Keeping an eye open for mud jellies

Working on a team makes for the best discoveries in science, and we at the HYPNO and NorAmph artsprojects know it well, especially after we stumbled upon a large number of the elusive mud jellyfish Tesserogastria musculosa in one of our joint sampling trips to Raunefjord (you can read Christine’s account of our sampling here, in Norwegian).

Live specimens of mud jellyfish (Tesserogastria musculosa) collected in Raunefjord. Foto: L Martell

We were able to compare our specimens with the holotype (i.e. the original specimen upon which the description of the species was made, pictured above), thanks to a loan from the Natural History Museum of the University of Oslo. Collaboration between museums make science happen! Foto: L Martell

Mud jellyfish can be very abundant, but they are also easily overlooked, and only a gentle way of collecting animals will reveal its presence on a benthic sample. These hard-to-catch benthic jellyfish are so fragile that many previous surveys of the bottom of the fjords may have missed them because the jellies were simply too damaged to be identified at any level, but thanks to the careful processing of the samples and an expert eye we were able to obtain living specimens in good shape. This finding led to the evaluation of all the records of the species in the world, obtaining the first genetic data (including the DNA-barcode) for the species and genus, and finally to a redescription and a joint publication (available here: https://link.springer.com/article/10.1186/s10152-018-0515-5).

Getting the sample and carefully separating the animals. Fotos: AHS Tandberg (left), L Martell (right)

Searching for (and finding!) many jellyfish. Fotos: AHS Tandberg

Mud jellyfish are the only species in genus Tesserogastria, which takes its name from the square-shaped stomach of the animals (Tesserogastria comes from ancient Greek τέσσαρες “four, square” and Latin gaster “stomach”). The specific name musculosa (Latin for “muscular”) was given to them because they look quite sturdy, with extremely well developed muscles around the opening of the “bell”. They are not the typical free-swimming and pulsating jellyfish, as they prefer to live in muddy bottoms, where they use their tentacles to walk around (they really don’t like to swim) until finding a place to sit and wait for dinner (which is usually some small crustacean). We still don’t know many things about this species because mud jellyfish are tiny and live on the bottom of the sea far away from the surface, but now that a new population has been discovered in Western Norway we will have the opportunity to investigate more on its behavior and body structure, perhaps answering some questions such as why do these jellies need very strong bell muscles if they don’t swim very often, or how the species is related to the other crawling jellyfish species from the North Atlantic.

-Luis

Happy #PolychaeteDay!

Once again, it is time to celebrate our segmented friends from the sea – the Polychaetes, or bristle worms!

The tradition began in 2015 as a way to commemorate Kristian Fauchald, a key figure in the polychaetologist community for many years – as as a way for us to show off the cool critters that we work with!

We here at the Invertebrate collections have been celebrating in blog form each year, you can find the previous posts here:

2015: The 1st International Polychaete Day! 

2016: Happy International Polychaete Day! 

2017: Happy Polychaete Day! 

For the 2015 celebration we were lucky enough to receive some stunning images from polychaete photographers extraordinaire Fredrik Pleijel and Arne Nygren (as well as some of mine), I think those deserve another round in the spotlight:

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As readers of this blog may be aware of, polychaetes are mainly marine, and live from the intertidal down to the abyssal zone. There’s more than 12 000 species of them world wide, and they can be active swimmers or live in burrows, be hunters, scavengers, carnivores or herbivores, filter feeders, or parasites. The group display a wide varity of body shapes, life modes and colours. Many are quite beautiful!

Phyllodoce citrina, Photo by Arne Nygren CC-BY-SA

This year we would like to highlight some of the science that employees here have contributed to, and share some glimpses of what we work on. People sometimes wonder if we “ever find new species?” and the answer to that is an unequivocal “YES”. It really is not entirely uncommon to come across undescribed species (especially of the minute variety) – the challenge often lies more in finding the time to formally describe them. We have a couple of species in the pipeline at the moment, such as this Orbiniella sp. n. from the Bergen region that we hope to finish describing quite soon

New to science!

