All Pensoft journals now integrated with Peerage of Science

Collaboration is a major driver of scientific advancement. Pensoft recognises this and has now integrated all of its journals with Peerage of Science — a platform with a mission to foster new levels of collaboration between scientists.

This integration between two innovative platforms, striving to modernize the publishing industry, provides authors with the possibility not only to receive fast-track high-quality peer review of their manuscripts, but also to have a choice between a pool of journals, when it comes to publication.

“Pensoft is a special partner for us, because they were the first publisher to start an official collaboration with Peerage of Science years ago, when we had just launched. Also, Pensoft is in many ways a pioneering publisher seeking to make the world a better place for scientists, with initiatives like the ARPHA writing tool and the RIO Journal,” explains Janne-Tuomas Seppänen, Co-Founder and Managing Director at Peerage of Science.

“I am particularly happy that Pensoft is continuing and expanding its support for our solutions for peer review, and brings more journals to the author’s destination menu in Peerage of Science. We warmly welcome the 10 new titles and their editors, and look forward to a long and productive partnership.” he adds.

The idea behind Peerage of Science was inspired by the real-world struggles a young scientist is bound to face in the traditional peer-review system. The average peer review process takes more than 160 days and could easily conclude with the paper being rejected.

The initiative applies an out-of-the-box approach to the problem, providing a collaborative platform, where peer review takes place before the actual submission to a journal. Thus the process is significantly shortened, while at the same time it secures high quality manuscripts at the end.

Similarly, Pensoft journals provide open access, new generation publishing to scientists with an emphasis of online dissemination, data re-use and semantic linking of contents. With its latest projects — RIO Journal and the ARPHA writing tool — the publisher has introduced a new generation of pre-submission and post publication peer review possibilities.

Additional benefit for the reviewers is that their reviews will be registered at Publons automatically by Pensoft, if the manuscript is published in a Pensoft journal. Reviewers will be asked for approval of the review registration before it appears in their Publons profiles.

“This collaboration works well both for us and for Peerage of Science, but most of all, it empowers the authors to set the deadlines for peer review and choose between publication offers. From the very inception of Pensoft we have striven to provide a fast, reliable and innovative service to our authors, and this new move is yet another building block in this vision.” comments Prof. Lyubomir Penev, Founder and Managing Director at Pensoft.

 

African Invertebrates migrates to Pensoft’s journal publishing platform

One of the oldest zoological journals in Africa, African Invertebrates, is now moving to Pensoft to benefit from the next generation publishing offered by the company. The journal focuses on the taxonomy, systematics, biogeography, biology, ecology, conservation and palaeontology of all Afrotropical invertebrates.

Established as early as 1906 by the KwaZulu-Natal Museum as Annals of the Natal Museum, the journal was renamed to African Invertebrates in 2003 to mark the centenary of the founding of the museum and to declare its ambition to establish itself as a recognizable title in taxonomy. Throughout the years the journal has been building reputation and strengthening its position as a primary outlet for publishing original research on African insects and other invertebrates.

The migration to Pensoft marks yet another step forward in the journal’s development placingAfrican Invertebrates on the map of technologically advanced journals with a mission to provide semantically enriched, interlinked and re-usable content.

“The transfer of African Invertebrates to Pensoft is an exciting development for the KwaZulu-Natal Museum. We are immensely proud of the journal and have striven to maintain and enhance its high quality. However, we realise that the journal must also keep pace with new trends and developments in the fast-moving world of scientific publication.” comments Prof. Dai Herbert, Editor-in-Chief of African Invertebrates.

“We are delighted that Pensoft has agreed to include African Invertebrates in its journal portfolio. This kind of cutting-edge publishing platform is precisely what the journal needs to ensure its future relevance and growth. We are excited to see African Invertebrates enter this new phase in its development.” he adds.

The international peer-reviewed e-journal will now be hosted on the ARPHA publishing platform, benefitting from a number of inbuilt innovations, including:

  • Fast-track professional publication services;
  • Open access, semantically enriched content;
  • Online publication in HTML, semantically enhanced with biodiversity-specific markup provided by the publisher, high resolution, full-color, print-quality PDF, as well as XML;
  • Archiving in various data repositories;
  • A number of additional services including linguistic editing, tailored dissemination campaigns and more.

