typical hiding places, peering into cracks in the hard clay soil and combing through common alkali sink plants like iodine bush (Allenrolfea occidentalis) and bush seepweed (Suaeda nigra). At the end of each trip, they successfully collected a sample size of both males and females sufficient for the study.

While the species range for P. soda is small (just a few square miles), it is entirely located within Carrizo Plain National Monument—federally protected land that renders this species safe from human-driven threats. Unfortunately, this is not the case for P. conclusus.

“While no official assessment has been carried out for either species, P. conclusus can only be found on a narrow strip of unprotected land, less than two kilometers long and only a few meters wide in some places,” Forbes says. “The entire species could be wiped out with the construction of a single solar farm, mine, or housing development.” 

Habitat of Paruroctonus conclusus at the type locality, taken in July 2021.

Though P. soda seems to be relatively safe compared to P. conclusus, the constant threat of climate change endangers all wildlife, particularly in delicate desert environments. As part of the Thriving California initiative, Academy scientists hope to collaborate with schools and communities throughout the state to conduct further biodiversity research. By harnessing scientific data—including crowd-sourced data from iNaturalist—and providing access to environmental and science learning, the initiative hopes to halt biodiversity loss in the Golden State. 

Harper and Prakrit will continue their research with the Academy and are currently working on a holistic book of California’s scorpions. (Gayle Laird 2022 © California Academy of Sciences)

Now high school graduates, this fall Forbes will study evolutionary biology at the University of Arizona and Jain will study integrative biology at the University of California, Berkeley. They will continue their work with Esposito and are currently collaborating on their next major project: a holistic book of California’s scorpions. In addition to their research and academic endeavors, they are excited to get back out in the field to find, collect, and identify more scorpions. 

“I will never get tired of going out at night to find a certain scorpion for the first time,” Jain says. “Whether it be solving the mystery of a long-lost scorpion or discovering something new in an unexpected place, a trip to the desert is always a challenge and an adventure.”

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Research article:

Jain P, Forbes H, Esposito LA (2022) Two new alkali-sink specialist species of Paruroctonus Werner 1934 (Scorpiones, Vaejovidae) from central California. ZooKeys 1117: 139-188. https://doi.org/10.3897/zookeys.1117.76872

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This press release was originally published by the California Academy of Sciences.

Celebrating World Lizard day with amazing discoveries

This August 14, we’re looking back to the most impressive lizard discoveries we’ve witnessed throughout the years.

World Lizard Day is a great way to raise awareness of these curious reptiles and their conservation needs; it is also a good excuse to look at pretty lizard pictures! Today, we’re doing a bit of both.

At Pensoft, we’ve published many new lizard species, some of them rare and truly fascinating. This August 14, we’re looking back to the most impressive lizard discoveries we’ve witnessed throughout the years.

The Dracula lizard

This beautiful lizard, described in 2018, comes from the Andean slopes of southwestern Colombia and northwestern Ecuador. It inhabits evergreen low montane forests, and is only known from a relatively small territory of approximately 1582 km2. Its prey most often consists of insects, spiders and worms.

Contrary to what you might think, this species was not named after the eponymous vampire count, but rather after some beautiful tropical flowers.

The specific epithet dracula refers to the Dracula Reserve, which is located within the lizard’s distribution and near its type locality. The Reserve protects an area with a high diversity of orchids of the genus Dracula.

Published in ZooKeys.

The tiny chameleon

This lizard friend, known as Brookesia tedi, is less than 3 cm long! It is more than ten times smaller than the longest known chameleon, Furcifer oustaleti. Its size makes it difficult to find, and as a result, challenging to study. Its description, published in 2019, helped resolve a 50-year old identity question.

Living at 1300 m above sea level on the Marojejy massif in northeastern Madagascar, Brookesia tedi lives is brown in colour, its tail and the back of its head grey.

The researchers consider it Vulnerable but worry that improper protection on Marojejy, as well as fires, could rapidly drive the species to becoming Critically Endangered.

Published in Zoosystematics and Evolution.

The charismatic wood lizard

Enyalioides feiruzae is a colourful and highly variable lizard – especially its males, who 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. The team behind its discovery spent seven years in the area searching for amphibians and reptiles before describing it.

The species comes from the Tropical Andes, and more specifically – from the Huallaga River basin, an area which is still poorly studied because for a long time it was disturbed by civil wars.

The Feiruz wood lizard was named after another reptile, Feiruz the iguana – “muse and lifelong friend”.

The spotted monitor lizard

Mussau is a small island in northeastern Papua New Guinea. The top predator on it? A lizard.

Varanus semotus has been isolated from related species for an estimated one to two million years, with its closest relatives several hundred kilometers away.

Even so, science discovered it only recently.

The one-meter-long lizard has a black body with yellow and orange markings and a pale yellow tongue, with a turquoise to blue tail. These animals “will eat just about anything they can catch and kill,” study author Valter Weijola told the Washington Post.

As the only large terrestrial generalist predator and scavenger on the island, Varanus semotus may fill an important ecological function, making it of particular conservation concern.

Published in ZooKeys.

The black iguana

What makes Iguana melanoderma so distinct is its black color; in fact, it only gets blacker with age. The species was discovered in Saba and Montserrat islands, the Lesser Antilles (Eastern Caribbean), to which it is endemic.

However, it is threatened by unsustainable harvesting (including pet trade), and competition and hybridization from invasive alien iguanas from South and Central America.

A greater focus on biosecurity, the minimization of hunting, and habitat conservation, would help its conservation, the researchers write in their paper.

