Is a red sea on a habitable world scientifically possible?
I have an idea that the seas of a world are red, not blue. However, the world should also be the birthplace of an intelligent alien species. Would it be scientifically possible to have a world with a red sea and where intelligent life can still develop?
science-fiction space
add a comment |
I have an idea that the seas of a world are red, not blue. However, the world should also be the birthplace of an intelligent alien species. Would it be scientifically possible to have a world with a red sea and where intelligent life can still develop?
science-fiction space
1
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Normal water appear red
– Andech
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago
add a comment |
I have an idea that the seas of a world are red, not blue. However, the world should also be the birthplace of an intelligent alien species. Would it be scientifically possible to have a world with a red sea and where intelligent life can still develop?
science-fiction space
I have an idea that the seas of a world are red, not blue. However, the world should also be the birthplace of an intelligent alien species. Would it be scientifically possible to have a world with a red sea and where intelligent life can still develop?
science-fiction space
science-fiction space
edited 47 mins ago
kingledion
72.8k26244431
72.8k26244431
asked 7 hours ago
AndechAndech
472
472
1
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Normal water appear red
– Andech
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago
add a comment |
1
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Normal water appear red
– Andech
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago
1
1
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Normal water appear red
– Andech
6 hours ago
Normal water appear red
– Andech
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago
add a comment |
8 Answers
8
active
oldest
votes
Absolutely. There's actually a sea on Earth which is red(ish).
So it wouldn't take that much extrapolation to extend the algae planetwide and make it a brighter color. I'd think you'd want it to be loosely matted enough to provide flow of oxygen and sunlight, that but shouldn't be too hard to finesse.
add a comment |
Sure. Just have a microorganism endemic to the seas that colours them red. Some sort of algae, maybe, that produces a red dye naturally as part of their life cycle. We kind of have that here on earth, manifesting as a red tide during algal blooms.
If the coloration is produced as part of the normal behaviour of the algae, rather than during oxygen-consuming blooms, you're good to go.
add a comment |
If you want a really exotic answer, perhaps your world has a Fluorescein ocean. Fluorescein is in essence a complex carbohydrate, or in other words an organic compound, that naturally 'red-shifts' light, absorbing photons and releasing longer wavelength, lower energy photons as a result.
It typically exists as a powder, but can be dissolved in water or alcohol, though not all that well. BUT - imagine if you will a world in which your oceans first formed with a lot of this compound in them, and your first underwater plants used photosynthesis to break down this compound, producing just enough oxygen for their needs. They couldn't release excess oxygen as this would wreak havoc with the fluorescein, but let's just say that they could metabolise the fluorescein via an endothermic reaction triggered by sunlight (or some other energy source).
Because it's in solution, it's not that hard to evolve out photosynthesising animals that metabolise the fluorescein more effectively through being mobile, and potentially even evolve predation (although there would be less need for that in this environment because your organisms have evolved in soup).
The catch with this is that you are unlikely to have a great oxygenation event, and therefore far less likely to have land based creatures, but it's possible you could develop intelligent life in a fluorescein ocean, breathing their food and oxygen supply straight out of the water.
add a comment |
There are two easy ways:
The color "blue" is partially a function of light reflected by the sky. If the sky is red to the human eye, say due to dust, the water will be reddish.
On Earth, Chlorophyll (the green component of plants) actually reflects more red light than green. Our eyes are more sensitive to the green light than the red, so it appears green to our eyes. Plants that have slightly different chlorophyll or higher proportions of other pigments, such as the algae that @jdunlop mentions, do appear red to the human eye.
add a comment |
If the oceans contain very high concentrations of iron, in the form of rust, it would create a red ocean.
This environment would be ideal for rust-eating microbes, which could form the base of oceanic food web in the same way photosynthetic plankton form the basis of our aquatic food webs.
What implications this has on your world's plant and animal life is outside the reach of my familiarity with biology, but I don't think it would necessarily preclude the development of intelligent lifeforms.
add a comment |
I decided to delete my comment and answer the question.
