Extreme adaptation: evolutionary narrative for Vantablack-like skin pigment











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Premise



Inhabiting my earth-like world will be humanoid beings that have a skin tone that is as dark as Vantablack. Let's assume these human-like beings share the same ancestry as humans and we can safely assume cognition and physique to be identical to humans. The only difference being their skin is naturally as dark as Vantablack (well techinically, this may require some inner workings, like bio-mechanics, to be different as well). While Vantablack is not actually a color but rather a material, it's still the closest thing known to man to the effect I want to create in my world, and so as not to use the word inappropriately, I will just coin my own word for these fantasy humans: Vantaman. While the darkest known pigment of us humans has not been scientifically documented, I did want to provide a frame of reference. From a crude1 series of image analyses I got the hex color: 1f1b1a for very dark-skinned homo sapiens. Hex colors, however, can't do Vantablack justice. Vantablack is often described as the closest thing to looking into a blackhole as we can get. It absorbs 99.97% of light. Here is a Vantablack material demonstration, both busts are identical in shape:



enter image description here



Actual human skin pigment evolutionary narrative



To help us tackle the task of how Vantaman came to be, it may be helpful to understand how actual humans took on the adaptation of dark skin in the first place. According to the understanding of human evolution at the time of this post, humans began to develop dark skin pigments through natural selection about 1 million years ago. The context for this adaptation was these hominids were beginning to move into environments that offered little to no protection from exposure to the sun -- the Savannah. It was at this point that the hominids began to have less and less body hair and began to develop perspiration as a means of cooling down. And it was at this time that humans began to take on the trait of having dark skin. The darker skin helped protect the bio-mechanics needed for healthy hominids. With only vestigial body hair, the hominids with lighter skin could not provide sufficient protection for embryogensis and so the melanin-dense darker skin was naturally selected to deal with harmful UV radiation. (it's thought that they would conceivably face DNA degradation as well). Of course as later descendants left this environment and ventured to, say, Europe, where humans embraced a more troglodytic lifestyle, then skin pigments became lighter to allow our livers to synthesize vitamin D more easily. And the rest is history.



Question



With all that in mind, it's all the more challenging to conceive of an evolutionary narrative to explain a vantablack skin pigment trait. Why would Vantaman need to absorb 99.97% of light?



My first inclination was to keep the narrative and up the ante; Vantablack pigment to cope with a sun that emits far more radiation than our sun. I lacked the knowledge of astrophysics to gauge whether such a world would still be earth-like my hunch was no. However maybe someone more knowledgeable can come up with some special case scenarios and revive this solution.



However the question is not only concerned with stellar emissivity -- anything rooted in science is fair game. To help maintain a reasonable scope, here is a quality metric:



Quality Metric: The closer to earth-like your evolutionary narrative for Vantaman is the better2. If it turns out there is no earth-like solution in the truest sense of the word, then I can still accept an answer as long as it's scientifically plausible. Earth-like is ideal though; I don't want to go nuts with mother nature unless it's really, really necessary.



Further Clarifications:




  • Even though we have not seen Vantablack in biology, we are assuming its possible; how the heck it works is out of scope. It could be nature's version of vertical carbon nanotubes or something else. Whatever it is, it is as dark as vantablack. Point being, it's not a xenobiology question.

  • Assume the vantablack pigment trait requires negligible energy resources

  • In this question, "earth-like" is not used in the most rigid sense. Flora, fauna and celestial bodies are earth-like in terms of initial conditions, but you may change them as per your answer's needs. Bear in mind the quality metric favors fewer or smaller changes.

  • The orifices of Vantaman: mouth, eyes, ect, do not have to be vantablack.

  • The evolutionary narrative is concerned only with prehistoric-times, we don't have to worry about high technology -- humans won't invent nano-tech for a million years

  • Unless it's vital to your narrative, you don't have to provide an exhaustive nutrition plan for Vantaman, you can assume nature allows him to synthesize nutrients like vitamin D some other way. This assumption is optional, because it's related to the main problem, but I don't want to impose undue work for the answerer

  • Ideally, we provide a narrative for Vantaman that revolves around blocking UV rays. However, if it this is a dead end, you may propose an alternate evolutionary need for vantablack skin.




1. crude because images not robust to different lighting or other external factors, but I did my best and averaged the hex value



2. I think this is a reasonable quality metric; we can quickly tell what's plausible on Earth, but we are on the honor system to an extent. For example, who is to say what's more outlandish: UFO's beaming lasers at Vantaman to be dark or having billions of tiny blackholes continuously forming and decaying to create Vantaman's skin. If it comes down to this, we'll just have to use another metric: what is there documented evidence of?










share|improve this question
























  • The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
    – Mołot
    Dec 3 at 20:22








  • 3




    The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
    – AlexP
    Dec 3 at 20:28








  • 1




    "Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
    – AlexP
    Dec 3 at 20:34












  • @AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
    – Sean
    Dec 4 at 4:09






  • 1




    @AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
    – vsz
    Dec 4 at 9:01

















up vote
8
down vote

favorite
1












Premise



Inhabiting my earth-like world will be humanoid beings that have a skin tone that is as dark as Vantablack. Let's assume these human-like beings share the same ancestry as humans and we can safely assume cognition and physique to be identical to humans. The only difference being their skin is naturally as dark as Vantablack (well techinically, this may require some inner workings, like bio-mechanics, to be different as well). While Vantablack is not actually a color but rather a material, it's still the closest thing known to man to the effect I want to create in my world, and so as not to use the word inappropriately, I will just coin my own word for these fantasy humans: Vantaman. While the darkest known pigment of us humans has not been scientifically documented, I did want to provide a frame of reference. From a crude1 series of image analyses I got the hex color: 1f1b1a for very dark-skinned homo sapiens. Hex colors, however, can't do Vantablack justice. Vantablack is often described as the closest thing to looking into a blackhole as we can get. It absorbs 99.97% of light. Here is a Vantablack material demonstration, both busts are identical in shape:



enter image description here



Actual human skin pigment evolutionary narrative



To help us tackle the task of how Vantaman came to be, it may be helpful to understand how actual humans took on the adaptation of dark skin in the first place. According to the understanding of human evolution at the time of this post, humans began to develop dark skin pigments through natural selection about 1 million years ago. The context for this adaptation was these hominids were beginning to move into environments that offered little to no protection from exposure to the sun -- the Savannah. It was at this point that the hominids began to have less and less body hair and began to develop perspiration as a means of cooling down. And it was at this time that humans began to take on the trait of having dark skin. The darker skin helped protect the bio-mechanics needed for healthy hominids. With only vestigial body hair, the hominids with lighter skin could not provide sufficient protection for embryogensis and so the melanin-dense darker skin was naturally selected to deal with harmful UV radiation. (it's thought that they would conceivably face DNA degradation as well). Of course as later descendants left this environment and ventured to, say, Europe, where humans embraced a more troglodytic lifestyle, then skin pigments became lighter to allow our livers to synthesize vitamin D more easily. And the rest is history.



