Saucer-like shields protect 2 new ‘door head’ ant species from Africa and their nests

Shaped like saucers, or concave shields, and covered with camouflaging layers of debris, the heads of two “door head” ant species are found to differentiate them as new taxa. They use their peculiar features to block the entrances of their nests against intruders like other predatory ants and invertebrates.

Being only the second case of such highly specialized morphologies discovered in Africa, the new representatives of the genus Carebara have been retrieved from sifted leaf-litter collected in rainforests in Western Kenya and the Ivory Coast.

Because of difficulties usually met while studying and identifying ants through dry specimens retrieved from standardised, passive collection methods, the two new species have so far been taxonomically misplaced. The new discovery was made by an international research team, led by Dr. Georg Fischer and Prof. Evan Economo, Okinawa Institute of Science and Technology Graduate University, Japan. The findings are available in the open access journal ZooKeys.

The “door head” ant individuals are a special worker subcaste that stands out among the other ant colony’s workers, who are responsible for vital tasks such as foraging and brood care. Dr. Georg Fischer and his colleagues analysed the herein described species with next-generation DNA sequencing to show that all different subcastes belong to the same species, despite their highly differing morphologies.

To assure the safety of their nestmates, the queen and the larvae, the two new species have evolved the special worker subcaste with heads covered by a layer of debris such as soil or even organic material, so that they blend in with their surroundings. While the shape of their heads allows them to perfectly fit into the nest entrance, the special armor shields their vulnerable eyes, antennae and mouthparts, as well as highly reduces the chance of enemies intruding into the nest.

The new Carebara species have been given the names C. phragmotica and C. lilith. The former is derived from the term phragmosis, in relation to the special function of their head shape, while the latter comes from the name of a female demon in Jewish mythology.

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Original source:

Fischer G, Azorsa F, Hita Garcia F, Mikheyev AS, Economo EP (2015) Two new phragmotic ant species from Africa: morphology and next-generation sequencing solve a caste association problem in the genus Carebara Westwood. ZooKeys 525: 77-105. doi: 10.3897/zookeys.525.6057

Night calls reveal two new rainforest arboreal frog species from western New Guinea

Tracked by their calls at night after heavy rains, two species of narrow-mouthed frogs have been recorded as new. During the examinations it turned out that one of the studied specimens is a hermaphrodite and another one represents the first record of the genus Cophixalus for the Misool Island.

The field work, conducted by Steve Richards, South Australian Museum, Adelaide, and his team, took place in the Raja Ampat Islands, Indonesian part of New Guinea. Their findings, compiled by Dr. Rainer Guenther, Museum fur Naturkunde, Berlin, are available in the open access journal Zoosystematics and Evolution.

Belonging to the narrow-mouthed frog genus Cophixalus that occurs mainly in New Guinea and northern Australia, the two new species have been differentiated by their morphological features along with the specificity of their advertisement calls, produced by males to attract their partners. Both are characterised by small and slender bodies, measuring less than 23 mm in length.

Curious enough, when dissected one of the male specimens, assigned to the new species C. salawatiensis, revealed a female reproductive system with well-developed eggs. Simultaneously, neither its sound-producing organs, nor its calls differed in any way from the rest of the observed males from the same species. Therefore, it is to be considered a hermaphrodite.

Both new frog species have been retrieved from logged lowland rainforests. There the scientists noted that after heavy rains at night the males perched on leaves of bushes and produced sounds, characteristic for each species.

All specimens have been placed in the collection of the Museum Zoologicum Bogoriense (MZB) in Cibinong (Bogor), Indonesia.

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Original source:

Guenther R, Richards S, Tjaturadi B, Krey K (2015) Two new species of the genus Cophixalusfrom the Raja Ampat Islands west of New Guinea (Amphibia, Anura, Microhylidae).Zoosystematics and Evolution 91(2): 199-213.doi: 10.3897/zse.91.5411

Known from flower stalls as ‘Big Pink’ orchid proved to be an undescribed wild species

As easy as it might seem, seeking new species among cultivated plants could be actually quite tricky. While looking into the undescribed orchid, known at the market as ‘Big Pink’, Bobby Sulistyo and his team were likely to find yet another man-made hybrid. In reality, they are now describing as ‘new’ a wild orchid species that has been sitting at the flower stalls since 2013. The story behind their discovery is published in the open access journal PhytoKeys.

