 |
|
Study sheds new light on dolphin coordination during predation
October 21, 2008CORVALLIS, Ore. - Spinner dolphins have long been known for their teamwork in capturing prey but a new study using high-tech acoustics has found that their synchronization is even more complex than scientists realized and likely evolved as a strategy to maximize their energy intake.
The study, by scientists at Oregon State University and the University of Hawaii, found that dolphins engage in a highly choreographed night-time "dance" to enclose their prey, and then dart into the circle of confused fish in organized pairs to feed for about 15 seconds, before backing out and letting the next pairs in line take their turn.
Results of the study were published this week in the journal, Acoustical Society of America.
"Synchronized swimmers have nothing on spinner dolphins," said Kelly Benoit-Bird, a marine ecologist at Oregon State University and lead author on the study. "The degree of synchrony they display when feeding is incredible - especially considering that they're doing it at night, several meters below the surface where they can't see their prey or each other."
The study is important, scientists say, because it greatly expands knowledge of spinner dolphin behavior and it opens up new fields of scientific inquiry into underwater ecosystems made possible by technological advancements in acoustical monitoring. It was funded by the National Science Foundation and the Office of Naval Research.
Much of the knowledge about spinner dolphin feeding has been anecdotal because they are primarily nocturnal in their feeding, Benoit-Bird pointed out. However, acoustical eavesdropping allowed the scientists to "view" the dolphins' behavior without interrupting their routine with lights and underwater cameras. In their study off the coast of Oahu, Hawaii, the scientists used sonar readings from a "multi-beam echo-sounder" to monitor groups of spinner dolphins. The animals' systematic approach to feeding was eye-opening.
Initially a small group of about 20 dolphins would swim side-by-side in a straight line until finding concentrations of prey - in this case, lanternfish. When they got to within five meters of their prey, they would pull into a tight circular formation and sequentially swim up and down vertically, in essence, doing "the wave" like fans at a sporting event, Benoit-Bird said.
"They were using their bodies like a plow," she said. "We're not sure if they were creating a pressure barrier or trying to confuse the prey. But the result among the lanternfish was chaos."
As the lanternfish became concentrated, the dolphins tightened their circle and formed 10 pairs. The pairs at one o'clock and seven o'clock would move in, feed for 15 seconds, and retreat back to the circle. Then the pairs at two o'clock and eight o'clock would do likewise.
The feeding would last for about five minutes, during which time each dolphin got two opportunities to feed, and then the group rose as one to the surface to breathe, maintaining their circle. The dolphins would take one breath, Benoit-Bird said, and then dive down and begin the process anew.
"If one or two individual dolphins would break the circle or head to the surface to breathe, it breaks their whole system up," Benoit-Bird said. "They never did. So then you have to ask: How do they communicate with each other, and how do they pass on that knowledge to their young?"
The researchers are still working on the latter puzzle, but their acoustical monitoring study found that much of what scientists had assumed about dolphin communication may, in fact, be wrong in this species. In a companion article also published in Acoustical Society of America, the researchers describe how they used underwater hydrophones to listen to the dolphins during their feeding forays.
Dolphins are often vocal and their use of frequency-modulated whistles was thought by many to cue their coordinated behavior. But the researchers found they didn't use those whistles at all while hunting prey - just during non-foraging times or when they were surfacing. Instead, they used a series of "clicks," with the highest click rates taking place just prior to foraging.
"Whistles are omni-directional, like turning on a light bulb in a room," Benoit-Bird said. "Clicks, on the other hand, are directional like a laser. We think it may be a strategy to communicate only within the group and not to other potential lanternfish predators. Tuna and billfish are looking for the same prey and they can hear the whistles but not the clicks because the frequencies are too high and so focused.
"If you're lined up to eat this great smorgasbord, would you want to tell the tuna next door about it?"
Benoit-Bird's co-principal investigator on both papers was Whitlow W.L. Au, from the University of Hawaii.
