Rife's computer program creates a profile of the creature and begins to autopilot the craft, all the while keeping the animal in view as it drifts through a chilly, dark world.
"When this thing is working properly, we are bored stiff and just sit around talking," says Rife. "It's a lot like playing a video gamejust keeping the target in the center of the screen."
During the past year, Rife has chased jellyfish on seven Ventana missions. The Ventana's tracking record to date is 89 minutes on one jelly.
The Ventana opens a window on a world of exotic creatures. Gelatinous animals include more than just the medusa-like jellyfish that wash up on the beachlike comb jellies, which have a different architecture, and no stingers.
Other more sophisticated jelly creatures include some mollusks and snails, and tunicatessea squirts, salps and larvaceans.
All these creaturesabout 95 percent waterplay a vital role in the ocean food chain, "where everyone's just looking for a good meal," Rife says.
Rife has tracked several larvaceanstransparent, tadpole-like animals about the size of a BB that construct so-called "filtering houses" to catch food.
These houses are three-dimensional mucus-nets or webs. The coarse outer web catches unwieldy particles. The fine inner filter of the house, which looks like a pair of clenched fists, catches microscopic food particles and sends them directly through a pipe to the animal's mouth.
The entire house structure, with tiny particles stuck in its sticky thread, glitters like a diamond encrusted fishing net. In deep water these houses can stretch up to six feet wide.
When the house becomes clogged with excessive debris the larvacean abandons it and builds another. The houses eventually collapse under their own weight and sink, carrying the nutrient-loaded scaffold to the ocean floorproviding food for deep-sea life.
"We always thought, and taught, that nutrients reached the ocean floor as a fine rain of sediments," says Robison. "For decades we knew deep sea ocean floor was using more food than could be accounted for, and now, here we have an unaccounted-for transport mechanism for getting nutrients to the ocean floor."
The jellies reveal a remarkable adaptability and even a sense of community.
"Simple as they are, these life forms are capable more sophisticated behavior than we thought," Madin says.
With just a basic network of nerves, the jellies can smell and taste food, detect light and possibly sense their topography. Many perform dramatic vertical as well as horizontal migrations and form aggregations of millions of creatures at particular times of the year.
"Jellyfish have been around for 500 to 600 million yearsthey are a very early, very successful form of life," Madin says. "They keep it simple."
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