Tag: biodiversity

Swiss-born rebranded Alpine Entomology journal joins Pensoft’s open access portfolio

Formerly dedicated to all fields in entomology, the journal now focuses on insect research from mountainous regions from around the world

Launched about a century and a half ago, the Swiss Entomological Society‘s official journal Die Mitteilungen der Schweizerischen Entomologischen Gesellschaft (Journal of the Swiss Entomological Society) is the latest historical scientific journal to join the lines of Pensoft’s portfolio.

As a result of an unanimous vote at the Swiss Entomological Society’s general assembly in March, the journal is now rebranded as Alpine Entomology to reflect the shift in its scope and focus. Furthermore, the renowned journal is also changing its format, submission and review process, “in accordance with the standards of modern scientific publishing”, as explained in the inaugural Editorial.

The first articles of Alpine Entomology in partnership with Pensoft are already live on the journal’s new website.

“Focusing the scope will improve the quality of the journal and of the submitted papers and therefore increase the impact in the scientific community,” say Dr. Thibault Lachat, Bern University of Applied Sciences and Swiss Federal Institute for Forest, Snow and Landscape Research, and Hannes Baur, Natural History Museum of Bern, and University of Bern.

Alpine Entomology now accommodates a long list of high-tech perks and brand new looks thanks to the innovative journal publishing platform ARPHA – the Pensoft-developed innovative journal publishing platform.

Nonetheless, the journal preserves its well-respected expertise and dedication to original research on the insect fauna. Occasionally, it will be also publishing studies on other arthropods from the Alpine region or other mountainous regions all over the world.

Apart from the all-new look and feel visible at first glance, there are many technologically-advanced innovations to benefit authors, readers, reviewers and editors alike.

Thanks to the fast-track and convenient publishing provided by ARPHA, each manuscript is carried through all stages from submission and reviewing to dissemination and archiving without ever leaving the platform’s singular collaboration-friendly online environment.

Once published, all articles in Alpine Entomology are to be available in three formats (PDF, XML, HTML), enriched with a whole set of semantic enhancements, so that the articles are easy to discover, access and harvest by both humans and machines.

Amongst the first papers, there are descriptions of several new mountainous species from around the world that have remained unknown to science until very recently. Two separate papers describe two new species of long-legged flies from Turkey and Croatia, respectively; while a third one reports a new ground beetle dwelling in Bhutan’s Thrumshingla National Park.

“I’m delighted to welcome this particular new member of the Pensoft’s and ARPHA’s family,” says the publisher’s founder and CEO Prof. Lyubomir Penev. “With our own solid experience in both scholarly publishing and entomological research, I’m certain that we’ll be able to provide the right venue for a fantastic title as Alpine Entomology.

“This year sees a lot of changes for the Swiss Entomological Society‘s signature journal, which I believe are all extremely positive,” says Alpine Entomology‘s Editor-in-Chief Dr. Thibault Lachat. “By making use of the modern, technologically advanced open access publishing provided by ARPHA and Pensoft, I’m convinced that our journal will increase its visibility and gain an international reputation in the entomological community.”

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Follow Alpine Entomology on Twitter | Facebook.

Poison ivy an unlikely hero in warding off exotic invaders?

Dozens of studies have looked at the effects of Japanese knotweed on natural communities in Europe and North America. Yet Bucknell University professor Chris Martine still felt there was something important to learn about what the plant was doing along the river in his own backyard.

“The more time I spent in the forests along the Susquehanna River, the more it seemed like something was really going wrong there,” said Martine. “In addition to the prevalence of this single invasive species, it looked like the very existence of these forests was under threat.”

What Martine noticed was similar to what local nature lovers and biologists with the Pennsylvania Natural Heritage Program were also starting to see: these forests, specifically those classified as Silver Maple Floodplain Forests, were not regenerating themselves where knotweed had taken a foothold.

In a new study published in the open access Biodiversity Data Journal, Martine and two recent Bucknell alumni conclude that Japanese knotweed has not only excluded nearly all of the native understory plant species in these forests, but it has prevented the trees already established in the canopy from leaving behind more of themselves.

