Pensoft blog - Part 86

The ‘Star dust’ wasp is a new extinct species named after David Bowie’s alter ego

During her study on fossil insects of the order Hymenoptera at China’s Capitol Normal University, student Longfeng Li visited the Smithsonian National Museum of Natural History, Washington, carrying two unidentified wasp specimens that were exceptionally well-preserved in Burmese amber. This type of fossilized tree resin is known for the quality of the fossil specimens which can be preserved inside it. Being 100 million years old, they provide an incredible view into the past.

The subsequent analysis of the specimens revealed that both represent species new to science. Furthermore, one of the wasps showed such amazing similarities to a modern group of wasps that it was placed in a currently existing genus, Archaeoteleiawhich has long been considered as an ancient lineage. The species are described in a study published in the open access Journal of Hymenoptera Research.

However, Archaeoteleia has changed since the times when the ancient wasp got stuck on fresh tree resin. The authors note that “a novice might not recognize the characters that unite the fossil with extant species”. For instance, the modern wasp species of the genus show visibly longer antennal segments and a different number of teeth on the mandible when compared to the fossil. In turn, the description of the new extinct species enhances the knowledge about living species by highlighting anatomical structures shared by all species within the genus.

This fossil wasp with living relatives received quite a curious name, Archaeoteleia astropulvis. The species name, astropulvis, translates from Latin to ‘star dust’. The discoverers chose the name to refer to both “the ancient source of the atoms that form our planet and its inhabitants”, as well as to commemorate the late David Bowie’s alter ego – Ziggy Stardust.

Unlike the Star dust wasp, the second new species belongs to a genus (Proteroscelio) known exclusively from Cretaceous fossils. Likewise, it is a tiny insect, measuring less than 2mm in length. It also plays an important role in taxonomy by expanding the anatomical diversity known from this extinct genus.

The authors conclude that their discovery, especially the Star dust wasp and its placement in an extant genus, where it is the only fossil species, “exemplifies the importance of understanding the extant fauna of a taxon to interpret fossils”.

“Such union of fossil and extant morphologies is especially illuminating and requires examination of both kinds of specimens,” they add.

###

Original source:

Talamas EJ, Johnson NF, Buffington ML, Dong R (2016) Archaeoteleia Masner in the Cretaceous and a new species of Proteroscelio Brues (Hymenoptera, Platygastroidea). In: Talamas EJ, Buffington ML (Eds) Advances in the Systematics of Platygastroidea. Journal of Hymenoptera Research 56: 241-261. https://doi.org/10.3897/jhr.56.10388

150-year Syzygium records gap on Sulawesi ends with 5 new species in the world’s largest tree genus

It seemed rather unusual that the largest tree genus, Syzygium, containing over 1500 species, was only represented by about a dozen of records on the biodiversity-rich island of Sulawesi, the latest new species description dating back to the mid-19th century.

One hundred and fifty years onward, a new article published in the open access journal PhytoKeys, highlights the large portion of undocumented plant diversity on the island, by introducing not one, but five new species to add to the abundant tree genus.

Conducting fieldwork on plant diversity and ecology of the tropical mountain forests of Sulawesi in the period 2006-12, a team of ecologists from the University of Göttingen had difficulties identifying plant specimens of the myrtle family brought back from their field surveys. They noticed that only some 14 species of Syzygium were known to occur in Sulawesi, surprisingly few compared to around 200 each in neighboring Borneo and the Philippines.

“In addition to the limited knowledge about plants in Sulawesi, we were dealing with what is probably the largest genus of trees in the world, the size of which was apparently putting off to many researchers of the past.” comments PhD student F. Brambach. “This is probably why our basic knowledge of the taxonomy of Syzygium hasn’t improved much since the early days of botanical exploration of the region in the first half of the 19th century.”

The ecologists turned to Dr Byng, director of Plant Gateway and Visiting Research Fellow at Naturalis Biodiversity Centre in the Netherlands, who is coordinating a global revision of Syzygium, a genus best known for the clove tree. To him the possibility of what appeared to be undescribed species came as no surprise.

“After extensive screening of herbarium specimens from Sulawesi, I had estimated around 90 additional species to be present on the island, most of which are not yet named and probably only occur there. This would mean we only currently known around 13% of the island’s real diversity,” explains the expert.

The potential number of new Syzygium still waiting to be described raises concern, especially when considering the fast rate at which tropical forests in Indonesia are lost. Sulawesi is no exception, with three of the five newly described species considered to be “endangered” following the criteria of the IUCN.