Who works with polychaetes? On the recent International Polychaete Conferences (blog posts from2013 and 2016, web page for the upcoming in 2019) there was around 150 attendees.

The “polychaetologists”, or polychaete researchers, are a collaborative bunch, and most of our work involves co-authors from other institutions, and often also from several countries. We share material, go on and receive research visits, arrange workshops and field work, and co-author. Pictured here are some of the recent new species that have been described by people from the invertebrate collections (with co-authors, of course!):


To better our understanding of the diversity of the group, we use a combination of traditional morphology based identifications, and genetic methods.

The recent paper by Arne Nygren et al. (2018) A mega-cryptic species complex hidden among one of the most common annelids in the North East Atlantic, published in PLOS ONE 13(6) e0198356. and available through open access here:  https://doi.org/10.1371/journal.pone.0198356  is a striking example of how much higher the diversity might be. The paper examines the cryptic species diversity of the genus Terebellides in the North-East Atlantic, and reveals a stunning genetic diversity:

Many of the new species are common and wide spread, and the majority of the species are found in sympatry with several other species in the complex. Being one of the most regularly encountered annelid taxa in the North East Atlantic, it is more likely to find an undescribed species of Terebellides than a described one

This fits well with what we have observed though our work on polychaete diversity in the Nordic seas through several Norwegian Taxonomy Initiative Projects (“Artsprosjekt”), and studies of the museum material. We presented a summary of our findings for some polychaete families at the IBOL conference in South Africa. We find that there is a clear need for thorough vetting of reference databases of genetic barcodes so that the barcodes can be validated to named species – and to do that, we first need to figure out who is who! This requires in-depth knowledge of the history, practice, and current state of the taxonomy obtained with traditional methods. We find that the polychaete diversity in Nordic waters is at least 30% higher than presently known, even though this is among the best studied marine areas of the world. 

All the posters can be found on the conference web site, ours is #825.

In other words, there is much left to explore!

To continue the Polychaete Day celebrations, head on over to Twitter and #PolychaeteDay!


Polychaete papers involving authors from the Invertebrate Collections:

Alvestad, T & Budaeva, N (2015) Neosabellides lizae, a new species of Ampharetidae (Annelida) from Lizard Island, Great Barrier Reef, Australia.  Zootaxa 4019 (1): 061–069

Alvestad, T.,Kongsrud, J.A., Kongshavn, K. (2014) Ampharete undecima, a new deep-sea ampharetid (Annelida, Polychaeta) from the Norwegian Sea. Memoirs of Museum Victoria 2014; Volume 71. pp. 11-19

Arias A., Paxton H., Budaeva N. 2016. Redescription and biology of Diopatra neapolitana (Annelida: Onuphidae), a protandric hermaphrodite with external spermaducal papillae. Estuarine, Coastal and Shelf Science 175: 1–17. http://dx.doi.org/10.1016/j.ecss.2016.03.002

Budaeva, N. (2014) Nothria nikitai, a new species of bristle worms (Annelida, Onuphidae) from the Gulf of Aden, Indian Ocean. Marine Biodiversity 2014, DOI:10.1007/s12526-014-0244-1

Budaeva, N., Jirkov, I., Savilova, T., Paterson, G. (2014) Deep-sea fauna of European seas: An annotated species check-list of benthic invertebrates living deeper than 2000 m in the seas bordering Europe. Polychaeta. Invertebrate Zoology 2014 ;Volum 11.(1) s. 217-230

Budaeva, N., Pyataeva, S., Meissner, K. (2014) Development of the deep-sea viviparous quill worm Leptoecia vivipara (Hyalinoeciinae, Onuphidae, Annelida). Invertebrate biology. 2014; Volume 133.(3) s. 242-260

Phylogenetic tree of a bristle worm family Onuphidae (Budaeva et al., 2016)

Budaeva N., Schepetov D.,Zanol J., Neretina T., Willassen E. (2016) When molecules support morphology: Phylogenetic reconstruction of the family Onuphidae (Eunicida, Annelida) based on 16S rDNA and 18S rDNA. Molecular Phylogenetics and Evolution 94(B): 791–801.   http://dx.doi.org/10.1016/j.ympev.2015.10.011 