In Saba, Iguana melanoderma lives on cliffs, in trees and bushes, in shrublands, and deciduous woodlands. It lives in a foggy and cool environment up to about 500 m a.s.l. and sunbathes as soon as the sun rises.

Published in ZooKeys.

Bonus: Illegal lizard trade might be closer than you think

Dubbed “miniature Godzilla” and “the Holy Grail of Herpetology,” the earless monitor lizard is endemic to Borneo. Legally, it can neither be traded within Indonesia, Malaysia and Brunei, nor exported out of them.

Even so, reptile enthusiasts and unscrupulous traders have long been smuggling small numbers of earless monitor lizards, eventually bringing them to Europe.

A new study reported that accredited zoos have acquired individuals of the protected lizard, without any evidence of legal export.

“Zoos that continue to obtain animals that have been illegally acquired, directly or indirectly, are often fuelling the illegal wildlife trade, supporting organised crime networks and possibly contributing to the decline in some species,” Vincent Nijman, author of the study, told us.

Published in Nature Conservation.

“Oscar describes Oscar”: Interview with Oscar Lasso-Alcalá, Pt 3

“This is why Mikolji’s Oscar is a highly appreciated species in the aquarium hobby. It is more than just a fish in an aquarium when it is considered a true pet.”

In this last part, we talked with ichthyologist Oscar Miguel Lasso-Alcalá about what makes Astronotus mikoljii – a new to science cichlid species that he recently described in ZooKeys – so special.

Find Part 1 and Part 2 of the interview.

What makes this species so charismatic and loved by aquarists and ichthyologists?

I already spoke about my experience as an aquarist from an early age, where the qualities of the species of the Astronotus genus, known as Oscars are highlighted.

Different varieties and color patterns have been obtained from them through selective breeding, or genetic manipulation, which are called living modified organisms (LMOs) or genetically modified organisms (GMOs).

However, the true lovers of nature, the aquarians of the “Biotope Aquarium” movement  and the like, prefer pure specimens to manipulated or artificially modified ones. This is why Mikolji’s Oscar is a highly appreciated species in the aquarium hobby. It is more than just a fish in an aquarium since it is considered a true pet.

For ichthyologists, it is remarkably interesting and at the same time very challenging to study a genus like Astronotus, which already has only three described species (Astronotus ocellatus, A. cassiprinnis and A. mikoljii).

This is an unusual situation, which, as we have reported, requires an integrative approach and the work and experience of different specialists for its study. With all certainty, as in the case of Mikolji’s Oscar, other species of the genus Astronotus remain to be studied and described, and we hope that we will have the fortune to participate with our experience in these new works.

Local people have long known this species. What role does it have in their lives?

It is important to clarify that Astronotus mikoljii is a new species for science, but it is not a “new species” for people who already knew it locally under the name of Pavona, Vieja, or Cupaneca in Venezuela or Pavo Real, Carabazú, Mojarra and Mojarra Negra in Colombia. Nor for the aquarium trade, where it was known by the common name of Oscar and scientific name of Astronotus ocellatus, or, to a lesser degree, as Astronotus cassiprinnis.

This species has been of great food importance for thousands of years for at least nine indigenous ethnic groups.

Much less is it a new species for the nine thousand-year-old indigenous ethnic groups that share their world with the habitat of this fish, who baptized it with some 14 different names, known in their languages as mijsho (Kariña), boisikuajaba (Warao), hácho (Pumé = Yaruro), phadeewa, jadaewa (Ye’Kuana = Makiritare), perewa, parawa (Eñepá = Panare), yawirra (Kúrrim = Kurripako), kohukohurimï, kohokohorimï, owënawë kohoromï” (Yanomami = Yanomamï), eba (Puinave), Itapukunda (Kurripako), uan (Tucano).

Hence, the importance of scientific names, since the same species can have multiple common names, in the same language or in multiple languages.

It is important to note that very few studies that describe new species for science include the common names of the species, as given by the indigenous ethnic groups or natives of the regions, where the species live.

This species has been of great food importance for thousands of years for at least nine indigenous ethnic groups, and for more than 500 years to the hundreds of human communities of locals who inhabit the Orinoco River basin in Venezuela and Colombia. In our studies, in the plains of Orinoco from 30 years ago, we were able to verify its consumption, as well as high gastronomic value, due to its pleasant taste and enhanced texture.

However, due to my imprint as an aquarist, I have not wanted to consume it on the different occasions that it was offered to me, because it is very difficult to eat the beloved pets that we had in our childhood.

Why is this fish important to people and to ecosystems?

It is especially important to highlight that the Astronotus mikoljii species plays a very important role in the ecosystem, due to its biological and ecological background.

Although it can feed from different sources, it is a fundamentally carnivorous species, and therefore, it “controls” other species in the ecosystem.

Without Mikolji’s Oscar, the aquatic ecosystem would lose one of its fundamental links and the delicate balance of its functioning, because the species it feeds on could increase their populations uncontrollably, becoming veritable pests. This would put in great danger the entire future of the aquatic ecosystem of the Orinoco River basin and the permanence of other species of ecological importance.

In addition, it would surely affect other species used by man, both those of commercial importance (sold as food or as ornamental species), and for the subsistence fishing of native and indigenous inhabitants.

Mikolji’s Oscar, although a carnivorous species, also has its natural predators, for example piranhas and other predatory fish. For this reason, it evolved with an ocellus, or false eye, at the base of the caudal fin, to confuse its predators and guarantee its survival. Obviously, this species will be compromised if we don’t learn about it, use its populations wisely and preserve it in the long term.