“In this time of rapid species loss worldwide, cooperation between field ecologists and herbarium taxonomists is important to document the vast diversity of organisms in understudied regions, such as tropical mountain forests, especially for large and complicated groups like Syzygium,” Dr Culmsee said.

Well-known for its unique fauna, the flora on the island of Sulawesi has received considerably less attention to date. With the publication of the new five species, the authors, Fabian Brambach, Dr Heike Culmsee, and Dr James W. Byng, hope to change this and instigate more botanical research in the area.

###

Original source:

Brambach F, Byng JW, Culmsee H (2017) Five new species of Syzygium (Myrtaceae) from Sulawesi, Indonesia. PhytoKeys 81: 47-78. https://doi.org/10.3897/phytokeys.81.13488

Additional Information:

The research was founded by by the German Research Foundation (DFG) and Evangelisches Studienwerk Villigst (Germany).

First few millimeters of the leaf margin identify palm species in a new key to genus Syagrus

An incredible amount of information is contained in the very first few millimeters of the leaflet margin of species in the Neotropical palm genus Syagrus.

In fact, this tiny leaf slice carries enough information to identify the species to which it belongs. In a new key to the Neotropical palm genus Syagrus, published in the open access journal PhytoKeys, scientists demonstrate how this technique could be useful in species identification when other morphological characters fail to give definite answers.

The manuscript not only demonstrates the benefits of using leaflet anatomy, but also teaches how to use simple leaflet-slicing or sectioning techniques that plant scientists can apply to their own species identification research.

Leaf-slicing techniques are not new to botany and there is a number of ways to hand section leaflet margins, which neither require expensive hardware or use of chemicals and dyes, making the method accessible in almost all settings.

In fact, what Dr. Larry R. Noblick from the Montgomery Botanical Center, Florida, USA, proposes in his paper is a technique using a small straight razor and a piece of carrot to obtain the palm leaflet slices used in his research.

“One can easily and quickly access a lot of information from simple cross-sections that is helpful not only to identify species but to even show crude relationships within a group. We demonstrate the technique for palms from the Syagrus genus, but we strongly believe it may be found useful in other plant groups as well,” explains the author.

###

Original Source:

Noblick LR (2017) Key to Syagrus identification using leaflet margin anatomy: Supplement to “A revision of Syagrus (Arecaceae)”. PhytoKeys 81: 19-46. https://doi.org/10.3897/phytokeys.81.12909

Gender dictates camouflage strategy in this newly identified praying mantis group

Adult females and males in a newly identified genus of Latin American praying mantises have evolved sharply different camouflage strategies, according to a Cleveland Museum of Natural History-led study published in the journal ZooKeys.

Adult males of the new genus retain the stubby, stick-like body configuration and brown coloration they have used as nymphs, whereas adult females, whose bodies grow to be considerably larger to maximize egg production, transform their appearance to mimic a leaf. They change to green, while their forewings become larger and more rounded compared to the male’s, with veins that simulate a leaf structure.

Although adult females are nearly two inches long, the members of this new mantis genus had escaped scientific recognition until recently, in part because the disparity in camouflage tactics made classification difficult.

This shrewdness inspired the name for the new mantis species: Hondurantemna chespiritoi. The genus name (Hondurantemna) derives from Honduras, where the first female specimen was found, in combination with Antemna, a Neotropical mantis to which the new lineage is closely related.

Meanwhile, the species name, chespiritoi, is a nod to the late Mexican comedian Roberto Gómez Bolaños, known as Chespirito, or Little Shakespeare. One of Bolaños’ TV characters, a goofy superhero called the Red Grasshopper, was fond of saying “¡No contaban con mi astucia!” — Spanish for “They didn’t count on my cleverness!” — when he defeated bad guys.

“I grew up watching that TV show in Brazil”, says the study’s lead author, Cleveland Museum of Natural History entomologist and Case Western Reserve University biology Ph.D. candidate Henrique Rodrigues.

“The first male specimen of the new mantis species was from Mexico, like Bolaños,” he explains. “And the signature line of Bolaños’ Red Grasshopper character kind of reminded me of the fact that you had this pretty large species of praying mantis that no one had found for many years.”

Adult female and male specimens of the mantis species were in separate museum collections in Paris, France and San Francisco, California, but had remained unidentified and their relationship unrecognized for more than two decades because of their dissimilar appearances.