“If you were to fly over these forests, or even look at a Google Earth image, you’d see a nice green canopy along the river consisting of mature silver maples, river birches, and sycamores,” explained Martine. “But below that canopy there is almost nothing for tens of feet before you reach an eight-to-twelve-foot-tall thicket of knotweed. Few new trees have been able to grow through that in the last 50-60 years and our surveys found that seedlings of these species are quite rare.”

The authors suggest that as mature trees die of natural causes over the next several decades and are not replaced, these systems will shift from tree-dominated riverbank habitats to “knotweed-dominated herbaceous shrublands” incapable of supporting a rich diversity of insects, birds, and other wildlife. Loss of trees in these habitats could likely also lead to riverbank erosion and increase the severity of flood events.

The few places where knotweed has not taken over offer a bit of hope, however, from an unlikely hero: poison-ivy, which Martine calls “perhaps the least popular plant in America.”

“What we see in the data is that poison-ivy often trades understory dominance with knotweed. That is, when knotweed isn’t the big boss, poison-ivy usually is. The difference is that whereas knotweed knocks everyone else out of the system, poison-ivy is more of a team player. Many other native plants can co-occur with it and it even seems to create microhabitats that help tree seedlings get established.”

The prevalence of poison-ivy in these sites didn’t go unnoticed by undergraduate Anna Freundlich, who collected most of the plant community data — more than 1,000 data points — in a single summer as a research fellow.

“Anna developed a pretty serious methodology for avoiding a poison-ivy rash that included long sleeves, long pants, gloves, duct tape, and an intense wash-down protocol,” said her research advisor, “and even after crawling through the plant for weeks she managed to never once get a rash.”

Martine cautions against too much optimism regarding the chances of one itch-inducing native plant saving the day, however.

“Righting this ship is going to require eradicating knotweed from some of these sites, and that won’t be easy work. It will take some hard manual labor. But it’s worth doing if we want to avoid the imminent ecological catastrophe. These forests really can’t afford another half-century of us letting knotweed run wild.”

Freundlich is a now pursuing a Master’s degree in plant ecology at the University of Northern Colorado. Lead author Matt Wilson, a Bucknell Master’s student at the time of the study who analyzed the dataset, now works for the Friends of the Verde River in Cottonwood, AZ.

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Original source:

Wilson M, Freundlich A, Martine C (2017) Understory dominance and the new climax: Impacts of Japanese knotweed (Fallopia japonica) invasion on native plant diversity and recruitment in a riparian woodland. Biodiversity Data Journal 5: e20577. https://doi.org/10.3897/BDJ.5.e20577

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About Japanese knotweed:

Japanese knotweed is considered to be one of the toughest, most damaging and insidious plants in the world. Native to East Asia, the species has already established successfully in many parts throughout North America and Europe, where it can easily grow and invade private properties and homes. It is hardy enough to penetrate patios, house foundations and concrete. Given it spreads easily and can grow underground to a depth of 3 metres with a horizontal range of up to 7 metres, it is extremely difficult to eradicate and its treatment requires special attention. To find advice on recognition, hazards and treatment, you can check out The Ultimate Japanese Knotweed Guide.

A genus of European paper wasps revised for the first time using integrative taxonomy

The European and Mediterranean species of the paper wasp genus Polistes were recently revised by scientists at the SNSB-Zoologische Staatssammlung München (ZSM).

For the first time for this group scientists applied an integrative taxonomic approach which combines traditional morphological methods with modern DNA barcoding.

As a result, the researchers were able to identify a new species from Morocco. For this well-researched wasp group, this is an actual sensation.

The study is published in the open access journal ZooKeys.

The Munich researchers analysed more than 260 wasp specimens collected from across the study area with the help of DNA barcoding.

They managed to identify all species and determine their distribution. In addition, based on the genetic data, they were able to evaluate morphological characters for each species and created a completely new key for identification.

The wasps of the genus Polistes belong to the family Vespidae. The genus is represented by 17 species in Europe and the Mediterranean, with four species occurring in Germany. Within the genus, 13 species are social, with the queen overwintering and founding a new nest with up to 200 workers. Four species are parasitic and have no workers.

Although Polistes has been well-known in Central Europe for more than 200 years, knowledge of Mediterranean species has so far been scarce. Many species of the genus exhibit only subtle morphological differences and show high levels of colour variation, further complicating their identification.

