Hammerhead shark in pitchblack dark waters
EXPECTATIONS

JVL
Not today Justin

if i look back, i am lost
"I'm Dorothy Gale from Kansas"

Product Placement
hello vonnie
Monterey Bay Aquarium
RMH

Discoholic 🪩

#extradirty

pixel skylines
will byers stan first human second
untitled

No title available

blake kathryn
Sade Olutola
𓃗
wallacepolsom
Misplaced Lens Cap

seen from Poland
seen from Germany
seen from United States
seen from United States

seen from Sweden

seen from Spain
seen from Italy
seen from Netherlands

seen from Malaysia
seen from United States

seen from Türkiye
seen from United States
seen from United States
seen from Germany

seen from United Kingdom
seen from United Kingdom
seen from United States
seen from Spain
seen from Spain
seen from Ukraine
@ubahacom
Hammerhead shark in pitchblack dark waters
Fish of the Day
Happy Tuesday, everyone! Today's fish of the day is the sixgill sawshark!
The sixgill sawshark, also known by scientific name Pilotrema warreni, is a rare subtropical shark. Found in and around the Western Indian ocean close to the upper continental shelf of Southern Africa. Their range particularly stretches around South Africa to Madagascar. Found from a depth of 15-500 meters, although pups are found closer to the surface, as well as birthing mothers, and they will descend deeper into the water column as they age.This shark was once believed to be the only fish in the genus PIlotrema, which can be split into pleion, meaning more, and trema, meaning hole. Defined by their 6 gill slits, making them, for many years, the only shark outside of the Hexanchiformes sharks to possess more than 5 gills. At least, until 2020 when another 2 species in the genus were found; Anna's sixgill sawshark, and Kaja's sixgill sawshark respectively.
Like most sharks, the sixgill sawshark is a carnivore, with a diet made up primarily of small fish, although they're not opposed to the occasional crustacean, or squid. Equipped with electro sensors along the head, as well as barbels that extend down the head and rostrum, making these sharks particularly sensitive to the location of food sources. Once prey is located, these sharks will use the rostrum or "saw" to slice at, stun, and incapacitate prey. This method allows these sharks to get rather large for their family, with female sharks growing to 136cm maximum, and males reaching 112cm. However, despite being large for their family, these are still rather small sharks for the area, and they must remain vigilant, as tiger, and bull sharks have been seen catching and consuming the sixgill.
Little is known about sawshark reproduction, beyond that they are ovoviviparous, and have 5-7 young per litter. 7-17 eggs are developed each pregnancy, but only a few will survive the womb, or the birth. Current data implies that these sharks breed annually, although there is no information as to courtship, we are aware that mothers will ascend to 5-50meters to give birth, where the pups will already be a whopping 35cm. These pups are then abandoned and left to age, descending as they grow, and hunting for larger fish. Maturity will occur at a size of 83cm for male sixgill, whereas females must reach 110cm, often taking multiple years. After this there is no information about their longevity, although it is suspected they likely live around 5-7 years, similar to other sharks in their family.
That's the sixgill sawshark, everybody! have a wonderful day!
Sources:
“Plitrema Warreni.” Worms - World Register of Marine Species - Pliotrema Warreni Regan, 1906, www.marinespecies.org/aphia.php?p=taxdetails&id=217372.
Six-Gill Sawshark | Pliotrema Warreni | Shark Database, www.sharkwater.com/shark-database/sharks/six-gill-sawshark/.
“Sixgill Sawsharks ~ Marinebio Conservation Society.” MarineBio Conservation Society, 21 May 2025, www.marinebio.org/species/sixgill-sawsharks/pliotrema-warreni/.
“Pliotrema Warreni Summary Page.” FishBase, www.fishbase.se/summary/Pliotrema-warreni.
Sad day for our oceans (no plastic treaty)
The thing about nurdles — those tiny plastic pellets that look like someone took the idea of lentils, stripped them of every conceivable nutrient, colour, flavour, and point, and then decided to make them immortal — is that they are everywhere.
They begin life as the raw material for all things plastic, minding their own business in vast sacks, until one day a container ship has a particularly bad afternoon 13 miles off the coast of Kerala. In this case, the MSC Elsa 3 — a name that suggests competence, grace, and punctuality, none of which applied that day — decided to lie down in the Arabian Sea and take the cargo with it.
