Author Archives: katrine

Door #6: Associated Amphipods

Amphipods are a group of small crustaceans where most of the species we know are benthic (bottom dwelling) and marine. But within the benthic habitat there are many niches, and one of the more intriguing is the many ways of living on or inside another benthic animal. A few species become parasitic (feeding on their host), but for the most species living like this, it does not look like eating the host is the main objective. In these cases we term the amphipods as “associated with a host”.

To document some of these associations, I have had a wonderful cooperation with an amazing underwater photographer this year. Lill Haugen has photographed amphipods associated with hydroids, and sampled the amphipods afterwards for us. Documenting this kind of association is almost impossible without the help of divers – if we are lucky enough to sample a hydroid with our normal sampling gear, the amphipods fall off. It is not easy spotting these small animals for a diver either, but Lill says that it becomes easier with practice.

An amphipod family at home. Photo by Lill Haugen, all rights reserved

This photo is from the Oslofjord, at 25 m depth. With the photos from Lill we are able to say that this particular amphipod (from the family Stenothoidae) looks like it keeps the hydroid as a family home. The parents sit on the “stem” of the hydroid, and their children sit on the tentacles of the “flower”. This might be both to provide extra protection and food for the amphipod-children. The adult amphipods are 5mm long, their children 3mm.

Earlier studies have shown that amphipods of the family Stenothoidae often associate with molluscs – we have found several different species living inside bivalves (shells). Other amphipods might associate with other crustaceans such as crabs, or with sponges, anemones or snails (gastropoda).

For most amphipod species we know nothing about their life-history and possible associations. But the more we examine them, the more we learn..

Door #5: A (so far) undescribed species of bristle worm

Diopatra sp. Photo: M. Hektoen

Pictured above is a cute polychaete (bristle worm) from the genus Diopatra. It was collected in Mauritania, and has been photographed using Scanning Electon Microscopy (SEM). Although I ended up describing 9 new species of Diopatra worms in my master’s thesis, many worms were still left undescribed, this is one of those.

-Martin

Door #4: A cushioned star

This gorgeous sea star was first described by O.F. Müller in 1776. He gave it a species name fitting the characteristic appearance of the animal (Lat. Pulvillus= pillow, cushion). The common names in both English – Red Cushion Star- and Norwegian – Sypute – also reflect on this. Though most commonly red like the specimen pictured below, they can also be yellow-white. The white protrusions on the upper side the are gills. It lives at 10-300 meters depth, where it is often seen feeding on the coral Alcyonium digitatum. This particular specimen was collected during the course in marine faunistics this fall, in a locality just outside our field station close to Bergen.

Strangely enough, considering how common, conspicuous and wide-spread the species is, it has not been barcoded very frequently in BOLD – our specimen here will be the fifth in total to be submitted..!

Screen shot from a search in BOLD for the species

Screen shot from a search in BOLD for Porania pulvillus

-Katrine

Door #3: Prepare to be HYPNOtized

One of this year’s new projects at the Invertebrate collections is HYPNO – Hydrozoan pelagic diversity in Norway, funded by the Norwegian Taxonomy Initiative.

A selection of photos depicting some of the species encountered so far in the project

Hydrozoa are a class of cnidarians, the pelagic representatives of which include hydromedusae as well as colonial siphonophores and porpitids. They are thus “cousins” to the more familiar larger scyphozoan jellyfish such as the moon jelly or the lion’s mane jelly. The size of pelagic hydrozoans ranges from small medusae of less than 1 mm to siphonophore colonies reaching several meters in length. They are mostly predators that use their tentacles and stinging cells to catch other zooplankton or even fish larvae. Most of the time they go largely unnoticed by the public, but at times they can form blooms and deplete zooplankton as well as cause problems for aquaculture and fisheries or sting bathers.

The aim of HYPNO is to chart, document and DNA-barcode the diversity of hydromedusae and siphonophores occurring in Norway. Gelatinous zooplankton, including hydrozoans, has been generally less studied than their crustacean counterparts, and we know less about their diversity. This is due to several challenges in studying them. First of all, many pelagic hydrozoans, particularly the colonial siphonophores, are very fragile and often damaged during sampling with standard plankton nets. This can make it difficult to identify them. Secondly, preserving hydromedusae and siphonophores for later work is problematic. For morphological studies, they are best preserved in formalin, since most other fixatives used for zooplankton -including ethanol- cause distortion and shrinkage of their gelatinous bodies, rendering the animals impossible to identify. Formalin fixation, however, hinders further genetic work.