Spinner dolphins are found primarily in tropical and subtropical waters, offshore and near island chains. They grow to a length of about six to seven feet, and feed on small, deep-ocean prey including lanternfish, shrimp and juvenile squid.
During their hunting forays, these athletic, acrobatic dolphins catch and consume a single fish at a time and each lanternfish may only be 3-5 inches long. To match their 3,200-calorie-per-day diet, they need to eat at least 650 fish each night - plus enough extra to fuel the energy they burn during the hunt, perhaps another 200 to 300 fish.
"To make that work, they need to eat about a fish a minute," Benoit-Bird said, "and we think that's why they've developed this elaborately complex system of group predation. Dolphins can't open their mouths like baleen whales and swallow large amounts of food at once. They have to target individual fish and it's too difficult and energy-consuming to hunt solo."
"It's tough to make a living in the subtropical ocean, which is something of a biological desert," she added. "They've had to adapt these unique behavioral methods to maximize their ability to capture prey."
Oregon State University
"Synchronized swimmers have nothing on spinner dolphins," said Kelly Benoit-Bird, a marine ecologist at Oregon State University and lead author on the study. "The degree of synchrony they display when feeding is incredible - especially considering that they're doing it at night, several meters below the surface where they can't see their prey or each other."
The study is important, scientists say, because it greatly expands knowledge of spinner dolphin behavior and it opens up new fields of scientific inquiry into underwater ecosystems made possible by technological advancements in acoustical monitoring. It was funded by the National Science Foundation and the Office of Naval Research.
Much of the knowledge about spinner dolphin feeding has been anecdotal because they are primarily nocturnal in their feeding, Benoit-Bird pointed out. However, acoustical eavesdropping allowed the scientists to "view" the dolphins' behavior without interrupting their routine with lights and underwater cameras. In their study off the coast of Oahu, Hawaii, the scientists used sonar readings from a "multi-beam echo-sounder" to monitor groups of spinner dolphins. The animals' systematic approach to feeding was eye-opening.
Initially a small group of about 20 dolphins would swim side-by-side in a straight line until finding concentrations of prey - in this case, lanternfish. When they got to within five meters of their prey, they would pull into a tight circular formation and sequentially swim up and down vertically, in essence, doing "the wave" like fans at a sporting event, Benoit-Bird said.
"They were using their bodies like a plow," she said. "We're not sure if they were creating a pressure barrier or trying to confuse the prey. But the result among the lanternfish was chaos."
As the lanternfish became concentrated, the dolphins tightened their circle and formed 10 pairs. The pairs at one o'clock and seven o'clock would move in, feed for 15 seconds, and retreat back to the circle. Then the pairs at two o'clock and eight o'clock would do likewise.
The feeding would last for about five minutes, during which time each dolphin got two opportunities to feed, and then the group rose as one to the surface to breathe, maintaining their circle. The dolphins would take one breath, Benoit-Bird said, and then dive down and begin the process anew.
"If one or two individual dolphins would break the circle or head to the surface to breathe, it breaks their whole system up," Benoit-Bird said. "They never did. So then you have to ask: How do they communicate with each other, and how do they pass on that knowledge to their young?"
The researchers are still working on the latter puzzle, but their acoustical monitoring study found that much of what scientists had assumed about dolphin communication may, in fact, be wrong in this species. In a companion article also published in Acoustical Society of America, the researchers describe how they used underwater hydrophones to listen to the dolphins during their feeding forays.
Dolphins are often vocal and their use of frequency-modulated whistles was thought by many to cue their coordinated behavior. But the researchers found they didn't use those whistles at all while hunting prey - just during non-foraging times or when they were surfacing. Instead, they used a series of "clicks," with the highest click rates taking place just prior to foraging.