Question



With all that in mind, it's all the more challenging to conceive of an evolutionary narrative to explain a vantablack skin pigment trait. Why would Vantaman need to absorb 99.97% of light?



My first inclination was to keep the narrative and up the ante; Vantablack pigment to cope with a sun that emits far more radiation than our sun. I lacked the knowledge of astrophysics to gauge whether such a world would still be earth-like my hunch was no. However maybe someone more knowledgeable can come up with some special case scenarios and revive this solution.



However the question is not only concerned with stellar emissivity -- anything rooted in science is fair game. To help maintain a reasonable scope, here is a quality metric:



Quality Metric: The closer to earth-like your evolutionary narrative for Vantaman is the better2. If it turns out there is no earth-like solution in the truest sense of the word, then I can still accept an answer as long as it's scientifically plausible. Earth-like is ideal though; I don't want to go nuts with mother nature unless it's really, really necessary.



Further Clarifications:




  • Even though we have not seen Vantablack in biology, we are assuming its possible; how the heck it works is out of scope. It could be nature's version of vertical carbon nanotubes or something else. Whatever it is, it is as dark as vantablack. Point being, it's not a xenobiology question.

  • Assume the vantablack pigment trait requires negligible energy resources

  • In this question, "earth-like" is not used in the most rigid sense. Flora, fauna and celestial bodies are earth-like in terms of initial conditions, but you may change them as per your answer's needs. Bear in mind the quality metric favors fewer or smaller changes.

  • The orifices of Vantaman: mouth, eyes, ect, do not have to be vantablack.

  • The evolutionary narrative is concerned only with prehistoric-times, we don't have to worry about high technology -- humans won't invent nano-tech for a million years

  • Unless it's vital to your narrative, you don't have to provide an exhaustive nutrition plan for Vantaman, you can assume nature allows him to synthesize nutrients like vitamin D some other way. This assumption is optional, because it's related to the main problem, but I don't want to impose undue work for the answerer

  • Ideally, we provide a narrative for Vantaman that revolves around blocking UV rays. However, if it this is a dead end, you may propose an alternate evolutionary need for vantablack skin.




1. crude because images not robust to different lighting or other external factors, but I did my best and averaged the hex value



2. I think this is a reasonable quality metric; we can quickly tell what's plausible on Earth, but we are on the honor system to an extent. For example, who is to say what's more outlandish: UFO's beaming lasers at Vantaman to be dark or having billions of tiny blackholes continuously forming and decaying to create Vantaman's skin. If it comes down to this, we'll just have to use another metric: what is there documented evidence of?










share|improve this question
























  • The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
    – Mołot
    Dec 3 at 20:22








  • 3




    The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
    – AlexP
    Dec 3 at 20:28








  • 1




    "Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
    – AlexP
    Dec 3 at 20:34












  • @AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
    – Sean
    Dec 4 at 4:09






  • 1




    @AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
    – vsz
    Dec 4 at 9:01















up vote
8
down vote

favorite
1









up vote
8
down vote

favorite
1






1





Premise



Inhabiting my earth-like world will be humanoid beings that have a skin tone that is as dark as Vantablack. Let's assume these human-like beings share the same ancestry as humans and we can safely assume cognition and physique to be identical to humans. The only difference being their skin is naturally as dark as Vantablack (well techinically, this may require some inner workings, like bio-mechanics, to be different as well). While Vantablack is not actually a color but rather a material, it's still the closest thing known to man to the effect I want to create in my world, and so as not to use the word inappropriately, I will just coin my own word for these fantasy humans: Vantaman. While the darkest known pigment of us humans has not been scientifically documented, I did want to provide a frame of reference. From a crude1 series of image analyses I got the hex color: 1f1b1a for very dark-skinned homo sapiens. Hex colors, however, can't do Vantablack justice. Vantablack is often described as the closest thing to looking into a blackhole as we can get. It absorbs 99.97% of light. Here is a Vantablack material demonstration, both busts are identical in shape:



enter image description here



Actual human skin pigment evolutionary narrative



To help us tackle the task of how Vantaman came to be, it may be helpful to understand how actual humans took on the adaptation of dark skin in the first place. According to the understanding of human evolution at the time of this post, humans began to develop dark skin pigments through natural selection about 1 million years ago. The context for this adaptation was these hominids were beginning to move into environments that offered little to no protection from exposure to the sun -- the Savannah. It was at this point that the hominids began to have less and less body hair and began to develop perspiration as a means of cooling down. And it was at this time that humans began to take on the trait of having dark skin. The darker skin helped protect the bio-mechanics needed for healthy hominids. With only vestigial body hair, the hominids with lighter skin could not provide sufficient protection for embryogensis and so the melanin-dense darker skin was naturally selected to deal with harmful UV radiation. (it's thought that they would conceivably face DNA degradation as well). Of course as later descendants left this environment and ventured to, say, Europe, where humans embraced a more troglodytic lifestyle, then skin pigments became lighter to allow our livers to synthesize vitamin D more easily. And the rest is history.



Question



With all that in mind, it's all the more challenging to conceive of an evolutionary narrative to explain a vantablack skin pigment trait. Why would Vantaman need to absorb 99.97% of light?



My first inclination was to keep the narrative and up the ante; Vantablack pigment to cope with a sun that emits far more radiation than our sun. I lacked the knowledge of astrophysics to gauge whether such a world would still be earth-like my hunch was no. However maybe someone more knowledgeable can come up with some special case scenarios and revive this solution.



