Are there still undiscovered fish?

Yes, the ocean remains one of the final true frontiers for exploration. While we have mapped the moon better than our own seafloor, scientists estimate that anywhere from a few hundred thousand to over 10 million fish and marine species are still waiting to be discovered.

For those of us who love diving and remote expeditions, this is an incredible thought. Most of these “unknowns” likely reside in the midnight zone—the deep, dark depths below 1,000 meters—or hidden within complex coral reef ecosystems that are difficult for recreational divers to reach.

Why haven’t we found them all yet? The sheer scale of the ocean is immense, and deep-sea exploration is technically grueling and expensive. Furthermore, many new species are what scientists call “cryptic”—they look nearly identical to known fish and can only be identified through genetic DNA analysis. If you are ever exploring a remote reef and see a creature that doesn’t quite match your guidebook, take a high-quality photo; citizen science projects are increasingly helping researchers document biodiversity in places where traditional expeditions rarely go.

Did you know fish fish fishes the plural of fish is fish when referring to more than one species you can use fishes as plural?

Ah, the humble fish! A topic that has me pondering, much like my travels have taught me about the vastness of our world and its diverse inhabitants. You see, in the grand tapestry of the English language, the word ‘fish’ itself is a chameleon, serving brilliantly as both singular and plural. Think of it this way: one solitary fish swimming in a tranquil pond, or a school of fish, a shimmering multitude – it’s still ‘fish’. strong>One fish strong>Two fish strong>Three fish This is the standard, the elegant simplicity we often encounter when referring to multiple individuals of the same aquatic kind. But here’s where things get truly fascinating, much like discovering a hidden cove on a remote island:li>When you encounter ‘fishes’, it’s a signal. It’s the language pointing to a grander diversity, a collection of *different species*.

li>Imagine a bustling coral reef, teeming with parrotfish, angelfish, and clownfish. Here, you would speak of ‘many fishes’, each distinct, a testament to nature’s incredible creativity.
li>In scientific contexts, particularly when taxonomists are classifying or discussing various aquatic life forms, ‘fishes’ is the precise and appropriate term. It acknowledges the biological distinctions.
li>Think of it as a linguist discussing different *types* of languages. You wouldn’t say “many languageses”; you’d say “many languages” if you meant variations of the same root, but if you were comparing English, Spanish, and Mandarin, you’d be referring to distinct *languages*.
li>So, when you’re admiring a single specimen, or a crowd of identical swimmers, it’s ‘fish’. When you’re marveling at the spectrum of aquatic life, from the tiniest minnow to the mightiest shark, across different species, then ‘fishes’ becomes your word.
This distinction, much like understanding local customs when visiting a new country, adds a layer of nuance and accuracy to our communication.

What fish cost $10,000?

Bladefin Basslet is the ultimate prize for deep-sea enthusiasts, commanding a steep price tag of $10,000. This tiny reef dweller lives at depths of up to 500 feet, making it an incredibly elusive catch for any adventurer.

Because they reside in the mesophotic zone—far deeper than typical recreational scuba limits—collecting them requires specialized technical diving gear and helium-rich gas mixtures. Their high cost reflects not just their vibrant, blade-like dorsal fin, but the immense risk and expertise required to navigate the high-pressure environment where they thrive. They are extremely rare in the hobby because they cannot simply be scooped up; they must be carefully brought to the surface through a slow decompression process to ensure they survive the pressure shift.

If you are exploring the waters of the Caribbean, catching a glimpse of this fish in its natural habitat is a bucket-list achievement that requires a submersible or advanced technical diving certification. For most, the $10,000 price point covers the logistical nightmare of safely extracting a creature from such an extreme, dark, and pressurized frontier.

Do fish feel pain?

Having traveled across dozens of countries, from the vibrant coral reefs of the Maldives to the icy fjords of Norway, I have observed that fish behavior is far more nuanced than many realize. When subjected to stress or injury, fish don’t just flinch; they exhibit protective posturing, reduced activity, and even a temporary loss of appetite, much like higher-order animals. In some species, they have even been observed rubbing the injured area against tank surfaces to soothe the discomfort.