Here's your problem:
This is a chart of color absorption for water. It shows that blue is reflected very well (water doesn't absorb blue). On the otherhand, it absorbs red very well (no reflection). It's exactly the opposite of what you want. But...
You can shift the solar color from yellow to red. This means less blue spectrum is transmitted to your world and more red. This would help (although the seas may appear more yellow than red), but they would appear dark since most of the red wavelengths are being absorbed. But, it's a blank canvas. This is really important.
We need your sun to pump out more ultraviolet. This means your aliens will be very naturally resistant to sunburns on other planets because they would have evolved natural UV protection. Why do we want this?
Because Chlorophyll glows red under ultraviolet light.
BUT! As with all things, you can't simply play with the dials on your planet without consquences. Many things glow under UV (a black light) and they'll be happily glowing, too. I've already mentioned the need to give your aliens natural UV protection. And playing with the sun's color means playing with the nature of vegitation. Can you get your intelligent aliens? Sure!
But it also means you need to pay attention to the details of what else will be affected by whatever solution you choose to make your seas red. For instance, the price you pay to get glowing chlorophyll is that you may not have it since your plants may need to find a way to thrive in a UV/Red predominant energy source. Whatever you choose, take the time to think through "what can go wrong with this?" It'll actually add a lot of cool interest to your story. ("What do you mean you can't eat lettuce? It's the most neutral plant on our planet!")
add a comment |
The reason our own ocean is blue is because of the color of the sky. If your sky is red/orange, you might end up with a red ocean. You could also do what a couple others have said and try an alga that's red.
add a comment |
Your Ocean has a high hemoglobin content
I would suggest using some sort of symbiotic system where said ocean thermally
convects hemoglobin to the surface where it absorbs Oxygen from the atmosphere.
This would create a bright red color. The convection along with the weight of
the molecule could then cause it to sink where a certain organisms in or on the bottom of the sea deplete the Oxygen where it will gradually turn a darker shade
of red, at which time it will convect upward beginning the cycle again. An
aquatic marine animal which has hemoglobin based blood and a special gland for absorbing the molecules would work. Perhaps the 'bloodfish' is responsible for,
or a result of this entire ecoaquatic system.
New contributor
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
add a comment |
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8 Answers
8
active
oldest
votes
8 Answers
8
active
oldest
votes
active
oldest
votes
active
oldest
votes
Absolutely. There's actually a sea on Earth which is red(ish).
So it wouldn't take that much extrapolation to extend the algae planetwide and make it a brighter color. I'd think you'd want it to be loosely matted enough to provide flow of oxygen and sunlight, that but shouldn't be too hard to finesse.
add a comment |
Absolutely. There's actually a sea on Earth which is red(ish).
So it wouldn't take that much extrapolation to extend the algae planetwide and make it a brighter color. I'd think you'd want it to be loosely matted enough to provide flow of oxygen and sunlight, that but shouldn't be too hard to finesse.
add a comment |
Absolutely. There's actually a sea on Earth which is red(ish).
So it wouldn't take that much extrapolation to extend the algae planetwide and make it a brighter color. I'd think you'd want it to be loosely matted enough to provide flow of oxygen and sunlight, that but shouldn't be too hard to finesse.
Absolutely. There's actually a sea on Earth which is red(ish).
So it wouldn't take that much extrapolation to extend the algae planetwide and make it a brighter color. I'd think you'd want it to be loosely matted enough to provide flow of oxygen and sunlight, that but shouldn't be too hard to finesse.
edited 6 hours ago
Cyn
5,280934
5,280934
answered 6 hours ago
El CadejoEl Cadejo
3195
3195
add a comment |
add a comment |
Sure. Just have a microorganism endemic to the seas that colours them red. Some sort of algae, maybe, that produces a red dye naturally as part of their life cycle. We kind of have that here on earth, manifesting as a red tide during algal blooms.
If the coloration is produced as part of the normal behaviour of the algae, rather than during oxygen-consuming blooms, you're good to go.
add a comment |
Sure. Just have a microorganism endemic to the seas that colours them red. Some sort of algae, maybe, that produces a red dye naturally as part of their life cycle. We kind of have that here on earth, manifesting as a red tide during algal blooms.