Now, normally, when something sinks, you might expect it to stay in one place. Not nurdles. Nurdles are buoyant. Nurdles are adventurous. Nurdles will see your biodiversity hotspot and say, “Ah yes, this will do nicely.”
The monsoon arrived — as monsoons often do — and obligingly helped scatter millions of them across Kerala’s beaches, into fishing nets, and, rather impressively, into the food chain. Fish ate them, seabirds ate them, and humans, never to be left out of a culinary fad, began eating the fish. This is a roundabout way of saying that somewhere out there is a person who has eaten a nurdle, possibly while complaining about plastic straws.
Local fishers have been left with nets full of plastic and a compensation cheque worth roughly enough to buy half a good lunch. The nurdles, meanwhile, have settled into their new homes — beaches, mangroves, the digestive tracts of sea creatures — with the smug permanence of a tenant who knows there’s no eviction notice coming.
And why would there be? Nurdles aren’t even legally considered hazardous. They are shipped without fuss, without warning, and without the faintest hint of accountability. Which is why, this past week, when over 170 countries met in Geneva to hammer out a global plastic pollution treaty, many hoped for a sensible agreement on how to keep the oceans free of them.
Instead, we got nothing. Not a “maybe later,” not a “let’s revisit this in the spring,” just the sort of collective diplomatic shrug that, if it were a sound, would be described as moist. The nurdles remain in the ocean. The talks have ended.
There's not much we can do as individuals, but if a lot of individuals do a little bit, it can create a big effect. Which is why we're removing 1 pound of ocean trash for every order in our t-shirts for ocean lovers store at Ubaha.
And somewhere, on a beach in Kerala, a wave rolls in carrying thousands of nurdles, as if to say: “Well, we’re still here. How about you?”
He's very apEELing wouldn't you say? 💛
Just a shark, thinking about its life choices.
A shark carved from wood, looking surprisingly graceful for something that could eat you whole. It's giving "I'm the main character" energy. Would follow its blog.
My bank account after I buy one (1) coffee.
This shark is me, screaming internally. The artist really captured the existential dread of a Monday morning. The detail on the gums is incredible, but also, relatable.
My face when someone asks me if I've started my New Year's resolutions yet.
This shark is a whole vibe. Wide-eyed, open-mouthed, and vaguely judging you. Carved from wood, possibly with the tears of its enemies.
Is this a shark, or my sleep paralysis demon? You decide.
Someone carved a shark out of wood and gave it that "I just woke up from a nap and I'm still processing" look. The teeth are a personal attack. 10/10, would get eaten by it.
Crystal Clear Great White Shark Sculpture
A stunning sculpture of a great white shark crafted from what appears to be crystal or glass. The body transitions from a clear, shimmering lower half to a vibrant blue dorsal side, highlighting the intricate details of its form, gills, and menacing teeth. It is mounted on a clear stand, giving the illusion of a shark in motion.
seahorse x-ray illustration
Wet Beast Wednesday: sea urchins
As I continue the slow grind of covering every living group of echinoderms for this series, it was inevitable that I would eventually encounter the only echinoderm I've actually studied. Sea urchins are among the most iconic of marine invertebrates, but many people just think of them as part of the scenery. I'm here to show you that there's more to these creatures than just being spiny lumps on a rock.
(Image: a purple sea urchin (Strongylocentrotus purpuratus) being held in someone's hand. It is a round, globular animal with a dark purple color. Light purple spines emerge from it all over its body, with the longest being around the middle. End ID)
(image: a long-spined sea urchin (Diadema savignyi). It is a black sea urchin with spines longer than its diameter. End ID)