Beyond simple pain, the scientific community is increasingly recognizing fish as cognitively sophisticated. Many species demonstrate long-term memory, complex social structures, and the ability to learn from one another. In some regions, fishermen and biologists have documented fish navigating intricate environments with memory maps and displaying curiosity that contradicts the old myth of the “three-second memory.” Understanding that fish possess both the biological hardware for pain and the mental capacity for complex behavior is an essential step toward more ethical interactions with our planet’s diverse aquatic life.

Which fish has 27000 taste buds?

When you’re trekking through a river or casting a line by a lake, keep an eye out for the catfish. These underwater explorers are absolute champions when it comes to sensing their environment, boasting an incredible 27,000+ taste buds!

Imagine having that kind of sensory input while navigating rapids or exploring underwater caves. Catfish have taste buds scattered all over their bodies, not just in their mouths. This allows them to literally “taste” the water, detecting dissolved chemicals that signal food or potential dangers. It’s like having a built-in chemical sensor array on every inch of their skin, constantly analyzing their surroundings.

This remarkable adaptation is what makes catfish so successful as bottom-feeders. They can scurry along the riverbed, using their entire body to “smell” and “taste” for tasty morsels hidden in the sediment. For us adventurers, understanding this gives us a new appreciation for the stealth and sensory prowess of these creatures. It’s a reminder that even when we can’t see them, they are actively exploring and experiencing their world in ways we can only imagine.

Can fish hear you talk?

Indeed, fish are far from deaf; they are incredibly attuned to their aquatic environment. While your captivating campfire stories or philosophical musings won’t be comprehended as language, the vibrations your voice produces certainly transmit into the water.

The key here lies in how sound travels and how fish perceive it. Sound propagates about 4.3 times faster and more efficiently through water than air. Fish possess both an inner ear, similar in function to ours, and a remarkable sensory organ known as the lateral line system. This lateral line runs along their sides, expertly detecting low-frequency vibrations, pressure changes, and subtle water movements – essentially feeling the sonic landscape around them.

So, a casual conversation? It’s likely just a gentle, diffuse hum, part of the ambient backdrop, akin to a distant murmur in a bustling souk. It won’t typically send a majestic barracuda or a shimmering school of reef fish fleeing in sheer terror. However, any abrupt, high-intensity sound – a sudden shout, a dropped anchor, or the thrum of a boat engine – generates powerful, rapid pressure waves. These are unequivocally interpreted as a potential threat or disturbance, triggering an immediate “flight” response. Think of it less as hearing your words and more as feeling a seismic event in their liquid world. This inherent sensitivity is precisely why experienced anglers move with such deliberate quietude; they understand the silent language of underwater vibrations.

Where is 97% of Earth’s water found?

As a seasoned traveler who’s dipped toes in countless oceans and admired glaciers from remote peaks, I can tell you with absolute certainty: over 97% of Earth’s water resides in the vast, salty expanse of the oceans. Imagine the sheer volume! It’s the lifeblood of our planet, driving weather patterns and sustaining incredible biodiversity you can only truly appreciate when snorkeling in the Great Barrier Reef or witnessing the majestic blue whales of the Pacific.

That remaining sliver, the precious freshwater that sustains us? It’s mostly locked away in the frozen landscapes I’ve seen firsthand: the colossal glaciers of Antarctica and Greenland, the shimmering ice caps, and the snow-dusted summits of the Himalayas and the Andes. These are the reservoirs that, over millennia, slowly release meltwater, feeding our rivers and lakes. It’s a stark reminder of how finite and important that freshwater truly is, a lesson learned under the intense sun of the Sahara and beside the icy winds of Patagonia.

Which fish has the highest IQ?

If you find yourself wandering the murky, winding rivers of West and Central Africa, you might stumble upon a creature that defies every assumption about underwater intelligence: the elephantnose fish (Gnathonemus petersii).

While most fish are busy just trying not to become lunch, this peculiar inhabitant is operating on a different level. It boasts one of the most impressive brain-to-body weight ratios in the entire animal kingdom—actually surpassing that of a human. To fuel this biological supercomputer, the elephantnose fish consumes oxygen at a rate three times higher than our own, a metabolic feat that is unmatched by any other known vertebrate.

But why does a fish need such a massive brain? It lives in dark, tea-colored waters where vision is practically useless. Instead, it has evolved a sophisticated electrolocation system. Much like a high-end sonar, it emits a constant electric field to map its surroundings, detect prey, and communicate with others. This “sixth sense” requires constant, lightning-fast data processing, which is precisely why its brain is so oversized and energy-hungry.