"Whistles are omni-directional, like turning on a light bulb in a room," Benoit-Bird said. "Clicks, on the other hand, are directional like a laser. We think it may be a strategy to communicate only within the group and not to other potential lanternfish predators. Tuna and billfish are looking for the same prey and they can hear the whistles but not the clicks because the frequencies are too high and so focused.
"If you're lined up to eat this great smorgasbord, would you want to tell the tuna next door about it?"
Benoit-Bird's co-principal investigator on both papers was Whitlow W.L. Au, from the University of Hawaii.
Spinner dolphins are found primarily in tropical and subtropical waters, offshore and near island chains. They grow to a length of about six to seven feet, and feed on small, deep-ocean prey including lanternfish, shrimp and juvenile squid.
During their hunting forays, these athletic, acrobatic dolphins catch and consume a single fish at a time and each lanternfish may only be 3-5 inches long. To match their 3,200-calorie-per-day diet, they need to eat at least 650 fish each night - plus enough extra to fuel the energy they burn during the hunt, perhaps another 200 to 300 fish.
"To make that work, they need to eat about a fish a minute," Benoit-Bird said, "and we think that's why they've developed this elaborately complex system of group predation. Dolphins can't open their mouths like baleen whales and swallow large amounts of food at once. They have to target individual fish and it's too difficult and energy-consuming to hunt solo."
"It's tough to make a living in the subtropical ocean, which is something of a biological desert," she added. "They've had to adapt these unique behavioral methods to maximize their ability to capture prey."
Oregon State University
Dolphins Current Events and Dolphins News RSSFish vision discovery makes waves in natural selection
Emory University researchers have identified the first fish known to have switched from ultraviolet vision to violet vision, or the ability to see blue light. The discovery is also the first example of an animal deleting a molecule to change its visual spectrum.
Getting a leg up on whale and dolphin evolution
When the ancestors of living cetaceans-whales, dolphins and porpoises-first dipped their toes into water, a series of evolutionary changes were sparked that ultimately nestled these swimming mammals into the larger hoofed animal group.
Evidence Points to Conscious 'Metacognition' in Some Nonhuman Animals
J. David Smith, Ph.D., a comparative psychologist at the University at Buffalo who has conducted extensive studies in animal cognition, says there is growing evidence that animals share functional parallels with human conscious metacognition -- that is, they may share humans' ability to reflect upon, monitor or regulate their states of mind.
Hundreds of New Species Discovered in Fragile Eastern Himalayas
Over 350 new species including the world's smallest deer, a "flying frog" and a 100 million-year old gecko have been discovered in the Eastern Himalayas, a biological treasure trove now threatened by climate change.
Human language and dolphin movement patterns show similarities in brevity
Two researchers from the Polytechnic University of Catalonia (UPC) and the University of Aberdeen in the United Kingdom have shown for the first time that the law of brevity in human language, according to which the most frequently-used words tend to be the shortest, also extends to other animal species.
Spanish scientists develop echo-location in humans
A team of researchers from the University of Alcalá de Henares (UAH) has shown scientifically that human beings can develop echolocation, the system of acoustic signals used by dolphins and bats to explore their surroundings.
Dolphins get a lift from delta wing technology
We can only marvel at the way that dolphins, whales and porpoises scythe through water. Their finlike flippers seem perfectly adapted for maximum aquatic agility.
NOAA, USFWS study finds potential disease threats to Washington sea otters
Many of Washington State's sea otters are exposed to the same pathogens responsible for causing disease in marine mammal populations in other parts of the country.
Dolphins maintain round-the-clock visual vigilance
Dolphins have a clever trick for overcoming sleep deprivation. Sam Ridgway from the US Navy Marine Mammal Program explains that they are able to send half of their brains to sleep while the other half remains conscious.
The numerate honey bee
The remarkable honey bee can tell the difference between different numbers at a glance. A fresh, astonishing revelation about the 'numeracy' of insects has emerged from new research by an international team of scientists from The Vision Centre, in Australia, published January 28 in the online, open-access, peer-reviewed journal PLoS ONE.