To overcome these practical problems, HYPNO uses gentle collection methods to obtain specimens in good condition. Collected samples are immediately examined for hydrozoans, and the live animals are identified and documented with photos before they are fixed in ethanol for DNA barcoding of CO1 and 16S sequences.

So far, HYPNO has participated on two cruises by the Institute of Marine Research: to the North Sea and Skagerrak on RV Johan Hjort 24 Apr – 4 May 2015 and to the Arctic Ocean and Fram Strait on RV Helmer Hanssen 17 Aug – 7 Sep 2015. So far, 34 species have been photographed and sampled for DNA. Here is a selection of pictures depicting some of the species encountered during these surveys.

You can read more about HYPNO at http://data.artsdatabanken.no/Pages/168312.

-Aino

Door #2: The Leaf Sheep Sea Slug

Costasiella (Pruvot-Fol, 1951) or Leaf Sheep Sea Slugs recently gained a lot of attention online, due to many of the species resembling cute green cartoon sheep, but there is much more to them than just their cute appearances.

Regular sheep vs Leaf Sheep Sea Slugs (ill: T.R. Oskars)

Within Heterobranchia (sea slugs and land snails) they fall within the Saccoglossa, or sap sucking sea slugs, which feed by sucking out the cell contents of algae. Some of the species within this group simply digest the entire cell straight away, whereas some have the unique ability to retain some of the cellular components from the algae in a functional state within their body, a process called kleptoplasty (plastid stealing).

Costasiella is one of these plastid thieves, who retain the chloroplasts of the algae and can use them to fix carbon trough photosynthesis, an ability that is unique for saccoglossans amongst animals, leading to the often being referred to as “crawling leafs”. The plastids can aid the slug to survive for extended periods without food, and even if the slugs are thought to benefit from the products of the plastids, in dark conditions they also seems to work just as well as emergency rations, making even the main role of the plastids questionable. In addition precisely how these slugs can retain the functional chloroplasts in their body is still unknown; however the leading theory was for a long time that Costasiella also stole genes for managing the plastids from the cell nucleus of the algae (horizontal gene transfer). Such genes have however not yet been found in the genome of Costasiella, but has been found in its saccoglossan cousin Elysia chlorotica who can in addition pass these genes on to their offspring. The chloroplasts are however not inherited by the next generation of Costasiella or E. chlorotica, so the young have to go out and find their own before they can be true “crawling leafs”. In addition to being cute ambassadors of slimy slugs, Costasiella is also a little mystery.

Suggested reading:

Christa, G., Gould, S. B., Franken, J., Vleugels, M., Karmeinski, D., Händeler, K., … & Wägele, H. (2014). Functional kleptoplasty in a limapontioidean genus: phylogeny, food preferences and photosynthesis in Costasiella, with a focus on C. ocellifera (Gastropoda: Sacoglossa). Journal of Molluscan Studies, 80(5), 499-507.

Christa, G., de Vries, J., Jahns, P., & Gould, S. B. (2014). Switching off photosynthesis: the dark side of sacoglossan slugs. Communicative & integrative biology, 7(1), 20132493-3.

Schwartz, J. A., Curtis, N. E., & Pierce, S. K. (2014). FISH labeling reveals a horizontally transferred algal (Vaucheria litorea) nuclear gene on a sea slug (Elysia chlorotica) chromosome. The Biological Bulletin, 227(3), 300-312.

de Vries, J., Christa, G., & Gould, S. B. (2014). Plastid survival in the cytosol of animal cells. Trends in plant science, 19(6), 347-350.

de Vries, J., Rauch, C., Christa, G., & Gould, S. B. (2014). A sea slug’s guide to plastid symbiosis. Acta Societatis Botanicorum Poloniae, 83(4)

-Trond

Door #1: A day at sea

Welcome to our marine invertebrates December calendar! In Norway it is very common for children to have a Advent calendar of some sort to help shorten the wait towards Christmas.

We’ve decided to run with the idea here on the blog, giving you a tidbit about our work every day from December 1st to 24th.

