How many toes does a monkey have? The human hand turned out to be more primitive than the chimpanzee hand. Yellow-cheeked crested gibbon
How many fingers does a monkey have? and got the best answer
Answer from Lali Lali[guru]
Was the question asked as a joke? Then
- On two hands! - confirmed the Handicraft. - And the monkey has hands everywhere! - Chucha remembered, - how many fingers is this? - As many as legs! - he said, as the Handicraft cut off, then he thought and corrected himself... - how many notes!
Well, seriously speaking, it’s almost the same as ours, but not all species.
Their fingers and toes are very flexible, and their big toes and feet are covered with non-slip skin, similar to those of humans. Most monkeys have flat nails, but marmosets have claws, a feature they share with some monkey species.
Many monkeys have thumbs and big toes that are opposed to other fingers to adapt to trees and to grasp objects. However, this feature varies among varieties. Old World monkeys are usually dexterous and use their fingers to pick up fleas and parasites from each other. In contrast, New World monkeys lack such fingers on their hands, although they do have them on their feet. Interesting fact, one group of Old World monkeys - colobus monkeys - have no thumbs at all, but this does not cause them any inconvenience, and they, like other relatives, easily travel through trees
Primate hand
In most other mammals, the grasping organs are a pair of jaws with teeth or two front paws that press together. And only in primates the thumb on the hand is clearly opposed to the other fingers, which makes the hand a very convenient grasping device in which the other fingers act as a single unit. Here is a demonstration of this fact, but before proceeding with the practical experiment, read the following warning:
While performing the exercise below, bend your index finger and DO NOT HOLD middle finger with the other hand, otherwise you may damage the forearm tendon.
After reading the warning, place one palm on a flat surface, back side down. Bend your little finger, trying to touch it to your palm. Please note that, together with the little finger, it rose and ring finger, and its movement occurs automatically, regardless of your will. And in the same way, if you bend your index finger, then your middle finger will follow it. This happens because the hand, in the process of evolution, has adapted to grasp, and to grab something with minimal effort and with maximum speed possible if the fingers are connected to the same mechanism. In our hand, the gripping mechanism is “headed” by the little finger. If you set yourself the task of quickly squeezing your fingers one by one so that they touch your palm, then it is much more convenient to start with the little finger and end with the index finger, and not vice versa.
Opposite these fingers is the thumb. This is not uncommon in the animal kingdom, but in few groups this feature extends to all members of the group. Birds of the order Passeriformes have opposable digits, although in some species it is one digit out of four, and in others two digits are opposed to the other two digits. Some reptiles, such as the branch-walking chameleon, also have opposable toes. In invertebrates, grasping organs take various shapes– the claws of crabs and scorpions come to mind first, as well as the forelimbs of insects such as the praying mantis. All these organs are used to manipulate objects (the word "manipulation" comes from the Latin manus, which means "hand").
Our thumb is opposed to the other fingers only on our hands; in other primates this feature extends to all limbs. Humans lost their opposable toe when they descended from the trees to the ground, but the size thumb on the legs still indicate his special role in the past.
Compared to all monkeys, man has the most dexterous hand. We can easily touch the tip of our thumb with the tips of all our other fingers because it is relatively long. The chimpanzee's thumb is much shorter; they can also manipulate objects, but to a lesser extent. When monkeys hang and swing on a branch, their thumb usually does not wrap around it. They simply fold their remaining fingers into a hook and grab the branch with them. The thumb does not take part in the formation of this “hook”. A chimpanzee only grasps a branch with all its fingers when walking slowly along it or standing on top of it, and even then, like most apes, it does not so much grasp the branch as rest on its knuckles, as when walking on the ground.
Chimpanzee palm and human palm.
Primates have another evolutionary adaptation for manipulation on their hands. In most of their species, the claws have turned into flat nails. Thus, the fingertips are protected from damage, but the fingertips retain sensitivity. With these pads, primates can press on objects, grasp them and feel any surface, even the smoothest, without scratching it. To increase friction, the skin in this area is covered with fine wrinkles. This is why we leave fingerprints.
