Last week, I told you that Terry Gosliner was blogging about his field trip in the Philippines where he is looking for nudibranchs (sea slugs).
Today, there is a new post about his adventures.
Update: Here are his final posts that wrap-up his expedition.
A blog about the field and lab adventures of the Invertebrate Zoology division at the Florida Museum of Natural History.
Monday, May 24, 2010
Thursday, May 20, 2010
Invertebrates in the News #6 - DNA reveals the complex life cycle of the stalked jellyfishes
If I say jellyfish, you probably picture a Frisbee-like animal with long tentacles that swims gracefully in an open ocean.
However, there is a group of jellyfishes (the Stauromedusae) that do things a little differently. First, they don't swim but live attached to the bottom with a stalk, hence their common name: the stalked jellyfishes.
Second, they are thought to have a "simple" life cycle. Most jellyfishes
go through several stages before they reach adulthood. The typical
jellyfish starts life as a small polyp (something that looks like a sea anemone) attached to the ocean floor. This polyp buds small medusae (jellyfishes) that grow until they reach sexual maturity. At this point, they release gametes into the ocean. After fertilization, the egg forms a planula larva which will settle on the bottom to give rise to a new polyp.
In stalked jellyfishes, things were assumed to be a little different, but simple: the planula attaches to the bottom and metamorphoses into a polyp (so far everything is normal). The top of the polyp metamorphoses into something that looks like a jellyfish while the bottom part stays the same and still looks like a polyp; hence a stalked jellyfish. The only problem with this story is that it is based on only a few observations based on few species, and it's hard to know if all the Stauromedusae do the same thing.
There is another problem: how can you tell if the two stages of the life cycle that look very different belong to the same species? In the best case, you can observe the full life cycle in the field or in the lab, but it is not always possible to do so. In other cases, you can only observe part of the life cycle.
In 1996, Gerhard Jarms & Henry Tieman published a paper where they described a new species of hydrozoan polyps that live on clam shells of the Antarctic that they named Microhydrula limpsicola. They kept the animals in the lab for 4 years, and only observed asexual reproduction by frustules (larvae produced asexually).
In a recent paper, Lucilia Miranda and her colleagues demonstrated that Microhydrula limpsicola is just a stage in the life history of the stalked jellyfish Haliclystus antarcticus. They were able to connect these two life stages by discovering that the DNA of the polyps (what was thought to be M. limpsicola) and the stalked jellyfish (H. antarcticus) were identical.
The life cycle of the stalked jellyfishes is thus much more complicated than we thought.
Furthermore, Microhydrula limpsicola was not the only one of its kind. There are two other species that were thought to belong to this family (the Microhydrulidae). It will now be interesting to determine if they are also stages of other species of stalked jellyfishes.
Links
Credits
However, there is a group of jellyfishes (the Stauromedusae) that do things a little differently. First, they don't swim but live attached to the bottom with a stalk, hence their common name: the stalked jellyfishes.
Second, they are thought to have a "simple" life cycle. Most jellyfishes
go through several stages before they reach adulthood. The typical
jellyfish starts life as a small polyp (something that looks like a sea anemone) attached to the ocean floor. This polyp buds small medusae (jellyfishes) that grow until they reach sexual maturity. At this point, they release gametes into the ocean. After fertilization, the egg forms a planula larva which will settle on the bottom to give rise to a new polyp.
In stalked jellyfishes, things were assumed to be a little different, but simple: the planula attaches to the bottom and metamorphoses into a polyp (so far everything is normal). The top of the polyp metamorphoses into something that looks like a jellyfish while the bottom part stays the same and still looks like a polyp; hence a stalked jellyfish. The only problem with this story is that it is based on only a few observations based on few species, and it's hard to know if all the Stauromedusae do the same thing.
Stauromedusae (stalked jellyfish) - Haliclystus antarcticus
There is another problem: how can you tell if the two stages of the life cycle that look very different belong to the same species? In the best case, you can observe the full life cycle in the field or in the lab, but it is not always possible to do so. In other cases, you can only observe part of the life cycle.
In 1996, Gerhard Jarms & Henry Tieman published a paper where they described a new species of hydrozoan polyps that live on clam shells of the Antarctic that they named Microhydrula limpsicola. They kept the animals in the lab for 4 years, and only observed asexual reproduction by frustules (larvae produced asexually).
In a recent paper, Lucilia Miranda and her colleagues demonstrated that Microhydrula limpsicola is just a stage in the life history of the stalked jellyfish Haliclystus antarcticus. They were able to connect these two life stages by discovering that the DNA of the polyps (what was thought to be M. limpsicola) and the stalked jellyfish (H. antarcticus) were identical.
The life cycle of the stalked jellyfishes is thus much more complicated than we thought.
Furthermore, Microhydrula limpsicola was not the only one of its kind. There are two other species that were thought to belong to this family (the Microhydrulidae). It will now be interesting to determine if they are also stages of other species of stalked jellyfishes.
Links
- Miranda LS, Collins AG, Marques AC (2010) Molecules Clarify a Cnidarian Life Cycle – The “Hydrozoan” Microhydrula limopsicola Is an Early Life Stage of the Staurozoan Haliclystus antarcticus. PLoS ONE 5(4): e10182. doi:10.1371/journal.pone.0010182
- Jarms G & Tiemann H (1996) On a new hydropolyp without tentacles, Microhydrula limopsicola n. sp., epibiotic on bivalve shells from the Antarctic. Sci. Mar. 60(1): 109-115 http://www.icm.csic.es/scimar/index.php/secId/6/IdArt/2742/
Credits
- Photo of jellyfish (top) François Michonneau. Lizard Island, February 2009. CC 3.0
- Photo of H. antarcticus and drawing of life cycle by Miranda et al 2010. CC 3.0
- Photo of the close up of a stauromedusa by Minette Layne CC 2.0
Wednesday, May 19, 2010
Invertebrates in the News #5
Currently, the New York Times is hosting a blog series entitled "Scientists at work, notes from the field".
Today, Terry Gosliner from the California Academy of Sciences writes about new species of nudibranchs he found in the Philippines.
You can read his blog posts here.
Today, Terry Gosliner from the California Academy of Sciences writes about new species of nudibranchs he found in the Philippines.
You can read his blog posts here.
Images by Terry Gosliner
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