Entomologist Julio Rivera, Ph.D., spotted the large green female mantis in the Muséum national d’Histoire naturelle, Paris and brought it to the attention of Cleveland Museum of Natural History Curator of Invertebrate Zoology Gavin Svenson, Ph.D., an international expert on praying mantises. Dr. Svenson later saw the small brown male mantis in the California Academy of Sciences and noted that the two insects, though dissimilar in color and size, had body features that hinted they might be members of the same Antemninae sub-family.

Yet, adaptation to similar environments can cause unrelated organisms to develop similar features. This phenomenon, called convergent evolution, can complicate the process of sorting out connections on the praying mantis family tree.

Dr. Svenson is leading a research project to more accurately reclassify the massive praying mantis family tree using DNA testing and insights from the insects’ body form and features – their morphology. He has consolidated many of the country’s major mantis collections at the Cleveland museum, thus building the Western Hemisphere’s largest assemblage of the insects to aid this effort.

The final pieces of the puzzle that allowed the Cleveland researchers to identify the new mantis lineage arrived by chance. Neil Reid, Ph.D., a lecturer at Queen’s University in Belfast, Northern Ireland, contacted Dr. Svenson, wondering if he wanted to examine a group of unknown praying mantises that Dr. Reid had gathered in a Honduran cloud forest.

The specimens Dr. Reid provided included two adult females and some male and female nymphs in various stages of development. The adult females looked the same as the female from the Paris museum. The male nymphs closely resembled the adult male from San Francisco. Having the nymphs let the researchers see the separate camouflage strategies the male and female mantises adopted as they matured.

Rodrigues conducted DNA tests that confirmed the mantises all represented the same genus and species, which had not been recognized before. The analysis also showed where this new mantis group, or taxon, fit on the complex mantis family tree: verifying that it belonged in the Antemninae subfamily.

“The recognition of H. chespiritoi shows the important role genetics can play in classifying insect relationships. It also highlights the value of museum collections,” Dr. Svenson says.

“When people ask us, ‘Why do you collect things?’, it’s because we still have a shockingly small concept of the biodiversity that’s out there,” Dr. Svenson says. “Museums are the places that hold that biological knowledge, and we’re pulling information out of them all the time.”

Original Source

Rodrigues HR, Rivera J, Reid N, Svenson GJ (2017) An elusive Neotropical giant, Hondurantemna chespiritoi gen. n. & sp. n. (Antemninae, Mantidae): a new lineage of mantises exhibiting an ontogenetic change in cryptic strategy. ZooKeys 680: 73-104. https://doi.org/10.3897/zookeys.680.11162

Invasive alien plant control assessed for the Kruger National Park in South Africa

Along with urban and agricultural encroachment and pollution mitigation, managing invasive alien species is a key intervention needed to protect biodiversity. Unfortunately, on a global scale there are not enough funds to meet the requirements for effective conservation everywhere, which means that scarce funds need to be allocated where they can be used most efficiently.

In order to find out whether the historical measures undertaken at the Kruger National Park in South Africa have been effective and optimised, researchers led by Prof. Brian W. van Wilgen of Stellenbosch University assessed the invasive alien plant control operations in the protected area over several decades. Their findings and recommendations are published in the open access journal Neobiota.

While the first invasive alien plants in the national park, which stretches over two million hectares, were recorded back in 1937, it was not until the mid-1950s that attempts at controlling them began. By the end of the century, the invasive alien plant control program had expanded substantially.

Dense invasions of the West Indian Lantana (Lantana camara) along the Sabie River in the Kruger National Park have required intensive mechanical and chemical control to clear. — *Dense invasions of the West Indian Lantana along the Sabie River in the Kruger National Park have required intensive mechanical and chemical control to clear.*

However, the scientists found out that despite several invasive alien species having been effectively managed, the overall control effort was characterised by several shortcomings, including inadequate goal-setting and planning, the lack of a sound basis on which to apportion funds, and the absence of any monitoring of control effectiveness.

Furthermore, the researchers report that over one third (40%) of the funding has been spent on species of lower concern. Some of these funds have been allocated so that additional employment could be created onsite, or because of a lack of clear evidence about the impact of certain species.

As a result of their observations, the team concludes three major strategies when navigating invasive alien species control operations.

Firstly, a thorough assessment of the impact of individual species needs to be carried out prior to allocating substantial funds. On the other hand, in case of a new invasion, management needs to be undertaken immediately before any further spread of the population and the subsequent rise in control costs. Monitoring and assessments have to be performed regularly in order to identify any new threats that could potentially be in need of prioritisation over others.