From the book 100 great Russian films author Mussky Igor Anatolievich“THE DIAMOND HAND” “Mosfilm”, 1969. Script by M. Slobodsky, Y. Kostyukovsky, L. Gaidai. Directed by L. Gaidai. Cameraman I. Chernykh. Artist F. Yasyukevich. Composer A. Zatsepin. Cast: Y. Nikulin, A. Mironov, A. Papanov, N. Grebeshkova, S. Chekan, V. Gulyaev, N. Romanov, N. Mordyukova,
From the book Nanodictionary of Memories English words"The best of the first" author Diborsky SergeyArm - hand Application Another memorization from the body-oriented series Dictionary Word - hand Translation - arm Pronunciation (approx.) - “aam” (long “a”) Memorization history What don’t we do with our hands? But there is one very important process, namely food, where without HANDS
From the book Big Soviet Encyclopedia(RU) of the author TSB From the book Encyclopedia of Symbols author Roshal Victoria MikhailovnaHand "Hand of Fatima" (Muslim carved pendant)Power (worldly and spiritual), action, strength, dominance, protection - these are the main symbolism that reflects important role hands in a person's life and the belief that it is capable of transmitting spiritual and physical
From the book Winged Words author Maksimov Sergey Vasilievich From book 100 famous characters Soviet era author Khoroshevsky Andrey Yurievich“The Diamond Arm” Leonid Gaidai had no luck in the cinema. A front-line soldier who went through the heat of war and brought back from the front not only awards, but also a serious wound in the leg and pulmonary tuberculosis, he entered the theater studio at the Irkutsk Regional Theater. After graduating in 1947
From the book Evolution author Jenkins Morton From the book Three Secrets. Conversations about pistol shooting practice author Kaplunov Ya. M.How the hand shakes There are no secrets or training methods that could make the pistol completely immobile when shooting from the hand. Only the dead's hands do not tremble at all; living hand will always hesitate at least a little. The shooter's hand can shake in three
From the book Homeopathic Handbook author Nikitin Sergey Alexandrovich From the book GRU Spetsnaz: the most complete encyclopedia author Kolpakidi Alexander Ivanovich From the author's bookHand Our hand has several joints of varying degrees of mobility. The shoulder joint is a ball-and-socket joint, allowing the humerus to move in a wide range. It can spin like a propeller in almost any direction. The elbow joint
From the author's bookMechanical arm Neil White and Paul Chappell have been developing a mechanical prosthesis for many years. At first he could only perform simple operations, such as opening a door lock with a key and opening a tin can. The fingers were activated by
The hands of modern apes may have arisen after the human type of hand was formed in the evolution of our common ancestors.
Man differs from chimpanzees, his closest evolutionary relatives, not only in brain size and almost complete absence wool For example, our hands and theirs are structured differently: in humans, the thumb is relatively long and strongly opposed to its neighbors, and the rest are short; in chimpanzees, on the contrary, the thumb is shortened, and the rest are noticeably longer than in humans. This limb structure helps monkeys climb trees; as for the human hand, it is believed that it is ideally suited for wielding tools and various fine workmanship. That is, the fact that we can draw, play the piano and hammer nails is the result of a long evolution of human anatomy, which began 7 million years ago, when the predecessors of humans split off from their common ancestor with chimpanzees.
Chimpanzee hand. (Photo by DLILLC/Corbis.)
Reconstruction of the limb of Ardipithecus ramidus. (Photo: Euder Monteiro/Flickr.com)
The human hand, despite its antiquity, turned out to be a very multifunctional tool. (Photo by Marc Dozier/Corbis.)
However, William Youngers ( William L. Jungers) and his colleagues from the State University of New York at Stony Brook believe that the human hand has not evolved that much and has remained a fairly simple anatomical “device.” The earliest tool created by man dates back to 3.3 million years ago, however, if you look at the skeleton of Ardipithecus Ardipithecus ramidus, who lived 4.4 million years ago and belongs to the evolutionary group of people, we will see that his hand resembles rather a hand modern man than a chimpanzee's hand. In other words, the human hand acquired its characteristic appearance even before our ancestors learned to use it. Moreover, a hypothesis has emerged that it was like this in our most ancient predecessors, who had just diverged in evolution from chimpanzees.
To test this assumption, anthropologists compared the anatomy of the hand and fingers of a variety of modern primates, including common apes, great apes, and man himself. Several extinct species were added to them: Ardipithecus, Neanderthals (that is, real people, albeit of a different variety than modern ones), Australopithecus Australopithecus sediba, who lived about 2 million years ago and is considered by many to be a direct ancestor Homo, And ape sort of Proconsul, whose remains are 25 million years old.
This means that the human hand type is actually older than that of chimpanzees and orangutans, whose limbs adapted to an arboreal lifestyle. But why did our ancient ancestors need a hand with a long thumb opposed to the rest - a hand that would be convenient for making and grasping tools, if they existed then? According to the authors of the work, a good grasping hand helped not with tools, but with food: ancient primates ate a wide variety of food, and in order to take and hold pieces of it, just such a hand was needed.