Eilertsen, M., Georgieva, M., Kongsrud, J.A, Linse, K., Wiklund, H.G., Glover, A., Rapp, H.T. (2018). Genetic connectivity from the Arctic to the Antarctic: Sclerolinum contortum and Nicomache lokii (Annelida) are both widespread in reducing environments. Scientific Reports 8:4810 | DOI:10.1038/s41598-018-23076-0

Eilertsen, M., Kongsrud, J.A, Alvestad, T., Stiller, J., Rouse, G., & Rapp, H.T (2017). Do ampharetids take sedimented steps between vents and seeps? Phylogeny and habitat-use of Ampharetidae (Annelida, Terebelliformia) in chemosynthesis-based ecosystems. BMC Evolutionary Biology. 17. 222. Doi: 10.1186/s12862-017-1065-1.

Kongsrud J.A., Eilertsen M.H., Alvestad T., Kongshavn K., Rapp HT. (2017) New species of Ampharetidae (Annelida: Polychaeta) from the Arctic Loki Castle vent field. Deep Sea Research Part II: Topical Studies in Oceanography. 137: 232-245. doi: 10.1016/j.dsr2.2016.08.015

Kongsrud, J.A., Budaeva, N., Barnich, R., Oug, E., Bakken, T. (2013) Benthic polychaetes from the northern Mid-Atlantic Ridge between the Azores and the Reykjanes Ridge, Marine Biology Research, 9:5-6, 516-546, DOI: 10.1080/17451000.2012.749997

Oug, E., Bakken, T. & Kongsrud, J.A. (2014) Original specimens and type localities of early described polychaete species (Annelida) from Norway, with particular attention to species described by O.F. Müller and M. Sars. Memoirs of Museum Victoria 71, 217-236 http://doi.org/10.24199/j.mmv.2014.71.17 

Oug, E., Bakken, T., Kongsrud, J.A., Alvestad, T. (2016) Polychaetous annelids in the deep Nordic Seas: Strong bathymetric gradients, low diversity and underdeveloped taxonomy. Deep-sea research. Part II, Topical studies in oceanography. 137: 102-112. Publisert 2016-07-06. doi: 10.1016/j.dsr2.2016.06.016

Parapar, J., Kongsrud, J.A., Kongshavn, K., Alvestad, T., Aneiros, F., Moreira, J. (2017). A new species of Ampharete (Annelida: Ampharetidae) from the NW Iberian Peninsula, with a synoptic table comparing NE Atlantic species of the genus. Zoological Journal of the Linnean Society, zlx077,https://doi.org/10.1093/zoolinnean/zlx077

Queiros JP, Ravara A, Eilertsen MH, Kongsrud JA, Hilário A. (2017). Paramytha ossicola sp. nov. (Polychaeta, Ampharetidae) from mammal bones: reproductive biology and population structure. Deep Sea Research Part II: Topical Studies in Oceanography. 137: 349-358. https://doi.org/10.1016/j.dsr2.2016.08.017

Vedenin A., Budaeva N., Mokievsky V., Pantke C., Soltwedel T., Gebruk A. (2016) Spatial distribution patterns in macrobenthos along a latitudinal transect at the deep-sea observatory HAUSGARTEN. Deep-Sea Research Part I 114: 90–98. http://dx.doi.org/10.1016/j.dsr.2016.04.015

Some of the wonderful worms that were collected during #AnnelidaCourse2017. From top left: Glyceridae, Syllidae, Spionidae, Cirratulidae, Phyllodocidae, Scalibregmatidae, Flabelligeridae, Polynoidae, Serpulidae and Cirratulidae. Photos: K.Kongshavn

-Katrine

PhD thesis defence

On June 7th Nina Therese Mikkelsen presented her thesis ” Phylogeny and systematics of Caudofoveata (Mollusca, Aplacophora)” for a public audience.  She was questioned by the opponents dr Mikael Thollesson, University of Uppsala, and dr Suzanne Williams, The Natural History Museum of London, and did an excellent performance explaining the results of her studies.