More Dolphins Current Events and Dolphins News Articles
 |
Light up Dolphins Animal Sculpture Led Lamp Lighting by Jed Mart A crystal reef glows with a hauntingly beautiful light, adding undersea magic to a long, dark night! Clear pink "coral" and three dancing dolphins are bathed in a soothing blue glow from a hidden LED light. A fanciful decoration sure to delight the most ardent dolphin admirer! Polyresin with wood base. Uses three cell batteries (included). 5 1/4" x 4 1/2" x 6 1/2" high. |
 |
Dolphin Clock with Alarm - Style 37178 by Gift Warehouse The only way you sleep through this alarm is if you do it "on porpoise!" A fun-loving fellow keeps watch with an inset alarm clock. Requires 1 "AA" battery (not included). Plastic. 9 3/4" x 1 3/4" x 4 1/2" high. |
 |
DOLPHIN Crystal Necklace in Blue Dolphin Gift Box by Abernook Gorgeous Pendant with genuine European Crystals in a matching Velour Hinged Gift Box! Our entire series of these cute animal necklaces makes wonderful gifts! Each pendant hands on an 18" chain, genuine European crystals and 18 kt gold finish. Get one of each style! |
 |
Dolphin Fleece Blanket - Style 37248 by Gift Warehouse Dancing dolphins splash above a sunlit turquoise ocean on this bold, bright blanket. Thick, soft fleece keeps you warm and toasty with a generous size big enough to share! 100% Polyester fleece. 60" x 50". |
 |
Everything Dolphin: What Kids Really Want to Know about Dolphins (Kids' Faqs) by Marty Crisp (Author) Everything Dolphin... What Kids Really Want to Know About Dolphins. Dolphins captivate us with their intelligence, their chattering and their amazing jumping! These truly cool animals are the latest focus in the popular Kids' FAQs(tm) series, based on real questions from real kids. In addition to providing basic information like habitat, diet, species distinction, and life cycle, this book delves into the more unusual--but equally important--questions, like "Why are dolphins always smiling?" Everything Dolphin is packed full of useful information and fun trivia. Parents and teachers agree, the Kids' FAQs(tm) series is perfect for budding scientists or simply curious kids. Also available in hardcover. |
 |
Melissa & Doug Plush Stuffed Dolphin by Melissa and Doug Cuddle up to this adorable grey dolphin for sweet dreams, or dream up wonderful, oceanic adventures with it. This oversized plush dolphin features soft grey fur and a white belly. Measures 39" long. |
 |
Lekue Silicone Ice Cube Tray, Dolphin by Lekue Lekue Fancy Shapes trays are made out of FDA approved recycleable rubber. They are ideal for making cool shaped ice cubes and also for molding gelatin for fun snacks. Non-stick and bendable, ice cubes pop right out and Lekue ice cube trays never lose their shape, whatever shapes you choose. Try using colored punch, food coloring, juices or lemonade in the tray to make awesome cubes! |
 |
Dolphin Majesty Music Box by Ardleigh Elliott Experience the Music and Majesty of the Seas - The sea is an enchanted world filled with creatures of sparkling color and majesty. Now, captured by acclaimed artist Christian Riese Lassen, frosted dolphins rise majestically from glistening crystalline waves atop this stunning music box. Demand for this well-known artist's work is high, so those interested in owning this music box from Ardleigh Elliot collectible music boxes should order today. Just 95 firing days, order now to avoid disappointment |
 |
Color glass carousel dolphins - Style 30308 by Gift Warehouse Frosted dolphins frolic around this spun glass carousel with its pink, mirrored base. A touch sends the carousel spinning, shimmering with gold plated highlights. 3 3/8'' diameter x 6 1/4'' high. |
 |
Dolphins by Sylvia M. James (Author) |
| © 2009 BrightSurf.com |