Secondly, the scientists suggest that the criteria used to assign priorities to invasive alien species should be formally documented, so that management can focus on defensible priorities. They propose using a framework employing mechanisms of assessments used in the International Union for Conservation of Nature‘s Global Invasive Species Database.

The authors also point out that re-allocating current funds to species of greater concern is needed for species that cannot be managed via less expensive solutions such as biological control. Taking care of alien plant populations living outside of the park, but in close proximity, is also crucial for the prevention of re-invasions of already cleared areas.

Sunset Dam heavily infested with water lettuce (left). The population was effectively eliminated by a combination of biological and chemical control (right). — *Sunset Dam heavily infested with water lettuce (left). The population was effectively eliminated by a combination of*
*biological and chemical control (right).*

###

Original source:

van Wilgen BW, Fill JM, Govender N, Foxcroft LC (2017) An assessment of the evolution, costs and effectiveness of alien plant control operations in Kruger National Park, South Africa. NeoBiota 35: 35-59. https://doi.org/10.3897/neobiota.35.12391

Scopus CiteScore metrics integrated with Pensoft journals

Having long been indexed by the largest abstract and citation database of peer-reviewed literature – Scopus, Pensoft journals published on the ARPHA journal publishing platform have now accommodated its latest handy products.

Both Scopus CiteScore and CiteScoreTracker have been integrated with journals published by Pensoft on ARPHA, so that evidence of their impact can be easily provided on a monthly, as well as yearly basis. The metrics are already visible on the homepages of 15 journals published by Pensoft.

Scopus calculates its CiteScore through a simple formula based on the average citations received per document.

The yearly CiteScore is how many times papers published in the previous three years with a single journal are cited in that particular year.

Meanwhile, the CiteScoreTracker provides an estimate on a monthly basis. Since the citation count builds up every month, it is still consistent with the complete year’s score, providing helpful information for a journal’s current performance. Furthermore, it ensures that journals which have only recently been indexed by Scopus are quick to receive their own CiteScore.

To provide an impact estimate as robust and reliable as possible, Scopus CiteScore relies on both the largest database of peer-reviewed literature, and inclusiveness of all publication types. While the latter is necessary in order to acknowledge the scientific value of all academic papers that have found their place in a scholarly journal, it also significantly reduces the risk of metrics manipulation.

To further illustrate the impact of Pensoft publications, a direct citation feed has recently been integrated that shows the number of Scopus citations for a particular publication. Accessible from a tab visible in each publication is a count of scholarly articles that have cited it in Scopus, in addition to previously integrated Crossref, Google Scholar and PubMed.

“Integrating Scopus CiteScore and CiteScoreTracker with all Pensoft journals and potentially with all journals published on ARPHA is what I believe to be of great benefit to all our present and future users, readers and editorial team,” says Pensoft’s founder and CEO Prof. Lyubomir Penev. “It is a fantastic way to keep a real-time track of our progress and impact in the scientific community.”

“We are delighted that Pensoft are including CiteScore metrics on their journal pages. They join a selection of early adopting publishers that recognise the need to provide their users with a range of indicators to better measure the impact of their journals,” says Chris James, Product Manager Research Metrics at Elsevier, who is responsible for CiteScore.

Data Quality Checklist and Recommendations at Pensoft

As much as research data sharing and re-usability is a staple in the open science practices, their value would be hugely diminished if their quality is compromised.

In a time when machine-readability and the related software are getting more and more crucial in science, while data are piling up by the minute, it is essential that researchers efficiently format and structure as well as deposit their data, so that they can make it accessible and re-usable for their successors.

Errors, as in data that fail to be read by computer programs, can easily creep into any dataset. These errors are as diverse as invalid characters, missing brackets, blank fields and incomplete geolocations.

To summarise the lessons learnt from our extensive experience in biodiversity data audit at Pensoft, we have now included a Data Quality Checklist and Recommendations page in the About section of each of our data-publishing journals.

We are hopeful that these guidelines will help authors prepare and publish datasets of higher quality, so that their work can be fully utilised in subsequent research.

At the end of the day, proofreading your data is no different than running through your text looking for typos.

We would like to use the occasion to express our gratitude to Dr. Robert Mesibov, who prepared the checklist and whose expertise in biodiversity data audit has contributed greatly to Pensoft through the years. Continue reading “Data Quality Checklist and Recommendations at Pensoft”

New species of frog from the Neotropics carries its heart on its skin

In the Neotropics, there is a whole group of so-called glassfrogs that amaze with their transparent skin covering their bellies and showing their organs underneath. A recently discovered new species from Amazonian Ecuador, however, goes a step further to fully expose its heart thanks to the transparent skin stretching all over its chest as well as tummy.

