Pensoft blog - Part 95

End of an era: New sixth volume Research on Chrysomelidae the last with its original editors

The new and sixth volume of Research on Chrysomelidae consists of five research articles devoted to the latest findings about the amazing family of over 37,000 leaf beetle species from more than 2,500 genera. Among the studies, conducted by authors from all around the world, there is a new species of potentially dangerous legume-feeding pest, as well as new information regarding the life cycle,ecological interactions, species richness factors and taxonomy of some leaf beetles.

The latest volume devoted to one of the most intriguing beetle families also marks a turning point for the entomologists sharing special fondness for the leaf beetles. While the “spiritus rector” of the Chrysomelidae research community, Prof Pierre Jolivet resigned from his position last year, now Dr Jorge Santiago-Blay is also stepping down from the editorial board.

The third of the original trio, Prof Michael Schmitt, Ernst-Moritz-Arndt-Universität, takes the opportunity to look back to the beginning of the community and pay tribute to his long-year colleagues in his Editorial. He also confirms that the series, by now traditionally published in the open access journal ZooKeys, is far from over.

“I thank Jorge Santiago-Blay from the bottom of my heart for his tireless engagement in fostering leaf beetle research and his friendship, and wish him All the Best for whatever he may entertain in the future,” read his words.

In his short publication accompanying the five-piece issue, Prof Michael Schmitt recalls the very beginning of his team’s existence, started in 2001. He does not omit to note the numerous obstacles surrounding the first issues. At a point, having completed the enormous book “The green book – New Developments in the Biology of the Chrysomelidae”, comprising 62 chapters by 111 authors, as well as the first two volumes of Research on Chrysomelidae, they were made to drop the series due to unsatisfying selling numbers.

However, everything changed after the conversation Prof Pierre Jolivet and Prof Lyubomir Penev, Pensoft Publishers, had at the 9th European Congress of Entomology, held in Hungary in 2010. There they agreed to publish the next Research on Chrysomelidae volume as a special issue in ZooKeys, one of Pensoft’s journals.

Shortly after, the collaboration turned out so successful that it is now resulting in a fourth consecutive special issue. In the meantime, last December, the 30th anniversary of Symposia on Chysomelidae was celebrated in another leaf beetle-themed ZooKeys issue. Moreover, the next issue is already planned. It will cover the proceedings of the 9th International Symposium on Chrysomelidae and will be edited by Prof Michael Schmitt and Dr Caroline Chaboo, University of Nebraska State Museum, USA.

“The present volume is the fourth, but certainly not the last, published by Pensoft. Although the pullout of Pierre Jolivet and Jorge Santiago-Blay marks a crucial cut in the history of Research on Chrysomelidae, I understand the reasons of their decision to step down,” concludes Prof Michael Schmitt. “I hope and wish that the series will prosper and remain accepted as a forum of leaf beetle research by the community of Chrysomelidae enthusiasts all over the world.”

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Research on Chrysomelidae 6 Special Issue is available to read and order from here.

Original source:

Schmitt M (2016) Editorial. In: Jolivet P, Santiago-Blay J, Schmitt M (Eds) Research on Chrysomelidae 6. ZooKeys 597: 1-2. doi: 10.3897/zookeys.597.8618

Remarkably diverse flora in Utah, USA, trains scientists for future missions on Mars

Future Martian explorers might not need to leave the Earth to prepare themselves for life on the Red Planet. The Mars Society have built an analogue research site in Utah, USA, which simulates the conditions on our neighbouring planet.

Practicing the methods needed to collect biological samples while wearing spacesuits, a team of Canadian scientists have studied the diverse local flora. Along with the lessons that one day will serve the first to conquer Mars, the researchers present an annotated checklist of the fungi, algae, cyanobacteria, lichens, and vascular plants from the station in their publication in the open-access journal Biodiversity Data Journal.

Located in the desert approximately 9 km outside of Hanksville, Utah, and about 10 km away from the Burpee Dinosaur Quarry, a recently described bone bed from the Jurassic Morrison Formation, the Mars Desert Research Station (MDRS) was constructed in 2002. Since then, it has been continuously visited by a wide range of researchers, including astrobiologists, soil scientists, journalists, engineers, and geologists.