While studying a cultivated plant might be quite a motivator and serve as a starting point for scientific quests around the world, the assumptions that one has found a new species at the florist’s could easily be wrong. Not only is the place of origin, written on the label, often doubtful, but there is always the chance of accidentally describing a man-made hybrid as a new species.

Such could have been the case of Bobby Sulistyo and his team when they discovered that although previously assumed impossible, the relatives of ‘Big Pink’, they were surveying, could also make human-assisted hybrids. Moreover, both of the specimens they have had at hand had come from uncertain place of origin.

However, the scientists conducted a series of sophisticated DNA analyses to conclude that firstly, ‘Big Pink’ is a separate species within its genus and then, that there is no evidence for it being an artificial hybrid. Eventually, the species was found in the wild as well. As a result, the orchid species was given the official name Dendrochilum hampelii.

In the wild, ‘Big Pink’ is found at around 1,200 m above sea level in the Philippines, where it harmlessly plants its roots on tree trunks and branches among mosses.

So far, little is known about the orchid’s distribution in nature, so the researchers suggest its conservation status to be considered as Data Deficient according to the IUCN Red List of Threatened Species (IUCN 2012).

 

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Original source:

Sulistyo B, Boos R, Cootes J, Gravendeel B (2015) Dendrochilum hampelii (Coelogyninae, Epidendroideae, Orchidaceae) traded as ‘Big Pink’ is a new species, not a hybrid: evidence from nrITS, matK and ycf1 sequence data. PhytoKeys 56: 83-97. doi:10.3897/phytokeys.56.5432

Tiny, record-breaking Chinese land snails fit almost 10 times into the eye of a needle

Minuscule snails defy current knowledge and scientific terminology about terrestrial “microsnails”. While examining soil samples collected from the base of limestone rocks in Guangxi Province, Southern China, scientists Barna Páll-Gergely and Takahiro Asami from Shinshu University, Adrienne Jochum, University and Natural History Museum of Bern, and András Hunyadi, found several minute empty light grey shells, which measured an astounding height of less than 1 mm.

The single known shell of Angustopila dominikae, named after the wife of the first author, was measured a mere 0.86 mm in shell height. Thus, it is considered to be perhaps the World’s smallest land snail species when focusing on the largest diameter of the shell. With very few reported instances of species demonstrating this degree of tininess, the team have described a total of seven new land snail species in their paper, published in the open access journal ZooKeys.

Another of the herein described new species, called Angustopila subelevata, measured 0.83-0.91 mm (mean = 0.87 mm) in height.

Two of the authors have previously described other species of tiny land snails from China and Korea in the same journal.

In their present paper, Dr. Pall-Gergely and his team also discuss the challenges faced by scientists surveying small molluscs, since finding living specimens is still very difficult. Thus, the evolutionary relationships between these species, as well as the number of existing species are yet little known.

“Extremes in body size of organisms not only attract attention from the public, but also incite interest regarding their adaptation to their environment,” remind the researchers. “Investigating tiny-shelled land snails is important for assessing biodiversity and natural history as well as for establishing the foundation for studying the evolution of dwarfism in invertebrate animals.”

“We hope that these results provide the taxonomic groundwork for future studies concerning the evolution of dwarfism in invertebrates,” they finished up.

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Original source:

Páll-Gergely B, Hunyadi A, Jochum A, Asami T (2015) Seven new hypselostomatid species from China, including some of the world’s smallest land snails (Gastropoda, Pulmonata, Orthurethra). ZooKeys 523: 31-62. doi: 10.3897/zookeys.523.6114

Diggers from down under: 11 new wasp species discovered in Australia

After being mostly neglected for more than a hundred years, a group of digger wasps from Australia has been given a major overhaul in terms of species descriptions and identification methods. This approach has led to an almost 50% rise in the number of recognized species of these wasps on the continent. The study was published in the open access journal ZooKeys.

They call them with names like “Great Golden Digger” or “Great Black Wasp” in the US and there is a good reason behind it. However, some of these digger wasp species do not impress solely with their looks, but also with their wide range of distribution. Members of the wasp genusSphex can be found in almost every area of the world. Two researchers from the Museum für Naturkunde in Berlin, Thorleif Dörfel and Dr. Michael Ohl, have now reexamined the species diversity of Sphex in Australia.