The new amphibian is described by a team of scientists led by Dr. Juan M. Guayasamin, Universidad San Francisco de Quito, Ecuador, in the open access journal ZooKeys.

It can also be distinguished by the relatively large dark green spots at the back of its head and the foremost part of the body. Additionally, the species has a characteristic long call.

The new frog is named Hyalinobatrachium yaku, where the species name (yaku) translates to ‘water’ in the local language Kichwa. Water and, more specifically, slow-flowing streams are crucial for the reproduction of all known glassfrogs.

The reproductive behaviour is also quite unusual in this species. Males are often reported to call from the underside of leaves and look after the egg clutches.

Having identified individuals of the new species at three localities, the researchers note some behavioural differences between the populations. Two of them, spotted in the riverine vegetation of an intact forest in Kallana, have been calling from the underside of leaves a few metres above slow-flowing, relatively narrow and shallow streams. Another frog of the species has been observed in an area covered by secondary forests in the Ecuadorian village of Ahuano. Similarly, the amphibian was found on the underside of a leaf one metre above a slow-flowing, narrow and shallow stream.

However, at the third locality – a disturbed secondary forest in San José de Payamino – the studied frogs have been perching on leaves of small shrubs, ferns, and grasses some 30 to 150 cm above the ground. Surprisingly, each of them has been at a distance greater than 30 metres from the nearest stream.

The researchers note that, given the geographic distance of approximately 110 km between the localities where the new species has been found, it is likely that the new species has a broader distribution, including areas in neighbouring Peru.

The uncertainty about its distributional range comes from a number of reasons. Firstly, the species’ tiny size of about 2 cm makes it tough to spot from underneath the leaves. Then, even if specimens of the species have been previously collected, they would be almost impossible to identify from museum collection, as many of the characteristic traits, such as the dark green marks, are getting lost after preservation. This is why the conservation status of the species has been listed as Data Deficient, according to the IUCN Red List criteria.

Nevertheless, the scientists identify the major threats to the species, including oil extraction in the region and the related water pollution, road development, habitat degradation and isolation.

“Glassfrogs presumably require continuous tracts of forest to interact with nearby populations, and roads potentially act as barriers to dispersal for transient individuals,” explain the authors.

###

Original source:

Guayasamin JM, Cisneros-Heredia DF, Maynard RJ, Lynch RL, Culebras J, Hamilton PS (2017) A marvelous new glassfrog (Centrolenidae, Hyalinobatrachium) from Amazonian Ecuador. ZooKeys 673: 1-20. https://doi.org/10.3897/zookeys.673.12108

Three new mini thorn snails described from Georgia (USA), Belize and Panama

Although computer tomography (CT) is widely used in medicine, its application in micro snail identification is still at the pioneering stage.

However, Dr Adrienne Jochum from the Naturhistorisches Museum der Burgergemeinde Bern (NMBE), Switzerland and her interdisciplinary team of German and Swiss scientists (Dr. Alexander M. Weigand, University of Duisburg-Essen, Estee Bochud and Thomas Inäbnit, NMBE and the University of Bern, Dorian D. Dörge, Goethe University, Frankfurt, Dr. Bernhard Ruthensteiner, Zoologische Staatssammlung Muenchen, Dr. Adrien Favre, Leipzig University, Gunhild Martels and Dr. Marian Kampschulte, Justus-Liebig University Giessen) have recently applied it in their research, now published in the journal ZooKeys.

As a result of their revolutionary approach, the scientists report three new thorn snail species – tiny, colourless and highly fragile creatures that measure less than 2 mm and belong to the genus Carychium.

Much like X-rays showing the degree of damage in broken bones, CT scans provide access to snail shells. Differences, such as the degree of sinuosity of the potato chip-like wedge (lamella), elegantly gliding along the spindle-like columella, become visible. These structures provide stability and surface area to exert muscular traction while manoeuvring the unwieldy shell into tight cavities. The alignment and degree of undulation of the lamella on the columella is also used by malacologists (mollusc specialists) to identify different thorn snail species.