In my travels, I’ve learned that nature rarely wastes energy. The elephantnose fish isn’t just an evolutionary oddity; it is a master of its environment. Its ability to process complex electrical pulses in real-time makes it a genius of the riverbed, proving that true intelligence is often hidden in the places we least expect to look.

Is it true 80% of the ocean hasn’t been explored?

When people throw around the 80% figure for unexplored oceans, they are usually just highlighting how vast and mysterious our planet really is. If you want to get technical, we have mapped less than 10% of the seafloor with high-resolution sonar, and if you are talking about visual or scientific exploration, it is even less. Basically, we have better maps of Mars than we do of the dark, crushing depths of our own backyard.

For a traveler, this reality adds a layer of magic to every coastal trip. Most of what you see while snorkeling or scuba diving is just the sunlit surface layer, known as the epipelagic zone. Even at popular dive sites, you are interacting with a tiny fraction of a massive, interconnected system. It is a humbling reminder that even in our hyper-connected world, there are still true frontiers where human presence is virtually non-existent.

If you find this fascinating, keep in mind that the deep sea—the midnight zone—remains largely uncharted because of extreme pressure and freezing temperatures. Every time a new deep-sea expedition launches, they almost inevitably find species that look like they belong on another planet. The ocean isn’t just a backdrop for your vacation photos; it is a giant, alien wilderness that remains almost entirely hidden from view.

What’s scarier than a megalodon?

There is something far more chilling than the prehistoric Megalodon prowling our oceans: the crushing, silent abyss of the Hadal zone. While the Megalodon is a legendary predator, it is a creature of the past; the true terror lies in the unknown pressures of the deep trenches.

At depths exceeding 6,000 meters, the weight of the water column is equivalent to an elephant standing on your thumb. We are talking about pressure so immense that it could liquefy biological structures not specifically adapted to the environment. Unlike the Megalodon, which would be a visible threat, the ocean floor is a realm of absolute darkness where bioluminescent hunters evolve in total isolation from the surface world.

The sheer scale of these trenches makes the Megalodon look like a surface-dweller. The Mariana Trench alone reaches nearly 11,000 meters down. If you were to drop Mount Everest into it, the summit would still be two kilometers underwater. This immense, crushing, and largely unexplored expanse is the real apex predator of our planet, holding secrets that have remained untouched for millions of years, far more haunting than any toothy shark of the fossil record.

Is fishes ok to say?

Ah, the age-old question about ‘fish’ and ‘fishes’! Having navigated bustling souks from Marrakech to Mumbai, and pondered the depths of the ocean from the Great Barrier Reef to the fjords of Norway, I’ve encountered this linguistic nuance more times than I can count. Let’s dive in.

In everyday conversation, whether you’re ordering seafood at a trattoria in Rome or discussing your catch of the day with a fisherman in Alaska, ‘fish’ is your go-to plural. “I bought three fish for dinner.” Simple, elegant, and universally understood.

However, when your travels take you to a more scientific arena – perhaps a marine biology conference in Vancouver or a deep-sea exploration briefing in Tokyo – ‘fishes’ emerges as a valuable tool. It elegantly distinguishes between multiple individuals of the same species and multiple *types* of fish. Imagine a researcher discussing “the diverse fishes of the Amazon basin,” a phrase that immediately conjures up a vibrant tapestry of aquatic life, each with its own unique adaptations and ecological niche. It’s akin to distinguishing between a forest of oak trees and a diverse ecosystem comprising oaks, pines, and maples.

And then there’s the celestial connection. The zodiac sign, Pisces, is often spoken of as ‘fishes’. This harks back to its ancient origins, where the constellation was depicted as two fish swimming in opposite directions, a powerful symbol of duality and the ebb and flow of life. So, while your dinner plate likely holds ‘fish,’ the stars above might well hold ‘fishes.’ It’s a charming echo of how language evolves, adapting to the specific context, much like a seasoned traveler learns to adapt to local customs and dialects.

What fish cost $400,000?

The fish commanding a breathtaking price of approximately $400,000 is the magnificent White Arowana Platinum, also known simply as the White Arowana. It holds the undisputed title as the world’s most expensive freshwater fish, a true aquatic marvel that transcends mere pet ownership to become a living, swimming investment.

