Tag Archives: marine

Mystery Behind the Pacific White Line Solved!

Posted on April 4, 2019 by | Leave a comment

Modified image of a North American West Coast Map with the Pacific White Line highlighted. Source: Wikimedia Commons

For the longest time, scientists around the world never understood the phenomenon behind the Pacific White Line – a line off the coast of North America so large that it can be seen from space. Last year that all changed when marine researchers from the Oregon State University published their findings from their investigations on the Northern California coast. Using acoustic technology, they’re the first to discover that what was previously thought to be a random feature of the Pacific actually acts as a boundary for fish in the ocean. If not acted upon sooner, this boundary driven by climate change could threaten not only the lives of fish but ours, too.

How does this affect us?

The Pacific White Line is one of many tidelines, which form due to strong winds and colliding bodies of water. These regions are nutrient-rich, attracting and accumulating marine life. Although tidelines altogether only make up 1% of the world’s oceans, this 1% contributes to 20% of the global fishing in the world, making it “one of the most productive areas for fisheries” according to Dr. Mei Sato who led the research team.

The problem, however, is that as global warming worsens, this pushes the line further off the coast where fish such as sea bass, tuna, and mackerel can’t reach their prey residing at the line. If fish don’t have food, they can’t survive, and this puts a dent in the food web, the fishing industry, and our food resources. In the following podcast, Dr. Sato further discusses the tidelines, which she refers to as ‘upwelling fronts’, and how they are impacted by climate change.

What can we do moving forward?

With this new discovery comes a scare. Previously, it was thought that the Pacific White Line equally attracted smaller marine life, such as plankton, and larger organisms, such as fish. Clearly, the researchers discovered that wasn’t the case; fish are farther from their prey than they’d like to be. Using acoustic equipment, Dr. Sato and her team were able to determine how marine life was distributed at and around the line, which she explains in the following video:

Video Credit: Breyanne Bautista, Nicole Bostan & Ryan Chang; Source: Youtube

While the research demonstrates that fish are unable to reach their prey at the Pacific White Line, Dr. Sato believes that some other mechanism must be at work allowing them access to food since it’s not like fish populations are instantly depleting. “The mechanism is important to understand to be able to predict the future,” she says. She hypothesizes that plankton may be able to migrate to and from the line at different times of the day but added that higher resolution equipment is needed to explore this.

(By Breyanne Bautista, Nicole Bostan & Ryan Chang)

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Posted in Science Communication, Science Communicators

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The Biggest Natural Bomb?

Posted on January 21, 2019 by | Leave a comment

Here’s something that’ll blow your mind – beached dead whales may explode! That is if the body is tampered by people unsafely. One of the most infamous cases of exploding whales was a dead sperm whale beached in Florence, Oregon in 1970. Attempting to dispose of the rotting whale, the Oregon Department of Transportation decided to blow it up with dynamites. What could go wrong?  (asked no one).

Video of the above mentioned Oregon whale explosion, and the magnitude of its spread.
Video by: theexplodingwhale.com (which seemed to have closed their website)

The explosion threw whale bits all over the area, to as far as 250 meters away: roughly equivalent to the distance between the UBC bookstore and the Beatty Biodiversity Museum. Even though the intent with the dynamite was to dispose of the whale through blowing it to bits, More of these explosions occur across the world, when people uneducated or unknown to this danger, mess with dead whale corpse.

What causes the explosion?
You might ask, what is the scientific reasoning behind these explosions? To answer that, we must first understand a few things about what happens after an animal die. A dead animal undergoes decomposition: the process of rotting and decaying. During this process, proteins in the whale’s tissue break down, and other tissues dry out. This results in several gasses produced within the whale, including common gasses like methane and carbon dioxide. Normally, these gasses can leak slowly through holes natural to the body or holes made by hungry scavengers. However, due to blockage or the weight of the body, sometimes these orifices are forced shut, resulting in gas build-up within the corpse’s body. After enough gas build-up in the body, any disturbance to weak spots on the body surface any external sources weakening parts of the body, i.e. poking a hole in it, results in an explosion, or strong expulsion of the whale’s body contents.

Is this a whale-only phenomenon?
Are whales the only one that turns into ticking gas bombs? The answer is no, they’re not. This decomposition and gas forming process are universal across all animals, but due to the size of whales and the size of the cavities within their body, that explosion is significantly more terrifying.

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Posted in Biological Sciences, Science Communication

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