Rajaram Sir, I congratulate myself for triggering your vast insight,in this field as is the case with you in almost every field.Those who read your wonderful response certainly become more knowledgeable and they certainly think.
On Sat, Jul 27, 2024 at 7:47 AM Rajaram Krishnamurthy <[email protected]> wrote: > Mindless Wonders: Animals without Brains > > The brain is the epicentre of our body; it’s where all the action happens > and, without it, we’d fail to function. Not only does your brain tell your > body when to move, talk, or sleep, it also controls systems without you > even thinking about it, such as your heart. With this in mind, it’s hard to > believe that there are lots of animals out there that don’t even have a > brain! How do they survive, and how do their bodies function? Let’s dive > into the amazing world of these mindless wonders! > > How do Brainless Animals Function? > > It’s hard for you and I to comprehend how any living creature could > survive without a brain; that’s your brain working overtime right there! > But let’s dial it down and think about how many animals exist without one. > > 1 anywhere near the same as ours. They have what is known as a ring > nervous system as opposed to a central nervous system. This is made up from > nets of nerves around which the neurons can send signals to the muscles and > other parts of the animal. But because this nervous system is not as > complex as ours, its function is limited to things like eating, swimming, > and reproducing. Animals that don’t have a brain are much less likely to be > able to make decisions, be self-aware, or have any other complex cognitive > processes. That said, it is thought that some species of jelly, like the > box jellyfish, are capable of navigation. It’s incredible to think that > some creatures have been on earth for millions of years and survived > without seemingly, the most important organ in the body. I’d love to share > some information on some of these fascinating creatures and how they get > through life with a much simpler physiology than our own. > > 2 Jellyfish have no brain, nor do they have a heart, blood, or bones > > Jellyfish are probably the first animals you think of when asked to come > up with a creature that doesn’t have a brain. They might appear to float > lifelessly around the ocean, getting in the way and stinging when you’re > trying to swim, but they’re slightly more complex than we think. It’s true > that they have no brain, nor do they have a heart, blood, or bones. So what > do they have exactly? Jellies have two nervous systems; a large net of > nerves designed to aid in things like swimming and a smaller net of nerves > that they use for everything else. This includes their responses to threats > when they’ll curl up into a ball and their eating. The large system is made > up from rhopalia which are attached to the jellyfish’s bell and function in > a very similar manner to our inner ear, letting the jellyfish navigate its > surroundings by understanding up and down. They also allow them to sense > chemicals and light. But what I find most interesting about jellies is that > they’re the first animal without a brain known to sleep. They even have > their own circadian rhythm! But their sleep isn’t the same as ours > although they’ve been observed to be in a sleep-like state which usually > happens at night. What’s more, they’ve been shown to be less responsive > when in this state. > > 3 Sea Cucumbers > > In addition to having no brain, sea cucumbers have no sensory organs such > as ears, eyes, tongues, etc Sea cucumbers live on the ocean floor and are > found all over the world in all types of water. They’re incredibly > primitive creatures, and one thing that demonstrates this is their lack of > a brain. Around the mouth of a sea cucumber is a ring of neural tissue > which is thought to control signals, via nerves, to the pharynx and the > tentacles. But what’s interesting is that, when this ring is removed, the > sea cucumber’s movement and function appear to be uninhibited. In addition > to having no brain, these marine animals have no sensory organs such as > ears, eyes, tongues, etc. While there are a few exceptions to this, it > would seem that the sea cucumber manages perfectly well without them. That > system of nerves and neurons I talked about before is what these simplistic > creatures use to navigate the world around them. > > 4 Sea Stars > > Sea stars have no brains but they have a ring of nerves around their > mouths as well as one radial nerve which runs along each arm. Have you ever > wondered why Patrick Star from the popular cartoon, Spongebob Squarepants, > is so, well…dumb? It’s because the creators are trying to portray the fact > that sea stars, or starfish as they’re commonly called, don’t have brains. > Despite struggling to concentrate and often seen drooling, Patrick seems to > get on just fine. But what about his real-life counterparts? Sea stars > are found in oceans around the world and there are more than 1800 species. > Just like the sea cucumbers that I talked about in the last section, sea > stars have a ring of nerves around their mouths as well as one radial nerve > which runs along each arm. The ring around the mouth is responsible for > helping the starfish sense things, as well as with navigation and > coordination. With that in mind, it’s worth noting that, while they can > navigate, sea stars are incapable of preplanning their movements. This is > complemented by a peripheral nervous system and this is connected to the > complex nervous system via the skin. What’s interesting about sense in sea > stars is that each arm can detect things independently. For example, if one > limb ‘smells’ the scent of food, it will override the rest of the nervous > system and become responsible for the movement of the whole animal for the > time being. However, when it comes to movement, it’s not all to do with the > brain. Sea stars have lots of tiny feet on the underside of their body, and > scientists believe that movement has just as much to do with mechanics. For > example, when one foot pushes against the seafloor, this pressure is felt > by the others that all follow suit. > > 5 Sea Anemones > > The sea anemone does not have any sensory organs but instead benefits from > sensory cells such as chemoreceptors. The sea anemone is a type of marine > invertebrate and, for all intents and purposes, it’s thought of as more of > a decorative creature than something functional. While these animals do > lack a brain, they still have a nervous system. However, it’s incredibly > primitive. Located in the gastrodermis and the epidermis are two nerve nets > that are connected at the pharynx and other locations around the sea > anemone’s body. Since these animals do not have the complex muscles of > other, more developed creatures, they cannot move in the same way. That > said, there are fibers that, when stimulated, can contract the body of the > sea anemone, allowing it to bring its tentacles in. The sea anemone does > not have any sensory organs but instead benefits from sensory cells such as > chemoreceptors. Despite being one of the most primitive types of creatures > in terms of its nervous system, the sea anemone is actually proving to be > very beneficial to humans. That’s because it’s been used to look back at > how the heads of more developed animals evolved. Despite being > significantly different, it’s thought that there are similarities in the > genes of animals like a fully developed head and those of the sea anemone. > > > > What’s more, since these creatures are known to be able to regenerate > their nerve cells, scientists are hoping that they could provide us with > clues on how to regrow human brain tissue. Just imagine what this could > mean for the treatment of neurological diseases! > > 6 Sponges > > Sea sponges are brainless animals > > I’ll go back to my Sponge bob reference from earlier; while poor old > Patrick is given the dunce hat, the main man Sponge bob seems to be the > image of intelligence. However, if he were a real person (or sponge), he > probably wouldn’t be able to work in a greasy spoon or take boating > lessons. That’s because sea sponges are also brainless animals and, unlike > many of the other creatures I have discussed here, sponges don’t even have > a nervous system! But that doesn’t mean that they aren’t capable of > surviving. In fact, they’re pretty good at sensing what’s going on around > them and even responding to it. It’s known that if you touch a sea sponge, > it will contract in response, and one scientist even caught a sponge > sneezing; gesundheit! It’s thought that these types of responses are due to > cilia; structures that allow the animal to sense. It’s thought that sea > sponges have been on earth for more than 600 million years, and they don’t > seem to have evolved much in that time, having no organs, no circulation; > no nothing! However, they could provide clues as to how complex brains > evolved. They do have 18 different types of cells, and it’s believed that > creatures like sponges were the building blocks for the evolution of > nervous systems as we know them today. > > 7 Sea Squirts > > Sea squirts are of the world’s most primitive animals and it doesn’t have > a brain The sea squirt; that’s a cute name, right? Well, it’s certainly > fitting for such a small creature that kind of looks like a tadpole with > one eye, a tail, and a spinal cord. It’s another of the world’s most > primitive animals and of course, it doesn’t have a brain. But it’s not > because they weren’t born with a brain; it’s because sea squirts eat their > own brains after reproducing! These creatures, after entering their > tadpole-like stage, will bury themselves head down into the seafloor. Their > gonads, which contain both eggs and sperm, point upwards and squirt out > cells in order to reproduce; it’s not hard to see where the creature got > its name. After this, it’s stuck in this inverted position forever, and > as chemicals and metals enter the gonads, rendering the animal lifeless. > It’s at this point that it feasts on its own brain as a final source of > energy. At this point, the nervous system degrades entirely and the > creature wafts in the ocean current. > > 8 Coral > > While coral don’t have brains, they do have nerve nets > > It isn’t hard to imagine that coral is brainless. After all, it’s a > seemingly inanimate animal that some people even confuse for a plant (it’s > not because it doesn’t