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Photos by Ivan Mikolji.

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You can find Part 1 and Part 2 of the interview with Oscar.

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“Oscar describes Oscar”: Interview with Oscar Lasso-Alcalá, Pt 2

“Working in science in a country under these conditions, and getting to publish the results of the investigations in high-level scientific journals such as ZooKeys, is an act of “true heroism”.

Oscar Miguel Lasso-Alcalá, MSc. is a Spanish-Venezuelan ichthyologist. This summer, his team described a new species of Oscar fish in the journal ZooKeys.

In this second part of his interview, he tells us about the challenges in his work and shares the story behind the new cichlid’s name. You can find Part 1 of the interview.

What did you find to be the biggest challenge?

Throughout the past seven years, the description of this species has been a real challenge. Our group of researchers knew from the beginning that it was going to be a difficult job.  However, we never imagined the magnitude of the problems or challenges we would encounter.

We had to study the specimens from the Orinoco River basin in Venezuela and Colombia, and rivers from the hydrographic basin of the Gulf of Paria in Venezuela, which were within our reach, in the main scientific collections of fishes in Venezuela. Similarly, we studied the specimens from the Amazon River basin in one of the main collections in Brazil. We studied the traditional external morphology (morphometric characters, or the body, and meristic measurements, or the number of structures or parts such as scales, fins, etc.) and their coloration, as well as their internal morphology, that is, the study of structures of their skeleton, with the use of high-definition radiographs, where we found the main differences with other species.

A novel technique was the study of the shape of the otoliths, or “ear stones”, a technique not used before in the study of this group of fish. That is why I mentioned before that we also made some great scientific discoveries.

In addition to the long and meticulous laboratory work, we also had to conduct field work, not only to capture new specimens for the morphological study, but also for the genetic and molecular study, a new methodology that has become popular in recent years as a way to support taxonomy and systematics in the description and classification of species.

For this latest work, we also relied on a recent study in this area of ​​research, carried out by the genetics specialists on our work team. This means our research was based on what is currently called “integrative taxonomy”, which is the sum of different techniques, methods, and technologies, at the service of achieving our goal: the description of a new species for science and for the world.

Many other difficulties came up along the way, which is why this research took over seven years to be published. Normally, researchers cannot focus 100% of their time on one single research, and workloads fluctuate. Sometimes we think that a greater number of specialists would help distribute the workload evenly or that getting input from others with different fields of experience, sometimes specialized, would help enrich the work, but that also makes it more difficult to reach agreement. Reaching perfection is never possible, and it took a long time for us to reach a level of results that was both acceptable to all and well accepted in the field of taxonomy and systematics.

One of the biggest challenges was purely financial. While we had some funds from Brazilian research support organizations and two universities, this was not the case in Venezuela, a country plunged in a serious political, social, economic, and humanitarian crisis.

Working in science in a country under these conditions, and being able to publish your results in high-level scientific journals, including ZooKeys, is an act of “true heroism”, as my brother José Antonio often says when cheering on my publication.

How come you named it after Ivan Mikolji?

People who do not know about the great work carried out by river explorer Ivan Mikolji might wonder about that, but the thousands of people, connoisseurs and followers of his work are absolutely clear on the justification for this appointment.

Find more about Ivan Mikolji and his work on his website: https://mikolji.com/.

In addition to being an excellent professional explorer, author, underwater photographer, audiovisual producer and even plastic artist, he is a tireless and enthusiastic disseminator of the biodiversity and natural history of freshwater fish in Venezuela and Colombia.

His work has contributed greatly to the knowledge and conservation of the aquatic ecosystems of both countries. His motto is: “You cannot preserve something that you don’t know exists.”

He has made dozens of photography and art exhibitions in Venezuela, Mexico and the United States, as well as award-winning documentaries on the Orinoco River and its biodiversity that have acquired millions of views.

Mikolji has also inspired thousands of “conservationist” aquarists, as a judge in a worldwide movement called “Biotope Aquariums,” where people try to simulate, as much as possible, the ecosystems and aquatic biodiversity of their places of origin, for the conservation of their local biodiversity.

In addition, his educational work further includes the “Wild Aquarium”, a new movement and methodology, where he recreates in the same place (in situ), a “Biotope aquarium”, helping local communities (children and adults) learn about local aquatic ecosystems and biodiversity and their conservation.

In addition to his great artistic, informative, and educational work, with the enormous data accumulated in more than 15 years of work and field observations, in the recent years, he has participated in different research projects, publishing books and numerous scientific articles, some of them with us. For this reason, in 2020, he was appointed Associate Researcher of the Museo de Historia Natural La Salle (Caracas) of the Fundación La Salle de Ciencias Naturales, in Venezuela. By the way, we are planning research that we hope to announce soon in various publications.

Regarding Astronotus mikoljii, our good friend and now colleague Ivan Mikolji, was the one who initially proposed that we describe this species that he loves so much. He selflessly supported all the authors throughout the study in diverse ways, even in the field work in Venezuela. Ivan helped us in the search for equipment and materials, in the search for information, in the photographic work, and now in the dissemination of this study. For this reason, the article, in just one week, achieved more than 4,500 downloads, both on ZooKeys and ResearchGate web platforms, a true record for a study of this type.

Most importantly, throughout these years, Ivan has always encouraged us not to lose our course and objective, even in the most difficult moments. After years of knowing him, we have cultivated an excellent friendship. This is why we decided that it was just and necessary to recognize his work, help, companionship, and friendship, naming this beautiful and beloved species in his honor.

Photos by Ivan Mikolji.