An important result of this research is the separation of species of the Polistes gallicus species complex into three distinct species. Moreover, the genetic data led to the discovery of a new species, represented by a single specimen from the High Atlas Mountains in Morocco. This was an unexpected result for the researchers. The species was named Polistes maroccanus.

Another very surprising result was the discovery of high levels of genetic variation within Polistes dominula, a species commonly found in Central Europe, indicating the presence of up to three different and hitherto unrecognized species – a case requiring further investigation.

Integrative taxonomy is an approach that combines different scientific methods to reliably differentiate species. In particular, DNA barcoding has proven to be a useful technique for the identification of species and for the discovery of new species. The method allows to identify most species quickly and accurately, even those species that are difficult to identify using traditional methods based on morphological characters.

DNA barcoding uses a short gene fragment that differs in almost all species worldwide. The sequences are stored in an online database and can be used for identification. The method derives its name for being reminiscent of the barcodes similar to those found on products in supermarkets that allow quick and error-free identification at the checkout.

DNA barcoding is part of a global research initiative led by the Canadian scientist Paul Hebert from the University of Guelph. The ZSM is a project partner and involved in assembling DNA barcodes of the German animal species. In addition to ZSM researchers, scientists from Switzerland and the Netherlands contributed to the Polistes project.

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Original source:

Schmid-Egger C, van Achterberg K, Neumeyer R, Morinière J, Schmidt S (2017) Revision of the West Palaearctic Polistes Latreille, with the descriptions of two species – an integrative approach using morphology and DNA barcodes (Hymenoptera, Vespidae). ZooKeys 713: 53-112. https://doi.org/10.3897/zookeys.713.11335

Artificial neural networks could power up curation of natural history collections

Deep learning techniques manage to differentiate between similar plant families with up to 99 percent accuracy, Smithsonian researchers reveal

Millions, if not billions, of specimens reside in the world’s natural history collections, but most of these have not been carefully studied, or even looked at, in decades. While containing critical data for many scientific endeavors, most objects are quietly sitting in their own little cabinets of curiosity.

Thus, mass digitization of natural history collections has become a major goal at museums around the world. Having brought together numerous biologists, curators, volunteers and citizens scientists, such initiatives have already generated large datasets from these collections and provided unprecedented insight.

Now, a study, recently published in the open access Biodiversity Data Journal, suggests that the latest advances in both digitization and machine learning might together be able to assist museum curators in their efforts to care for and learn from this incredible global resource.

A team of researchers from the Smithsonian Department of Botany, Data Science Lab, and Digitization Program Office recently collaborated with NVIDIA to carry out a pilot project using deep learning approaches to dig into digitized herbarium specimens.

*Smithsonian researchers classifying digitized herbarium sheets.*

Their study is among the first to describe the use of deep learning methods to enhance our understanding of digitized collection samples. It is also the first to demonstrate that a deep convolutional neural network–a computing system modelled after the neuron activity in animal brains that can basically learn on its own–can effectively differentiate between similar plants with an amazing accuracy of nearly 100%.

In the paper, the scientists describe two different neural networks that they trained to perform tasks on the digitized portion (currently 1.2 million specimens) of the United States National Herbarium.

The team first trained a net to automatically recognize herbarium sheets that had been stained with mercury crystals, since mercury was commonly used by some early collectors to protect the plant collections from insect damage. The second net was trained to discriminate between two families of plants that share a strikingly similar superficial appearance.

*Sample herbarium specimen image of stained clubmoss.*

The trained neural nets performed with 90% and 96% accuracy respectively (or 94% and 99% if the most challenging specimens were discarded), confirming that deep learning is a useful and important technology for the future analysis of digitized museum collections.

“The results can be leveraged both to improve curation and unlock new avenues of research,” conclude the scientists.

“This research paper is a wonderful proof of concept. We now know that we can apply machine learning to digitized natural history specimens to solve curatorial and identification problems. The future will be using these tools combined with large shared data sets to test fundamental hypotheses about the evolution and distribution of plants and animals,” says Dr. Laurence J. Dorr, Chair of the Smithsonian Department of Botany.