Fieldwork and friendship!

Drøbak 6th till 15th of May 2018

The Norwegian Taxonomy Initiative  funded project Sea slugs of Southern Norway  had its official kick-off with its first expedition to Drøbak, a little village on the east side of the Oslofjord about 40 km south of Oslo. Main goal, start mapping the sea slug species diversity of that area which we will continue to do so along different carefully chosen locations along the Southern Norwegian coast. But besides finding sea slugs, we had another ambition; meeting up with our hard-working collaborators that would help us out during our stay.

Sea slugs of Norway, a love story

Sea slugs are often a diver’s favourite encounter underwater. They are colourful, have an overall attractive appearance, with their little rhinophores exploring their surroundings, gliding slowly through their habitat.

Caronella pellucida, photographed by Anders Schouw

They are exciting to photograph as, besides pretty, it can be technically very challenging to get a good shot of them since they are often just a few millimetres long. Despite being popular animals, relatively little is known about them. Just recently the attention from the scientific community started to grow, and manuscripts with new records and species for Norway become to be published. However, the target areas were often the Northern territories of Norway rather than the South, and this resulted in a huge gap lasting already for about 80 years within the scientific literature for this particular area. About time to do something about it!

The citizens that are scientists

Southern Norway alone has a coastline of about 8000km, which makes it a monstrous task to really get a proper picture of the sea slug biodiversity (let alone cryptic species variation, invasive species etc.). Therefore, we asked for help from the so-called citizen scientists. Citizen scientist are volunteers that help out scientists by providing them with data as a hobby in their spare time. Many of them are not to be considered amateurs though, due to their many years of experience and enthusiasm, they are professionals when it comes to their knowledge of species and their habitats. Such a tight community is also found here in Norway within the dive community, and during this project of our hunt for sea slug species, we heavily rely on their input and willingness in order to make the mission a success.

Back to Drøbak

It was not a blind pick on the map to go to Drøbak as our main starting point. Drøbak is strategically chosen as former literature describes it as a type locality for a variety of the Norwegian sea slug species. Besides, the University of Oslo has its Marine Biology field station, with sleeping facilities, located here. Near the field station, there is also the – all famous – dive centre called Gylte, were many dive enthusiasts rent their gear, fill up their pressure tanks and go diving in the centres’ backyard. Not surprisingly one of the workers of Gylte is big sea slug enthusiast; let me introduce you to Tine Kinn Kvamme

Manuel Malaquias with Tine Kinn Kvamme

There was great excitement from both parties to finally meet in person and she was able to help us get in touch with other citizen scientists and explain in detail about all the species she encountered in the last years. The list was impressive,and a valuable contribution to our project;

Tine’s sea slug species check list for the area

That week we managed to meet up with her several times, and she brought us more sea slugs. We introduced her to the laboratory facilities in the Marine field station, where she had the opportunity to look at her beloved Doto’s in detail with help of a microscope, while telling us more about other possible interesting locations and possibilities to collect different species! This is what it is all about, happy scientists and happy citizen scientists!

Doto fragilis

Two other members of our team that joined us during the length of our stay in Drøbak were the respected divers Anders Schouw (from Bergen) and famous underwater photographer Nils Aukan (from Kristiansund).

Anders Schouw showing his photography skills in the laboratory

It was an honour to be able to work together with them, Anders proved his photography skills both underwater and above water to be of incredible valuable input and Nils great knowledge of Marine life and amazing photography skills made me and Manuel blush on our cheeks more than we would like to admit. They both dived every single day during our stay and brought sea slugs back to the laboratory where we together could identify, photograph, measure and prepare them for transport back to Bergen. Nils Aukan is a known sensation within the Norwegian diving community and ever since the project started we have received many samples from him. He is able to photograph the species in their natural habitat capturing the tiniest details, a valuable asset to later identify the species properly.

Fjordia lineata photographed by Nils Aukan

Anders is the guy every expedition need; he knows everyone, everywhere, and we’re very happy to announce his decision to join us in our next field work trip to Hagesund (in July, facilitated with a blog, obviously).