However the question is not only concerned with stellar emissivity -- anything rooted in science is fair game. To help maintain a reasonable scope, here is a quality metric:



Quality Metric: The closer to earth-like your evolutionary narrative for Vantaman is the better2. If it turns out there is no earth-like solution in the truest sense of the word, then I can still accept an answer as long as it's scientifically plausible. Earth-like is ideal though; I don't want to go nuts with mother nature unless it's really, really necessary.



Further Clarifications:




  • Even though we have not seen Vantablack in biology, we are assuming its possible; how the heck it works is out of scope. It could be nature's version of vertical carbon nanotubes or something else. Whatever it is, it is as dark as vantablack. Point being, it's not a xenobiology question.

  • Assume the vantablack pigment trait requires negligible energy resources

  • In this question, "earth-like" is not used in the most rigid sense. Flora, fauna and celestial bodies are earth-like in terms of initial conditions, but you may change them as per your answer's needs. Bear in mind the quality metric favors fewer or smaller changes.

  • The orifices of Vantaman: mouth, eyes, ect, do not have to be vantablack.

  • The evolutionary narrative is concerned only with prehistoric-times, we don't have to worry about high technology -- humans won't invent nano-tech for a million years

  • Unless it's vital to your narrative, you don't have to provide an exhaustive nutrition plan for Vantaman, you can assume nature allows him to synthesize nutrients like vitamin D some other way. This assumption is optional, because it's related to the main problem, but I don't want to impose undue work for the answerer

  • Ideally, we provide a narrative for Vantaman that revolves around blocking UV rays. However, if it this is a dead end, you may propose an alternate evolutionary need for vantablack skin.




1. crude because images not robust to different lighting or other external factors, but I did my best and averaged the hex value



2. I think this is a reasonable quality metric; we can quickly tell what's plausible on Earth, but we are on the honor system to an extent. For example, who is to say what's more outlandish: UFO's beaming lasers at Vantaman to be dark or having billions of tiny blackholes continuously forming and decaying to create Vantaman's skin. If it comes down to this, we'll just have to use another metric: what is there documented evidence of?










share|improve this question















Premise



Inhabiting my earth-like world will be humanoid beings that have a skin tone that is as dark as Vantablack. Let's assume these human-like beings share the same ancestry as humans and we can safely assume cognition and physique to be identical to humans. The only difference being their skin is naturally as dark as Vantablack (well techinically, this may require some inner workings, like bio-mechanics, to be different as well). While Vantablack is not actually a color but rather a material, it's still the closest thing known to man to the effect I want to create in my world, and so as not to use the word inappropriately, I will just coin my own word for these fantasy humans: Vantaman. While the darkest known pigment of us humans has not been scientifically documented, I did want to provide a frame of reference. From a crude1 series of image analyses I got the hex color: 1f1b1a for very dark-skinned homo sapiens. Hex colors, however, can't do Vantablack justice. Vantablack is often described as the closest thing to looking into a blackhole as we can get. It absorbs 99.97% of light. Here is a Vantablack material demonstration, both busts are identical in shape:



enter image description here



Actual human skin pigment evolutionary narrative



To help us tackle the task of how Vantaman came to be, it may be helpful to understand how actual humans took on the adaptation of dark skin in the first place. According to the understanding of human evolution at the time of this post, humans began to develop dark skin pigments through natural selection about 1 million years ago. The context for this adaptation was these hominids were beginning to move into environments that offered little to no protection from exposure to the sun -- the Savannah. It was at this point that the hominids began to have less and less body hair and began to develop perspiration as a means of cooling down. And it was at this time that humans began to take on the trait of having dark skin. The darker skin helped protect the bio-mechanics needed for healthy hominids. With only vestigial body hair, the hominids with lighter skin could not provide sufficient protection for embryogensis and so the melanin-dense darker skin was naturally selected to deal with harmful UV radiation. (it's thought that they would conceivably face DNA degradation as well). Of course as later descendants left this environment and ventured to, say, Europe, where humans embraced a more troglodytic lifestyle, then skin pigments became lighter to allow our livers to synthesize vitamin D more easily. And the rest is history.



Question



With all that in mind, it's all the more challenging to conceive of an evolutionary narrative to explain a vantablack skin pigment trait. Why would Vantaman need to absorb 99.97% of light?



My first inclination was to keep the narrative and up the ante; Vantablack pigment to cope with a sun that emits far more radiation than our sun. I lacked the knowledge of astrophysics to gauge whether such a world would still be earth-like my hunch was no. However maybe someone more knowledgeable can come up with some special case scenarios and revive this solution.



However the question is not only concerned with stellar emissivity -- anything rooted in science is fair game. To help maintain a reasonable scope, here is a quality metric:



Quality Metric: The closer to earth-like your evolutionary narrative for Vantaman is the better2. If it turns out there is no earth-like solution in the truest sense of the word, then I can still accept an answer as long as it's scientifically plausible. Earth-like is ideal though; I don't want to go nuts with mother nature unless it's really, really necessary.



Further Clarifications:




  • Even though we have not seen Vantablack in biology, we are assuming its possible; how the heck it works is out of scope. It could be nature's version of vertical carbon nanotubes or something else. Whatever it is, it is as dark as vantablack. Point being, it's not a xenobiology question.

  • Assume the vantablack pigment trait requires negligible energy resources

  • In this question, "earth-like" is not used in the most rigid sense. Flora, fauna and celestial bodies are earth-like in terms of initial conditions, but you may change them as per your answer's needs. Bear in mind the quality metric favors fewer or smaller changes.

  • The orifices of Vantaman: mouth, eyes, ect, do not have to be vantablack.

  • The evolutionary narrative is concerned only with prehistoric-times, we don't have to worry about high technology -- humans won't invent nano-tech for a million years

  • Unless it's vital to your narrative, you don't have to provide an exhaustive nutrition plan for Vantaman, you can assume nature allows him to synthesize nutrients like vitamin D some other way. This assumption is optional, because it's related to the main problem, but I don't want to impose undue work for the answerer

  • Ideally, we provide a narrative for Vantaman that revolves around blocking UV rays. However, if it this is a dead end, you may propose an alternate evolutionary need for vantablack skin.