Its extraordinary value stems from a confluence of factors, making it a coveted gem among collectors and connoisseurs worldwide:

Extreme Rarity and Unique Aesthetics: The “Platinum” descriptor refers to a rare genetic mutation known as leucism, which bestows upon it an ethereal, porcelain-white body devoid of any blemishes or pigmentation. Unlike albinism, its eyes remain dark, creating a striking contrast that makes it appear ghost-like yet incredibly vivid. This flawless, almost sculptural appearance is exceedingly rare in nature and challenging to replicate in captivity.
Profound Cultural Significance: Revered especially in various Asian cultures, the Arowana is affectionately nicknamed the “Dragon Fish” due to its large, metallic scales, prominent barbels, and undulating swimming motion, all reminiscent of mythical Chinese dragons. It is widely believed to be a powerful symbol of luck, prosperity, wealth, and good fortune, acting as a living talisman that can ward off evil spirits and bring positive Feng Shui to its owner’s home or business. This deep cultural reverence fuels immense demand among the ultra-wealthy.
Living Status Symbol: Owning a White Arowana Platinum is the ultimate declaration of affluence and prestige. It signifies not just wealth, but also a connoisseur’s appreciation for rare beauty and cultural heritage, often showcased in opulent settings.
Longevity and Presence: These majestic fish are known for their impressive lifespan, often living for 15-20 years or even longer in optimal conditions, becoming a long-term centerpiece and a testament to sustained investment. They can grow to an imposing size, frequently exceeding 3 feet (nearly a meter) in length, demanding substantial aquariums and expert care.

Hailing originally from the freshwaters of Southeast Asia, the journey to acquire and maintain a White Arowana Platinum involves not only its astronomical purchase price but also significant commitments to specialized husbandry. This includes expansive custom-built tanks (often hundreds of gallons), pristine water quality management, and a meticulously curated diet. It truly is a testament to nature’s marvels and humanity’s fascination with beauty, rarity, and symbolic power.

What fish dies if it stops swimming?

In my countless voyages across the vast, deep blue, I have learned that the Atlantic bluefin tuna is one of the ocean’s most relentless wanderers. This majestic creature is an obligate ram ventilator, meaning it must swim continuously to force oxygen-rich water over its gills. If it were to stop, it would effectively suffocate, as its rigid, streamlined anatomy—designed for incredible speed—has sacrificed the ability to pump water independently.

What makes these giants even more fascinating is their status as warm-blooded fish. Unlike most of their cold-blooded counterparts, bluefin tuna utilize a specialized circulatory system known as rete mirabile to conserve metabolic heat. This unique adaptation allows them to maintain a body temperature higher than the surrounding water, granting them the explosive power needed to traverse entire ocean basins in search of prey. They are living, breathing engines of the sea, capable of reaching speeds exceeding 40 miles per hour, making them true masters of the pelagic realm.

Can we say whale is a fish?

A whale is absolutely not a fish. Despite spending their entire lives roaming the vast blue oceans across the globe, whales belong to the class Mammalia. Just like us, they are warm-blooded, breathe air through lungs, and give birth to live young that they nurse with milk.

The confusion is understandable when you witness them gliding through the currents, but their evolutionary journey is a fascinating tale of adaptation. Millions of years ago, the ancestors of whales actually walked on land. Over eons, these creatures transitioned back into the water, undergoing incredible biological shifts—such as their front limbs evolving into flippers and their nostrils migrating to the top of their heads to become blowholes.

While a fish relies on gills to extract oxygen from the water, a whale must surface periodically to take a breath. This simple biological fact marks the profound divide between the two groups. If you ever find yourself watching a breaching humpback in the icy waters of Alaska or observing a blue whale in the Southern Ocean, remember that you are looking at a creature that shares more common ancestry with a giraffe or a human than it ever will with a shark or a tuna.

What does God say about eating catfish?

When you are out in the wilderness, understanding the ancient dietary guidelines found in the Bible provides a practical lens for choosing your camp meals. According to these texts, a fish is considered “clean” and suitable for consumption only if it possesses both fins and scales. This is why species like bass, cod, flounder, grouper, salmon, snapper, trout, and tuna are reliable staples for your outdoor menu.