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You can find Part 1 and continue reading with Part 3.

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“Oscar describes Oscar”: Interview with Oscar Lasso-Alcalá, Pt 1

“As an ichthyologist, I feel pride in collaborating and contributing to science, nationally, regionally, and globally.”

Oscar Miguel Lasso-Alcalá, MSc., is a Spanish-Venezuelan ichthyologist with undergraduate studies in Oceanography, Fishing Technology and Aquaculture, and Postgraduate studies in Agricultural Zoology and Estuary Ecology. He has worked in diverse areas such as taxonomy, biology, ecology, freshwater, estuarine, and marine fisheries and management. For 33 years, he has participated in more than 70 research projects and published over 250 studies. He has made more than 250 scientific expeditions to different regions of Venezuela and six other countries in America. He has dedicated much of his work to studying, educating, and managing introduced species and their invasions.

This summer, Oscar’s team described a new species of cichlid fish from northern South America in our journal ZooKeys. We spoke to him to find out how they came to the discovery and what it means to him.

When did you discover the new species?

Although some taxonomists have specimens that they believe, or have preliminarily diagnosed, to correspond to different, undescribed or new-to-science species (in my case I know of around 15 species I’ve diagnosed as new), Astronotus mikoljii was different. We did not discover that it was a new species overnight.

Normally, the process of discovering a new species takes a long time and a lot of work. It is not an easy task. First, you need to analyze the external and internal morphology. You study the color pattern and other characteristics and compare them to those of known, described species that are akin or similar to the one being studied, looking for the main differences. It is also very important to carry out exhaustive documentary and bibliographical research, to learn about all related species that have been previously described. Then, if there is complete certainty that it’s a different species that has not been previously described and published, there’s an entire process of formal description of the new species.

Did you immediately recognize it as a new species?

Absolutely not. Mikolji’s Oscar is difficult to differentiate externally. The first researcher who evidenced the main differences of Astronotus ocellatus (a binomial as it was previously known) from the Orinoco River basin, was the Swedish ichthyologist Sven Oscar Kullander, curator at the Swedish Museum of Natural History in Stockholm. He is one of the greatest specialists in the world on species of the Cichlidae family, to which the species we were studying belongs. This was first published in 1981, followed by his 1983, 1986, and 1989 studies (including his Ph.D. thesis) and later in other studies of his published in 2003 (all cited in our recent article published in the ZooKeys journal).

Likewise, my brother, the Spanish and Venezuelan ichthyologist Carlos Andrés Lasso, currently a researcher at the Instituto de Recursos Biológicos Alexander von Humboldt of Colombia, with more than 40 years of experience, also recognized this species from the Orinoco River as different from the one present in the Amazon River basin. In 18 different studies carried out in Venezuela and Colombia (all cited in our article), he records this species as Astronotus cf ocellatus (“cf” means the species name is yet to be confirmed), or directly as Astronotus sp., already assuring that it was a different species and new to science.

We are letting the world know a defined and individual species exists.

With this background, we responsibly acknowledge that it was Sven and Carlos who discovered Mikolji’s Oscar, and not us. Our credit and recognition are given for the process of describing the new species and for its publication. It is very important to clarify here that the discovery of a new-to-science species and its description (and publication) are two different facts, situations, and processes. However, in our study, we discovered some very important morphological characteristics, as well as genetic information, that allowed the differentiation of this species from those already known.

What was most exciting about this finding?

 As an ichthyologist, I feel pride in collaborating and contributing to science, nationally, regionally, and globally. I feel satisfaction every time I share my research results at a scientific event or meeting (congress, symposium), or publish them in a scientific book (or part of it) or in a popular journal. This is not just an ordinary job for me, since I really like to investigate, and almost always have a lot of fun with this activity. As I have said in many of the interviews that I have had throughout my over 30-year career: to me, it’s not a job, it’s a way of living.

It fills me with great satisfaction to have the opportunity, more than 40 years after first meeting these Oscars, to be able to study them, describe them, and give them the name and place they deserve in science, and in the world.

The description of a species which is new to science is something really special, not only for me and my colleagues in this study, but for the vast majority of taxonomists. This is not only due to the fact that our last names will always appear next to the scientific name, but also to the fact that we are letting the world know a defined and individual species exists. By adding another species, we increase the known biodiversity of a country, a region, and the world, and therefore, we demonstrate that biodiversity must be studied, managed, conserved, and used rationally and independently.

Astronotus mikoljii is a very charismatic species, highly appreciated, valued, and loved in the aquarium hobby.

I remember that as a kid (between 7 and 13 years old), in the aquariums built at home by two of my older brothers, José Antonio and Carlos, to whom I largely owe being an ichthyologist today, we had some specimens of Oscars from Orinoco. We bought them in a local aquarium store in Caracas and took care of them, loved them like little children. I remember that in addition to feeling happily identified with the name (Oscar), they felt like real pets. They “got excited” when they saw us, took food directly from our hands without biting our fingers, and even let themselves be caressed, as if they were docile puppies or kittens. They were my favorite fish.

Years later, as an adult, beginning my research years, in the late 80’s and early 90’s, even with aquariums in our house (I had more than 20 in my good time as an aquarist), we had new specimens of these Oscars. This time, they were specimens captured by my brother and me, in the floodplains of the Orinoco River (Llanos de Apure), where for more than five years we studied the biology and ecology of some 200 local fish species, many of them unique in the world just like Mikolji’s Oscar. From that field study came the doctoral thesis of my brother Carlos, and the undergraduate theses of half a dozen other researchers, including mine.