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Original source:

Schuettpelz E, Frandsen P, Dikow R, Brown A, Orli S, Peters M, Metallo A, Funk V, Dorr L (2017) Applications of deep convolutional neural networks to digitized natural history collections. Biodiversity Data Journal 5: e21139. https://doi.org/10.3897/BDJ.5.e21139

DNA study in the Pacific reveals 2000% increase in our knowledge of mollusc biodiversity

Lead author Dr Helena Wiklund examining specimens on the RV Melville in October 2013

Scientists working in the new frontier for deep-sea mining have revealed a remarkable 2000% increase in our knowledge of the biodiversity of seafloor molluscs.

The 21 mollusc species newly described thanks to the latest DNA-taxonomy methodology

Tweny-one species, where only one was previously known, are reported as a result of the research which applied the latest DNA-taxonomy methodology to mollusc specimens collected from the central Pacific Clarion Clipperton Zone (CCZ) in 2013. They are all described in the open access journal ZooKeys.

Among the discoveries is a monoplacophoran mollusc species regarded as a ‘living fossil’, since it is one the ancestors of all molluscs. This is the first DNA to be collected from this species and the first record of it from the CCZ mining exploration zone – a vast 5-million-km² region of the central Pacific that is regulated for seabed mining by the International Seabed Authority.

“Despite over 100 survey expeditions to the region over 40 years of mineral prospecting, there has been almost no taxonomy done on the molluscs from this area,” says lead author Dr Helena Wiklund of the The Natural History Museum in London (NHM).

Dr Wiklund undertook a comprehensive DNA-based study of the molluscs to confirm species identities and make data available for future taxonomic study. This was coupled with the expertise of the NHM’s Dr John Taylor, who led the morphological work.

The molluscs were found in samples taken on and in the mud surrounding the potato-sized polymetallic nodules that are present in high abundance across the CCZ. These nodules are the target for potential deep-sea mining being rich in cobalt, copper, nickel, manganese and other valuable minerals.

The data are vital for the future environmental regulation of deep-sea mining, but have also revealed surprising patterns.

“I was amazed to discover that specimens collected during the 19th century by HMS Challenger were probably the same as ours over a range of 7000 km, but that data lodged on genetic databases from closer but shallower depths is likely to be from a different species,” comments Dr Thomas Dahlgren, population geneticist at Uni Research, Norway and University of Gothenburg, Sweden, who studied in detail a species called Nucula profundorum.

“Our efforts are now focussing on studying the DNA from many more samples of this species to examine connectivity and potential resilience to deep-sea mining,” he added.

Dr Thomas Dahlgren sieving sediments to find new clam and snail species

“It is a simple truth that we cannot move forward on regulatory approval for deep-sea mining without fundamental baseline data on what animals actually live in these regions,” says Principal Investigator of the NHM Deep-sea Systematics and Ecology Research Group, Dr Adrian Glover.

“Our work has highlighted obvious gaps in our knowledge, but also shown that with even relatively modest effort, we can greatly increase our understanding of baseline biodiversity using DNA-taxonomy.”

Creating a library of archived DNA-sequenced samples from known species allows for the future possibility of using the latest environmental DNA (eDNA) methods to ‘search’ for these species using just tiny samples of mud or seawater.

“Its akin to forensic science’, says Dr Glover. “You can’t use eDNA to find the criminals or species unless you have a library of information to compare them too”.

All data and specimens from the study have been lodged at the NHM and online repositories to make them accessible for future study. Of particular importance are the frozen tissue collections, which are housed in the state-of-the-art Molecular Collections Facility at the NHM and available for loan or further DNA work.

Original source:

Wiklund H, Taylor JD, Dahlgren TG, Todt C, Ikebe C, Rabone M, Glover AG (2017) Abyssal fauna of the UK-1 polymetallic nodule exploration area, Clarion-Clipperton Zone, central Pacific Ocean: Mollusca. ZooKeys 707: 1–46. https://doi.org/10.3897/zookeys.707.13042

New open-access journal Metabarcoding & Metagenomics joins the lines of publisher Pensoft

The new innovative academic journal makes use of the one-of-a-kind publishing platform ARPHA and its collaborative writing tool via the ARPHA-XML workflow

A new innovative open-access academic journal Metabarcoding and Metagenomics (MBMG) is launched to welcome novel papers from both basic and applied aspects.