Astrobiology, the study of the evolution and distribution of life throughout the universe, including the Earth, is a field increasingly represented at the MDRS. There, astrobiologists can take advantage of the extreme environment surrounding the station and seek life as if they were on Mars. To simulate the extraterrestrial conditions, the crew members even wear specially designed spacesuits so that they can practice standard field work activities with restricted vision and movement.

In their present research, the authors have identified and recorded 38 vascular plant species from 14 families, 13 lichen species from seven families, 6 algae taxa including both chlorophytes and cyanobacteria, and one fungal genus from the station and surrounding area. Living in such extreme environments, organisms such as fungi, lichens, algae, and cyanobacteria are of particular interest to astrobiologists as model systems in the search for life on Mars.

However, the authors note that there is still field work to be executed at the site, especially during the spring and the summer so that the complete local diversity of the area can be captured.

“While our present checklist is not an exhaustive inventory of the MDRS site,” they explain, “it can serve as a first-line reference for identifying vascular plants and lichens at the MDRS, and serves as a starting point for future floristic and ecological work at the station.”

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Original source:

Sokoloff P, Hamilton P, Saarela J (2016) The “Martian” flora: new collections of vascular plants, lichens, fungi, algae, and cyanobacteria from the Mars Desert Research Station, Utah.Biodiversity Data Journal 4: e8176. doi: 10.3897/BDJ.4.e8176

The Godzilla goby is the latest new species discovered by the Smithsonian DROP project

As part of the Deep Reef Observation Project (DROP), initiated by the Smithsonian Institution, a new goby fish species was discovered in the southern Caribbean. Living at depths greater than conventional SCUBA divers can access, yet too shallow to be of interest for deep-diving submersibles, the fish will now be known under the common name of the Godzilla goby.

Its discoverers Drs Luke Tornabene, Ross Robertson and Carole C. Baldwin, all affiliated with the Smithsonian Institution, have described the species in the open access journal ZooKeys.

Formally called Varicus lacerta, the species name translates to ‘lizard’ in Latin and refers to the reptilian appearance of the fish. Its prime colors are bright yellow and orange, while the eyes are green.

The new goby also has a disproportionately large head and multiple rows of recurved canine teeth in each jaw. This is also why the research team has chosen the common name of the Godzilla goby.

Apart from its lovely coloration, the new fish stands out with its branched, feather-like pelvic-fin rays and the absence of scales.

The scientists caught the Godzilla goby thanks to the manned submersible Curasub, which had already helped in discovering several species over the course of the project. Last year, Drs Ross Robertson and Carole Baldwin had another new goby published in ZooKeys. That time, they even named it after the submersible. Earlier this year, the DROP team also described nine additional new species, many of which were collected by the Curasub.

The manned submersible Curasub reaches depths up to 300 m in search of tropical marine fishes and invertebrates. As a result, it provides new information on the fauna that inhabits poorly studied deep-reef ecosystems.

The sub relies on two hydraulic arms, one equipped with a suction hose, and the other designed to immobilize the fish with an anaesthetizing chemical. That way, not only do the researchers gather live specimens, which once collected, are deposited into a vented acrylic cylinder attached to the outside of the sub, but also individuals suitable for critical DNA analyses.

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Original source:

Tornabene L, Robertson DR, Baldwin CC (2016) Varicus lacerta, a new species of goby (Teleostei, Gobiidae, Gobiosomatini, Nes subgroup) from a mesophotic reef in the southern Caribbean. ZooKeys 596: 143-156. doi: 10.3897/zookeys.596.8217

More than just hippos and crocs: The hidden biodiversity of the iSimangaliso Wetland Park

iSimangaliso Wetland Park, a UNESCO World Heritage Site in the sub-tropical north-eastern corner of South Africa has become famous for its birdlife, crocodiles and hippopotamuses that frolic in the warm estuarine waters of Lake St Lucia. However, there’s more to the park than the “big and hairy”, according to aquatic ecologist Prof Renzo Perissinotto at Nelson Mandela Metropolitan University (NMMU) in Port Elizabeth, whose research is published in the open access journal ZooKeys.