The gate to grass

At the spot we also met with the citizen scientist Roy Dahl, his son and Heine Jensen

Heine Jensen with Manuel Malaquias

A snapshot of the group, from left to right; A snapshot of the group, from left to right; Roy Dahl’s son, Roy Dahl, Anders Schouw, Cessa Rauch and Nils Aukan

Roy and Heine have been collaborating and sampling for us in the Oslofjord area. They know their favourite diving spots on the back of their hands and shared with us all the details one needs to know about the sea slugs’ habitat. They knew about species diversity, where to find but also when to find them. There is some change in sea slugs’ diversity when it comes to different times of the year, some species thrive just before spring starts, others are more regularly seen throughout the summer. All interesting and valuable information for us in order to see the bigger picture. Most diving spots were easy accessible and well facilitated, but sometimes the hunt for different habitats does not always favour you in a laidback access to the water. Manuel and I were a little obsessed with probing for sea slugs within the seagrass meadows of the Oslofjord. You never know what you can find there! Healthy seagrass meadows are the nursery, hiding, and hunting ground of many marine organisms, and we would not let the opportunity to study this habitat pass by!

Facelina bostoniensis on sea grass photographed by Anders Schouw

Anders was able to find an area of seagrass that seemed to be accessible from the Google maps point of view. But was it in real life though? After driving around, back and forwards for almost an hour we sadly realized that the only land access was through a private condo, closed by a gate and inaccessible to us. Whilst driving around a little unsure about what the next plan of action would be, Anders decided to use his communication skills to find out if there was another way. By a matter of luck, chance, sign – you name it – Anders asked the way to a person that happen to live there and to have a remote device that could open the gate giving us access to the park. All together it took us a whole afternoon to figure out how to get to the seagrass meadow and I think we can vote for Heine Jensen as our most patient citizen scientist! As we were driving in many circles to find the sea grass meadows, Heine jokingly mentioned, ‘look, there is grass just next to the road, why don’t we look for our slugs there’. We definitely own him one for his stamina!

You reap what you sow

After 10 days the sea slug teller was on approximately 39 species, and this without the species collected by the citizen scientists before our fieldtrip. All together we have so far assembled 43 species from areas in the Oslofjord. The work has just begun, and as a consequence of our successful actions in Drøbak, we now have to face the mountain of work waiting; structuring our harvest and make some sense of it all in the light of evolution.

For frequent updates, awesome images, and much more information about sea slugs in Norway than you ever imagined encountering, join the projects Facebook group 

Acknowledgments

We would like to thank our collaborators during this project; Torkild Bakken from Trondheim University who was also part of the Drøbak team for a few days, and our dedicated citizen scientists; Anders Schouw, Nils Aukan, Tine Kinn Kvamme, Roy Dahl and Heine Jensen. We hope that during the two years of this project we will have many more chances to meet and that our teamwork continues to be fruitfully!

By Cessa Rauch and Manuel Malaquias

Guest researcher: Marla

Marla, who has been visiting several times to work on our amphipod collections, sent us this “travelogue” from her longest stay. In her own words:

I am a third year PhD student, and my project is shared between the University of Southampton at the National Oceanography centre and the Natural History Museum in London. I am supervised by Dr Tammy Horton (NOC), Dr Andrew Gates (NOC), Dr Phil Fenberg (UoS), Dr Miranda Lowe (NHM), and Dr Andrea Waschenbach (NHM).

I spent 8 glorious weeks in Bergen working with the invertebrate collections at the Department of Natural History of the University Museum of Bergen (UiB) together with the wonderful Anne Helene Tandberg and Endre Willassen. Also a massive thank you to Katrine Kongshavn, Morten Stokkan, Jon Kongsrud, Luis Felipe Martell Hernández, Aino Hosia, Tom Alvestad, Nataliya Budaeva, Manuel Malaquias, Louise Lindbloom, and Kenneth Meland for your help in the lab and support with my project and lunchtime conversations!