Urchin is an old-fashioned word for hedgehog, and sea hedgehog is a fitting name for these round, spiny animals. Sea urchins tend to be fairly small, with a diameter of 3 - 10 cm (1 - 4 in), though some species have very long spines that make them seem larger. The main body of an urchin is round and enclosed in a (usually) hard shell called a test made of calcium carbonate. The test is covered with a slayer of skin and muscle that controls the spines and small, pincer-like structures called pedicellaria. Within the test are the internal organs. As with other echinoderms, sea urchins are radially symmetrical as adults, with five segments arranged around the center like pizza slices. The two main body holes are found on the top and bottom of the animals where the segments converge. At the bottom is the mouth and at the top is the anus. Each segment also has a hole near the anus used to release gametes and one will have a larger pore called the madreporite, which is used to control the amount of water within the urchin's body. The mouth is a unique structure known as Aristotle's lantern, consisting of five tooth-like structures (one for each body segment) that interlock together and sharpen themselves. Behind the teeth is a rasping tongue.
(image: a close-up of an urchin's mouth, showing the Aristotle's lantern. It is a hole surrounded by a fleshy lip. Five spade-shaped teeth are emerging from the edge of the hole. End ID)
Internally, most of the body is taken up by the digestive tract and water vascular system. The digestive system lacks a stomach, with the esophagus attaching directly to the small intestine. The digestive tract forms a loop as it passes through the body. The water vascular system uses seawater to form hydrostatic pressure that moves the tube feet. All starfish, urchins, and sea cucumbers have tube feet, small, transparent, tentacle-like structures they use for movement. Tube feet are hollow and retracted into pores on the skin normally. To be used, they have to be inflated with water, which makes them stick out of the body, where they can be controlled with muscles. Tube feet end in suction cups that can be used to grab into structures around them. Seawater drawn in through the madreporite serves as the source of pressure needed for the tube feet to function. In urchins, tube feet cover the body and are used for locomotion, moving food to the mouth, and moving objects on or off the body. The main body cavity is filled with circulatory fluid that uses special cells to move oxygen and nutrients around the body. The nervous system is simple, consisting of a central nerve ring around the esophagus that branches into nerves that connect to the rest of the body. Urchins have no eyes (except for the family Diadematidae, which have eyespots), but are sensitive to light. The gonads are usually small, but during mating season they can swell to fill much of the body cavity.
(Image: a drawn diagram showing a cross-section of a sea urchin, with the different organs and body parts labeled. End ID. Source)
Sea urchins are found in oceans worldwide, from intertidal zones to the deep sea and the tropics to the poles. They are bottom-dwellers who feed primarily on algae, which they scrape up with their teeth. However, they will also take a variety of food, including carrion, aquatic plants, and other slow-moving or sessile animals like sponges, polyps, bivalves, worms, and sea cucumbers. Urchins can play a key role in regulating algae populations through their ecosystems, but they also rely on predators to keep from overeating necessary algae. Famously, California's kelp forests were almost destroyed by urchins eating the kelp after their primary predator, sea otters, were driven to near extinction. Urchin's primary defense against predators is their hard tests and spines. As most of the edible portion of the urchin is within the test, predators have to get through both layers of defense first. The spines are hollow and each can be moved independently of each other, allowing them to be positioned toward a threat. Many species contain venom within their spines as an added layer of defense. This venom is rarely dangerous to humans, but can cause swelling and painful reactions. Another layer of defense is the pedicellaria, which are good at removing small animals and parasites from the skin. The flower urchin, Toxopneustes pileolus, has modified its pedicellaria into flower-like structures that extend beyond the spines and can deliver a sting that can be fatal to humans.
(Image: a flower urchin. It is a pinkish urchin covered with flower-like structures that extend to the length of the spines. It has placed some bits of shells on top of it. End ID)