produce its own food via photosynthesis.) But while > these marine creatures don’t have brains, they do have nerve nets, just > like a lot of the animals I have already talked about. Corals, and there > are more than six thousand species, have nerve nets that stretch from the > mouth to the tentacles. While they don’t actually have any sensory organs, > they’re still capable of sensing the world around them thanks to > chemoreceptors. One of the main benefits of this is that it helps the coral > to detect prey. What’s more, the nerve endings within the nerve net allow > the coral polyps to experience the world around them. This isn’t in the > same way as you and I, for example, coral cannot feel pain. On top of this, > since the nerve net is not a complex system, coral will respond to physical > touch with the same motor responses as other creatures with a similar > physiology. > > 9 Bivalves (Mussels, Clams etc) > > Instead of a brain acting as the control center, bivalves have a nerve > network and three pairs of ganglia which are connected by one nerve cord > Animals like oysters, clams, and mussels have a unique nervous system > that’s vastly different to our own. Instead of a brain acting as the > control center, these simplistic creatures have a nerve network and three > pairs of ganglia which are connected by one nerve cord. Amazingly, while > their nervous systems are not very developed, a single clam is thought to > possess around 6000 neurons. The three pairs of ganglia are responsible > for controlling different parts of the animal. For example, the cerebral > ganglia control the bivalve’s senses while the pedal ganglia are in control > of the foot. The final pair is the visceral ganglia which are responsible > for swimming. While bivalves certainly aren’t capable of complex cognitive > functions, there has been evidence to suggest that their nervous systems > can respond to hormonal stimuli such as the release of serotonin and > dopamine. > > 10 Sea Urchins > > Sea urchins lack a brain > > Our final mindless creature is the humble sea urchin. A delicacy in many > places around the world, these spiny creatures are a part of a family > containing around 950 species. But what they all have in common is the lack > of a brain. That doesn’t mean to say that they can’t survive though and > that’s thanks to a neural ring around the mouth which is the center of its > nervous system. From here, there are five radial nerves that connect to a > series of smaller nerves around the body of the sea urchin. Amazingly, sea > urchins are able to sense the world around them thanks to sensory cells in > the feet, mouth, and spines. They’re incredibly sensitive to light and > touch but what’s really interesting is that, despite the lack of eyes as we > know them, sea urchins’ entire bodies are thought to function as a compound > eye. It’s also been noted that they have photoreceptor cells in their feet > that further allow them to ‘see’ and navigate. > > 11 We would be like those without any life of a purpose > > K Rajaram IRS 26724 277724 > > On Fri, 26 Jul 2024 at 20:31, Markendeya Yeddanapudi < > [email protected]> wrote: > >> >> >> -- >> *Mar*What Would Have Been? >> >> >> >> Suppose the human did not develop Brain at all. Suppose no organism >> developed any Brain. Then every organism would have been communicating and >> interacting on the basis of smelling, sensing and perceiving. Every >> organism must smell and sense every other organism, creating the macro >> life. The Biosphere would be one single organism. The fear of unwanted >> events cannot happen to single and lonely organisms. All feelings will be >> the feelings of the Biosphere as a whole. The internal hormonal >> communications of all organisms fuse. >> >> Births and deaths can happen without fear or worry. In fact even now, >> fear is experienced before the event, as expectation or after the unwanted >> event as memory, but not when the unwanted event is actually happening. >> Even now if nature is allowed freedom, with lush, thick and healthy >> organisms prospering happily, the macro rapture will be so dominating that >> it will not allow worry and fear. The basic fact that all of us, which >> includes all life forms, are one organism, and each organism is a component >> and complement, will be very vivid and the present egocentricism simply >> cannot happen. >> >> Our Brain is our greatest enemy. Often thinking becomes worrying. It is >> our Brain that is blocking us from the basic reality that we are part of >> the planet earth, and healthy and happy nature automatically creates >> rapture as life. Our Brain forces us to interfere and tamper. We have >> landed in the Darwinian economic life, living life as war against nature. >> The very objective of life has become economic success or piling up more >> and more property, by denying all others that property. Our ambition is to >> win the Darwin Rogue medal. >> >> Join your friends. Create nature which is completely free. Accept >> yourself as the equal of every life form. Still your Brain and don’t >> scrutinize. Let nature take you over. Let nature continuously create >> feelings. >> >> Freedom from your worrying brain is wonderful. You gradually go into >> rapture. Life becomes a