If the coloration is produced as part of the normal behaviour of the algae, rather than during oxygen-consuming blooms, you're good to go.
add a comment |
Sure. Just have a microorganism endemic to the seas that colours them red. Some sort of algae, maybe, that produces a red dye naturally as part of their life cycle. We kind of have that here on earth, manifesting as a red tide during algal blooms.
If the coloration is produced as part of the normal behaviour of the algae, rather than during oxygen-consuming blooms, you're good to go.
Sure. Just have a microorganism endemic to the seas that colours them red. Some sort of algae, maybe, that produces a red dye naturally as part of their life cycle. We kind of have that here on earth, manifesting as a red tide during algal blooms.
If the coloration is produced as part of the normal behaviour of the algae, rather than during oxygen-consuming blooms, you're good to go.
answered 6 hours ago
jdunlopjdunlop
7,04511540
7,04511540
add a comment |
add a comment |
If you want a really exotic answer, perhaps your world has a Fluorescein ocean. Fluorescein is in essence a complex carbohydrate, or in other words an organic compound, that naturally 'red-shifts' light, absorbing photons and releasing longer wavelength, lower energy photons as a result.
It typically exists as a powder, but can be dissolved in water or alcohol, though not all that well. BUT - imagine if you will a world in which your oceans first formed with a lot of this compound in them, and your first underwater plants used photosynthesis to break down this compound, producing just enough oxygen for their needs. They couldn't release excess oxygen as this would wreak havoc with the fluorescein, but let's just say that they could metabolise the fluorescein via an endothermic reaction triggered by sunlight (or some other energy source).
Because it's in solution, it's not that hard to evolve out photosynthesising animals that metabolise the fluorescein more effectively through being mobile, and potentially even evolve predation (although there would be less need for that in this environment because your organisms have evolved in soup).
The catch with this is that you are unlikely to have a great oxygenation event, and therefore far less likely to have land based creatures, but it's possible you could develop intelligent life in a fluorescein ocean, breathing their food and oxygen supply straight out of the water.
add a comment |
If you want a really exotic answer, perhaps your world has a Fluorescein ocean. Fluorescein is in essence a complex carbohydrate, or in other words an organic compound, that naturally 'red-shifts' light, absorbing photons and releasing longer wavelength, lower energy photons as a result.
It typically exists as a powder, but can be dissolved in water or alcohol, though not all that well. BUT - imagine if you will a world in which your oceans first formed with a lot of this compound in them, and your first underwater plants used photosynthesis to break down this compound, producing just enough oxygen for their needs. They couldn't release excess oxygen as this would wreak havoc with the fluorescein, but let's just say that they could metabolise the fluorescein via an endothermic reaction triggered by sunlight (or some other energy source).
Because it's in solution, it's not that hard to evolve out photosynthesising animals that metabolise the fluorescein more effectively through being mobile, and potentially even evolve predation (although there would be less need for that in this environment because your organisms have evolved in soup).
The catch with this is that you are unlikely to have a great oxygenation event, and therefore far less likely to have land based creatures, but it's possible you could develop intelligent life in a fluorescein ocean, breathing their food and oxygen supply straight out of the water.
add a comment |
If you want a really exotic answer, perhaps your world has a Fluorescein ocean. Fluorescein is in essence a complex carbohydrate, or in other words an organic compound, that naturally 'red-shifts' light, absorbing photons and releasing longer wavelength, lower energy photons as a result.
It typically exists as a powder, but can be dissolved in water or alcohol, though not all that well. BUT - imagine if you will a world in which your oceans first formed with a lot of this compound in them, and your first underwater plants used photosynthesis to break down this compound, producing just enough oxygen for their needs. They couldn't release excess oxygen as this would wreak havoc with the fluorescein, but let's just say that they could metabolise the fluorescein via an endothermic reaction triggered by sunlight (or some other energy source).