Focusing on genetic approaches to study biodiversity across all ecosystems, MBMG covers a considerably large scope of research including environmental, microbial and applied metabarcoding and metagenomics (especially DNA-based bioassessment and -monitoring, quarantine, nature conservation, species invasions, eDNA surveillance), as well as associated topics, such as molecular ecology, DNA-based species delimitation and identification, and other emerging related fields. Submissions of bioinformatic approaches to MBMG (algorithms, software) are also encouraged.

Featuring novel article formats and data publishing workflows, MBMG is to reflect the rapid growth in the use of metabarcoding and metagenomics in life and environmental sciences.

Issued via ARPHA – the first ever publishing platform to support manuscripts all the way from authoring to peer review to publication and dissemination, designed by the academic publisher and technology provider Pensoft, the new journal is to host a wide range of outcomes from across the research cycle, including data, models, methods, workflows, software, perspectives, opinions, implementation strategies, as well as conventional research articles.

While the above-mentioned publication types are already available in other journals published on the ARPHA platform, such as Research Ideas and Outcomes (RIO), Biodiversity Data Journal and One Ecosystem, MBMG provides five extra domain-specific article types, namely: Emerging Technique, Applied Study, DNA Barcode Release, Primer Validation and Probe Validation.

The journal’s articles are to be available in three formats (PDF, XML, HTML) and full of semantic enhancements for better human- and machine-readability and discoverability. The XML-based workflow also ensures that content and data are available for extraction, indexing and re-use immediately after publication.

With Pensoft standing for transparent, reproducible and open science, the authors at MBMG are strongly encouraged to make all data publicly available either within the publication itself, or to link to external repositories. In their turn, the peer reviewers are also suggested to provide public access to their reviews and identities.

In time for the launch, MBMG has already gathered a team of experienced and renowned scientists from across the globe together on its editorial and advisory board.

“I am pleased to introduce the Metabarcoding and Metagenomics journal to the family of Pensoft,” says Prof. Lyubomir Penev, Founder and Managing Director at Pensoft. “With its exhaustive scope and advanced services and concept, I believe it fills fantastically a niche in our strong portfolio of mostly biodiversity- and ecology-themed journals.”

“Metabarcoding and metagenomics approaches are rapidly progressing and revolutionise research and its application alike,” Chief Editor Prof. Florian Leese states. “With the MBMG journal we provide an ideal platform to respond to this rapidly growing field, nucleate the emerging knowledge and stimulate further development.”

The first batch of research papers published in MBMG are now available on their new website.

“MBMG not only complements the range of journals in the field of molecular environmental life sciences, but also stands out as a novel outlet providing several unique features designed to help researchers to prepare for, and professionally deal with, the massive “deluge” of data,” reads the Editorial.

To celebrate the launch, MBMG starts with a tempting offer to potential authors: publishing will be completely free of charge during the beginning stages of the journal.

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Follow Metabarcoding and Metagenomics on Twitter | Facebook.

Heat-loving Australian ants believe in diversity, hint 74 species new to science

The ‘furnace ants’ or ‘honeypot ants’ present a very large genus of ants, Melophorus, confined to Australia. Long believed to be megadiverse, some scientists have even suggested that the group may contain ‘well over 1000 species’. However, to this point, only 32 species and subspecies had been described.

Scientists Dr Brian Heterick of Curtin University, Dr Mark Castalanelli of Ecodiagnostics Pty Ltd and Dr Steve Shattuck of the Australian National University, funded by an internationally competitive Australian Biological Resources (ABRS) grant, set out to find the true facts.

As a result, they discovered as many as 74 new species belonging to Melophorus. In their study, published in the open access journal ZooKeys, they also provide a taxonomic key to the workers of a total of 93 species in the genus.

Among the studied ants, there are quite bizarre ones, including a species (Melophorus hirsutus) whose eyes are strangely protruding out of his head to a varying degree. In the extreme cases, the eyes are so pointy that could be likened to ice-cream cones. Named many years ago, this ant appears to be older than the rest of the examined living species. Furthermore, unlike most of them, it does not seem adapted to heat. It is confined to the wet eastern coast of Australia.