“Although we have spent several decades focusing on life in the estuary, we only recently came to realise that much of the wealth of biodiversity in the park exists in the small freshwater ponds that are adjacent to, but disconnected from, the main lake,” he says.

The St Lucia lake itself is generally brackish and is located on a large sandy expanse known as the Maputaland coastal plain. Dotted across the landscape of this coastal foreland are numerous temporary freshwater ponds, seeps and small streams that are disconnected from the brackish lake body.

A team of self-proclaimed “beetle nerds”, led by Prof Perissinotto, got together from NMMU and Plymouth University (UK) and uncovered more species of water beetles in these tiny water bodies than is known for any other similar-sized region in southern Africa.

The beetle collection trips were done over a 16-month period and revealed 68 species of predaceous water beetles alone, termed more formally as the “Hydradephaga”. The iSimangaliso Wetland Park houses approximately 20% of the total number of known species for this beetle group in the whole of southern Africa. Of the species collected during their expeditions, five have never been recorded in South Africa before, highlighting our poor understanding of aquatic insect distributions in this part of the world.

Most of the species collected (almost 80%) belonged to the family Dytiscidae, more commonly known as “diving beetles” due to their lifestyle that involves coming up for air and immediately diving back down to the depths to carry on hunting unsuspecting prey, which can be as large as small fish and amphibians.

Prof Perissinotto and his NMMU colleague Dr Matthew Bird, together with water beetle specialist Prof David Bilton (Plymouth University), collected specimens ranging from 1 mm to almost 5 cm in length (the tadpole eaters). According to Prof Bilton, “Irrespective of size, these water beetles are a crucial component of the iSimangaliso ecosystem in that they are the primary predators in these temporary wetlands, which generally lack fish. Their abundance and diversity can be used to gauge the overall health of wetland ecosystems as they are sensitive to pollution, for instance”.

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Original source:

Perissinotto R, Bird MS, Bilton DT (2016) Predaceous water beetles (Coleoptera, Hydradephaga) of the Lake St Lucia system, South Africa: biodiversity, community ecology and conservation implications. ZooKeys 595: 85-135. doi: 10.3897/zookeys.595.8614

Singing in the rain: A new species of rain frog from Manu National Park, Amazonian Peru

A new rain frog species has been described from Amazonian Peru and the Amazonian foothills of the Andes. The frog, given the name Pristimantis pluvialis, was found by researchers from Southern Illinois University Carbondale, the University of Michigan, and the National University of San Antonio Abad of Cusco in Peru. The discovery is published in the open access journal ZooKeys.

Several individuals of P. pluvialis were found during nocturnal surveys near Manu National Park, a region recognized as having the highest diversity of reptiles and amphibians of any protected area.

The species has also been collected within the private conservation area Bosque Nublado, owned by the Peruvian NGO Perú Verde, and within the Huachiperi Haramba Queros Conservation Concession, the first such type of concession granted to a native community in Peru.

The new species is likely found within the park as well, bringing the number of known amphibian species in this area to 156. Similarly to other species within its genus, which is among the largest vertebrate genera, the new rain frog exhibits direct development. This means that it is capable of undergoing its entire life cycle without a free-living tadpole stage.

It can be distinguished from other members of its genus by call, skin texture, and the presence of a rostral papilla. It was given the name “pluvialis”, translatable to “rainy” from Latin, to denote the incredibly rain-soaked habitat it lives in (>8 meters of rain yearly), and because it was found calling only after heavy rains.

Unfortunately, when a fungal disease, known as the amphibian chytrid fungus, arrived in the area back in the early 2000s, many frog species in and around the region began to decline. Out of the studied ten individuals of the presently described new species, four were found to be infected. However, the impact of the disease on these particular rain frogs is still unknown, and their numbers do not seem to have decreased.

“This discovery highlights the need for increased study throughout the tropics, for example Manu NP and its surrounding areas have been well studied, but despite these efforts, new species are being continuously discovered,” points out first author Alex Shepack, a PhD student in the laboratory of co-author Dr Alessandro Catenazzi at Southern Illinois University.