It fills me with great satisfaction to have the opportunity, more than 40 years after first meeting these Oscars, to be able to study them, describe them, and give them the name and place they deserve in science, and in the world. It also fills me with deep satisfaction, having the opportunity to describe a “large-sized” species that was apparently already known, both locally and nationally (for its importance in fishing), as well as internationally in the world of aquarism. That is why, as I shared our study and finding on social media, I wrote: “Oscar describes the Oscar: Mikolji’s Oscar.

We are also extremely grateful to the many people who helped us and collaborated with us in this study, by collecting new specimens in the field, reviewing fish collections under their care, taking X-rays, searching for specialized bibliographies, studying the native or indigenous names, and even editing and publishing the article in Zookeys journal.

Likewise, it was exciting to share this research experience with colleagues from Brazil (co-authors of this study, just like me), who trusted us and our meticulous work.

Photos by Ivan Mikolji

The story continues with Part 2 and Part 3.

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Venomous! New pit viper discovered in Jiuzhaigou National Nature Reserve, China

The discovery was published in the open-access journal ZooKeys as part of a new molecular phylogenetic analysis of the Asian pit vipers.

Jiuzhaigou National Nature Reserve, a World Heritage Site, lies in the transition zone from the eastern edge of the Qinghai-Tibet Plateau to the Sichuan Basin in Sichuan Province, China, and occupies an area of 651 km2. The reserve is covered with well-preserved original forests, and numerous alpine lakes. Beautiful and picturesque, it is home to some rare animals, such as the Giant Panda (Ailuropoda melanoleuca) and Golden Snub-nosed Monkey (Rhinopithecus roxellana).

Landscape in Jiuzhaigou National Park. Photo by Jie Du

The herpetological di­versity, in contrast to the mammals, is relatively low in the area due to the harsh alpine environment. To find out more about it, and to investigate the post-earthquake ecological system in the region, a group of researchers conducted a series of investigations in Jiuzhaigou National Nature Reserve. During their herpetological surveys, they collected some specimens of Gloydius, a genus of venomous pit vipers endemic to Asia, from Zharu Valley.

After running morphological and phylogenetic analyses, the scientists found out that these specimens in fact belonged to a yet-to-be-described species.

Holotype of Gloydius lateralis. Photo by Sheng-chao Shi.

“The new species is morphologically similar, and phylogenetically closely related to G. swild, another recently described species from Heishui, Aba, Sichuan, but differs from it by having larger eyes (related to the head) and a continuous regular brown stripe on each dorsolateral side of the body,” explained the corresponding author, Dr Jingsong Shi.

“Thus, we named it after its unique color pattern: Gloydius lateralis.”

Holotype of Gloydius lateralis. Photo by Sheng-chao Shi

The newly described snake feeds on small mammals, such as mice, and “is active on sunny days by the roadside in a hot, dry valley”, the researchers write in their study, which was published in the open-access scientific journal ZooKeys.

“The discovery of G. lateralis provides new insights into the diversity and the distribution patterns of Asian pit vipers”, they write, suggesting that the formation of the Qinghai-Tibet Plateau might be one of the key factors to the geographical isolation of the alpine pit vipers in southwest China.

Landscapes in Jiuzhaigou National Park. Photo by Jie Du

Jiuzhaigou National Nature Reserve, where G. lateralis was found, receives millions of tourists every year. “The only known habitat of the new species is Zharu Valley, and it is now under touristic development,” the researchers point out. “Thus, warning signs are still needed to remind visitors to watch out for the venomous pit viper, since this and another pit viper species, Protobothrops jerdo­nii, are often found in grass or bushes on both sides of roads.”

Snakes’ thermoregulation needs make them more prone to vehicle collisions, which is why the research team highlights the necessity to remind drivers to slow down in order to avoid road killings.

Original source:

Zhang M-H, Shi S-C, Li C, Yan P, Wang P, Ding L, Du J, Plenković-Moraj A, Jiang J-P, Shi J-S (2022) Exploring cryptic biodiversity in a world heritage site: a new pitviper (Squamata, Viperidae, Crotalinae) from Jiuzhaigou, Aba, Sichuan, China. ZooKeys 1114: 59–76. https://doi.org/10.3897/zookeys.1114.79709

Top new species discoveries for the first half of 2022

The diversity is impressive, but what is even more amazing is how much more remains undiscovered.

In the world of biodiversity science, 2022 started with some great discoveries and a lot of hope. Here at Pensoft, we get to see a new species (or more!) make an appearance into the scientific world almost every day. The diversity is impressive, but what is even more amazing is how much more remains undiscovered.

With the first half of the year already behind us, here are the stellar new species that took the world by storm as soon as we published them.

The magical fairy wrasse

This rainbow-coloured fish is called Cirrhilabrus finifenmaa, or Rose-Veiled Fairy Wrasse, and it was found in the Maldives’ reefs. It can live 160 to 500 feet beneath the ocean’s surface in unexplored coral ecosystems dubbed “the twilight zone”. 

It was discovered within California Academy of SciencesHope for Reefs initiative, which is aimed at better understanding and protecting coral reefs around the world.

“Nobody knows these waters better than the Maldivian people,” says senior author and Academy Curator of Ichthyology Luiz Rocha. “Our research is stronger when it’s done in collaboration with local researchers and divers.”

Apart from its striking appearance, Cirrhilabrus finifenmaa also gained popularity as the first new-to-science species to be described by a Maldivian scientist.

“It has always been foreign scientists who have described species found in the Maldives, even those that are endemic, without much involvement from local scientists, says study co-author and Maldives Marine Research Institute biologist Ahmed Najeeb. “This time it is different.”