Dr Heterick spent two weeks collecting specimens in the often rugged and forbidding terrain of Western Australia, while the team also asked a number of major museum collections to loan them specimens.

The newly collected ants were placed in alcohol and subjected to genetic tests using one mitochondrial and four nuclear genes. The findings were then compared with those from physical examinations to prepare the taxonomic key – a set of distinctive features per species that can be used to differentiate within the group.

Given the generally complex nature of these ants, the authors expect for the genus to further expand in future. They speculate that even though the numbers may increase to around 100 species, not the ‘well over 1000’ previously predicted, they still illustrate an incredible diversity.

The authors estimate that Melophorus arose around 35 million years ago. The closest relatives of the genus are also confined to the Australasian region with the exception of a single genus living in South America.

Furthermore, the genus is also quite astonishing thanks to another trait shared among the species.

“By the way, this group of ants has a thing or two to tell those of us who get lost easily!” comments lead author Dr Brian Heterick.

“They can find their way home in a featureless landscape by means of an internal compass influenced by information gathered on earlier journeys. We are not the first species to use a computing system!”

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Original source:

Heterick B, Castalanelli M, Shattuck S (2017) Revision of the ant genus Melophorus (Hymenoptera, Formicidae). ZooKeys 700: 1-420. https://doi.org/10.3897/zookeys.700.11784

An extraordinary cave animal found in Eastern Turkmenistan

A remote cave in Eastern Turkmenistan was found to shelter a marvelous cave-adapted inhabitant that turned out to represent a species and genus new to science. This new troglodyte is the first of its order from Central Asia and the first strictly subterranean terrestrial creature recorded in the country.

Kaptarhana cave is located at the foot of Koytendag Mountain, one of the most distinctive mountain landscapes in Central Asia. A curious amalgam of desert landscapes, often highly dissected by ravines, foothills with ridges, cuestas and fan plains, the mountain is a potential home to key biodiversity gems still awaiting discovery.

Also remarkable for its richness of caves and other limestone formations, Koytendag Mountain has more than 300 caves, sinkholes and potholes, hitherto registered from its territory, including the sixth largest cave system in Asia Gap Goutan/Promezdutachnaya stretched at more than 57 km underground. Also worthy of a mention is the beautiful cave Gulshirin, known for its snow white passages and extraordinary formations.

Another fine example, cave Kaptarhana, presents a unique habitat for a high number of cave-adapted animals, among which is the new species of a few millimetres long, pale and eyeless insect-like creature, whose relatives in the order Diplura also go by the name of two-pronged bristletails.

The scientists named it Turkmenocampa mirabilis, where the genus name (Turkmenocampa) refers to the creature’s country of origin (Turkmenistan), while the species name (mirabilis) means “unusual, amazing, wonderful, remarkable” in Latin to highlight its unique morphology and position among its relatives.

The new species is described in the open access journal Subterranean Biology by Dr. Alberto Sendra, University of Alcalá, Spain, Prof. Boris Sket, University of Ljubljana, and Prof. Pavel Stoev, National Museum of Natural History, Bulgaria.

In fact, Stoev and Sket were the first speleobiologists to visit and explore Kaptarhana in nearly 43 years. The survey was part of their study into the caves of Koytendag State Nature Reserve, Turkmenistan, conducted in 2015 and endorsed by a Memorandum of Understanding between the State Committee on Environment Protection and Land Resources of Turkmenistan and the Royal Society for the Protection of Birds.

To discover the new species, the scientists spent about 8 hours in the cave looking for specimens and placed pitfall traps with smelly cheese used as a bait. While visual observations had no success due to the cave being very spacious, a number of exemplars of the hitherto undescribed animal fell victims of the traps.

“What we have here is not only a new remarkable organism, but also an amazing and unusual cave critter that has undergone a long evolutionary journey to adapt to the underground environment of Central Asia,” says the lead author Alberto Sendra.

The authors see their latest discovery as a proof of the importance of Kaptarhana as a refuge for a number of endemic invertebrates and an opportunity to draw attention to its protection under the laws of Turkmenistan.