“We are pleased to welcome African Invertebrates on board. Our experience in advanced open access publishing as well as our domain specific expertise promise good future for our collaboration with the KwaZulu-Natal Museum to innovate and develop the journal.” explains Prof. Lyubomir Penev, Founder and Managing Director at Pensoft.

Conservation hopes up for the endangered banana frog restricted to Southwest Ethiopia

As the natural forest cover in Ethiopia is already less than 3% of what it once has been, the banana frog species, dwelling exclusively in the remnants of the country’s southwestern forests in only two populations, is exposed to a great risk of extinction.

Through their survey, a research team, led by Matthias De Beenhouwer, Biodiversity Inventory for Nature Conservation (BINCO), Belgium, have now extended the species’ range, thus making the first steps to saving the charming frogs. The study is published in the open-access journal ZooKeys.

Although Ethiopia is known for its high number of both animal and plant species that do not live anywhere else in the world, there is a concerning lack of conservation activities to preserve the local biodiversity. Moreover, while as much as 41% of the amphibians ever recorded in the country are exclusive for its fauna, there have been only few researches. Without such, pointing the hotspots in greatest need of protection and restoration, as well as taking adequate measures subsequently, is impossible.

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Concerned about the endangered status of the banana frog, and supported with a Rufford grant, Matthias and his team spent ten evenings, or 111 hours, in August 2014, seeking and collecting as many frogs as possible from seven different locations. When they determined the species status of the found individuals, it turned out that they have managed to discover several new populations of banana frogs from unexpected localities.

As a result of their survey, the geographical range of the Ethiopian banana frog has been expanded by roughly 40 km towards the North and 70 km to the East. Its altitudinal distribution already reaches a maximum of 2030 metres above sea level, compared to the previously known maximum of 1800 m.

Banana frogs being identified from outside forest habitats is also a good news for the species’ preservation since it shows that not only are the frogs more tolerable against forest degradation than expected, but that also there could be even more populations.

“Although Southwest Ethiopia is known to harbour the last large tracts of natural forest, forest cover has declined dramatically to less than 3% nationwide,” point out the researchers. “Therefore, accurate information on species conservation and distribution is an essential first step to facilitate the delivery of conservation updates, recognize biodiversity hotspots and encourage habitat protection and restoration.”

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Original source:

Mertens J, Jocqué M, Geeraert L, De Beenhouwer M (2016) Newly discovered populations of the Ethiopian endemic and endangered Afrixalus clarkei Largen, implications for conservation.ZooKeys 565: 141-146.doi: 10.3897/zookeys.565.7114

New species with heart-shaped fruits inspires a love for biodiversity in Hawai’i

Just in time for Valentine’s Day, botanists from Hawai’i have discovered a new species of plant with small heart-shaped fruits. The new species is a member of the coffee family (Rubiaceae) and part of the genus Coprosma, which occurs across many remote islands of the Pacific Ocean. They named the new Hawaiian species after the symbol of love – calling it Coprosma cordicarpa – meaning the Coprosma with heart-shaped fruit. Their research is published in the open-access journal PhytoKeys.

 

The botanists, who discovered C. cordicarpa, describe their finding as the result of a loving adventure with Hawaiian biodiversity. It began when Hawai’i’s State Botanist Dr. Maggie J. Sporck-Koehler noticed the little heart-shaped fruits in the Kanaio Natural Area Reserve on the Island of Maui, while attending a work meeting with the Department of Land and Natural Resources (DLNR), Division of Forestry and Wildlife (DOFAW).

 

One of the primary mandates of DOFAW is to conserve Hawai’i’s native ecosystems and the species that reside in them. As State Botanist, Sporck-Koehler is most often working on issues relating to rare or State and Federally listed threatened and endangered (T&E) plant species. Gaining a better understanding of native Hawaiian plant conservation status and helping to facilitate conservation efforts is one of the main objectives of the work she does for the State. Therefore, when something extraordinary gets under her nose, such as an unusual Coprosmapopulation, she takes a note and a sample.

 

Sporck-Koehler attempted to identify the species using a key so that she could know what she was looking at. She got to Coprosma foliosa, but was not satisfied. So, she turned to Dr. Jason T. Cantley, who at the time was finishing his PhD research on the genus Coprosma at the University of Hawai’i at Manoa Department of Botany. “I was very taken with it,” Sporck-Koehler told Cantley. “It seemed different than any other [Coprosma] foliosas I’ve seen.”

