Deep-sea sharks’ green lights


This 2014 video says about itself:

Neon Sharks Caught on Camera | National Geographic

Researchers studying biofluorescent coral also discovered a shark that reflects certain light, along with a stingray, eel, and other fish. The study, published January 8, 2014, used special lighting and camera filters to identify more than 180 species of marine fishes that exhibit biofluorescence.

From ScienceDaily:

These sharks use unique molecules to glow green

August 8, 2019

In the depths of the sea, certain shark species transform the ocean’s blue light into a bright green color that only other sharks can see — but how they biofluoresce has previously been unclear. In a study publishing August 8 in the journal iScience, researchers have identified what’s responsible for the sharks‘ bright green hue: a previously unknown family of small-molecule metabolites. Not only is this mechanism of biofluorescence different from how most marine creatures glow, but it may also play other useful roles for the sharks, including helping them identify each other in the ocean and fight against microbial infections.

“Studying biofluorescence in the ocean is like a constantly evolving mystery novel, with new clues being provided as we move the research forward,” says David Gruber, a professor at City University of New York and co-corresponding author of the study. “After we first reported that swell sharks were biofluorescent, my collaborators and I decided to dive deeper into this topic. We wanted to learn more about what their biofluorescence might mean to them.”

Gruber, working with Jason Crawford, a professor at Yale University and the study’s co-corresponding author, focused on two species of sharks — the swell shark and the chain catshark. They noticed that the sharks’ skin had two tones — light and dark — and extracted chemicals from the two skin types. What they found was a type of fluorescent molecule that was only present in the light skin.

“The exciting part of this study is the description of an entirely new form of marine biofluorescence from sharks — one that is based on brominated tryptophan-kynurenine small-molecule metabolites,” Gruber says.

These types of small-molecule metabolites are known to be fluorescent and activate pathways similar to those that, in other vertebrates, play a role in the central nervous system and immune system. But in the sharks, the novel small-molecule fluorescent variants account for the biophysical and spectral properties of their lighter skin. This mechanism is different from animals in the upper ocean, such as jellyfish and corals, that commonly use green fluorescent proteins as mechanisms to transform blue light into other colors, Gruber says.

“It’s a completely different system for them to see each other that other animals cannot necessarily tap into. They have a completely different view of the world that they’re in because of these biofluorescent properties that their skin exhibits and that their eyes can detect,” Crawford says. “Imagine if I were bright green, but only you could see me as being bright green, but others could not.”

The molecules also serve multiple other purposes, including to help the sharks identify each other in the ocean and potentially provide protection against microbial infections, Crawford says.

“It is also interesting that these biofluorescent molecules display antimicrobial properties. These catsharks live on the ocean bottom, yet we don’t see any biofouling or growth, so this could help explain yet another amazing feature of shark skin,” Gruber says. “This study opens new questions related to potential function of biofluorescence in central nervous system signaling, resilience to microbial infections, and photoprotection.”

While the study focused on two biofluorescent shark species, Gruber and Crawford hope to more broadly explore the bioluminescent and biofluorescent properties of marine animals, which can ultimately lead to the development of new imaging techniques.

“If you can harness the abilities that marine animals have to make light, you can generate molecular systems for imaging in the lab or in medicine. Imaging is an incredibly important biomedical objective that these types of systems could help to propel into the future,” Crawford says.

“Sharks are wonderful animals that have been around for over 400 million years. Sharks continually fascinate humans, and they hold so many mysteries and superpowers,” Gruber says. “This study highlights yet another mystery of sharks, and it is my hope that this inspires us to learn more about their secrets and work to better protect them.”

This work was supported by grants from the Camille & Henry Dreyfus, Yale University, the National Geographic Society, and the US National Science Foundation.

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Great white sharks, new discoveries


This 29 July 2019 video says about itself:

On today’s episode of The Daily Bite, snack on this year’s biggest Great White [shark] discoveries with shark expert Luke Tipple.

Scottish basking sharks studied


This 6 August 2019 Dutch video, with English spoken, is about basking sharks in Scotland. Scientists tag these sharks electronically for studying them.

Industrial fishing behind plummeting shark numbers. A team of researchers has discovered that sharks are much rarer in habitats nearer large human populations and fish markets. The team also found that the average body size of sharks and other marine predators fell dramatically in these areas, where sharks are caught and killed intensively for their meat and fins: here.

Deep-sea shark tagged, video


This 29 July 2019 video says about itself:

Massive Deep-Sea Shark Checking Out Our Submarine

Help name our ship and you could win a dive in this submarine.

In partnership with the Cape Eleuthera Institute (@ceibahamas), we managed to achieve history, tagging an animal from a submersible (submarine) for the first time EVER.

Our objective was the deep-sea shark, the bluntnose sixgill. This ancient species predates most dinosaurs, and is a dominant predator of the deep sea ecosystem. The lead scientist on the mission, FSU Marine Lab’s Dr. Dean Grubbs has been the first to put a satellite tag on one of these elusive sharks, but until now had only been able to do so by bringing them up to the surface.

Megalodon big extinct shark, how was it?


This 4 August 2019 video says about itself:

What Did Megalodon Really Look Like?

Megalodon is infamous the world over, but what did this mega shark really look like? The fossils of this animal are very incomplete, leading to a great deal of speculation on what its true life appearance could have been.