I arrived to Bergen mid- September just in time for the 2017 UCI Road World Championships! As a huge fan (and very amateur road cyclist) this was such a bonus to have the chance to see it. The race took over the town, and one late afternoon Anne Helene and I climbed half-way up Mount Fløyen to watch the men’s Time Trial. The sun was out, the streets were packed, atmosphere was electric and we had prime seats–I couldn’t wait to see Chris Frome (GB) and Tom Dumoulin (NL) cycling in action.  It was a fantastic afternoon!

Anne Helene and I enjoying the afternoon UCI race from our prime viewing spot

The classic road graffiti to show support to the cyclists. Here Tom Dumoulin is forever immortalized on Mount Fløyen.

Tom Dumoulin won first place in the men’s Time Trial, Chris Froome took third.

Back in the lab…

I was working with amphipods from the family Phoxocephalidae from the Western African Waters, focussing particularly on the amphipods from the sub-family Harpiniinae [crustacea; Amphipoda; Phoxocephalidae; Harpiniinae]. Phoxocephalid amphipods are highly speciose and abundant in deep sea sediments globally. Species identity is critical to understanding mechanisms driving observed biodiversity patterns and to asses community change. The aim of the project while in Bergen was to use both DNA barcoding and traditional morphological taxonomic approaches in order to create a robust library of Phoxocephalidae species from the poorly known West African waters. Large scale projects such as Marine Invertebrates of West Africa (MIWA) provide the perfect opportunity for collaborative work! More about the MIWA-project can be found here.

The MIWA project submitted over 2700 tissue samples from over 600 morphospecies for DNA barcode sequencing, including Crustaceans, Echinoderms, Molluscs and Polychaetes. Out of these, 45 samples were from the family Phoxocephalidae, the target taxa. Working with Dr Anne Helene Tandberg and Prof Endre Willassen, the sequenced MIWA Phoxcephalid voucher specimens were dissected and mounted as permanent microscope slides to morphologically score them. Later, the phylogenetic analysis based on all molecular and morphological characters will be compared. Each appendage was photographed on the modular (Leica CTR6000) microscope and the images were stacked, resulting in incredible photos!

Harpinia abyssi P7. Photo: M. Spencer

As a result of some of this work, we think that we have identified 4 new species to the genus of Basuto. The genus was previously monotypic, with the type-locality in South Africa. Now we are awaiting the holotypes and paratypes to arrive so that we can compare. Together with Anne Helene, Endre Willassen and Tammy Horton, I am currently writing my first publication, formally describing these specimens as new species. Stay tuned for further updates!

Basuto specimen pereopod 5. Photo: M. Spencer

Basuto specimen Mandible, Photo: M. Spencer

At work in the DNA lab

Working with Anne Helene within the molecular biology labs at the University of Bergen, I had the chance to develop taxon specific primers and PCR conditions for the Harpiniinae MIWA specimens which were not successfully sequenced with the Universal primers. As a starting point, an additional 13 MIWA specimens had tissue extracted for DNA, and then dissected and permanent slides were made in order to morphologically score them. Each appendage was photographed and the images stacked. The primers and PCR conditions are a work in progress; however, this was a very successful trip resulting in a lot of data to analyse!

I also had the chance to explore the fantastic city of Bergen! I absolutely loved my time spent here- I generated a lot of data and learned so many new skills and new insight into my PhD project. Win-win! I look forward to returning again one day.

-Marla

WoRMS is presenting ten astounding marine species of the last decade (2007-2017)

Marivagia stellata, the starry sea wanderer Galil & Gershwin. Photo by Shevy Rothman. CC-BY-NC-SA

As part of the celebration of the first decade of WoRMS – the World Register of Marine Species, ten of the most astonishing new species from the big old blue is given a special presentation here.

 

Artwork of Ramisyllis multicaudata by Sarah Faulwetter

Click your way over and read about the Deep-sea lyre sponge – Chondrocladia lyra, the Palauan primitive cave eel – Protanguilla palau, the Deep-sea acochlidiacean slug – Bathyhedyle boucheti, the Tree syllid worm – Ramisyllis multicaudata, the Starry sea wanderer jelly – Marivagia stellata, the The Hoff crab – Kiwa tyleri, the Squidworm – Teuthidodrilus samae, the Jesse Ausubel’s ‘terrible claw’ lobster – Dinochelus ausubeli, the  ‘living fossil’ octocoral – Nanipora kamurai, and the Scaly-foot snail – Chrysomallon squamiferum. 