“While many speleobiologists consider the terrestrial cave fauna in Central Asia as poor, it is places such as Kaptarhana that can turn the tables by giving us new insights about the biodiversity richness, evolutionary history, formation and functioning of the underground ecosystems of this part of the world.” comments Stoev.

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Original source:

Sendra A, Boris Sket B, Stoev P (2017) A striking new genus and species of troglobitic Campodeidae (Diplura) from Central Asia. Subterranean Biology 23: 47-68. https://doi.org/10.3897/subtbiol.23.14631

Six new sponge species and new symbiotic associations from the Indonesian coral triangle

Comprising more than 17,000 islands, the Indonesian archipelago is one of the world’s most biodiverse places on Earth.

Sponges, aquatic organisms whose bodies consist of numerous pores to allow the ingress of water, are key components of this richness and play a fundamental role in the survival of coral reef habitats. Furthermore, they are also known for their medicinal benefits.

Unfortunately, due to the paucity of taxonomic expertise, the sponges from the Indonesian reefs are often ignored in monitoring surveys and conservation programmes, while their diversity is largely underestimated.

Researchers from the Italian Università Politecnica delle Marche and Università degli Studi di Genova, PharmaMar, Spain, and University of Sam Ratulangi, Indonesia, describe six new species in their paper in the open access journal, ZooKeys.

Inspired by their extraordinary biodiversity, the researchers teamed up with the pharmaceutical company PharmaMar to conduct several expeditions in the waters of North Sulawesi Island.

The authors reported a total of 94 demosponge species belonging to 33 families living in the North Sulawesi Island. Amongst them, there are six species new to science and two previously unknown symbiotic relationships.

Seven of the recorded species were collected for the very first time since their original description.

However, these findings are still scarce, given the abundance of the sponges in similar localities in the Indonesian archipelago.

In conclusion, the authors note that the marine diversity in Indonesia is still far from being well known.

“Thanks to this impressive diversity, these areas are important spots for diving tourism and require the urgent development of sustainable tourism practices,” they say.

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Original source:

Calcinai B, Bastari A, Bavestrello G, Bertolino M, Horcajadas SB, Pansini M, Makapedua DM, Cerrano C (2017) Demosponge diversity from North Sulawesi, with the description of six new species. ZooKeys 680: 105-150. https://doi.org/10.3897/zookeys.680.12135

Light at the end of the tunnel: Restored forest now shelters dozens of endangered species

During the last twenty years, scientists worked hard to protect and restore the scattered patches of a dilapidated forest and its surroundings of agricultural and fallow vegetation in southern Benin.

With the help of their locally recruited assistants, Peter Neuenschwander, International Institute of Tropical Agriculture, Benin, and Aristide Adomou, University of Abomey-Calavi, Benin, successfully thinned out the alien timber growing there and introduced 253 species, whose seeds and plantlets they had managed to collect from the last remnants of the original forest. Their research article is published in the open access journal Nature Conservation.

Today, the rehabilitated forest in Drabo harbours about 600 species of plants and constitutes a sanctuary for many animals, including the critically endangered and endemic red-bellied monkey.

Over the course of the last two decades, pantropical weedy species declined, while West-African forest species increased in numbers. Of the former, fifty-two species, mostly trees, shrubs and lianas, are listed as threatened – more than those in any other existing forest in Benin. Furthermore, some of the critically endangered species amongst them can be found exclusively in the last small, often sacred forests in Benin, which while covering merely 0.02% of the national territory, harbour 64% of all critically endangered plant species.

“The biodiversity richness of the rehabilitated forests of Drabo now rivals that of natural rainforest remnants of the region,” note the authors.

The newly restored forest in Drabo is relatively easy to access due to its proximity to large towns. It is intended to become an educational and research centre maintained by the International Institute of Tropical Agriculture. In fact, it already serves as an exemplary forest in the region.

With their initiative, the scientists and their followers demonstrate that by involving local communities and taking their customs into consideration, the safety of exposed precious ecosystems, even if located in a densely populated area, can be effectively assured.

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Original source:

Neuenschwander P, Adomou AC (2017) Reconstituting a rainforest patch in southern Benin for the protection of threatened plants. Nature Conservation 21: 57-82. https://doi.org/10.3897/natureconservation.21.13906