Because it's in solution, it's not that hard to evolve out photosynthesising animals that metabolise the fluorescein more effectively through being mobile, and potentially even evolve predation (although there would be less need for that in this environment because your organisms have evolved in soup).
The catch with this is that you are unlikely to have a great oxygenation event, and therefore far less likely to have land based creatures, but it's possible you could develop intelligent life in a fluorescein ocean, breathing their food and oxygen supply straight out of the water.
If you want a really exotic answer, perhaps your world has a Fluorescein ocean. Fluorescein is in essence a complex carbohydrate, or in other words an organic compound, that naturally 'red-shifts' light, absorbing photons and releasing longer wavelength, lower energy photons as a result.
It typically exists as a powder, but can be dissolved in water or alcohol, though not all that well. BUT - imagine if you will a world in which your oceans first formed with a lot of this compound in them, and your first underwater plants used photosynthesis to break down this compound, producing just enough oxygen for their needs. They couldn't release excess oxygen as this would wreak havoc with the fluorescein, but let's just say that they could metabolise the fluorescein via an endothermic reaction triggered by sunlight (or some other energy source).
Because it's in solution, it's not that hard to evolve out photosynthesising animals that metabolise the fluorescein more effectively through being mobile, and potentially even evolve predation (although there would be less need for that in this environment because your organisms have evolved in soup).
The catch with this is that you are unlikely to have a great oxygenation event, and therefore far less likely to have land based creatures, but it's possible you could develop intelligent life in a fluorescein ocean, breathing their food and oxygen supply straight out of the water.
answered 2 hours ago
Tim B IITim B II
25.5k656108
25.5k656108
add a comment |
add a comment |
There are two easy ways:
The color "blue" is partially a function of light reflected by the sky. If the sky is red to the human eye, say due to dust, the water will be reddish.
On Earth, Chlorophyll (the green component of plants) actually reflects more red light than green. Our eyes are more sensitive to the green light than the red, so it appears green to our eyes. Plants that have slightly different chlorophyll or higher proportions of other pigments, such as the algae that @jdunlop mentions, do appear red to the human eye.
add a comment |
There are two easy ways:
The color "blue" is partially a function of light reflected by the sky. If the sky is red to the human eye, say due to dust, the water will be reddish.
On Earth, Chlorophyll (the green component of plants) actually reflects more red light than green. Our eyes are more sensitive to the green light than the red, so it appears green to our eyes. Plants that have slightly different chlorophyll or higher proportions of other pigments, such as the algae that @jdunlop mentions, do appear red to the human eye.
add a comment |
There are two easy ways:
The color "blue" is partially a function of light reflected by the sky. If the sky is red to the human eye, say due to dust, the water will be reddish.
On Earth, Chlorophyll (the green component of plants) actually reflects more red light than green. Our eyes are more sensitive to the green light than the red, so it appears green to our eyes. Plants that have slightly different chlorophyll or higher proportions of other pigments, such as the algae that @jdunlop mentions, do appear red to the human eye.
There are two easy ways:
The color "blue" is partially a function of light reflected by the sky. If the sky is red to the human eye, say due to dust, the water will be reddish.
On Earth, Chlorophyll (the green component of plants) actually reflects more red light than green. Our eyes are more sensitive to the green light than the red, so it appears green to our eyes. Plants that have slightly different chlorophyll or higher proportions of other pigments, such as the algae that @jdunlop mentions, do appear red to the human eye.
answered 2 hours ago
pojo-guypojo-guy
7,44711325
7,44711325
add a comment |
add a comment |
If the oceans contain very high concentrations of iron, in the form of rust, it would create a red ocean.
This environment would be ideal for rust-eating microbes, which could form the base of oceanic food web in the same way photosynthetic plankton form the basis of our aquatic food webs.
What implications this has on your world's plant and animal life is outside the reach of my familiarity with biology, but I don't think it would necessarily preclude the development of intelligent lifeforms.
add a comment |
If the oceans contain very high concentrations of iron, in the form of rust, it would create a red ocean.