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Original source:

Shepack A, von May R, Ttito A, Catenazzi A (2016) A new species of Pristimantis (Amphibia, Anura, Craugastoridae) from the foothills of the Andes in Manu National Park, southeastern Peru. ZooKeys 594: 143-164. doi: 10.3897/zookeys.594.8295

Finding the real treasure of the Incas: Two new frog species from an unexplored region

Inaccessibility and mysticism surrounding the mist-veiled mountains of the central Andes make this region promising to hide treasures. With an area of 2197 km2, most of the Llanganates National Park, Ecuador, is nearly unreachable and is traversed only by foot. However, fieldwork conducted by researchers from the Museo de Zoología at Catholic University of Ecuador resulted in the discovery of a more real and tangible gem: biodiversity.

Among other surprises, during their expeditions the researchers discovered two new species of rain frogs, formally named P. llanganati and P. yanezi. The new species are characterized by the spiny appearance typical of several species inhabiting montane forests. The study was published in the open access journal ZooKeys.

The new rain frogs belong to the megadiverse genus Pristimantis. They are direct-developing frogs, which means that they lack a tadpole stage and therefore do not undergo metamorphosis.

The Neotropical Andes houses a spectacular radiation of Pristimantis, especially in the Montane Forests of the eastern slopes of the Ecuadorian Andes. The species richness of this genus is still underestimated as a consequence of their cryptic morphology and the still sparse amphibian inventories in unexplored regions such as the Llanganates National Park.

The discovery reminds the authors of a mystic local legend dating from the 16th century, when the Inca Empire fell into the hands of Spanish conquerors. Word has it that in exchange for the young emperor’s life, Atahualpa, Incas offered to fill an entire room with tons of gold. However, the Spaniards broke their promise and the emperor was executed. A small group of loyal Incas led by General Rumiñahui decided to hide both, the mummy of Atahualpa and the gold, in the depths of the jungle of the Llanganates National Park.

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Original source:

Navarrete MJ, Venegas PJ, Ron SR (2016) Two new species of frogs of the genus Pristimantis from Llanganates National Park in Ecuador with comments on the regional diversity of Ecuadorian Pristimantis (Anura, Craugastoridae). ZooKeys 593: 139-162. doi: 10.3897/zookeys.593.8063

Schoolkids name a new tree species from Tanzania while fundraising for tropical forests

A University of York conservationist who put out a call for schools to name a new species of tropical tree has found a winner. Following competitive fundraising totalling nearly £4000, Askham Bryan College, UK pipped the Iringa International School, Tanzania to the post. Coming a close third in the competition were 1st Sherburn Rainbows and Brownies, also from the UK.

Kindly agreeing to share the name with the the African school in second place, the winning college has now baptised the new species Polyceratocarpus askhambryan-iringae.

Dr Andy Marshall, Senior Lecturer in York’s Environment Department and Director of Conservation Science at Flamingo Land, set up the Schools for Forests campaign through his University of York CIRCLE research team after discovering a new species of tree in East Africa.

Discovered by chance in a remote mountain forest in Tanzania while studying one of the world’s rarest primates, the kipunji monkey, Dr Marshall sought to name the new 20-metre tall tree by launching a campaign encouraging schools to raise funds for the conservation of tropical forests.

The winning schools will be twinned with a school in Tanzania and will be offered a free educational trip to Flamingo Land. The new tree’s name was formally announced with anopenly accessible paper in the journal PhytoKeys. And for Flamingo Land, the timing of this species description coincides with another landmark for this North Yorkshire theme park and zoo, where 10,000 native UK trees were recently planted in partnership with the Woodland Trust!

P1140528_AndyMarshallAndXUvariodendron_sp_nov_Vikongwa150mSofCamp_ARM2117 — Dr. Andy Marshall, looking for new species in Tanzanian forests.

“Having the opportunity to name a new species is a truly wonderful thing, which will leave a lasting legacy for all those involved in this campaign. We are so happy to have reached out to so many people, including thousands of people in the UK and Africa through social media”, commented Dr Marshall on the positive experiences around the naming campaign.

“We thank everyone who has been involved in this, especially those who raised these valuable funds, which we will use in our ongoing efforts to save and restore tropical forests.”

“The College has been delighted to be involved in the Schools for Forests campaign. Fundraising by our students included foam parties, raffles and even a human sling shot, and we hope this will be the start of an ongoing partnership!” assed Jane Tupper, Deputy Principal for Teaching & Learning from Askham Bryan College.

