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Deploying the Doc Ricketts submersible

There are 11 scientists on board, all of whom specialize in various aspects of deep-sea biology, ecology, evolution, taxonomy, and microbiology. 

Me in the ROV control room, collecting the strange pteropod
Me in the ROV control room, collecting the strange pteropod shells

The main goal for the expedition is to explore newly-discovered deep hydrothermal vents and seeps in the southern Gulf of California, however today we made the short 2-hour transit to a more shallow site ~ 35miles away at ~410 meters deep. The Alfonso Basin is an area of extremely oxygen-depleted waters (measured as 0.4 umol per liter – approx. 0.2% of the conc of surface waters), which makes it interesting to compare to other sites on the seafloor. This site was by our Chief Scientist Bob Vrijenhoek.

The ROV Doc Ricketts was launched from the moon pool just before lunchtime (above photo), and from the control room we watched it descend for 30 minutes to the seafloor. Upon touchdown we noticed large bacterial mats, and a number of fish, squid, and shrimp. We wondered how the fish survive in such low oxygen. We spent ~ 4 hours exploring the area, taking push cores of sediment and orange and white bacterial mats, and suction sampling for invertebrate larvae in the water column.  Our most unusual observation was strange, but frequent, small mounds in the seafloor filled with sediment that resembled mousse and strangely-shaped

Beggiatoa bacteria recovered from the push cores samples of
Beggiatoa bacteria recovered from the push cores samples of the bacterial mat.
objects, which we could not identify until we got them onboard ship.  They turned out to be the shells of three species of pelagic pteropod, within the family Cavoliniidae, that were somehow being deposited on the seafloor in this area.  We have several new hypotheses about how they got there, but no one idea seems better than the others. 

In general, we anticipate discovering new species on this expedition. Very little of the ocean floor has been explored, so it is almost always the case that we discover new animals. When a new species is collected, it must be thoroughly described, from both a morphological and molecular perspective, as well as deposited in a museum (this specimen is called the holotype) and named, using proper latin nomenclature. Naming these animals is the best part, since it can be a

Pushcoring the white bacterial mat
Pushcoring the white bacterial mat
creative name with regard to the animal’s lifestyle, natural history, or unusual morphology, or it can be named in honor of scientists that have contributed to the field of study. Six of the scientists on board have had species named after them. We count 24 species in total, plus 3 genera.  A few of these include deep-sea clams from off of West Africa and Peru (Elenoconcha guiness, Pliocardia krylovata, Calyptogena goffrediae), a carnivorous clam (Cuspidaria krylovae), deep-sea gastropods (Rubyspira goffrediae and Lepetodrilus shannonae), a mysterious little Australian worm-like gastropod (Rhodope rousei), two hesionid polychaetes (Gyptis shannonae and Vrijenhoekia balaenophila), a scaleworm with the longest name (Branchinotogluma tunnicliffae), two fan worms (Pseudofabriciola rousei and Opisthodonta rousei), deep-sea crabs (Bythograea vrijenhoekia and Munidopsis vrijenhoekia), and the hairy deep-sea spider Sericosura verenae. Stay tuned for any new and unexpected new animals….

Tonight the ship is headed south to our next destination in the Pescadero Basin. 

Contact Marine Biology
Bioscience Building