Image2_CantleyCoprosmacordicarpa

Then, Cantley concluded that the heart-shaped fruits and other characteristics looked different enough that it was worth it to visit specimens at the Bernice Pauahi Bishop Museum in Honolulu, and then to examine the plants themselves. “We needed to get all our ducks in a row, making sure we knew what we were looking for before we flew to Maui,” Cantley says. “Part of that planning was to think about the long-term conservation of Coprosma cordicarpafrom the start. That’s one reason it was necessary to bring Dr. Chau into this project.”

 

Dr. Marian M. Chau is the Seed Conservation Laboratory Manager at Lyon Arboretum’s Hawaiian Rare Plant Program in Honolulu. The Seed Conservation Lab‘s mission is to aid in the prevention of extinction of Hawaiian plant species by maintaining a long-term seed bank collection, to propagate plants for use in approved restoration projects, and to conduct research on seed storage and germination for the Hawaiian flora. The Seed Conservation Lab currently stores over 11 million seeds from about 40% of all Hawaiian native species, with the ultimate goal to represent the entire flora with research and/or long-term germplasm collections. This includes under-described biodiversity, like the heart-shaped fruits of C. cordicarpa.

 

From early on, it was clear that C. cordicarpa was not all that common, as it can only be found on one island. In fact, the botanists determined the new species fell within the International Union for Conservation of Nature (IUCN) Red Vulnerable Category (VU) for extinction risk. The VU is the lowest of the three threatened Red List categories, but indicates that C. cordicarpastill faces threats of extinction in the wild. Chau suggested that they collect seeds for long-term germplasm storage at the Seed Conservation Lab.

 

Two field adventures on Maui and many herbarium specimen measurements later, the authors were confident they were looking at a new species. All in all, 609 seeds from 32 plants were collected, which are going to help preserve the biodiversity of this species for many years to come.

 

The authors had a passion for Hawaiian plant biodiversity and conservation well before this project, but it was the discovery of the heart-shaped fruits that brought these three botanists together. With their naming of this new species, they hope to also inspire others with a love for biodiversity that will continue long into the future.

 

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Original source:

Cantley JT, Sporck-Koehler MJ, Chau MM (2016) New and resurrected Hawaiian species of pilo (Coprosma, Rubiaceae) from the island of Maui. PhytoKeys 60: 33-48. doi: 10.3897/phytokeys.60.6465

Two new zoantharian species found on eunicid worms in the dark in the Indo-Pacific ocean

While studying the abundant, yet poorly known fauna of the zoantharian Epizoanthus genus in the Indo-Pacific Ocean, Japanese graduate student Hiroki Kise and Dr. James Davis Reimer, both affiliated with University of the Ryukyus, Japan, focused on examining the species living on eunicid worm tubes. These Epizoanthus species form colonies and are only found living on the outside surfaces of tubes in which the eunicid worms live. Although these zoantharians often live in areas that are deeper than the range of SCUBA divers and tend to be indistinguishable on the outside, the present research, published in the open-access journal ZooKeys, reports the discovery of two new species.

 

Both new species have been found in low-light environments. While one of the species, scientifically named Epizoanthus inazuma, showed preference for coral reef slopes, reef floors, or the sides of their overhangs in Okinawa, the other one, E. beriber was seen to tolerate cave environments exclusively, and is found in Palau and Papua New Guinea. To recognise them as new species, the researchers turned to molecular analyses combined and compared to morphological data. Thus, this discovery presents yet another example of the utility of molecular methods as an effective tool in taxonomic and biodiversity research.

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Forming colonies resembling a classic lightning-bolt shape, the new species Epizoanthus inazuma has reasonably been given a name meaning ‘lightning’ in Japanese. The second new species is also named in a reference to its lifestyle as it bears the name of the local Palauan folklore character Beriber, who lived in a cave.

 

The researchers believe that it is highly likely that there are other undescribed species in coral reefs. There is even greater likelihood that such are currently hidden in underwater cave habitats. The authors do not exclude the possibility that these new zoantharian species may be distributed across other locations in the Pacific, where they could easily be mistaken for other closely related species.