1. crude because images not robust to different lighting or other external factors, but I did my best and averaged the hex value



2. I think this is a reasonable quality metric; we can quickly tell what's plausible on Earth, but we are on the honor system to an extent. For example, who is to say what's more outlandish: UFO's beaming lasers at Vantaman to be dark or having billions of tiny blackholes continuously forming and decaying to create Vantaman's skin. If it comes down to this, we'll just have to use another metric: what is there documented evidence of?







science-based evolution earth-like humanoid prehistoric-times






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited Dec 4 at 3:38

























asked Dec 3 at 19:41









Arash Howaida

2,96112242




2,96112242












  • The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
    – Mołot
    Dec 3 at 20:22








  • 3




    The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
    – AlexP
    Dec 3 at 20:28








  • 1




    "Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
    – AlexP
    Dec 3 at 20:34












  • @AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
    – Sean
    Dec 4 at 4:09






  • 1




    @AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
    – vsz
    Dec 4 at 9:01




















  • The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
    – Mołot
    Dec 3 at 20:22








  • 3




    The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
    – AlexP
    Dec 3 at 20:28








  • 1




    "Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
    – AlexP
    Dec 3 at 20:34












  • @AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
    – Sean
    Dec 4 at 4:09






  • 1




    @AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
    – vsz
    Dec 4 at 9:01


















The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
– Mołot
Dec 3 at 20:22






The way vantablack works (nano-forest) makes it impossible to be a pigment and to stay on surface that experiences any significant amount of wear and tear. The need of it is one thing, the impossibility of it is another.
– Mołot
Dec 3 at 20:22






3




3




The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
– AlexP
Dec 3 at 20:28






The photograph is lying; it has been specifically correctly exposed for the bronze bust, and grossly underexposed for the Vantablack bust. A photograph correctly exposed for the Vantablack bust would have shown the bronze bust all fully clipped white (0xFFFFFF). Let's be generous and say that bronze reflects 40% of incident light; then the difference in exposure between the bronze and the Vantablack busts would be about 10 stops. An increase of exposure of 10 stops is easily achieved by any modern point-and-shoot digital camera.
– AlexP
Dec 3 at 20:28






1




1




"Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
– AlexP
Dec 3 at 20:34






"Skin pigments became lighter to allow our livers to synthesize vitamin D more easily": this a just-so story which won't die. People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white. The boring truth is that while near the Equator light skin is positively detrimental, at higher latitudes melanin-rich or melanin-poor skin is indifferent. It's plain old genetic drift.
– AlexP
Dec 3 at 20:34














@AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
– Sean
Dec 4 at 4:09




@AlexP: a) it's not the liver; the sterols in question are directly transmuted into vitamin D3/D2 by UV radiation, even outside the body; b) evolution occurs over many, many, many generations, not within a single generation, and is much slower for traits with only a weak survival (dis)advantage, such as skin colour; c) said survival advantage is removed entirely for people in modern-day Canada and northern Europe, thanx to food being supplemented with vitamin D; d) even with light skin, people at high latitudes still have trouble making enough vitamin D, especially in the winter...
– Sean
Dec 4 at 4:09




1




1




@AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
– vsz
Dec 4 at 9:01






@AlexP : "People of Indian and sub-saharan African descent live in Canada and in northern European countries just fine and they don't turn white" - they live there (in any significant numbers) only since a few decades ago, they will obviously not turn white in a generation or two. Evolution needs much longer time than a few years to have any measurable effect.
– vsz
Dec 4 at 9:01












7 Answers
7






active

oldest

votes

















up vote
9
down vote













Vantamen didn't evolve to block 99.97% of light, they evolved to absorb 99.97% of light.



Vantamen developed their dark skin tone in an arctic tundra, where you need to get the most out of your energy sources. As you said, the pigment to produce vantablack requires negligible resources, so the extra gain in solar radiation absorption makes up for the energy to produce the pigment.



So, much like the mighty polar bear, your Vantamen evolved the darkest skin they could to gather the most heat they can from the sun:



Polar bear with shaved legs






share|improve this answer



















  • 2




    The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
    – Miguel Bartelsman
    Dec 4 at 6:49




















up vote
8
down vote













Simple:



Vantamen live on a vantaplain surrounded by vantagrass. Dark, nutritious volcanic soil sprouts grasses coated in carbon nanoforests evolved to suck up as much light as possible using [insert plausibly quantum term here]. The vanta colouration is simple defensive camouflage against predators that are exceptionally good at picking out non-vanta prey. They might even use the vantagrass somehow to gain or maintain their vanta colouration.



This entire area of the planet is incredibly hard to navigate as pretty much everything looks exactly the same shade of uniform black, hence why the vantamen exploit this particular niche.



Their art is incredibly dull.






share|improve this answer




























    up vote
    6
    down vote













    The only reason to have that kind of absorption is stealth.



    From the perspective of absorbing something of value, the difference between 99% and 100% is rather negligible. If you are that strained for resources, you're probably already doomed.



    From the perspective of not letting something in (such as UV rays), there's little advantage for pushing for such high absorption when reflection and scattering are more than efficient. It's much easier to layer up the biological equivalent of zinc paste, or even mud (as many animals do) than to try to come up with such a perfectly absorptive layer.



    Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions. It's a sort of "stealth mode" If you are capable of "looming," which is moving towards a prey without changing aspect angle, you appear to grow in size and it's hard to judge distance (dragonflies abuse this). THis would be even more effective if there was no useful information found in your image.



    Of course, this would also generate a mighty sharp silhouette, so it would be bad during the day.



    So I say you're looking for a predatory species that hunts at night. The dominant prey animal on the planet has developed an astonishing telescope-grade nightsight capability, which lets it see preadators coming a mile away as they graze. Vantablack may be just what the predator needs to be truly invisible when striking the prey.



    You're probably looking for a really black owl.






    share|improve this answer

















    • 1




      "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
      – Mołot
      Dec 3 at 20:24










    • @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
      – Cort Ammon
      Dec 3 at 20:29










    • Nope, perfect absorber is perfect emitter.
      – Artemijs Danilovs
      Dec 3 at 23:11










    • @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
      – Cort Ammon
      Dec 3 at 23:14


















    up vote
    2
    down vote














    Why would Vantaman need to block 99.97% of light?