wonderful game in which you play with every other >> organism. >> >> Today every university is a furnace of terrible worry. A student cannot >> really smile. He/She is forced to abandon the present by worrying about the >> future. Ultimately the student may get a good grade or damned for life with >> a shaming low grade. Good grade or bad grade, the student cannot get rid of >> the worrying habits which his hormones develop. When he/she marries, the >> children are trained for the Darwinian war. It is euphemized as education. >> Spending time in nature happily is drilled as wasting time and seeding some >> catastrophe and failure in the future. Our education systems have >> aggrandized our very emotions. >> >> The least a University can do is to create free nature parks without any >> tampering by humans. One must feel as part of nature, accepting the basic >> fact that free nature automatically takes one into rapture. We need freedom >> from our own brain. In free nature, the participation in the macro >> perception makes one experience brilliant revelations. >> >> YM >> >> Chat GPT >> >> The hypothetical scenario where no organisms developed brains, relying >> solely on smelling, sensing, and perceiving, presents an intriguing vision >> of a profoundly interconnected biosphere. Here's a breakdown of how such a >> world might function and its implications: >> >> >> >> ### Communication and Interaction >> >> 1. **Sensory-Based Interaction**: Without brains, organisms would rely >> entirely on their senses for communication. Smells, sounds, and physical >> sensations would be the primary modes of interaction, leading to a more >> direct and visceral connection with their environment. >> >> 2. **Symbiotic Relationships**: All organisms would be deeply >> intertwined, functioning as parts of a single, vast organism—the biosphere. >> Each species would play a specific role, with their interactions driven by >> mutual benefits and the maintenance of ecological balance. >> >> >> >> ### Emotional and Hormonal Unity >> >> 1. **Unified Emotions**: The fusion of internal hormonal communications >> would create a collective emotional experience. Fear, worry, and individual >> ambitions would be replaced by shared feelings, reflecting the overall >> health and harmony of the biosphere. >> >> 2. **Birth and Death**: These natural processes would be viewed as >> integral parts of the life cycle, devoid of fear or anxiety. The collective >> consciousness of the biosphere would accept them as necessary transitions, >> maintaining equilibrium. >> >> >> >> ### Rapture and Perception >> >> 1. **Continuous Rapture**: Free and healthy nature would induce a state >> of continuous rapture, a profound sense of joy and fulfillment derived from >> being part of a harmonious whole. The absence of individual worries would >> enhance this experience. >> >> 2. **Holistic Perception**: Organisms would perceive themselves as >> integral parts of the planet, reinforcing the concept of oneness with >> nature. This holistic perception would negate egocentric behaviors and >> foster a communal mindset. >> >> >> >> ### Modern Implications and Critique of Brain-Driven Existence >> >> 1. **Brain as an Obstacle**: The brain, with its capacity for abstract >> thought and worry, is often seen as a source of individual suffering. It >> creates divisions and fosters a Darwinian struggle for economic success, >> often at the expense of nature and communal well-being. >> >> 2. **Educational Systems**: Modern education, with its focus on grades >> and competition, perpetuates worry and stress. A shift towards learning >> environments that emphasize connection with nature could alleviate these >> pressures and promote holistic well-being. >> >> >> >> ### Solutions and Proposals >> >> 1. **Nature Parks in Universities**: Establishing free nature parks >> within educational institutions can help students reconnect with nature. >> These parks should be untouched by human intervention, providing a >> sanctuary for experiencing the natural rapture. >> >> 2. **Equal Respect for All Life Forms**: Adopting an attitude of equality >> and mutual respect towards all life forms can foster a sense of unity and >> reduce anthropocentric tendencies. >> >> >> >> ### Conclusion >> >> In this imagined world without brains, life would be characterized by a >> profound sense of unity and harmony with nature. Embracing elements of this >> vision in our current society—such as promoting environmental conservation >> and rethinking our educational paradigms—can help mitigate the stresses of >> modern life and foster a healthier relationship with the planet. >> >> >> >> This scenario highlights the potential benefits of reducing our reliance >> on brain-driven activities and fostering a deeper connection with the >> natural world, ultimately aiming for a more balanced and fulfilling >> existence. >> > -- *Mar* -- You received this message because you are subscribed to the Google Groups "Thatha_Patty" group. To unsubscribe from this group and stop receiving emails from it, send an email to [email protected]. To view this discussion on the web visit https://groups.google.com/d/msgid/thatha_patty/CACDCHCLG5ofkTu%2BX0NfBuTG4dOse7J4u5Qg%2BJMWtkbY971Ea%2BA%40mail.gmail.com.