We hope you’ll join us on our little venture – we can guarantee a varied selection of topics!

All the posts will be gathered under the Category 2015 December calendar

First out is a tale of sampling in the sleet…!

The scientific collections are the backbone of all the research performed at the University Museum – as it is at any museum. They hold treasures collected through the entire lifetime of a museum, and most times a collection was the reason for the establishment of a proper museum. The University Museum of Bergen is one of the oldest natural history collections in Norway, and we have grand collections.

But a collection needs to live – to be added to and to be used of – and this was the reason that bright and early Monday morning Katrine and Anne Helene were ready to go to sea. Our goal was to make a jumpstart at Anne Helenes new project about Amphipods (more about that in a later blog), and to take a grab (or two) of sandy seafloor to look for bristle worms (Polychaeta).

It is always a risk planning on a cruise in the very end of November, but this time the weather was on our side. Our plan – “go out and grab animals, sandy bottom is nice” – was cooked up in the spur of the moment when we got an offer for boat time late Friday afternoon (someone else had to change their plans in the last minute), and maybe that was why everything went so smoothly? Going out collecting benthic animals (those that live on the seafloor) is one of our favourite things, and so we didn’t need much prodding.

The grab and sledge performed beautifully, and now is the time for sorting and photographing live animals before adding them to the collection. Be sure to follow their story through later blogs – they will show up in the categories NorAmph and NorBOL, and maybe somewhere else as well?

: Our ride – R/V Hans Brattstøm – coming to pick us up in the morning

: A odd, bright light in the sky was observed

: The RP-sledge, used for collecting epibenthic fauna

: Decanting the RP-sample

: A plucky Pagurus prideux

: Hunting for animals

: Picking, picking

: Snapshot of a sample

: Hippasteria phryngiana

: Threathening clouds…time to head back!

Katrine and Anne Helene

Make sure to check back tomorrow to see what is behind Door #2…!

Guest researchers: Julio

Last week we had yet another visitor here, this time from the University of A Coruña in Spain. Julio was here to continue his work on polychaetes in the family Oweniidae, from both Norwegian and African waters.

Guest Researchers: São

The invertebrate collections are high in demand these days, and we have a string of visitors coming here to examine the material. One of these is São from the University of Aveiro, Portugal. She works with polychaetes in the family Nephtyidae. In her own words:

18-23 October – After an amazingly (for Bergen ☺) sunny Sunday, with a wonderful walk through the mountain, I had a very productive week looking through nephtyids from Western Africa. More than 300 specimens were examined and ascribed to 13 putative species. The results were very exiting! Interesting distribution patterns and a couple of potentially new species for science. Now we are waiting for barcodes…

Greeting from the Faunistics course!

Today’s cutest catch – he’s a Rossia cephalopod

I’ve spent both last week and the current one at the UiB field station – Espegrend – together with an enthusiastic bunch of marine biology master students and their teachers.

Espegrend

I am mainly here to collect animals for NorBOL, but it’s hard to resist the temptation to join in on the course itself every now and again – whether in the field or in the lab!

Lots and lots of litterature

The baseline for the course is that the students will get to look at all sorts of freshly collected animals from various habitats and learn to identify them.

Kelp tank

Identified samples – at the end of each day, the students present the animals that they have studied that day to their classmates.

Whilst doing so, they acquaint themselves with the different keys and terminology used to identify the critters, learn which species are associated with which habitats, and get practical experience of how to collect and treat samples of various kind (you would for example use a different kind of gear to collect on a muddy substrate than on a rocky slope).

So it is a busy couple of weeks, with lots to learn.

Work on deck

Sponge-ID

First day in the field, Henrik is demonstrating

Incoming sample!

Tomorrow is the final day of collecting (it will be “parasite day”, which means a trawl to collect fish and various other animals likely to have parasites on (or in!) them.

Today we have focused on sponges, yesterday it was zooplankton, Monday was polychaetes – and so it goes!

Here are some of the animals that we have been working on:

: Aplysia punctata, sea hare

: Close-up of a Munida

: Acesta excavata, a fancy bivalve

: Leptasterias mulleri

: Flabellina gracilis

: A parasitic isopod in the genus Aega

: Limaria hians

: A snail in the family Naticidae, we’re not sure of the species yet.