    Vantamen evolved in a completely dark environment, much like the ocean floor. Predators hunt by using bioluminescence to illuminate and locate prey. By being completely dark, vantamen stay camouflaged against the dark background even if you shine a light on them.



    Sure, they will cast a shadow, but they will still be harder to spot than a creature of any other color.



    Being practically invisible to them is no problem because they find each other and communicate through non-visual means.






    share|improve this answer





















    • Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
      – AlexP
      Dec 3 at 20:31


















    up vote
    2
    down vote














    Even though we have not seen Vantablack in biology, we are assuming
    its possible




    Actually, Vantablack is biologically possible, quite easily in fact: https://www.nature.com/articles/s41467-017-02088-w



    Which I bring up because you could use all of the evolutionary mechanisms that have been proposed for hyper-black birds. Sexual selection being the lead choice.






    share|improve this answer





















    • Also Snakes nature.com/articles/srep01846
      – Pahlavan
      Dec 4 at 5:45


















    up vote
    2
    down vote














    1. Camouflage for night hunting, caves. Even more so with no moon or moon has different composition and size to give less illumination at night.



    2. Insane assassin/duelist What is even more scary about such being is you can not even tell it's shape, features or perceive it's attacks. They could use their remains to cover tools or paint them black.



      Just imagine you need to fight someone like that in a duel or war. You won't even see how he made a trust.




    3. Fear incarnate. It would scare shit out of other animals and species of humans. If you use tools and stand in group, no one will be able to tell your real size or count. You can pretend to be bigger or smaller, conceal real numbers.



      Other predators will consider you tot risky and uncertain.




    For sure there is a problem to make your equipment close to your skin for daytime. Not a big problem in low-light situations.






    share|improve this answer






























      up vote
      1
      down vote













      This could be useful for a creature that operates in groups, either for hunting prey or avoiding predators. When a group of Vantamen are close to each other, they just look like a uniform black mass - it is nearly impossible to tell how close or far apart they are from you, how many there are in the group, or the location of any one individual target. This can make them hard for an enemy to attack.






      share|improve this answer





















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        7 Answers
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        active

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        7 Answers
        7






        active

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        active

        oldest

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        active

        oldest

        votes








        up vote
        9
        down vote













        Vantamen didn't evolve to block 99.97% of light, they evolved to absorb 99.97% of light.



        Vantamen developed their dark skin tone in an arctic tundra, where you need to get the most out of your energy sources. As you said, the pigment to produce vantablack requires negligible resources, so the extra gain in solar radiation absorption makes up for the energy to produce the pigment.



        So, much like the mighty polar bear, your Vantamen evolved the darkest skin they could to gather the most heat they can from the sun:



        Polar bear with shaved legs






        share|improve this answer



















        • 2




          The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
          – Miguel Bartelsman
          Dec 4 at 6:49

















        up vote
        9
        down vote













        Vantamen didn't evolve to block 99.97% of light, they evolved to absorb 99.97% of light.



        Vantamen developed their dark skin tone in an arctic tundra, where you need to get the most out of your energy sources. As you said, the pigment to produce vantablack requires negligible resources, so the extra gain in solar radiation absorption makes up for the energy to produce the pigment.



        So, much like the mighty polar bear, your Vantamen evolved the darkest skin they could to gather the most heat they can from the sun:



        Polar bear with shaved legs






        share|improve this answer



















        • 2




          The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
          – Miguel Bartelsman
          Dec 4 at 6:49















        up vote
        9
        down vote










        up vote
        9
        down vote









        Vantamen didn't evolve to block 99.97% of light, they evolved to absorb 99.97% of light.



        Vantamen developed their dark skin tone in an arctic tundra, where you need to get the most out of your energy sources. As you said, the pigment to produce vantablack requires negligible resources, so the extra gain in solar radiation absorption makes up for the energy to produce the pigment.



        So, much like the mighty polar bear, your Vantamen evolved the darkest skin they could to gather the most heat they can from the sun:



        Polar bear with shaved legs






        share|improve this answer














        Vantamen didn't evolve to block 99.97% of light, they evolved to absorb 99.97% of light.



        Vantamen developed their dark skin tone in an arctic tundra, where you need to get the most out of your energy sources. As you said, the pigment to produce vantablack requires negligible resources, so the extra gain in solar radiation absorption makes up for the energy to produce the pigment.



        So, much like the mighty polar bear, your Vantamen evolved the darkest skin they could to gather the most heat they can from the sun:



        Polar bear with shaved legs







        share|improve this answer














        share|improve this answer



        share|improve this answer








        edited Dec 3 at 23:51

























        answered Dec 3 at 20:53









        Giter

        11.6k42938




        11.6k42938








        • 2




          The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
          – Miguel Bartelsman
          Dec 4 at 6:49
















        • 2




          The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
          – Miguel Bartelsman
          Dec 4 at 6:49










        2




        2




        The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
        – Miguel Bartelsman
        Dec 4 at 6:49






        The polar bear example is counter-productive to your argument without further clarification. Polar bear fur is black in the UV spectrum to absorb energy and white for camouflage purposes.
        – Miguel Bartelsman
        Dec 4 at 6:49












        up vote
        8
        down vote













        Simple:



        Vantamen live on a vantaplain surrounded by vantagrass. Dark, nutritious volcanic soil sprouts grasses coated in carbon nanoforests evolved to suck up as much light as possible using [insert plausibly quantum term here]. The vanta colouration is simple defensive camouflage against predators that are exceptionally good at picking out non-vanta prey. They might even use the vantagrass somehow to gain or maintain their vanta colouration.



        This entire area of the planet is incredibly hard to navigate as pretty much everything looks exactly the same shade of uniform black, hence why the vantamen exploit this particular niche.



        Their art is incredibly dull.






        share|improve this answer

























          up vote
          8
          down vote













          Simple:



          Vantamen live on a vantaplain surrounded by vantagrass. Dark, nutritious volcanic soil sprouts grasses coated in carbon nanoforests evolved to suck up as much light as possible using [insert plausibly quantum term here]. The vanta colouration is simple defensive camouflage against predators that are exceptionally good at picking out non-vanta prey. They might even use the vantagrass somehow to gain or maintain their vanta colouration.