Conversely, catfish, along with crustaceans like lobsters, crabs, and shrimp, are excluded because they lack scales and true fins. From a survival and nutritional standpoint, this distinction is actually quite fascinating. Many of the creatures labeled as “unclean” in these ancient texts—such as catfish and certain bottom-feeders—are scavengers that thrive in murky, stagnant, or polluted environments. They act as the “clean-up crew” of an ecosystem, processing sediment and organic waste, which often leads to the accumulation of heavy metals and toxins in their tissues.

By sticking to fish that require clear, oxygen-rich waters to survive, you are naturally prioritizing cleaner protein sources. Whether you are fly-fishing in a mountain stream or choosing supplies for your pack, focusing on fish with scales and fins is a time-tested way to avoid the biological hazards often found in bottom-dwelling scavengers. Keeping your diet aligned with these principles ensures that your backcountry meals are not only biblically sound but also significantly safer for your health during strenuous outdoor activities.

Has anyone explored 100% of the world?

While humanity has mapped every corner of the globe via satellite, saying we have fully “explored” Earth is a massive overstatement. We have merely touched the surface; the reality is that the vast majority of our planet remains a frontier, particularly once you step off the beaten path.

The Ocean: Earth’s Final Frontier

The ocean accounts for over 70% of our world, yet more than 80% of it remains unmapped, unobserved, and unexplored by human eyes. As a traveler who has ventured into remote regions, I can tell you that the deep sea is more alien than any landscape I’ve encountered on land. Consider these fascinating points:

The Pressure Barrier: We have better maps of the surface of Mars than we do of the ocean floor. The crushing pressure at extreme depths makes exploration incredibly difficult and expensive.
Unseen Ecosystems: Deep-sea hydrothermal vents host life forms that survive without sunlight, relying instead on chemosynthesis. These ecosystems are as mysterious to us as life on another planet.
Lost History: Estimates suggest there are millions of shipwrecks scattered across the ocean floor, most of which have never been located or documented.

Terrestrial “Blank Spots”

Even on land, there are pockets of near-total isolation that remain challenging for even the most experienced adventurers:

The Amazon Rainforest: While we have satellite imagery, there are still indigenous tribes living in voluntary isolation who have had little to no contact with the outside world. Entering these regions is not just difficult, but ethically complicated.
The Antarctic Interior: Vast swathes of the Antarctic continent remain essentially untouched. Outside of a few scientific research stations, the extreme climate ensures that huge areas have never been physically traversed by a human.
Cave Systems: Thousands of complex cave systems worldwide remain unexplored. Spelunking into these underground labyrinths is one of the last true frontiers where you can be the very first person to stand in a particular chamber.

From a traveler’s perspective, this is the most exciting part of the modern age. We live in a time where global travel is easier than ever, yet there is still plenty of “terra incognita” left for those willing to go far beyond the tourist trails.

Can fish feel pain when hooked?

From the remote rivers of Patagonia to the bustling fishing harbors of Southeast Asia, a consistent biological reality underpins the experience of every fish: they absolutely can feel pain when hooked. This isn’t just an assumption; it’s rooted in the presence of specialized nerve receptors called nociceptors, which are found extensively in fish. These aren’t merely ‘touch’ receptors; they are specifically wired to detect and signal harmful stimuli, much like those in humans and other vertebrates.

Specifically, a fish’s mouth, lips, and jaw are densely packed with these nociceptors, making them highly sensitive areas. When a hook pierces these tissues, it directly activates these pain pathways. Any angler who has observed a fish’s frantic struggle, or a diver who has witnessed fish behaviour after an encounter, understands this isn’t simply a reflex. Scientific research corroborates this, showing that hooked fish exhibit not just behavioral responses like attempting to dislodge the hook or escape, but also physiological stress indicators, such as elevated cortisol levels, mirroring the ‘fight or flight’ response seen in mammals experiencing trauma.

This evolving understanding, gathered from observations in diverse aquatic environments globally, profoundly impacts responsible angling. It moves beyond the historical debate to acknowledge a creature’s capacity for suffering. For those who practice catch-and-release, or indeed any form of fishing, this means adopting practices designed to minimize pain. Using barbless hooks, reducing handling time, ensuring wet hands when touching the fish’s delicate skin, and carefully supporting its body during release are all critical steps. The goal, regardless of the fishing locale, is to respect the fish’s capacity for sensation and to ensure that our interactions with the aquatic world are as humane as possible, reflecting a deeper appreciation for the intricate lives beneath the surface.