On the other hand, some anthropologists generally doubt that this work makes sense: in their opinion, it is impossible to draw such conclusions based only on an analysis of the skeleton of the hands, and in order to talk about what kind of hand ours had oldest ancestor, more data is needed.
Here we cannot help but recall another study that we wrote about in 2012: its authors, employees of the University of Utah, came to the conclusion that the hand of the first people was intended not so much for performing complex manipulations, but rather for (which, by the way, other primates cannot do). Although in that article the authors adhered to the hypothesis that it was the monkey hand that turned into a human one, and not vice versa, here they also did without tools as driving force formation of a human hand. One way or another, no matter how our ancestors used their hands, they turned out to be quite well adapted for complex and subtle manipulations with objects.
Often we are forced to believe that man descended from apes. And that science has discovered such a similarity between human and chimpanzee DNA that leaves no doubt about their origin from a common ancestor. Is it true? Are humans really just evolved apes? Let's look at the differences between monkeys and humans.
It is noteworthy that human DNA allows us to make complex calculations, write poetry, build cathedrals, walking on the moon while chimpanzees catch and eat each other's fleas. As information accumulates, the gap between humans and apes becomes increasingly clear. The following are just a few of the differences that cannot be explained as minor. internal changes, rare mutations or survival of the fittest.
1 Tails - where did they go? There is no intermediate state between having a tail and not having a tail.
2 Our newborns are different from baby animals. Their sense organs are quite developed, the weight of the brain and body is much greater than that of monkeys, but with all this, our babies are helpless and more dependent on their parents. Gorilla babies can stand on their feet 20 weeks after birth, while human babies can stand only after 43 weeks. During the first year of life, a person develops functions that baby animals have before birth. Is this progress?
3 Many primates and most mammals produce their own vitamin C. We, as the “strongest,” apparently lost this ability “somewhere along the way to survival.”
4 Monkeys' feet are similar to their hands - their big toe is movable, directed to the side and opposed to the rest of the fingers, resembling the thumb of a hand. In humans, the big toe is directed forward and not opposed to the rest, otherwise we could, having taken off our shoes, easily lift objects with the help of the big toe or even start writing with our feet.
5 Monkeys have no arch in their feet! When walking, our foot, thanks to the arch, absorbs all loads, shocks and impacts. If man descended from ancient monkeys, then the arch of his foot should have appeared from scratch. However, a spring vault is not just a small part, but a highly complex mechanism. Without him, our life would be completely different. Just imagine a world without upright walking, sports, games and long walks!
6 A person does not have a continuous coat of hair: if a person shares a common ancestor with monkeys, where did the thick hair go from the monkey’s body? Our body is relatively hairless (disadvantage) and completely devoid of tactile hair. There are no other intermediate, partially hairy species known.
7 Human skin is rigidly attached to the muscular frame, which is characteristic only of marine mammals.
8 Humans are the only land creatures that can consciously hold their breath. This seemingly “insignificant detail” is very important, since an essential condition for the ability to speak is a high degree of conscious control of breathing, which we do not share with any other animal living on land. Desperate to find a land-based "missing link" and based on these unique human properties, some evolutionists have seriously proposed that we evolved from aquatic animals!
9 Among primates, only humans have Blue eyes and curly hair.
10 We have a unique speech apparatus, providing the finest articulation and articulate speech.
11 In humans, the larynx occupies a much lower position in relation to the mouth than in monkeys. Due to this, our pharynx and mouth form a common “tube”, which plays an important role as a speech resonator. This ensures better resonance - necessary condition to pronounce vowel sounds. Interestingly, a drooping larynx is a disadvantage: unlike other primates, humans cannot eat or drink and breathe at the same time without choking.
12 The thumb of our hand is well developed, strongly opposed to the rest and very mobile. Monkeys have hook-shaped hands with a short and weak thumb. No element of culture would exist without our unique thumb! Coincidence or design?
13 Only humans have true upright posture. Sometimes, when monkeys are carrying food, they can walk or run on two limbs. However, the distance they travel this way is quite limited. In addition, the way monkeys walk on two legs is completely different from how humans walk on two legs. A special human approach requires a complex integration of many skeletal and muscle features our hips, legs and feet.
14 Humans are able to support our body weight on our feet while walking because our hips meet at our knees, forming a unique 9-degree bearing angle with the tibia (in other words, we have “knees”). Conversely, chimpanzees and gorillas have widely spaced, straight legs with a bearing angle of almost zero. When walking, these animals distribute the weight of their body on their feet, swaying their body from side to side and moving using the familiar “monkey gait”.