          This entire area of the planet is incredibly hard to navigate as pretty much everything looks exactly the same shade of uniform black, hence why the vantamen exploit this particular niche.



          Their art is incredibly dull.






          share|improve this answer























            up vote
            8
            down vote










            up vote
            8
            down vote









            Simple:



            Vantamen live on a vantaplain surrounded by vantagrass. Dark, nutritious volcanic soil sprouts grasses coated in carbon nanoforests evolved to suck up as much light as possible using [insert plausibly quantum term here]. The vanta colouration is simple defensive camouflage against predators that are exceptionally good at picking out non-vanta prey. They might even use the vantagrass somehow to gain or maintain their vanta colouration.



            This entire area of the planet is incredibly hard to navigate as pretty much everything looks exactly the same shade of uniform black, hence why the vantamen exploit this particular niche.



            Their art is incredibly dull.






            share|improve this answer












            Simple:



            Vantamen live on a vantaplain surrounded by vantagrass. Dark, nutritious volcanic soil sprouts grasses coated in carbon nanoforests evolved to suck up as much light as possible using [insert plausibly quantum term here]. The vanta colouration is simple defensive camouflage against predators that are exceptionally good at picking out non-vanta prey. They might even use the vantagrass somehow to gain or maintain their vanta colouration.



            This entire area of the planet is incredibly hard to navigate as pretty much everything looks exactly the same shade of uniform black, hence why the vantamen exploit this particular niche.



            Their art is incredibly dull.







            share|improve this answer












            share|improve this answer



            share|improve this answer










            answered Dec 3 at 20:48









            Joe Bloggs

            34k1997170




            34k1997170






















                up vote
                6
                down vote













                The only reason to have that kind of absorption is stealth.



                From the perspective of absorbing something of value, the difference between 99% and 100% is rather negligible. If you are that strained for resources, you're probably already doomed.



                From the perspective of not letting something in (such as UV rays), there's little advantage for pushing for such high absorption when reflection and scattering are more than efficient. It's much easier to layer up the biological equivalent of zinc paste, or even mud (as many animals do) than to try to come up with such a perfectly absorptive layer.



                Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions. It's a sort of "stealth mode" If you are capable of "looming," which is moving towards a prey without changing aspect angle, you appear to grow in size and it's hard to judge distance (dragonflies abuse this). THis would be even more effective if there was no useful information found in your image.



                Of course, this would also generate a mighty sharp silhouette, so it would be bad during the day.



                So I say you're looking for a predatory species that hunts at night. The dominant prey animal on the planet has developed an astonishing telescope-grade nightsight capability, which lets it see preadators coming a mile away as they graze. Vantablack may be just what the predator needs to be truly invisible when striking the prey.



                You're probably looking for a really black owl.






                share|improve this answer

















                • 1




                  "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                  – Mołot
                  Dec 3 at 20:24










                • @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                  – Cort Ammon
                  Dec 3 at 20:29










                • Nope, perfect absorber is perfect emitter.
                  – Artemijs Danilovs
                  Dec 3 at 23:11










                • @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                  – Cort Ammon
                  Dec 3 at 23:14















                up vote
                6
                down vote













                The only reason to have that kind of absorption is stealth.



                From the perspective of absorbing something of value, the difference between 99% and 100% is rather negligible. If you are that strained for resources, you're probably already doomed.



                From the perspective of not letting something in (such as UV rays), there's little advantage for pushing for such high absorption when reflection and scattering are more than efficient. It's much easier to layer up the biological equivalent of zinc paste, or even mud (as many animals do) than to try to come up with such a perfectly absorptive layer.



                Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions. It's a sort of "stealth mode" If you are capable of "looming," which is moving towards a prey without changing aspect angle, you appear to grow in size and it's hard to judge distance (dragonflies abuse this). THis would be even more effective if there was no useful information found in your image.



                Of course, this would also generate a mighty sharp silhouette, so it would be bad during the day.



                So I say you're looking for a predatory species that hunts at night. The dominant prey animal on the planet has developed an astonishing telescope-grade nightsight capability, which lets it see preadators coming a mile away as they graze. Vantablack may be just what the predator needs to be truly invisible when striking the prey.



                You're probably looking for a really black owl.






                share|improve this answer

















                • 1




                  "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                  – Mołot
                  Dec 3 at 20:24










                • @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                  – Cort Ammon
                  Dec 3 at 20:29










                • Nope, perfect absorber is perfect emitter.
                  – Artemijs Danilovs
                  Dec 3 at 23:11










                • @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                  – Cort Ammon
                  Dec 3 at 23:14













                up vote
                6
                down vote










                up vote
                6
                down vote









                The only reason to have that kind of absorption is stealth.



                From the perspective of absorbing something of value, the difference between 99% and 100% is rather negligible. If you are that strained for resources, you're probably already doomed.



                From the perspective of not letting something in (such as UV rays), there's little advantage for pushing for such high absorption when reflection and scattering are more than efficient. It's much easier to layer up the biological equivalent of zinc paste, or even mud (as many animals do) than to try to come up with such a perfectly absorptive layer.



                Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions. It's a sort of "stealth mode" If you are capable of "looming," which is moving towards a prey without changing aspect angle, you appear to grow in size and it's hard to judge distance (dragonflies abuse this). THis would be even more effective if there was no useful information found in your image.



                Of course, this would also generate a mighty sharp silhouette, so it would be bad during the day.



                So I say you're looking for a predatory species that hunts at night. The dominant prey animal on the planet has developed an astonishing telescope-grade nightsight capability, which lets it see preadators coming a mile away as they graze. Vantablack may be just what the predator needs to be truly invisible when striking the prey.



                You're probably looking for a really black owl.






                share|improve this answer












                The only reason to have that kind of absorption is stealth.



                From the perspective of absorbing something of value, the difference between 99% and 100% is rather negligible. If you are that strained for resources, you're probably already doomed.



                From the perspective of not letting something in (such as UV rays), there's little advantage for pushing for such high absorption when reflection and scattering are more than efficient. It's much easier to layer up the biological equivalent of zinc paste, or even mud (as many animals do) than to try to come up with such a perfectly absorptive layer.



                Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions. It's a sort of "stealth mode" If you are capable of "looming," which is moving towards a prey without changing aspect angle, you appear to grow in size and it's hard to judge distance (dragonflies abuse this). THis would be even more effective if there was no useful information found in your image.



                Of course, this would also generate a mighty sharp silhouette, so it would be bad during the day.



                So I say you're looking for a predatory species that hunts at night. The dominant prey animal on the planet has developed an astonishing telescope-grade nightsight capability, which lets it see preadators coming a mile away as they graze. Vantablack may be just what the predator needs to be truly invisible when striking the prey.



                You're probably looking for a really black owl.







                share|improve this answer












                share|improve this answer



                share|improve this answer










                answered Dec 3 at 20:06









                Cort Ammon

                106k17184376




                106k17184376








                • 1




                  "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                  – Mołot
                  Dec 3 at 20:24










                • @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                  – Cort Ammon
                  Dec 3 at 20:29










                • Nope, perfect absorber is perfect emitter.
                  – Artemijs Danilovs
                  Dec 3 at 23:11










                • @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                  – Cort Ammon
                  Dec 3 at 23:14














                • 1




                  "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                  – Mołot
                  Dec 3 at 20:24










                • @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                  – Cort Ammon
                  Dec 3 at 20:29










                • Nope, perfect absorber is perfect emitter.
                  – Artemijs Danilovs
                  Dec 3 at 23:11










                • @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                  – Cort Ammon
                  Dec 3 at 23:14








                1




                1




                "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                – Mołot
                Dec 3 at 20:24




                "Vantablack doesn't emit anything, so the only thing that's left would be the cases where you specifically desire to not provide any emissions." Sorry but this is simply false. It is a blackbody and radiates all right.
                – Mołot
                Dec 3 at 20:24












                @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                – Cort Ammon
                Dec 3 at 20:29




                @Mołot Good point! My predator may need to add active cooling to the list of features it needs to capture those skiddish prey!
                – Cort Ammon
                Dec 3 at 20:29












                Nope, perfect absorber is perfect emitter.
                – Artemijs Danilovs
                Dec 3 at 23:11




                Nope, perfect absorber is perfect emitter.
                – Artemijs Danilovs
                Dec 3 at 23:11












                @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                – Cort Ammon
                Dec 3 at 23:14




                @ArtemijsDanilovs If it is a perfect emitter cooled to exactly the temperature of the backdrop, that would be sufficient for stealth.
                – Cort Ammon
                Dec 3 at 23:14










                up vote
                2
                down vote














                Why would Vantaman need to block 99.97% of light?




                Vantamen evolved in a completely dark environment, much like the ocean floor. Predators hunt by using bioluminescence to illuminate and locate prey. By being completely dark, vantamen stay camouflaged against the dark background even if you shine a light on them.



                Sure, they will cast a shadow, but they will still be harder to spot than a creature of any other color.



                Being practically invisible to them is no problem because they find each other and communicate through non-visual means.






                share|improve this answer





















                • Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                  – AlexP
                  Dec 3 at 20:31















                up vote
                2
                down vote














                Why would Vantaman need to block 99.97% of light?




                Vantamen evolved in a completely dark environment, much like the ocean floor. Predators hunt by using bioluminescence to illuminate and locate prey. By being completely dark, vantamen stay camouflaged against the dark background even if you shine a light on them.



                Sure, they will cast a shadow, but they will still be harder to spot than a creature of any other color.



                Being practically invisible to them is no problem because they find each other and communicate through non-visual means.






                share|improve this answer





















                • Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                  – AlexP
                  Dec 3 at 20:31













                up vote
                2
                down vote










                up vote
                2
                down vote










                Why would Vantaman need to block 99.97% of light?




                Vantamen evolved in a completely dark environment, much like the ocean floor. Predators hunt by using bioluminescence to illuminate and locate prey. By being completely dark, vantamen stay camouflaged against the dark background even if you shine a light on them.



                Sure, they will cast a shadow, but they will still be harder to spot than a creature of any other color.



                Being practically invisible to them is no problem because they find each other and communicate through non-visual means.






                share|improve this answer













                Why would Vantaman need to block 99.97% of light?




                Vantamen evolved in a completely dark environment, much like the ocean floor. Predators hunt by using bioluminescence to illuminate and locate prey. By being completely dark, vantamen stay camouflaged against the dark background even if you shine a light on them.



                Sure, they will cast a shadow, but they will still be harder to spot than a creature of any other color.



                Being practically invisible to them is no problem because they find each other and communicate through non-visual means.







                share|improve this answer












                share|improve this answer



                share|improve this answer










                answered Dec 3 at 20:04









                Renan

                41.2k1194208




                41.2k1194208












                • Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                  – AlexP
                  Dec 3 at 20:31


















                • Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                  – AlexP
                  Dec 3 at 20:31
















                Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                – AlexP
                Dec 3 at 20:31




                Why would they be more difficult to spot? For normal eyes, the ocean floor is pitch black. For some hypothetical eyes which can see well enough in that environment, a deep dark silhouette would be quite prominent.
                – AlexP
                Dec 3 at 20:31










                up vote
                2
                down vote














                Even though we have not seen Vantablack in biology, we are assuming
                its possible




                Actually, Vantablack is biologically possible, quite easily in fact: https://www.nature.com/articles/s41467-017-02088-w



                Which I bring up because you could use all of the evolutionary mechanisms that have been proposed for hyper-black birds. Sexual selection being the lead choice.






                share|improve this answer





















                • Also Snakes nature.com/articles/srep01846
                  – Pahlavan
                  Dec 4 at 5:45















                up vote
                2
                down vote














                Even though we have not seen Vantablack in biology, we are assuming
                its possible




                Actually, Vantablack is biologically possible, quite easily in fact: https://www.nature.com/articles/s41467-017-02088-w



                Which I bring up because you could use all of the evolutionary mechanisms that have been proposed for hyper-black birds. Sexual selection being the lead choice.