It is also one of the first species to have its name derived from the local Dhivehi language, ‘finifenmaa’ meaning ‘rose’, a nod to both its pink hues and the island nation’s national flower.

This beautiful fish is already being exploited through the aquarium hobbyist trade, a fact described as “unsettling” by the people who discovered it.

Published in ZooKeys.

The Taylor Swift millipede

How often is it that a millipede makes top news headlines? Well, Nannaria swiftae sure did.

Scientists Derek Hennen, Jackson Means, and Paul Marek, at Virginia Tech, U.S., described the new species in April, naming it after singer-songwriter Taylor Swift. “Her music helped me get through the highs and lows of graduate school, so naming a new millipede species after her is my way of saying thanks,” Derek Hennen says, admitting he has been her fan for years.

N. swiftae joins 16 other new species of twisted-claw millipedes described from the Appalachian Mountains of the United States. To find them, researchers traveled to 17 US states, checking under leaf litter, rocks, and logs. They then sequenced the DNA of the species they found and described them scientifically. They looked at over 1800 specimens collected on their field study or taken from university and museum collections!

These little-known invertebrates are somewhat tricky to catch, because they tend to remain buried in the soil, sometimes staying completely beneath the surface.

Most twisted-claw millipedes live on the forest floor, where they feed on decaying leaves and other plant matter. They also have a valuable role as decomposers: breaking down leaf litter, they release their nutrients into the ecosystem.

Published in ZooKeys.

The Greta Thunberg frog

Swedish climate activist Greta Thunberg has been namesakes with a frog for half a year now. In 2018, Rainforest Trust celebrated its 30th anniversary by hosting an auction offering naming rights for some new-to-science species, including Pristimantis gretathunbergae, a black-eyed rainfrog from in eastern Panama.

The undisclosed auction winner wanted to name the frog in honor of Thunberg and her work in highlighting the urgency in preventing climate change. She has impressed global leaders and her work is drawing others to action for the climate.

The international team that discovered the new rainfrog was led by Abel Batista, Ph.D. (Panama) and Konrad Mebert, Ph.D. (Switzerland). They found the frog on Mount Chucanti, a sky island surrounded by lowland tropical rainforest in eastern Panama. Reaching its habitat in the cloud forest required access via horseback through muddy trails, hiking up steep slopes, by-passing two helicopters that crashed decades ago, and camping above 1000 m elevation.

Unfortunately, the frog’s remaining habitat is severely fragmented and highly threatened by rapid deforestation for plantations and cattle pasture. Rising temperatures are another threat as they could destroy its small mountain habitat. The Mount Chucanti region already has lost more than 30% of its forest cover over the past 10 years, and the scientists insist that conservation of the remaining habitat is critical to ensure the survival of the frog.

Published in ZooKeys.

The chocolate frog

Since we’re on the subject of frogs, how about one that almost looks like it’s not real?

Instantly gaining popularity as Chocolate Frog, Synapturanus danta is a curious little frog that was recently discovered in the Peruvian Amazon. Local people had long known about this tiny, burrowing frog with a long snout; one local name for it is rana danta, “tapir frog”, for its resemblance to the large-nosed Amazonian mammal.

“These frogs are really hard to find, and that leads to them being understudied,” says Michelle Thompson, a researcher in the Keller Science Action Center at Chicago’s Field Museum and one of the authors of the study describing the frog. “It’s an example of the Amazon’s hidden diversity, and it’s important to document it to understand how important the ecosystem functions.”

While the frogs are hard to see, they’re not hard to hear. “We just kept hearing this beep-beep-beep coming from underground, and we suspected it could be a new species of burrowing frog,” says Thompson. “But how do we get to it?”

Local guides who were familiar with the frogs led the researchers to peatland areas– wetlands carpeted with nutrient-rich turf made of decaying plant matter. “After 15 to 20 minutes of digging and looking for them, I heard Michelle screaming, and to me that could only mean that she and David had found the first adult,” says Germán Chávez, a researcher at Peru’s Instituto Peruano de Herpetología and the study’s first author.

The researchers used the physical specimens of the frogs, along with the recordings of their calls and an analysis of the frogs’ DNA, to confirm that they were a new species. They named them Synapturanus danta – Synapturanus is the name of the genus they belong to, and danta is the local word for “tapir.”

Published in Evolutionary Systematics.

The fabulous flaming-red snake

This magnificent non-venomous snake, previously unknown to science, was discovered in Paraguay. It belongs to the genus Phalotris, a group of snakes from central South America noted for their striking coloration with red, black, and yellow patterns.

Jean-Paul Brouard, one of the involved researchers, came across an individual of the new species by chance while digging a hole at Rancho Laguna Blanca in 2014. Together with his colleagues Paul Smith and Pier Cacciali, he described the discovery, naming the new snake Phalotris shawnella.

The species name recognizes two children – Shawn Ariel Smith Fernández and Ella Bethany Atkinson – who were born in the same year as the Fundación Para La Tierra (2008). They inspired the founders of the NGO to work for the conservation of Paraguayan wildlife, in the hope that their children can inherit a better world.

This new Phalotris snake is particularly attractive and can be distinguished from other related species in its genus by its red head in combination with a yellow collar, a black lateral band and orange ventral scales with irregular black spots.

Only known from three individuals, this species is endemic to the Cerrado forests of the department of San Pedro in east Paraguay. Its extreme rarity led the authors to consider it as “Endangered”, according to the conservation categories of the International Union for Conservation of Nature (IUCN), which means it is in imminent danger of extinction in the absence of measures for its protection.