15 The complexity of the human brain is much greater than that of monkeys. It is approximately 2.5 times larger than the brain great apes by volume and 3–4 times by mass. A person has a highly developed cerebral cortex, in which the most important centers of the psyche and speech are located. Unlike monkeys, only humans have a complete Sylvian fissure, consisting of the anterior horizontal, anterior ascending and posterior branches.
Based on site materials
According to what has just been carried out genetic research, between man and monkey there are incomparably great differences.
Remarkably, human DNA allows us to perform complex calculations, write poetry, build cathedrals, walk on the moon, while chimpanzees catch and eat each other's fleas. As information accumulates, the gap between humans and apes becomes increasingly clear. The following are just a few of the differences that cannot be explained by minor internal changes, rare mutations, or survival of the fittest.
1 Tails - where did they go? There is no intermediate state between having a tail and not having a tail.
2 Our newborns are different from baby animals. Their sense organs are quite developed, the weight of the brain and body is much greater than that of monkeys, but with all this, our babies are helpless and more dependent on their parents. Gorilla babies can stand on their feet 20 weeks after birth, while human babies can stand only after 43 weeks. During the first year of life, a person develops functions that baby animals have before birth. Is this progress?
3 Many primates and most mammals produce their own vitamin C. We, as the “strongest,” apparently lost this ability “somewhere along the way to survival.”
4 Monkeys' feet are similar to their hands - their big toe is movable, directed to the side and opposed to the rest of the fingers, resembling the thumb of a hand. In humans, the big toe is directed forward and not opposed to the rest, otherwise we could, having taken off our shoes, easily lift objects with the help of the big toe or even start writing with our feet.
5 Monkeys have no arch in their feet! When walking, our foot, thanks to the arch, absorbs all loads, shocks and impacts. If man descended from ancient monkeys, then the arch of his foot should have appeared from scratch. However, a spring vault is not just a small part, but a highly complex mechanism. Without him, our life would be completely different. Just imagine a world without upright walking, sports, games and long walks!
Differences between monkeys and humans
6 A person does not have a continuous coat of hair: if a person shares a common ancestor with monkeys, where did the thick hair go from the monkey’s body? Our body is relatively hairless (disadvantage) and completely devoid of tactile hair. There are no other intermediate, partially hairy species known.
7 Human skin is rigidly attached to the muscular frame, which is characteristic only of marine mammals.
8 Humans are the only land creatures that can consciously hold their breath. This seemingly “insignificant detail” is very important, since an essential condition for the ability to speak is a high degree of conscious control of breathing, which we do not share with any other animal living on land. Desperate to find a land-based "missing link" and based on these unique human properties, some evolutionists have seriously proposed that we evolved from aquatic animals!
9 Among primates, only humans have blue eyes and curly hair.
10 We have a unique speech apparatus that provides the finest articulation and articulate speech.
11 In humans, the larynx occupies a much lower position in relation to the mouth than in monkeys. Due to this, our pharynx and mouth form a common “tube”, which plays an important role as a speech resonator. This ensures better resonance - a necessary condition for pronouncing vowel sounds. Interestingly, a drooping larynx is a disadvantage: unlike other primates, humans cannot eat or drink and breathe at the same time without choking.
12 The thumb of our hand is well developed, strongly opposed to the rest and very mobile. Monkeys have hook-shaped hands with a short and weak thumb. No element of culture would exist without our unique thumb! Coincidence or design?
13 Only humans have true upright posture. Sometimes, when monkeys are carrying food, they can walk or run on two limbs. However, the distance they travel this way is quite limited. In addition, the way monkeys walk on two legs is completely different from how humans walk on two legs. The unique human approach requires a complex integration of the many skeletal and muscular features of our hips, legs and feet.
14 Humans are able to support our body weight on our feet while walking because our hips meet at our knees, forming a unique 9-degree bearing angle with the tibia (in other words, we have “knees”). Conversely, chimpanzees and gorillas have widely spaced, straight legs with a bearing angle of almost zero. When walking, these animals distribute the weight of their body on their feet, swaying their body from side to side and moving using the familiar “monkey gait”.
15
The complexity of the human brain is much greater than that of monkeys. It is approximately 2.5 times larger than the brain of great apes in volume and 3–4 times larger in mass. A person has a highly developed cerebral cortex, in which the most important centers of the psyche and speech are located. Unlike monkeys, only humans have a complete Sylvian fissure, consisting of the anterior horizontal, anterior ascending and posterior branches.