Conventionally, examination of this signatory character requires cutting a hole in the shell with a fine needle under the microscope. This tedious method requires a much patience and dexterity and, all too often, the shell cracks open or disintegrates into dust under pressure. By exposing the delicate lamella to non-manipulative CT scans, Dr. Jochum and her team have found the best method to differentiate not only thorn snails but also many other micro creatures.

Together with G. Martels and Dr. M. Kampschulte, Dr. Jochum described new micro snails for the first time using CT in East Asian hypselostomatid snails in 2014. The first subterranean Asian relative of the thorn snails (Koreozospeum nodongense), was also described by Dr. Jochum thanks to CT scans in 2015.

The scientists studied and compared thorn snails collected from Mexico, Florida (USA) and Costa Rica.

Curiously, the new species Carychium hardiei was discovered by accident by Dr. Jochum en route to the Atlanta Airport during a rest stop in Georgia (USA). The snail is named after the American naturalist and field biologist Frank Hardie. Another species, Carychium belizeense, was found in the Bladen Nature Reserve in Belize and is named after its country of origin. The third, Carychium zarzaae from Panama, is named after Eugenia Zarza, collector of material for this study, including this species.

In total, there are fourteen species of thorn snails known in North and Central America. Their distribution ranges from as far north as northern Ontario, Canada through North America (including Bermuda and Jamaica) and south through Central America to Costa Rica. Thorn snails also live as far north as northern Sweden and as far south as sub-equatorial Java. Worldwide, this genus spans the Nearctic, Palearctic and Indomalayan biogeographic realms.

Thorn snails live in tropical and temperate forests, meadows and riparian zones, where they comprise the decomposer community in leaf litter of ecologically stable environments.

###

Original Source:

Jochum A, Weigand AM, Bochud E, Inäbnit T, Dörge DD, Ruthensteiner B, Favre A, Martels G, Kampschulte M (2017) Three new species of Carychium O.F. Müller, 1773 from the Southeastern USA, Belize and Panama are described using computer tomography (CT) (Eupulmonata, Ellobioidea, Carychiidae). ZooKeys 675: 97-127. https://doi.org/10.3897/zookeys.675.12453

Conservation and nameless earthworms: Assessors in the dark?

Species that live exclusively in a single region are at a particular risk of extinction. However, for them to be protected, thorough assessments of the environmental impacts need to be performed.

There are more than 100 earthworm species living in the soil and dead wood of KwaZulu-Natal Province, South Africa. Most of them live exclusively in small regions in the province, which makes them extremely vulnerable.

To scientists Dr Adrian J. Armstrong, Ezemvelo KZN Wildlife, and Ms Thembeka Nxele, KwaZulu-Natal Museum, the problem is twofold. Firstly, they note that the expression “out of sight, out of mind” is very suitable for the case of the endemic earthworms in South Africa. Secondly, they point out that the lack of common names for these species is a stumbling block that hinders their inclusion in conservation assessments.

As a result, the researchers try to rectify this situation by assigning standardised English names to the endemic earthworms in KwaZulu-Natal. Their article is published in the open access journal African Invertebrates.

Scientific names are often intractable to non-specialists, and the lack of common names leaves environmental assessors in the dark when they need to figure out which earthworms may occur at a development site. In the meantime, it has been found that about 50% of the native vegetation in KwaZulu-Natal has already been removed as a result of infrastructure construction and the figure is rising.

“The indigenous earthworms generally don’t survive in developed areas,” say the authors.

For instance, the informal use of an English name (green giant wrinkled earthworm) for the species Microchaetus papillatus, has facilitated the inclusion of this species in environmental impact assessments in KwaZulu-Natal.

While the green giant wrinkled earthworm does occur in a relatively large and rapidly developing area in KwaZulu-Natal, other species live in smaller areas that have been urbanised even more.

The extinction of these earthworms is not only undesirable from the point of view of biodiversity advocates – the role of this group of soil organisms is impossible to replace fully with non-native earthworms. For example, some of the large indigenous earthworms (more than 1 m in length) burrow much deeper than the non-native species, thereby enriching and aerating the soil at greater depth.

The authors are hopeful that by giving the indigenous earthworms in KwaZulu-Natal common names, the threatened and endemic species will be conserved through inclusion in environmental impact assessments. Furthermore, they believe that earthworms could draw attention to the areas where they occur whenever a choice for new protected areas is to be made.

###

Original source:

Armstrong AJ, Nxele TC (2017) English names of the megadrile earthworms (Oligochaeta) of KwaZulu-Natal. African Invertebrates 58(2): 11-20. https://doi.org/10.3897/AfrInvertebr.58.13226