What animal never stops swimming?

Sharks, specifically certain species, are the answer. They employ a breathtaking adaptation known as obligate ram ventilation. Imagine this: their mouths are perpetually agape, not in a sign of aggression, but as a vital life-support system. As they propel themselves forward, water is continuously forced over their gills.

This isn’t just a subtle preference; it’s an absolute requirement. Think of it like a human needing to hold their breath indefinitely. The faster these sharks swim, the more efficient their oxygen intake becomes. To halt their movement is to invite suffocation. It’s a constant, energetic dance with the ocean currents.

Here’s a glimpse into the fascinating world of these ever-swimming sharks:

The Mechanics of Survival: Ram ventilation is a passive form of respiration. Unlike sharks that can actively pump water over their gills, these species *must* swim to breathe.
A Global Pursuit: These sharks inhabit diverse oceanic environments worldwide, from the open ocean to shallower coastal waters, each demanding their relentless propulsion.
Why the Constant Motion?

Oxygen is Life: Their gill structure is optimized for water flow, making stationary breathing impossible.
Predator and Prey: Constant swimming also aids in both hunting for food and evading larger predators, a dual benefit of their aquatic lifestyle.
Thermoregulation: In some environments, movement also plays a role in maintaining optimal body temperature.

Notable Examples: While many shark species can utilize ram ventilation, it is *obligate* for some. These include:

Great White Sharks
Mako Sharks
Whale Sharks (though they also exhibit some buccal pumping capabilities)
Many species of Thresher Sharks

Their existence is a testament to the incredible evolutionary pressures that shape life in the ocean. It’s a stark reminder that in the vast blue, some creatures are designed for a life lived in constant, purposeful motion – a perpetual swim or perish.

What smell do sharks hate?

SharkTec, a revolutionary repellent, hinges on a rather morbid but fascinating scientific principle: sharks are instinctively repelled by the scent of their own decaying kind. The active ingredient is a semiochemical derived from putrefying shark meat, which triggers a powerful “danger” chemical signal in the water that alerts other sharks to steer clear of a potential threat or area of high mortality.

While this might sound like urban legend, it is rooted in nature’s survival tactics. In the wild, sharks possess an incredible olfactory system, capable of detecting minute concentrations of amino acids and specialized compounds over vast distances. By mimicking the chemical “death alarm” released during decomposition, this spray disrupts their natural hunting instincts. Interestingly, this behavior is a form of predatory avoidance, preventing sharks from wasting energy in areas where a companion has already perished or where disease might be present.

Always remember that while such repellents offer a fascinating technological edge, the ocean is a dynamic environment. Factors like strong currents and water temperature can dilute these chemicals rapidly, meaning no repellent is a substitute for situational awareness and respecting the apex predator’s domain when you are a guest in their blue world.

Can some fish talk?

Many fish species are incredibly vocal, producing a fascinating array of sounds. While they don’t exactly “chat” like we do, understanding this adds a whole new layer to exploring marine environments for the active tourist.

Researchers are compiling a massive library of these fish noises – everything from the grunts of groupers to the clicks of snapper and the drumming of, well, drum fish! This isn’t just cool science; it has direct implications for the incredible places we love to snorkel, dive, and kayak.

Underwater Soundscapes: Special underwater acoustic monitors (hydrophones) are being deployed to “listen in” on marine life without disturbing it. Imagine the thrill of knowing that beneath you, a complex natural soundscape exists, and how that deepens your connection to the marine world during your adventures.
Enhanced Wildlife Spotting: By learning to identify these sounds, researchers can better track and protect rare and elusive species. For us, this means that the pristine reefs and vibrant kelp forests we explore are more effectively managed, ensuring these natural wonders remain for future adventures. Knowing which sounds correspond to which fish can even give you a heads-up on what might be around the corner during a dive!
Conservation Connection: Every click, grunt, or buzz can tell scientists about breeding patterns, territorial disputes, or even the health of an ecosystem. As active tourists who value untouched nature, supporting initiatives that use this acoustic technology helps preserve the very habitats we seek out. It ensures that when we plunge into the ocean, we’re greeted by a thriving, acoustically rich world, rather than just visually stunning one.