                share|improve this answer





















                • Also Snakes nature.com/articles/srep01846
                  – Pahlavan
                  Dec 4 at 5:45













                up vote
                2
                down vote










                up vote
                2
                down vote










                Even though we have not seen Vantablack in biology, we are assuming
                its possible




                Actually, Vantablack is biologically possible, quite easily in fact: https://www.nature.com/articles/s41467-017-02088-w



                Which I bring up because you could use all of the evolutionary mechanisms that have been proposed for hyper-black birds. Sexual selection being the lead choice.






                share|improve this answer













                Even though we have not seen Vantablack in biology, we are assuming
                its possible




                Actually, Vantablack is biologically possible, quite easily in fact: https://www.nature.com/articles/s41467-017-02088-w



                Which I bring up because you could use all of the evolutionary mechanisms that have been proposed for hyper-black birds. Sexual selection being the lead choice.







                share|improve this answer












                share|improve this answer



                share|improve this answer










                answered Dec 3 at 23:28









                Mark_Anderson

                1,145410




                1,145410












                • Also Snakes nature.com/articles/srep01846
                  – Pahlavan
                  Dec 4 at 5:45


















                • Also Snakes nature.com/articles/srep01846
                  – Pahlavan
                  Dec 4 at 5:45
















                Also Snakes nature.com/articles/srep01846
                – Pahlavan
                Dec 4 at 5:45




                Also Snakes nature.com/articles/srep01846
                – Pahlavan
                Dec 4 at 5:45










                up vote
                2
                down vote














                1. Camouflage for night hunting, caves. Even more so with no moon or moon has different composition and size to give less illumination at night.



                2. Insane assassin/duelist What is even more scary about such being is you can not even tell it's shape, features or perceive it's attacks. They could use their remains to cover tools or paint them black.



                  Just imagine you need to fight someone like that in a duel or war. You won't even see how he made a trust.




                3. Fear incarnate. It would scare shit out of other animals and species of humans. If you use tools and stand in group, no one will be able to tell your real size or count. You can pretend to be bigger or smaller, conceal real numbers.



                  Other predators will consider you tot risky and uncertain.




                For sure there is a problem to make your equipment close to your skin for daytime. Not a big problem in low-light situations.






                share|improve this answer



























                  up vote
                  2
                  down vote














                  1. Camouflage for night hunting, caves. Even more so with no moon or moon has different composition and size to give less illumination at night.



                  2. Insane assassin/duelist What is even more scary about such being is you can not even tell it's shape, features or perceive it's attacks. They could use their remains to cover tools or paint them black.



                    Just imagine you need to fight someone like that in a duel or war. You won't even see how he made a trust.




                  3. Fear incarnate. It would scare shit out of other animals and species of humans. If you use tools and stand in group, no one will be able to tell your real size or count. You can pretend to be bigger or smaller, conceal real numbers.



                    Other predators will consider you tot risky and uncertain.




                  For sure there is a problem to make your equipment close to your skin for daytime. Not a big problem in low-light situations.






                  share|improve this answer

























                    up vote
                    2
                    down vote










                    up vote
                    2
                    down vote










                    1. Camouflage for night hunting, caves. Even more so with no moon or moon has different composition and size to give less illumination at night.



                    2. Insane assassin/duelist What is even more scary about such being is you can not even tell it's shape, features or perceive it's attacks. They could use their remains to cover tools or paint them black.



                      Just imagine you need to fight someone like that in a duel or war. You won't even see how he made a trust.




                    3. Fear incarnate. It would scare shit out of other animals and species of humans. If you use tools and stand in group, no one will be able to tell your real size or count. You can pretend to be bigger or smaller, conceal real numbers.



                      Other predators will consider you tot risky and uncertain.




                    For sure there is a problem to make your equipment close to your skin for daytime. Not a big problem in low-light situations.






                    share|improve this answer















                    1. Camouflage for night hunting, caves. Even more so with no moon or moon has different composition and size to give less illumination at night.



                    2. Insane assassin/duelist What is even more scary about such being is you can not even tell it's shape, features or perceive it's attacks. They could use their remains to cover tools or paint them black.



                      Just imagine you need to fight someone like that in a duel or war. You won't even see how he made a trust.




                    3. Fear incarnate. It would scare shit out of other animals and species of humans. If you use tools and stand in group, no one will be able to tell your real size or count. You can pretend to be bigger or smaller, conceal real numbers.



                      Other predators will consider you tot risky and uncertain.




                    For sure there is a problem to make your equipment close to your skin for daytime. Not a big problem in low-light situations.







                    share|improve this answer














                    share|improve this answer



                    share|improve this answer








                    edited Dec 4 at 0:06

























                    answered Dec 3 at 23:47









                    Artemijs Danilovs

                    86118




                    86118






















                        up vote
                        1
                        down vote













                        This could be useful for a creature that operates in groups, either for hunting prey or avoiding predators. When a group of Vantamen are close to each other, they just look like a uniform black mass - it is nearly impossible to tell how close or far apart they are from you, how many there are in the group, or the location of any one individual target. This can make them hard for an enemy to attack.






                        share|improve this answer

























                          up vote
                          1
                          down vote













                          This could be useful for a creature that operates in groups, either for hunting prey or avoiding predators. When a group of Vantamen are close to each other, they just look like a uniform black mass - it is nearly impossible to tell how close or far apart they are from you, how many there are in the group, or the location of any one individual target. This can make them hard for an enemy to attack.






                          share|improve this answer























                            up vote
                            1
                            down vote










                            up vote
                            1
                            down vote









                            This could be useful for a creature that operates in groups, either for hunting prey or avoiding predators. When a group of Vantamen are close to each other, they just look like a uniform black mass - it is nearly impossible to tell how close or far apart they are from you, how many there are in the group, or the location of any one individual target. This can make them hard for an enemy to attack.






                            share|improve this answer












                            This could be useful for a creature that operates in groups, either for hunting prey or avoiding predators. When a group of Vantamen are close to each other, they just look like a uniform black mass - it is nearly impossible to tell how close or far apart they are from you, how many there are in the group, or the location of any one individual target. This can make them hard for an enemy to attack.







                            share|improve this answer












                            share|improve this answer



                            share|improve this answer










                            answered Dec 4 at 8:47









                            IndigoFenix

                            14k12662




                            14k12662






























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