Photo by David Shale, CC-BY-NC-SA

Chrysomallon squamiferum, Scaly-foot snail. Photo by David Shale, CC-BY-NC-SA

Link: Ten astounding marine species of the last decade (2007-2017)

Marie Curie project results

The results of a Marie Skłodowska-Curie project PRODEEP that has been done by Nataliya Budaeva and Endre Willassen at the Department of Natural History were published as a popular science article online: https://cordis.europa.eu/result/rcn/220363_en.html.

Choose one of six languages to learn more about how marine bristle worms colonize the deep ocean!


Budaeva N., Schepetov D., Zanol J., Neretina T., Willassen E. 2016. When molecules support morphology: Phylogenetic reconstruction of the family Onuphidae (Eunicida, Annelida) based on 16S rDNA and 18S rDNA. Molecular Phylogenetics and Evolution 94(B): 791–801.   http://dx.doi.org/10.1016/j.ympev.2015.10.011

The amphipods around Iceland – fresh special issue

IceAGE stations with amphipods. Red stations are analysed in the special issue. Fig 1 from Brix et al 2018

As the IceAGE-project presents their amphipod results in a special issue of ZooKeys, the invertebrate collections are represented with co-authors in 4 of the 6 papers. All papers in the special issue are of course Open Access.

Endre, Anne Helene and IceAGE-collaborators Anne-Nina and Amy have examined the Rhachotropis species (family Eusiroidea) from Norwegian and Icelandic waters, using material both from NorAmph and IceAGE. We see possible cryptic species, and we described to separate populations (and Arctic and one North Atlantic) of Rhachotropis aculeata.

Rhachotropis aff. palporum from IceAGE material. Fig 4G in Lörz et al, photographer: AHS Tandberg

Anne Helene has worked with Wim Vader from Tromsø Museum on Amphilochidae. The new species Amphilochus anoculus is formally described, and amphipod identifiers working with North-Atlantic material will be happy fo find a key to all Amphilochidae in the area. These minute and fragile animals are often lumped as family only, but the times for that are now over…

Key to the Amphilochidae from North Atlantic waters. Fig 14 from Tandberg & Vader 2018

Neighbour Joining tree of COI-sequences from IceAGE. The coloured lines on the side show possible interesting regions for further studies. Fig. 2 from Jazdzewska et al 2018

A paper on DNA fingerprinting of Icelandic amphipods is presented by Ania (who visited us two years ago to work on Phoxocephalid amphipods) and 10 coauthors. This study gives a very nice material to compare with the NorAmph barcodes, and some of the interesting results are discussed in the two first papers.

A summary-paper on the amphipod-families around Iceland (Brix et al) gives an overview of both biogeography and ecology of the amphipods in this area. This paper also presents faunistic data on Amphilochidae from the earlier BioIce project, where researchers from Bergen, Trondheim and Reykjavik sampled Icelandic waters.

Anne Helene

 

 

Literature:

Brix S, Lörz A-N, Jazdzweska AM, Hughes LE, Tandberg AHS, Pabis K, Stransky B, Krapp-Schickel T, Sorbe JC, Hendrycks E, Vader W, Frutos I, Horton T, Jazdzewski K, Peart R, Beermann J, Coleman CO, Buhl-Mortensen L, Corbari L, Havermans C, Tato R, Campean AJ (2018) Amphipod family distributions around Iceland. ZooKeys 731: 1-53 doi:10.3897/zookeys.731.19854

Jazszewska AM, Corbari L, Driskell A, Frutos I, Havermans C, Hendrycks E, Hughes L, Lörz A-N, Stransky B, Tandberg AHS, Vader W, Brix S (2018) A genetic fingerprint of Amphipoda from Icelandic waters – the baseline for further biodiversity and biogeography studies. ZooKeys 731: 55-73 doi:10.3897/zookeys.731.19913