Money raised through the Schools for Forests scheme will go towards CIRCLE’s work in Tanzania in collaboration with the Udzungwa Forest Project to better protect tropical forests through scientific research, forest management, community education, training and lobbying.

Original Source:

Marshall AR, Couvreur TLP, Summers AL, Deere NJ, Luke WRQ, Ndangalasi HJ, Sparrow S, Johnson DM (2016) A new species in the tree genus Polyceratocarpus (Annonaceae) from the Udzungwa Mountains of Tanzania. PhytoKeys 63: 63-76. doi: 10.3897/phytokeys.63.6262

Additional Information:

CIRCLE is the Centre for Integrated Research, Conservation and Learning, a collaboration between the University of York’s Environment Department and Flamingo Land that aims to protect biodiversity, animal welfare and promote public understanding of the natural world.

Sponsors of the Schools for Forests campaign include United Bank of Carbon, the British Association of Zoos and Aquariums Mammal Working Group and Santander. The Schools for Forests team are also thankful for support from Natalie Bennett, Green Party Leader, and from various collaborators, especially David Johnson from Ohio Wesleyan University.

How the names of organisms help to turn ‘small data’ into ‘Big Data’

Innovation in ‘Big Data’ helps address problems that were previously overwhelming. What we know about organisms is in hundreds of millions of pages published over 250 years. New software tools of the Global Names project find scientific names, index digital documents quickly, correcting names and updating them. These advances help “Making small data big” by linking together to content of many research efforts. The study was published in the open access journal Biodiversity Data Journal.

The ‘Big Data’ vision of science is transformed by computing resources to capture, manage, and interrogate the deluge of information coming from new technologies, infrastructural projects to digitise physical resources (such as our literature from the Biodiversity Heritage Library), or digital versions of specimens and records about specimens by museums.

Increased bandwidth has made dialogue among distributed data centres feasible and this is how new insights into biology are arising. In the case of biodiversity sciences, data centres range in size from the large GenBank for molecular records and the Global Biodiversity Information Facility for records of occurrences of species, to a long tail of tens of thousands of smaller datasets and web-sites which carry information compiled by individuals, research projects, funding agencies, local, state, national and international governmental agencies.

The large biological repositories do not yet approach the scale of astronomy and nuclear physics, but the very large number of sources in the long tail of useful resources do present biodiversity informaticians with a major challenge – how to discover, index, organize and interconnect the information contained in a very large number of locations.

In this regard, biology is fortunate that, from the middle of the 18th Century, the community has accepted the use of latin binomials such as Homo sapiens or Ba humbugi for species. All names are listed by taxonomists. Name recognition tools can call on large expert compilations of names (Catalogue of Life, Zoobank, Index Fungorum, Global Names Index) to find matches in sources of digital information. This allows for the rapid indexing of content.

Even when we do not know a name, we can ‘discover’ it because scientific names have certain distinctive characteristics (written in italics, most often two successive words in a latinised form, with the first one – capitalised). These properties allow names not yet present in compilations of names to be discovered in digital data sources.

The idea of a names-based cyberinfrastructure is to use the names to interconnect large and small distributed sites of expert knowledge distributed across the Internet. This is the concept of the described Global Names project which carried out the work described in this paper.

The effectiveness of such an infrastructure is compromised by the changes to names over time because of taxonomic and phylogenetic research. Names are often misspelled, or there might be errors in the way names are presented. Meanwhile, increasing numbers of species have no names, but are distinguished by their molecular characteristics.

In order to assess the challenge that these problems may present to the realization of a names-based cyberinfrastructure, we compared names from GenBank and DRYAD (a digital data repository) with names from Catalogue of Life to assess how well matched they are.

As a result, we found out that fewer than 15% of the names in pair-wise comparisons of these data sources could be matched. However, with a names parser to break the scientific names into all of their component parts, those parts that present the greatest number of problems could be removed to produce a simplified or canonical version of the name. Thanks to such tools, name-matching was improved to almost 85%, and in some cases to 100%.

The study confirms the potential for the use of names to link distributed data and to make small data big. Nonetheless, it is clear that we need to continue to invest more and better names-management software specially designed to address the problems in the biodiversity sciences.