Sea urchins possess distinct males and females, though the differences are internal, making it impossible to tell which is which based on visual examination. During mating seasons, the gonads swell as they generate gametes. Urchins tend to reproduce in groups at synchronized times (possibly correlated with the phases of the moon in shallow-water species) to maximize the possibility of fertilization. When ready to mate, the gametes are squeezed to empty their contents through the genital pores and into the water column. Sperm must find egg in the water to fertilize it. Most sea urchins provide no parental care, but in some species, the female will retain the eggs in her spines to protect them. The eggs hatch into bilaterally symmetrical larvae called plutei that drift with the plankton. As they develop, a section of the larvae will develop into a radially symmetrical adult rudiment. This piece will eventually break off and become the juvenile urchin while the rest of the larva dies. Because echinoderms start out as bilaterally symmetrical larvae, we can infer that they developed from bilaterally symmetrical ancestors and the radial symmetry of adults is a more recent development.
(image: a series of photos showing the embryological development of a sea urchin from a single cell to a cluster of cells, to a bell-like structure, to growing several arms, to the eventual adult developing and breaking off. End ID. Source)
Fossils show that the oldest sea urchins had large, club-like spines that they walked on, with the modern spines being a later development. Most of those urchins died out with the dinosaurs, leaving the pencil urchins of order Cicaroida as the only living members. All other living urchins are Part of the clade Euechinoidea. Amongst them, there are still some oddballs, known as the irregular urchins of clade Irregularia. These urchins have moved away from radial symmetry, with less symmetrical segments and the anus and mouth moving from being on the top and bottom to being on the sides in the heart urchins. Heart urchins have gone from bilateral symmetry to radial symmetry and are now going back to bilateral symmetry. Heart urchin mouths don't have an Aristotle's lantern. Instead, they use strands of mucus to capture food and cilia to pull the strands back inside. Sand dollars, also known as sea cookies or sea biscuits, are also in this clade. These are flattened urchins with short and very fin spines that resemble velvet. They are burrowers who spend much of their time buried under sand and as such are rarely seen alive. The name sand dollar comes from their tests, which are similar to old dollar coins and can often be found washed up on beaches. While still radially symmetrical, sand dollars also have a secondary form of bilateral symmetry, with a distinct front and back end that often look different. Irregular sea urchins also tend to have fewer gonads and associated pores than regular sea urchins.
(image: a red pencil urchin (Heterocentrotus mamillatus) nestled among coral. Instead of spines, it has a series of long, thick, red clubs. End ID)
(image: a purple heart urchin (Spatangus purpureus). It is an urchin elongated on one direction and with a few rows of long spines amongst short ones. On the surface facing the camera is a large hole that could be the mouth or the anus. End ID)
(image: a group of irregular sand dollars (Dendraster excentricus) partially buried in the sand. They are round, flat animals with a velvety covering of tiny spines. The are sticking out of the sand. End ID)
Sea urchins have been known to humans for as long as people have lived near the ocean. Stings can occur when people step on them and can cause pain and irritation, but are rarely medically significant. That being said, some people can have allergies to the venom, which could be a big problem. Spines left in the wound should be removed, as they can continue injecting venom. Urchins are a food source for people around the world, specifically the gonads, which are the only meaty part of the animal. The gonads are often marketed as roe or corals and can be eaten raw or cooked. Urchins are also used as a model organism in embryology due to the interesting and well-studied nature of their larval development. Urchins are vulnerable to pollution, habitat loss, and over-predation. Ocean acidification due to climate change poses a major threat to them, as it reduces the quality of their tests.
(image: tow sea urchins served as food. They are upside-down with the bottoms removed. The gonads are visible within as five orange, spongy structures that take up most of the body cavity. End ID)
Then there's the Helmet Urchins who turned their spines into flat scales and look straight out of the cambrian!
i'd watch that if it were a movie
cause every day is better with a shark pic