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Original source:

Kise H, Reimer JD (2016) Unexpected diversity and a new species of Epizoanthus (Anthozoa, Hexacorallia) attached to eunicid worm tubes from the Pacific Ocean. ZooKeys 562: 49-71. doi: 10.3897/zookeys.562.6181

The third sister: Long-suspected third desert tortoise species proven to exist in Mexico

The huge variability among the desert tortoise populations of Mexico has finally been given an explanation after casting doubts for several decades. The puzzle was solved by an international team of researchers, led by Dr. Taylor Edwards, The University of Arizona, who teamed up to find out whether there has been a previously unknown third sister species all along. Moreover, unlike their predecessors, the team have managed to provide enough evidence to prove its existence. Their study is published in the open-access journal ZooKeys.

Distributed over a large area stretching from the Mojave and Colorado deserts in the United States to mainland Mexico, the tortoise populations were noticed to vary distinctly back in 1945, when scientists pointed out that the southern populations were suspiciously different. However, due to lack of enough samples and, therefore research, there was not enough evidence to prove that they were in fact two separate species.

Over the span of six years, the team of Dr. Taylor Edwards measured a multitude of tortoises during their field trips in Sonora and northern Sinaloa. This is how they concluded that the southern populations stand out with their significantly shorter tails and flatter carapaces. Unlike its sister species, whose shells are medium to dark brown with greenish hues, while the bodies are dark gray to brownish-gray, the new tortoise is dark tan to medium-brownish with an orange cast.

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The new species inhabits exclusively thornscrub and tropical broadleaf forests, which is the reason why out of the three it is the one occupying the smallest geographic range, extending over approximately 24,000 km2.

Although there is not much information about their behaviour, it is presumed that the tortoises activity is strongly correlated with the monsoonal rains and the vegetation growth. The biologists have observed that the adults begin their seasonal activity in June, shortly before plant growth and the monsoons. Then, in December, they would cover underground in their dens, where they would spend the dry and cool winter season.

The new species, called Gopherus evgoodei, receives its name in honour of Eric V. Goode, a conservationist, naturalist, and founder of the Turtle Conservancy.

“He has contributed generously to the conservation of this species via the preservation of land in Mexico, and he actively pursues the conservation of turtles and tortoises on a global scale,” point out the researchers. “Eric sets an important precedent by complementing this taxonomic description with a tangible action that contributes to the conservation of the new species in its native habitat”.

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Original source:

Edwards T, Karl AE, Vaughn M, Rosen PC, Torres CM, Murphy RW (2016) The desert tortoise trichotomy: Mexico hosts a third, new sister-species of tortoise in the Gopherus morafkai-G. agassizii group. ZooKeys 562: 131-158. doi: 10.3897/zookeys.562.6124

The scaled king and his knight: 2 new giant bent-toed gecko species from New Guinea

The extremely complex geological history of New Guinea has allowed many of its animals and plants the chance to grow different enough to make a name for themselves. In the case of two newly described and unusually large gecko species – only a noble name would do. The two new species whose names respectively mean ‘knight’ and ‘king’ were discovered by a team led by Dr. Paul Oliver, The Australian National University and University of Melbourne, are described in the open-access journal ZooKeys.

Both new species belong to the world’s most diverse gecko genus Cyrtodactylus which comprises more than 200 species known to date. These reptiles are commonly called bent-toed or bow-fingered geckos due to their distinctive slender curved toes. They occur through Asia and Australia.

These 200 species vary greatly in size, build and colouration. However, one of the newly described species, called C. rex, meaning “king” in Latin, is the largest species in the genus, and among the biggest of all geckos in the world.

In general, the bent-toed geckos measure no more than 13 cm in length, yet the “gecko king” can grow up to 17 cm, with the females slightly bigger than the males. It is also characterised with upper body side covered in alternating regions of dark grey brown and medium brown. There are also variable in size and shape, but clearly defined dark grey-brown markings. All examined specimens are reported to have either four or five dark brown blotches or bands running down their original tails.

The second new species also bears a noble name – Cyrtodactyulus equestris, meaning ‘knight’ in Latin. It is also considered a giant among its relatives with its length of up to 14 cm for the females. Similarly to its larger relative, its head is large and wide, clearly distinct from the neck. Its upper side is coloured with alternating regions of light and medium brown. While in smaller individuals the patches are visibly defined by dark brown edging, such is missing in the larger ones, giving their pattern slightly faded appearance.

As a whole, the distribution of the two new geckos overlap, although the “gecko knight” is reported to prefer the relatively undisturbed hill or lower montane forests of northern New Guinea and its neighbour “the king” seems to stick to the surrounding lowlands.