Lörz A-N, Tandberg AHS, Willassen E, Driskell A (2018) Rhachotropis (Eusiroidea, Amphipoda) from the North East Atlantic. ZooKeys 731: 75-101 doi:10.3897/zookeys.731.19814

Tandberg AHS, Vader W (2018) On a new species of Amphilochus from deep and cold Atlantic waters, with a note on the genus Amphilochopsis (Amphipoda, Gammaridea, Amphilochidae). ZooKeys 731: 103-134 doi:10.3897/zookeys.731.19899

The 7th International Barcode of Life (IBOL) conference

 IBOL 2017 took place in the most fantastic venue imaginable: inside Kruger National Park in South Africa! Hosted by the African Centre for DNA Barcoding (ACDB) and the University of Johannesburg (UJ),  the conference gathered ~450 participants from 72 different countries for a week of networking, knowledge sharing, and unforgettable experiences.

Participants of IBOL 2017. Photo by J. Potgieter

Located at the conference centre in Skukuza rest camp, IBOL 2017 filled every available room with sessions ranging from forensic applications of barcoding to the most cutting edge technology. A excellent overview of the topic trends is presented as an article that can be found here (.pdf, open access)

Norway was well represented, with 15 delegates and 23 contributions from various universities, museums and organisations. You can read more about that, and about Trondheim being the host of the next IBOL conference (to take place 17th-20th of June 2019) here (only in Norwegian atm).

The invertebrate collections of UM Bergen participated with five posters and three lightning talks on marine barcoding: three posters focussing on Norwegian waters, and two related to our MIWA-project (Marine Invertebrates of Western Africa, blog here). A lightning presentation is a five minute talk where the author gets to present their poster before the poster session.

Attending from UM were Jon, Tom and Katrine – as well as Lloyd from Ghana, who has been a regular guest researcher here for some time now, working with the MIWA polychaetes together with us.

Tom, Jon and Katrine on their way to Kruger (photo: THR)

Tom, Katrine, Jon and Lloyd attending the game drive during the conference (Photo: THR)

Our contributions:

Our five posters

Barcoding of marine invertebrates from Norway through NorBOL
Katrine Kongshavn, Jon A. Kongsrud, Tom Alvestad, Endre Willassen

Investigating the marine invertebrate fauna of the West African continental shelf with DNA barcodes
Endre Willassen, Jon A. Kongsrud, Katrine Kongshavn, Manuel A.E. Malaquias, Tom Alvestad

Building a comprehensive barcode reference library of the Norwegian Echinodermata through NorBOL – an ongoing effort
Tom Alvestad, Katrine Kongshavn, Jon A Kongsrud, Torkild Bakken, Kennet Lundin, Hans T Rapp, Endre Willassen

Diversity and species distributions of Glyceriformia (Annelida, Polychaeta) in shelf areas off western Africa
Lloyd Allotey, Tom Alvestad, Jon A Kongsrud, Akanbi B Williams, Katrine Kongshavn, Endre Willassen

Assessing species diversity in marine bristle worms (Annelida, Polychaeta): integrating barcoding with traditional morphology-based taxonomy
Jon A Kongsrud, Torkild Bakken, Eivind Oug, Tom Alvestad, Arne Nygren, Katrine Kongshavn, Nataliya Budaeva, Maria Capa, Endre Willassen

All the posters are available on the conference website. Do make sure to check the photo galleries there as well!

It was occasionally challenging to focus on the excellent presentations, as temptations like this kept appearing – but we prevailed, and return with a lot of new knowledge and acquaintances.

That’s not to say that we did not make the most of our free time to go and explore the park!

Here are some of the amazing encounters Kruger NP offered us (Katrine’s photos):

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We had a fantastic time, our thanks to the organizers and the lovely team of volunteers for all their hard work!

-Jon, Tom, Lloyd & Katrine

PS: If you wish to stay updated on news from the conference, follow @DNABarcodes, #IBOL2017, and for news on the upcoming IBOL2019; @norwbol on Twitter