Published in Zoosystematics and Evolution.

Learning more about bird diversity: What a museum collection in Romania can tell us

“Due to its historical background and the presence of rare species, it is considered to be one of the most important ornithological collections in Eastern Europe,” researcher Gergely Osváth says

Containing specimens from different locations, sometimes spanning across centuries, museum collections can teach us a lot about how some animals are built and how we can protect them. Properly labeled, preserved specimens can show us how the environment and species distribution has changed over extended time periods. Because in many cases these collections remain largely unexplored, a revision can reveal “treasures” that were hidden in plain sight for decades.

The bird skin collection of the Zoological Museum of Babeș Bolyai University, Cluj-Napoca, Romania. Photos by Gergely Osváth and Zsolt Kovács

A team of ornithologists and scientists from the Zoological Museum of Babeș-Bolyai University, Milvus Group – Bird and Nature Protection Association and the Romanian Ornithological Society, headed by Gergely Osváth, set out to revise the ornithological collection in the Zoological Museum of Babeș-Bolyai University, Cluj-Napoca, Romania, checking the species identification of the bird skin specimens to provide an updated catalogue

The collection is unique in the region in many ways: it covers a long time span, it contains a variety of species, belonging to different families and orders, and it is composed of the work of several naturalists and employees of the museum”, Osváth says. “Due to its historical background and the presence of rare species, it is considered to be one of the most important ornithological collections in Eastern Europe.”

First, the researchers examined each bird skin and the data cards documenting the identification, locality, date, sex and catalogue number. Afterwards, they checked the species identification of specimens, determining the sex and age of birds where possible. They also updated the scientific names and taxonomy of birds. In addition, they provide a map representation with new distribution data for bird species, offering valuable information on the status of the avifauna of the Carpathian basin in the 19th and 20th centuries.

Published in the open-access journal ZooKeys, this is the first time that all those specimen data are made public.

The collection includes 925 specimens, belonging to 193 species, that were collected between 1859 and 2021. Perching birds (Passeriformes) were the best represented bird order, with 487 specimens, and 93.6 % of the specimens with known data were collected from Transylvania.

By far, the most interesting specimens were the rare ones, such as specimens of Cinereous Vulture (Aegypius monachus), Eastern Imperial Eagle (Aquila heliaca), Lesser Kestrel (Falco naumanni), all collected between 1903 and 1907 from Transylvania.

With updated information on the taxonomy and morphology of birds in Transylvania, the researchers hope this new catalogue can serve as a basis for valuable ornithological studies.

Research article:

Osváth G, Papp E, Benkő Z, Kovács Z (2022) The ornithological collection of the Zoological Museum of Babeș-Bolyai University, Cluj-Napoca, Romania – Part 1: the catalogue of bird skin specimens. ZooKeys 1102: 83-106. https://doi.org/10.3897/zookeys.1102.79102

Tadpoles for dinner? Indigenous community in Mexico reveals a favorite recipe for a particular frog

Tadpoles of the Sierra Juarez brook frog Duellmanohyla ignicolor are consumed in caldo de piedra in the Chinantla region, in Oaxaca, Mexico.

Stone soup (caldo de piedra) is a traditional meal from the Indigenous Chinantla region in the state of Oaxaca, Mexico. Prepared by men, it is made by placing tomato, cilantro, chili peppers, onion, raw fish, salt, and water in a jicara (a bowl made from the fruit of the calabash tree) in a hole dug near a river. Then, the ingredients are cooked by adding red hot rocks to the “pot”.

In 2019, members of the CIIDIR-Oaxaca Amphibian Ecology Laboratory visited Santa Cruz Tepetotutla in the Chinantla region as part of their continued research work in the community’s forests and streams. 

“As we observed and recorded the presence of tadpoles, our guide, Mr. Pedro Osorio-Hernández, remarked that one such tadpole was eaten in stone soup”, says Dr Edna González Bernal, one of the researchers.

Local landscape. Photo by Carlos A. Flores

Although not much attention is paid to tadpoles, they are more important than you might think. They are perfect indicators of the health of bodies of water, due to their sensitivity to changes in the aquatic environment where they develop. When tadpoles are present in a stream, river, or even a puddle, they indicate an acceptable concentration of oxygen, pH, conductivity, and temperature, or overall good dynamics of sediments and plant matter. And, above all, finding tadpoles is the easiest way to know about the presence of an amphibian species that reproduces in that site, regardless of whether or not an adult has been observed. Hence, the identification of the unique characteristics of the tadpoles of each species is an important task that is currently drawing more attention amongst scientists. 

Duellmanohyla ignicolor tadpoles. Photo by Edna González-Bernal

“For us, as Oaxacans, Don Pedro’s words were an eye-opener”, biologist Carlos A. Flores, also part of the study,  continues. “Although we knew about the tradition of stone soup, we would have never imagined that it could be prepared with tadpoles of the Sierra Juárez Brook frog (Duellmanohyla ignicolor)!”

Duellmanohyla ignicolor. Photo by Edna González-Bernal

“As scientists, we wondered: why this species and not another? Since when have these tadpoles been eaten? In what other places are tadpoles consumed and in what form? Does this consumption have a negative effect on amphibian populations?”

To answer these questions, the researchers monitored several streams in the community, collecting data on the structure of these sites, such as depth, water velocity, temperature, etc. They wanted to identify the characteristics of the habitat where the tadpoles of this little known species are found. Their research was recently published in the open-access journal ZooKeys.