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Original source:

Patterson D, Mozzherin D, Shorthouse D, Thessen A (2016) Challenges with using names to link digital biodiversity information. Biodiversity Data Journal, doi: 10.3897/BDJ.4.e8080.

Additional information:

The study was supported by the National Science Foundation.

One of 8 new endemic polyester bees from Chile bears the name of a draconic Pokemon

Among the eight new bee species that Spencer K. Monckton has discovered as part of his Biology Master’s degree at York University, there is one named after a popular draconic creature from the Japanese franchise Pokémon. Called the stem-nesting Charizard, the new insect belongs to a subgenus, whose 17 species are apparently endemic to Chile, yet occupy a huge variety of habitats.

The young scientist, who is currently a PhD student at the University of Guelph, studying sawfly systematics and phylogeography, has his work published in the open access journal ZooKeys.

Known as polyester bees, the family to which the new species belong is characterized by the curious secretions these bees produce. Once applied to the walls of their nest cells, the secretion dries into a smooth, cellophane-like lining.

The new bee species are endemic to Chile, yet they occupy a huge variety of habitats ranging from the hyper-arid Atacama Desert in the north, to moist forests of monkey puzzle trees in the south, spanning elevations from the Pacific coast to more than 3200 metres above sea level. All of them are also solitary and nest in hollow plant stems.

Although the new bee species might lack the fiery breath of the dragon-like Pokémon, much like its namesake, it is normally found around mountains. Also, like the fictional species, the new bee has a distinctively long, snout-like face and broad hind legs, with antennae in place of horns.

However, the stem-nesting Charizard bee, as well as the other new species, are tiny creatures that measure between 4 and 7 mm in length. Unlike the predominantly orange colouration of the Pokémon, both males and females are mostly dark brown to black, patterned with variable yellow markings.

Yet, sometimes these yellow markings can turn orange when specimens are preserved, as was the case for the first specimen that Spencer Monckton observed of this species, which, he says, “cemented the comparison”.

In his research paper Spencer Monckton not only describes eight new endemic polyester bees, but he also provides thoroughly illustrated keys for identification of both the males and females of each of the species.

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Original source:

Monckton SK (2016) A revision of Chilicola (Heteroediscelis), a subgenus of xeromelissine bees (Hymenoptera, Colletidae) endemic to Chile: taxonomy, phylogeny, and biogeography, with descriptions of eight new species. ZooKeys 591: 1-144. doi: 10.3897/zookeys.591.7731

Bee populations expanded during global warming after the last Ice Age

The Australian small carpenter bee populations appear to have dramatically flourished in the period of global warming following the last Ice Age some 18,000 years ago.

The bee species is found in sub-tropical, coastal and desert areas from the north-east to the south of Australia. Researchers Rebecca Dew and Michael Schwarz from the Flinders University of South Australia teamed up with Sandra Rehan, the University of New Hampshire, USA, to model its past responses to climate change with the help of DNA sequences. Their findings are published in the open access Journal of Hymenoptera Research.

“You see a rapid increase in population size from about 18,000 years ago, just as the climate began warming up after the last Ice Age,” says lead author Rebecca Dew. “This matches the findings from two previous studies on bees from North America and Fiji.”

“It is really interesting that you see very similar patterns in bees around the world,” adds Rebecca. “Different climate, different environment, but the bees have responded in the same way at around the same time.”

In the face of future global warming these finding could be a good sign for some of our bees.

However, the news may not all be positive. There are other studies showing that some rare and ancient tropical bees require cool climate and, as a result, are already restricted to the highest mountain peaks of Fiji. For these species, climate warming could spell their eventual extinction.

“We now know that climate change impacts bees in major ways,” says Rebecca, “but the challenge will be to predict how those impacts play out. They are likely to be both positive and negative, and we need to know how this mix will unfold.”

Bees are major pollinators and are critical for many plants, ecosystems, and agricultural crops.

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Original source:

Dew RM, Rehan SM, Schwarz MP (2016) Biogeography and demography of an Australian native bee Ceratina australensis (Hymenoptera, Apidae) since the last glacial maximum. Journal of Hymenoptera Research 49: 25-41. doi: 10.3897/JHR.49.8066