While the larger size of the New Guinean bent-toed geckos seems to be an evolutionary trend, the role of potential factors such as competition, ecological diversification, isolation and dispersal remains quite a mystery.

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Original source:

Oliver PM, Richards SJ, Mumpuni, Rösler H (2016) The Knight and the King: two new species of giant bent-toed gecko (Cyrtodactylus, Gekkonidae, Squamata) from northern New Guinea, with comments on endemism in the North Papuan Mountains. ZooKeys 562: 105-130. doi: 10.3897/zookeys.562.6052

Our new journal One Ecosystem: Innovation in ecology and sustainability research publishing

Focused on the fields of ecology and sustainability, One Ecosystem is an innovative open access scholarly journal that goes beyond the conventional research article publication. Launched in January 2016, the new journal is now open for submissions ranging across the entire research cycle, including data, models, methods, workflows, results, software, perspectives and policy recommendations.

Ecosystem services, Ecology and Sustainability are research areas that address highly relevant scientific and societal topics. One Ecosystem aims to respond to the newest developments in scholarly publishing, adapting them for and applying them to these fields.

The journal offers a wide set of article templates, including domain-specific ones, such as Ecosystem services mapping, Ecological models or Environmental monitoring, allowing scientists to publish and get credit for their work at any stage of the research cycle. Through the technologically advanced ARPHA publishing platform and innovative publishing model, all data that underpin a given study will be made free to everyone and integrated into relevant and domain-specific global data repositories.

“We need better incentives for scientists who want to share their data. One Ecosystemprovides such incentives by linking peer review to open data” adds Joachim Maes, European Commission – Joint Research Centre.

“We believe that open access to all the relevant products of the scientific cycle is key to both scientific advancement, and innovation in the real world. With One Ecosystem we aim at fostering open exchange of information to address sustainability challenges.” – Deputy Editor-in-Chief Dr. Davide Geneletti, University of Trento.

Open access to content and data is quickly becoming the prevailing model in academic publishing and research funding schemes. By making research outputs public, the new journal opens up new mechanisms for integration of information, collaboration, appraisal, and dissemination. Committed to openness and innovation, One Ecosystem offers a novel community-based peer-review introduced for the first time in these academic disciplines. The journal gives authors and reviewers the opportunity to opt for an entirely open review process.

Making use of the unique ARPHA Writing Tool, One Ecosystem does not only enable authors to prepare their manuscripts directly within the system, but also allows to submit pre-submission reviews from the very start. These reviews or supporting statements from experts in the subject will facilitate the manuscript evaluation and speed up the publishing process.

“With One Ecosystem we want to accelerate scientific progress in the frontier research fields of ecology and sustainability. We are convinced that this new format of writing, reviewing and open access publishing of scientific findings is the future”, explains the Editor-in Chief of One Ecosystem – Dr. Benjamin Burkhard, University of Kiel.

“At Pensoft we have been committed to innovating scientific publishing for years. In One Ecosystem, we have collected all our knowledge and experience to provide scientists in the fields of ecology and sustainability with a conceptually new journal that will give them the opportunity to publish outcomes and collaborate with the community in a new open and more efficient way”, comments Prof. Lyubomir Penev, Founder and Managing Director at Pensoft.

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New caddisfly species discovered in the Balkan biodiversity hotspot of Kosovo

The Republic of Kosovo turns out to be a unique European biodiversity hotspot after a second new species of aquatic insect has been described from the Balkan country. The new caddisfly was discovered by Prof. Halil Ibrahimi from the University of Prishtina, Kosovo, and international research team. They have their finding published in the open-access journal ZooKeys.

The new caddisfly species was found during a field trip, undertaken by the scientists in Sharr National Park in Kosovo. The aquatic insect belongs to the highly diverse genusDrusus, which, unfortunately, is under threat of extinction because of the ongoing pollution activities and mismanagement of freshwater ecosystems.

Called Drusus sharrensis, the new caddisfly has been named after the mountains where it was found. Thus, it is yet another example for a species, either animal or plant, bearing the same combination of names, and highlighting this range of mountains as a highly rich in rare and endemic species.

“Even though just discovered, the species may be already threatened by illegal logging, water extraction from springs, expansion of touristic activities and several other anthropogenic factors,” points out the author, “such as limestone and rock quarries operating in the Sharr Mountains in the vicinity of aquatic ecosystems potentially causing severe siltation.”