This environment would be ideal for rust-eating microbes, which could form the base of oceanic food web in the same way photosynthetic plankton form the basis of our aquatic food webs.
What implications this has on your world's plant and animal life is outside the reach of my familiarity with biology, but I don't think it would necessarily preclude the development of intelligent lifeforms.
add a comment |
If the oceans contain very high concentrations of iron, in the form of rust, it would create a red ocean.
This environment would be ideal for rust-eating microbes, which could form the base of oceanic food web in the same way photosynthetic plankton form the basis of our aquatic food webs.
What implications this has on your world's plant and animal life is outside the reach of my familiarity with biology, but I don't think it would necessarily preclude the development of intelligent lifeforms.
If the oceans contain very high concentrations of iron, in the form of rust, it would create a red ocean.
This environment would be ideal for rust-eating microbes, which could form the base of oceanic food web in the same way photosynthetic plankton form the basis of our aquatic food webs.
What implications this has on your world's plant and animal life is outside the reach of my familiarity with biology, but I don't think it would necessarily preclude the development of intelligent lifeforms.
answered 2 hours ago
MorgenMorgen
32125
32125
add a comment |
add a comment |
I decided to delete my comment and answer the question.
Here's your problem:
This is a chart of color absorption for water. It shows that blue is reflected very well (water doesn't absorb blue). On the otherhand, it absorbs red very well (no reflection). It's exactly the opposite of what you want. But...
You can shift the solar color from yellow to red. This means less blue spectrum is transmitted to your world and more red. This would help (although the seas may appear more yellow than red), but they would appear dark since most of the red wavelengths are being absorbed. But, it's a blank canvas. This is really important.
We need your sun to pump out more ultraviolet. This means your aliens will be very naturally resistant to sunburns on other planets because they would have evolved natural UV protection. Why do we want this?
Because Chlorophyll glows red under ultraviolet light.
BUT! As with all things, you can't simply play with the dials on your planet without consquences. Many things glow under UV (a black light) and they'll be happily glowing, too. I've already mentioned the need to give your aliens natural UV protection. And playing with the sun's color means playing with the nature of vegitation. Can you get your intelligent aliens? Sure!
But it also means you need to pay attention to the details of what else will be affected by whatever solution you choose to make your seas red. For instance, the price you pay to get glowing chlorophyll is that you may not have it since your plants may need to find a way to thrive in a UV/Red predominant energy source. Whatever you choose, take the time to think through "what can go wrong with this?" It'll actually add a lot of cool interest to your story. ("What do you mean you can't eat lettuce? It's the most neutral plant on our planet!")
add a comment |
I decided to delete my comment and answer the question.
Here's your problem:
This is a chart of color absorption for water. It shows that blue is reflected very well (water doesn't absorb blue). On the otherhand, it absorbs red very well (no reflection). It's exactly the opposite of what you want. But...
You can shift the solar color from yellow to red. This means less blue spectrum is transmitted to your world and more red. This would help (although the seas may appear more yellow than red), but they would appear dark since most of the red wavelengths are being absorbed. But, it's a blank canvas. This is really important.
We need your sun to pump out more ultraviolet. This means your aliens will be very naturally resistant to sunburns on other planets because they would have evolved natural UV protection. Why do we want this?
Because Chlorophyll glows red under ultraviolet light.
BUT! As with all things, you can't simply play with the dials on your planet without consquences. Many things glow under UV (a black light) and they'll be happily glowing, too. I've already mentioned the need to give your aliens natural UV protection. And playing with the sun's color means playing with the nature of vegitation. Can you get your intelligent aliens? Sure!
But it also means you need to pay attention to the details of what else will be affected by whatever solution you choose to make your seas red. For instance, the price you pay to get glowing chlorophyll is that you may not have it since your plants may need to find a way to thrive in a UV/Red predominant energy source. Whatever you choose, take the time to think through "what can go wrong with this?" It'll actually add a lot of cool interest to your story. ("What do you mean you can't eat lettuce? It's the most neutral plant on our planet!")
add a comment |
I decided to delete my comment and answer the question.