More than a century has passed since the last revision of this group in the Down Under. Using pinned, dried individuals from museum collections all over the world, Dörfel and Ohl inspected over 900 specimens and recorded the morphological characters that they deemed most useful for species differentiation.

A very different lifestyle sets apart some species in the genus Sphex from the common idea that most people evoke on hearing the term “wasp”. Not being eusocial, each female constructs a separate, subterranean nest for their offspring, which is then filled with grasshoppers (or other insects, depending on the wasp species) that have been paralyzed by a sting as a food supply for the larvae. These wasps avoid contact with humans and generally do not show aggressive behavior toward us.

With 23 species known from Australia before this study, now the number has risen to 34. Most of these newly discovered species come from large quantities of material which had not been identified up to species level before. Dörfel and Ohl’s work also provides an up-to-date identification key, both in a regular and in an interactive form, that covers all known Australian species of the genus. Specifically designed to be easily usable and containing many helpful images, it can be utilized by anyone with even minimal prior training.

“Many insect groups are in urgent need of a revision or reclassification”, explained Thorleif Dörfel. “Our understanding of ecosystems depends on the ability to identify the species that are a part of them. The focus of this study was merely a single continent, but we are currently preparing a follow-up project in which we plan to examine representatives of this wasp genus from every major geographic area. Hopefully, this is going to help everybody who works on these animals, whether now or in another one hundred years.”

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Original source:

Dörfel TH, Ohl M (2015) A revision of the Australian digger wasps in the genus Sphex(Hymenoptera, Sphecidae). ZooKeys 521: 1-104. doi: 10.3897/zookeys.521.5995

Bush Blitz: The largest Australian nature discovery project finds 4 new bee species

Four new native bee species were recognised as part of the largest Australian nature discovery project, called ‘Bush Blitz‘. The South Australian bee specialists used molecular and morphological evidence to prove them as new. Three of the species had narrow heads and long mouth parts – adaptations to foraging on flowers of emu-bushes, which have narrow constrictions at the base. The new species are described in the open access journal ZooKeys.

Bees are important pollinators of crops and native plants, but habitat loss and pesticides are proved to be causing a serious decline in their populations in Europe and the United States of America. Meanwhile, the conservation status of native Australian bees is largely unknown because solid baseline data are unavailable and about one third of the species are as yet unknown to science. Furthermore, identification of Australian bees is hampered by a lack of keys for about half of the named species.

With their present publication, bee specialists Katja Hogendoorn (University of Adelaide), Remko Leijs and Mark Stevens (South Australian Museum) are now trying to make Australian native bees more accessible to the scientific community. The study introduces a new Barcoding of Life project, ‘AUSBS‘, which will be built to contain the barcode sequences of the identified Australian native bees.

In future, this database can help scientists who have molecular tools, but insufficient knowledge of bees, to identify known species. Yet, that is not the only use of the database. “Bee taxonomists can access and use the molecular information to answer specific problems, for example, how certain species are related or whether or not a male and female belong to the same species”, says Dr. Hogendoorn. “And combined with morphological information, the molecular database can help to identify new species”, she adds.

In their publication, the researchers demonstrate the utility of the database. After careful evaluation of the DNA sequence data and subsequent morphological comparison of the collected bees to museum type specimens, they recognised four new species in the genusEuhesma, which they subsequently described.

Three of the species belong to the group of bees that specialise on the flowers of emu-bushes. These bees have evolved narrow faces and very long mouth parts to collect the nectar through a narrow constriction at the base of the flowers. A similar evolution has been already observed in other groups of bees. The fourth species belongs to a different group within this large genus and has a normally shaped head.

So far, the project includes 271 sequences of 120 species that were collected during the Bush Blitz surveys, Australia’s largest nature discovery project. The researchers intend to build on the existing DNA database to cover as many as possible of the Australian species. “It is hoped that this will stimulate native bee research”, says Dr. Hogendoorn. “With about 750 Australian bee species still undescribed and many groups in need of revision there is an enormous job to do”, she concludes.

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Original source:

Hogendoorn K, Stevens M, Leijs R (2015) DNA barcoding of euryglossine bees and the description of new species of Euhesma Michener (Hymenoptera, Colletidae, Euryglossinae).ZooKeys 520: 41-59.doi: 10.3897/zookeys.520.6185

To be fragrant or not: Why do some male hairstreak butterflies lack scent organs?

