Stanford lab develops high-tech tools to study whales in the wild
With innovative tools and access to some of the most whale-friendly waters in the world, Stanford researchers aim to demystify the lives, biology and behavior of the largest creatures on Earth.
Scanning the airwaves over Monterey Bay with a hand-held antenna, Stanford University researchers listen for blue whales – or, more precisely, they listen for the suction tags they’ve stuck on blue whales. The first beep sounds and the captain whips the boat on course, following the quickening signal to find the surfacing giant. The three-person crew must reach the animal before it disappears under the ocean, hidden from sight, radar and study for another 10 minutes. [Note: This research was conducted prior to the novel coronavirus pandemic, and has been on hold in accordance with current guidance regarding research operations.
Researchers aboard a rigid-hull boats deploy a suction-cup tag on a humpback whale near the coast of Moss Landing, California. (Image credit: Taylor Kubota
Stanford lab develops high-tech tools to study whales in the wild
With innovative tools and access to some of the most whale-friendly waters in the world, Stanford researchers aim to demystify the lives, biology and behavior of the largest creatures on Earth.
Scanning the airwaves over Monterey Bay with a hand-held antenna, Stanford University researchers listen for blue whales – or, more precisely, they listen for the suction tags they’ve stuck on blue whales. The first beep sounds and the captain whips the boat on course, following the quickening signal to find the surfacing giant. The three-person crew must reach the animal before it disappears under the ocean, hidden from sight, radar and study for another 10 minutes. [Note: This research was conducted prior to the novel coronavirus pandemic, and has been on hold in accordance with current guidance regarding research operations.]
Stanford researchers and their collaborators use various technologies to better understand rorqual whales – a group of whales that includes humpback, minke, fin and blue whales. These awe-inspiring giants are challenging to study and, therefore, we know surprisingly little about them.
The crew in this fast-paced chase hails from the lab of Jeremy Goldbogen, assistant professor of biology in the School of Humanities and Sciences at Stanford’s Hopkins Marine Station. In the Monterey Bay and around the world, Goldbogen and his team employ drones, sound-based mapping equipment, and sensor-packed tags to demystify the lives and biology of rorqual whales – large whales that feed by lunging at groups of prey and filtering water through baleen plates. These include humpback, minke, fin and of course blue whales, which at nearly 100-feet long are the largest creatures known to have ever lived.
“The largest animals of all time can’t be in a laboratory in a building, so we’ve been developing technology that pushes the envelope in terms of understanding how animals operate in the open ocean,” said Goldbogen.
Even the most basic information the scientists can capture about whales could help improve conservation efforts and inform whale-inspired technologies, such as more maneuverable ships. They are especially interested in uncovering how life operates in animals of such extreme size, which leads them to ask surprisingly simple questions: How much do whales eat? How much energy do they spend on feeding? How big do they really get? How do they move? What’s their heart rate?
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With innovative tools and access to some of the most whale-friendly waters in the world, Stanford researchers aim to demystify the lives, biology and behavior of the largest creatures on Earth.
Scanning the airwaves over Monterey Bay with a hand-held antenna, Stanford University researchers listen for blue whales – or, more precisely, they listen for the suction tags they’ve stuck on blue whales. The first beep sounds and the captain whips the boat on course, following the quickening signal to find the surfacing giant. The three-person crew must reach the animal before it disappears under the ocean, hidden from sight, radar and study for another 10 minutes. [Note: This research was conducted prior to the novel coronavirus pandemic, and has been on hold in accordance with current guidance regarding research operations.
Researchers aboard a rigid-hull boats deploy a suction-cup tag on a humpback whale near the coast of Moss Landing, California. (Image credit: Taylor Kubota
Stanford lab develops high-tech tools to study whales in the wild
With innovative tools and access to some of the most whale-friendly waters in the world, Stanford researchers aim to demystify the lives, biology and behavior of the largest creatures on Earth.
Scanning the airwaves over Monterey Bay with a hand-held antenna, Stanford University researchers listen for blue whales – or, more precisely, they listen for the suction tags they’ve stuck on blue whales. The first beep sounds and the captain whips the boat on course, following the quickening signal to find the surfacing giant. The three-person crew must reach the animal before it disappears under the ocean, hidden from sight, radar and study for another 10 minutes. [Note: This research was conducted prior to the novel coronavirus pandemic, and has been on hold in accordance with current guidance regarding research operations.]
Stanford researchers and their collaborators use various technologies to better understand rorqual whales – a group of whales that includes humpback, minke, fin and blue whales. These awe-inspiring giants are challenging to study and, therefore, we know surprisingly little about them.
The crew in this fast-paced chase hails from the lab of Jeremy Goldbogen, assistant professor of biology in the School of Humanities and Sciences at Stanford’s Hopkins Marine Station. In the Monterey Bay and around the world, Goldbogen and his team employ drones, sound-based mapping equipment, and sensor-packed tags to demystify the lives and biology of rorqual whales – large whales that feed by lunging at groups of prey and filtering water through baleen plates. These include humpback, minke, fin and of course blue whales, which at nearly 100-feet long are the largest creatures known to have ever lived.
“The largest animals of all time can’t be in a laboratory in a building, so we’ve been developing technology that pushes the envelope in terms of understanding how animals operate in the open ocean,” said Goldbogen.
Even the most basic information the scientists can capture about whales could help improve conservation efforts and inform whale-inspired technologies, such as more maneuverable ships. They are especially interested in uncovering how life operates in animals of such extreme size, which leads them to ask surprisingly simple questions: How much do whales eat? How much energy do they spend on feeding? How big do they really get? How do they move? What’s their heart rate?
CLICK HEAR TO DOWNLOAD