“Additionally, recent development of a winter tourism facility at Brezovice, close to the type locality of the new species, may enhance local degradation of terrestrial and, particularly, aquatic ecosystems in the Sharr Mountains,” he further explains. “The Brezovica Touristic Centre Development Project was designed by the Government of the Republic of Kosovo with support from the European Union to promote the touristic appeal and thus, economic importance of the area. This project will impact a total area of roughly 3,700 ha.”

This is the second aquatic insect species discovered from Kosovo for the last twelve months and probably more are to be expected in this highly under-investigated area of the European continent.

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Original source:

Ibrahimi H, Vitecek S, Previši? A, Kučini? M, Waringer J, Graf W, Balint M, Keresztes L, Pauls SU (2016) Drusus sharrensis sp. n. (Trichoptera, Limnephilidae), a new species from Sharr National Park in Kosovo, with molecular and ecological notes. ZooKeys 559: 107-124. doi: 10.3897/zookeys.559.6350

‘Hidden fish’ genus described for 2 new weakly electric mormyrid species from Gabon

A new weakly electric mormyrid fish genus of two new species has been described from only three specimens collected over a period of 13 years in the rivers of the Central African country of Gabon. The genus has been named Cryptomyrus, meaning ‘hidden fish’ in Greek, and is the first new genus to be described within the family Mormyridae since 1977.

The study, authored by Dr. John Sullivan and Prof. Carl Hopkins of Cornell University, Ithaca, New York, and Sebastien Lavoue of the Institute of Oceanography at the National Taiwan University in Taipei, Taiwan, is published in the open-access journal ZooKeys.

“It’s odd we have only three specimens, given how much fish collection effort there’s been in Gabon over the past years,” says lead author Dr. John Sullivan. “Not having more made the descriptions difficult, but it was important to bring this discovery to light without further delay.” Sullivan added that he does not know if these fish are rare throughout their range or if specialists simply have not sampled localities or habitats where they are common, yet. “It shows that we still have a very incomplete picture of fish diversity in Gabon,” says Dr. Sullivan.

The last of the three specimens was found on an expedition to Gabon’s Ogooue River in September 2014, jointly sponsored by CENAREST and The Nature Conservancy. It was after nightfall on the Ogooue, beside Doume Falls, when Sullivan and the other team members caught the one odd fish in a plastic fish trap baited with earthworms. Reflecting its river of origin, the species now bares the name Cryptomyrus ogoouensis, while the second – Cryptomyrus ona, is named after Gabonese environmental activist Marc Ona Essangui.

Puzzled over the identity of the fish, back home at the Cornell University Museum of Vertebrates Dr. Sullivan remembered two somewhat similar specimens collected in Gabon and sent to him for identification by his colleagues Sebastien Lavoue and Yves Fermon, 11 years apart. “This is why we need natural history collections,” said Dr. Sullivan, “to keep these specimens and their DNA samples in good condition, because it can take years or even decades to connect the dots.”

Analyses of the DNA from the three specimens conducted at Cornell University showed they were close relatives and did not belong within any recognized genus. “That left us no choice but to describe them as a new genus, and Cryptomyrus, which means “hidden fish,” seemed an appropriate name given how hard they are to find,” said Dr. Sullivan.

Over 200 species of mormyrid fish live in fresh waters across Africa where they orient to their environment and communicate using electric pulses, too weak to be felt by humans, in combination with highly sensitive electroreceptor cells embedded in their skin.

The Nature Conservancy, a global conservation organization that works in more than 35 countries around the world, funded the 2014 expedition of the Ogooue. “We were thrilled to have contributed to this discovery,” said Marie-Claire Paiz, Gabon Program Director for The Nature Conservancy. “Our goal is to help Gabon acquire better baseline knowledge about the state of their fish and rivers which will enable them make science-guided choices about where and how to use their resources wisely for both people and nature.”

“The Nature Conservancy deserves a lot of credit,” commented Sullivan. “It’s a great example of how a conservation organization can promote the discovery of biodiversity by partnering with taxonomists and natural history museums.”

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Original Source:

Citation: Sullivan JP, Lavoue S, Hopkins CD (2016) Cryptomyrus: a new genus of Mormyridae (Teleostei, Osteoglossomorpha) with two new species from Gabon, West-Central Africa.ZooKeys 561: 117-150. doi: 10.3897/zookeys.561.7137