The team’s primary interest in the stone soup with tadpoles was to accurately document human interaction with this amphibian species. 

“It is common in anthropological literature to document the consumption of tadpoles in Mexico, but rarely does such documentation reach the species level. Even in some ethnoherpetological works, the consumption of tadpoles is mentioned only anecdotally”, Dr González Bernal explains.  

A boy collects tadpoles. Photo by Edna González-Bernal

“We learned that these larvae tend to form schools: aggregations of several tens to hundreds of individuals. They swim on the surface of the water and move their mouths to feed on suspended particles, which may be remains of plant matter, pollen or insect parts”, she continues. 

“This behavior, as has been documented in other species, biologically implies a strategy to feed more efficiently, control body temperature, protect themselves from predators and even to encourage social interaction. At the same time, it makes it easier for humans to capture several tadpoles using nets, hats, bags or even their own hands.”

This tadpole soup is consumed during the hottest months (April and May), when people go swimming in the river. The rest of the year, it is prepared with fish. Local people described the tadpoles as having a delicious fish-like flavor.

Why do people eat these particular tadpoles? Community members remarked that, because they are found at the surface of the water, they are considered cleaner than those found at the bottom, such as the tadpoles of the the coastal toad (Incilius valliceps) and the gloomy mountain frog (Ptychohyla zophodes). In addition, the tadpoles consumed in the stone broth reach sizes of up to 5 centimeters, which makes them a better choice for the dish.

Tadpoles caught using caps. Photo by Edna González-Bernal

Is stone soup a dish that only exists in the Chinantla region? “We found that while the dish has primarily been documented in this region, it is also consumed in some Indigenous Ayuk (Mixe) municipalities,” Dr González Bernal says. 

The cooking principle itself is a technique that has been used throughout history by different cultures around the world. The particularity of the caldo de piedra lies in its preparation with tomato, cilantro, and chili peppers, as well as prawns or particular species of fish such as the bobo (Joturus prichardi).

In the case of the Sierra Juarez Brook frog’s tadpoles, the researchers concluded that since they are consumed locally and for non-commercial purposes, the species is not at risk. However, the behavior of these tadpoles and their preference for deeper water bodies make them vulnerable to being caught in large quantities.

“In the context of the global amphibian crisis, it is of utmost importance to continue increasing our knowledge about the diversity of species and above all to delve deeper into their ecology, both at the adult and larval stages. Only in this way can we gain a greater understanding of each species’ needs and develop conservation strategies that take into account the biology of species with a complex life cycle, such as amphibians”, the research team says in conclusion. 

Research article:

Flores CA, Arreortúa M, González-Bernal E (2022) Tadpole soup: Chinantec caldo de piedra and behavior of Duellmanohyla ignicolor larvae (Amphibia, Anura, Hylidae). ZooKeys 1097: 117-132. https://doi.org/10.3897/zookeys.1097.76426

Taylor Swift, the millipede: Scientists name a new species after the singer

Scientists described a total of 17 new species from the Appalachian Mountains—now published in the open access journal ZooKeys.

Taylor Swift, U.S. singer-songwriter known for hits such as “Shake It Off” and “You Belong With Me”, has earned a new accolade—she now has a new species of millipede named in her honor.

Taylor Swift. Photo by Eva Rinaldi

The twisted-claw millipede Nannaria swiftae joins 16 other new species described from the Appalachian Mountains of the United States. These little-known invertebrates have a valuable role as decomposers: breaking down leaf litter, they release their nutrients into the ecosystem. They live on the forest floor, where they feed on decaying leaves and other plant matter, and in fact, they are somewhat tricky to catch, because they tend to remain buried in the soil, sometimes staying completely beneath the surface.

Her music helped me get through the highs and lows of graduate school, so naming a new millipede species after her is my way of saying thanks.

Derek Hennen

Scientists Derek Hennen, Jackson Means, and Paul Marek, at Virginia Tech, U.S., describe the new species in a research paper published in the open access journal ZooKeys. The research was funded by a National Science Foundation Advancing Revisionary Taxonomy and Systematics grant (DEB# 1655635).

The newly described twisted-claw millipede, Nannaria swiftae. Photo by Dr Derek Hennen

Because of their presence in museum collections, scientists long suspected that the twisted-claw millipedes included many new species, but these specimens went undescribed for decades. To fix this, the researchers began a multi-year project to collect new specimens throughout the eastern U.S. They traveled to 17 US states, checking under leaf litter, rocks, and logs to find species so that they could sequence their DNA and scientifically describe them.

Example of typical habitat for twisted-claw millipedes. Photo by Dr Derek Hennen

Looking at over 1800 specimens collected on their field study or taken from university and museum collections, the authors described 17 new species, including Nannaria marianae, which was named after Hennen’s wife. They discovered that the millipedes prefer to live in forested habitats near streams and are often found buried under the soil, exhibiting more cryptic behaviors than relatives.

The newly-described millipedes range between 18 and 38 mm long, have shiny caramel-brown to black bodies with white, red, or orange spots, and have white legs. The males have small, twisted and flattened claws on their anterior legs, which is the basis for their common name.

The lead author of the study, Derek Hennen, is a fan of Taylor Swift. 

“Her music helped me get through the highs and lows of graduate school, so naming a new millipede species after her is my way of saying thanks,” he says.

Research article:

Hennen DA, Means JC, Marek PE (2022) A revision of the wilsoni species group in the millipede genus Nannaria Chamberlin, 1918 (Diplopoda, Polydesmida, Xystodesmidae). ZooKeys 1096: 17-118. https://doi.org/10.3897/zookeys.1096.73485

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