The weather last week was…interesting, as was the absolute downpour a student and I went out in Monday morning – but today was simply a beautiful day for field work!

Stormy weather! Thankfully it passed after the first week. The map is from the really cool page earth.nullschool.net

Much, much nicer weather

As well as (re)presenting the Museum (yes, we do other things than the exhibitions, and ye-ees, we are interested in new students!), I gave a presentation of NorBOL and the work we are doing on marine animals last week (so far it is only animals, we will start with the marine macro algae the coming spring). I have been collecting quite a few new species that are to be barcoded from what the students work on, as well as supplementing what we have. In addition I will bring back some nice (but so far unidentified) samples to the Museum that we will continue to work on.

And who knows – maybe I have recruited some future collaborators?

The 14th Deep-Sea Biology Symposium

5 days
~200 talks
~240 posters
35 nationalities
360 enthusiastic participants
Immeasurable cups of coffee & lots of pastries

The 14th Deep-Sea Biology Symposium was arranged in Aveiro, Portugal between 31st of August and 4th of September, and these happy people were amongst the participants.

The Norwegian University/museum entourage came from the Biological Institute (9), the University Museum (4), and the NTNU University Museum (1).

The topics of the conference was divided into seven main themes:

Biodiversity and ecosystem functioning
Advances in taxonomy and phylogeny
Autoecology
Connectivity and biogeography
Evolutionary history and fossil records
Natural and anthropogenic disturbance
Stewardship of our deep oceans (DOSI)

(more details about the themes can be found here)

Our contributions ranged from sponges to fish, and included both talks and posters.

In no particular order (UM people in bold):

Talks:

Eilertsen MH, Kongsrud JA, Rapp HT – Evolutionary history of Ampharetinae (Ampharetidae, Annelida) adapted to chemosynthetic ecosystems

Hestetun JT, Vacelet J, Boury-Esnault N et al – Phylogenetic relationships of carnivorous sponges

Rees DJ, Byrkjedal I, Sutton TT – Pruning the pearlsides: reconciling morphology and molecules in mesopelagic fishes (Maurolicus: Sternoptychidae)

Bakken T, Oug E, Kongsrud JA, Alvestad T, Kongshavn, K – Polychaetous annelids in the deep Nordic Seas: strong bathymetric gradients, low deep-sea diversity and underdeveloped taxonomy

Xavier JR, Marco J, Rapp HT, Davies AJ – Predicting suitable habitat for the bird’s nest sponge Pheronema carpenteri (Porifera, Hexactinellida) in the Northeast Atlantic

Posters:

Kongshavn K, Kongsrud JA, Tandberg AHS, Alvestad, T, Bakken, T, Oug, E, Willassen E – Intergrating DNA-barcoding and morphology to study marine invertebrates – Exploring biodiversity and biogeography of deep-sea polychaetes in the Norwegian Sea

Hestetun JT, Xavier JR, Rapp HT – Carnivorous sponges from the Southwestern Indian Ocean Ridge seamounts

Alvizu A, Tendal OS, Rapp HT – Deep-water calcareous sponges (Calcarea: Porifera) from the Norwegian, Greenland and Iceland Seas (GIN) – from abyssal plains to mid-ocean ridges and hydrothermal vents

(Xavier JR), Pereira R, Gomes Pereira JN, Tempera F et al – Sponge assemblages of the Condor seamount (Azores) characterized from underwater imagery

Olsen BR, Troedsson C, Hadziavdic K et al – The influence of hydrothermal fluids on pelagic eukaryotic microorganism diversity and subsequent prey selection in a pelagic amphipod in the Nordic Seas

In addition to these direct contributions, it was very gratifying to see our friends and colleagues presents results that were in part based on University Museum assistance, whether through participation on cruises with us, loans of material, visits to the Museum collections or data made available. Quite a few of our photos also found their way into presentations, which is always fun!

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It was a busy week with a lot of information to absorb and a lot of old and new acquaintances and friends to talk to. We used this opportunity to spread the word about our current projects, and especially to discuss the challenges and potential of barcoding marine invertebrates.

We are very grateful to the organizing committee for taking on the herculean task of setting up such a wonderful symposium!

Obrigada/o!

Photo by @tangerina_ (Twitter)