Female butterflies generally choose among male suitors, but in the tropics with hundreds of close relatives living in close proximity, how can they decide which males are the right ones? After all, if she mates with a male of another species, she is unlikely to have surviving offspring. One solution is that males of some species have scent producing organs on their wings, so if a male has the right smell, the female will presumably be receptive to his advances. Strangely, males of some species lack these scent producing organs, which would seem to be a huge disadvantage.

Biologists have theorized that when a species loses a male scent producing organ during evolution, its closest relatives do not occur in the same places. In other words, the female does not have to choose among males of the most closely related species, and the males do not devote energy to producing scents.

A team of researchers, led by Dr. Robert Robbins from the Smithsonian Institution, digs into this question in a small group of Latin American butterflies in a study published in the open access journal ZooKeys. Two newly discovered representatives in this butterfly group possess scent pads while their closest relatives do not. The researchers report that scent pads were lost evolutionarily twice in this group, and as predicted, in each case, the species without the scent pad does not co-occur with its closest relative. The present study adds more evidence to accumulating support for the explanation why some males lack scent pads.

Evolutionary losses, such as the one observed herein in Thereus oppia and related butterflies, are quite common, as Dr. Robbins and collaborators have observed in a previous research. Such disappearances of male secondary sexual features have been explained by geographic isolation of a species from its closest relatives, and the butterflies in this study are no exception.

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Original source:

Robbins RK, Heredia AD, Busby RC (2015) Male secondary sexual structures and the systematics of the Thereus oppia species group (Lepidoptera, Lycaenidae, Eumaeini). ZooKeys520: 109-130. doi: 10.3897/zookeys.520.10134

Introducing the ARPHA Writing Tool

The former Pensoft Writing Tool (PWT) appears under a new name with exciting functionalities customized to your needs

It’s been almost two full years since we first launched the Pensoft Writing Tool (PWT) as the first ever workflow that supports the full life cycle of a manuscript, from authoring, to peer-review, publishing and dissemination. Now it is time to move a step forward with an updated tool that incorporates all our accumulated experience and your invaluable feedback. PWT is now transforming into ARPHA Writing Tool (AWT) – a rebrand that means much more than a change of name and design.

So, what is so cool about the new ARPHA Writing tool? Here it is:

  • New modern outlook and user-friendly design
  • All editing happens in the manuscript preview mode
  • Plug-in for mathematical formulas
  • Pre-submission technical validation, by automated tool and humans
  • Pre-submission external peer-review
  • Importing manuscripts through Application Programming Interface (API)

Those of you who have been using the PWT remember the two writing modes – Preview and Editing. Over the past two years, we’ve learned that this might sometimes be tricky. With the AWT, there will be no more flipping between modes. The tool now contains only one editing mode – this means rich editing functions and direct visualisation of your changes and comments straight into the the article preview.

Besides, the AWT will take a step beyond biodiversity data publishing towards providing a large set of predefined, yet flexible article templates to allow the publication of most types of research outcomes. As the scope is broadening, we also strive to simplify and improve the user experience.

The AWT is all about user-friendliness. With the new intuitive design and more comprehensible functions, the system is fast to navigate and get used to. While making every effort to improve user experience, we made sure functions are straightforward and easy to discover.

awt-screen-shot (2)The AWT makes collaborative work on a manuscript with co-authors or peers easier than ever. Mentors, pre-submission reviewers, linguistic or copy editors can now contribute to the manuscript side by side. The collaborative peer-review process provides easy communication thanks to a track-change function, comments and replies, as well as automated, but customisable email and social network notification tools.

The tool also provides authors with a two-step technical validation – the manuscript is examined for consistency automatically by the system, followed by a second check from our staff ahead of publication. After an article is published, the AWT also offers easy republication of updated article versions via the authoring tool.

Perhaps the most innovative feature of AWT, however, is the new functionality to invite reviewers still during the authoring process. This function is still globally unique as it allows the authors to discuss manuscripts with their peers before submission, and consequently to submit the reviews together with the manuscript. In case the editor approves the manuscript for publication based on the pre-submission review(s), the manuscript can be published just a few days after submission.

Go to the AWT now and test it yourself: http://pwt.pensoft.net/

Parasite vs. Invader: New endoparasitoid wasp can save the Dominican Republic economy

While biocontrol agents come in different shapes, often taking a lot of time for scientists to research, test and produce, natural ones always seem to be the better option. Now that Drs. Taveras and Hansson have discovered a new parasitoid wasp species in the Dominican Republic, they might have not only met the worst natural enemy for a widely spread invasive pest corrupting a large part of the essential pigeon pea crops. They are likely to have found a whole new field for investigation into the potential weapons against the eradicator of up to 76% of the essential crop. Their study is available in the open access Journal of Hymenoptera Research.

The find of this new gregarious endoparasitoid wasp, called Pediobius cajanus, is also the first time representative of this genus has been retrieved from the Asian fly. This invasive pest is estimated to destroy a huge part of the pigeon pea crops, a culture which is an essential food source for tropical America, a large part of the export and even has medicinal value. Therefore, the new species is very important not only in terms of the exploration of the biodiversity in Latin America, but also in economical sense.

Even when treated regularly with insecticides, the Asian fly manages to corrupt as much as 27% of the Dominican pigeon pea crops, a previous study shows. Although a precise figure of the damage cannot be provided due to large variations between localities and the impossibility of tracking the whole span of the pea cultivation areas, there is the case of the town of Rancho Los Vargas, Puerto Plata, where in 2012 the loss of the culture reached 76%.

On the other hand, the new wasp species was found to kill an average of 25% of the Asian fly larvae in the researched areas. In comparison, the previously known enemies of the pest are accountable for only 2%. This is why the scientists are now proposing the new species as a biocontrol agent.

In conclusion, the authors suggest that the parasitoid wasp is likely distributed across a much larger area. They believe that the new species could also be found over the entire island of Hispaniola, on neighbouring islands in the Caribbean and even in the tropical parts of the mainland in the Americas. Its record and distribution both call for a further investigation into the potential implementation of the wasp in controlling the Asian fly.

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Original source:

Taveras R, Hansson C (2015) Pediobius cajanus sp. n. (Hymenoptera, Eulophidae), an important natural enemy of the Asian fly (Melanagromyza obtusa (Malloch)) (Diptera, Agromyzidae) in the Dominican Republic. Journal of Hymenoptera Research 45: 41-54. doi: 10.3897/JHR.45.4964

Flickr and a citizen science website help in recording a sawfly species range expansion

Social network Flickr and citizen science website BugGuide have helped scientists to expand the known range of a rarely collected parasitic woodwasp, native to the eastern United States. Partially thanks to the two online photograph platforms, now the species’ distribution now stretches hundreds of miles west of previous records. Previously known from only 50 specimens mainly from the Northeast, now the species was discovered in the Ozark Mountains by researchers from the University of Arkansas. Their study is published it in the open access journal Biodiversity Data Journal.

Spurred on by the find, Michael Skvarla, a Ph.D. candidate at the university, contacted retired sawfly expert David Smith who alerted him to a hundred unpublished specimens housed in the United States National Entomology Collection at the Smithsonian, many of which were collected as bycatch in surveys that targeted invasive species like emerald ash borer andAsian longhorned beetle. Additional specimens from Iowa, Minnesota, and Manitoba, which also represent significant western range expansions, were found after users posted photos of the species on the social network Flickr and the citizen science website BugGuide.

“We used two resources – photos on social media and bycatch from large trapping surveys – which are often underutilized and I was really happy we could work both of them into the paper,” said Skvarla, the lead author. “This work highlights their utility, as well as the importance of maintaining biological collections like the U.S. National Collection and continuing to collect in undersampled regions like the Ozark Mountains.”

Parasitic woodwasps attack the immature stages of longhorned beetles, jewel beetles, and other woodwasps which bore into wood and have long fascinated entomologists because of this parasitoid nature, which is unique among woodwasps, and rarity in collections. The Arkansas specimens, which belong to the species Orussus minutus and motivated the initial research into the group, were collected as part of a larger survey of the insect fauna around the Buffalo National River.

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Original Source:

Skvarla, M.J., Tripodi, A., Szalanski, A., Dowling, A.P.G. 2015. New records of Orussus minutusMiddlekauff, 1983 (Hymenoptera: Orussidae) represent a significant western range expansion. Biodiversity Data Journal, 3: e35793. doi: 10.3897/BDJ.3.e5793