Here's your problem:
This is a chart of color absorption for water. It shows that blue is reflected very well (water doesn't absorb blue). On the otherhand, it absorbs red very well (no reflection). It's exactly the opposite of what you want. But...
You can shift the solar color from yellow to red. This means less blue spectrum is transmitted to your world and more red. This would help (although the seas may appear more yellow than red), but they would appear dark since most of the red wavelengths are being absorbed. But, it's a blank canvas. This is really important.
We need your sun to pump out more ultraviolet. This means your aliens will be very naturally resistant to sunburns on other planets because they would have evolved natural UV protection. Why do we want this?
Because Chlorophyll glows red under ultraviolet light.
BUT! As with all things, you can't simply play with the dials on your planet without consquences. Many things glow under UV (a black light) and they'll be happily glowing, too. I've already mentioned the need to give your aliens natural UV protection. And playing with the sun's color means playing with the nature of vegitation. Can you get your intelligent aliens? Sure!
But it also means you need to pay attention to the details of what else will be affected by whatever solution you choose to make your seas red. For instance, the price you pay to get glowing chlorophyll is that you may not have it since your plants may need to find a way to thrive in a UV/Red predominant energy source. Whatever you choose, take the time to think through "what can go wrong with this?" It'll actually add a lot of cool interest to your story. ("What do you mean you can't eat lettuce? It's the most neutral plant on our planet!")
I decided to delete my comment and answer the question.
Here's your problem:
This is a chart of color absorption for water. It shows that blue is reflected very well (water doesn't absorb blue). On the otherhand, it absorbs red very well (no reflection). It's exactly the opposite of what you want. But...
You can shift the solar color from yellow to red. This means less blue spectrum is transmitted to your world and more red. This would help (although the seas may appear more yellow than red), but they would appear dark since most of the red wavelengths are being absorbed. But, it's a blank canvas. This is really important.
We need your sun to pump out more ultraviolet. This means your aliens will be very naturally resistant to sunburns on other planets because they would have evolved natural UV protection. Why do we want this?
Because Chlorophyll glows red under ultraviolet light.
BUT! As with all things, you can't simply play with the dials on your planet without consquences. Many things glow under UV (a black light) and they'll be happily glowing, too. I've already mentioned the need to give your aliens natural UV protection. And playing with the sun's color means playing with the nature of vegitation. Can you get your intelligent aliens? Sure!
But it also means you need to pay attention to the details of what else will be affected by whatever solution you choose to make your seas red. For instance, the price you pay to get glowing chlorophyll is that you may not have it since your plants may need to find a way to thrive in a UV/Red predominant energy source. Whatever you choose, take the time to think through "what can go wrong with this?" It'll actually add a lot of cool interest to your story. ("What do you mean you can't eat lettuce? It's the most neutral plant on our planet!")
answered 1 hour ago
JBHJBH
40.5k589194
40.5k589194
add a comment |
add a comment |
The reason our own ocean is blue is because of the color of the sky. If your sky is red/orange, you might end up with a red ocean. You could also do what a couple others have said and try an alga that's red.
add a comment |
The reason our own ocean is blue is because of the color of the sky. If your sky is red/orange, you might end up with a red ocean. You could also do what a couple others have said and try an alga that's red.
add a comment |
The reason our own ocean is blue is because of the color of the sky. If your sky is red/orange, you might end up with a red ocean. You could also do what a couple others have said and try an alga that's red.
The reason our own ocean is blue is because of the color of the sky. If your sky is red/orange, you might end up with a red ocean. You could also do what a couple others have said and try an alga that's red.
answered 1 hour ago
G. B. RobinsonG. B. Robinson
1697
1697
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Your Ocean has a high hemoglobin content
I would suggest using some sort of symbiotic system where said ocean thermally
convects hemoglobin to the surface where it absorbs Oxygen from the atmosphere.
This would create a bright red color. The convection along with the weight of
the molecule could then cause it to sink where a certain organisms in or on the bottom of the sea deplete the Oxygen where it will gradually turn a darker shade
of red, at which time it will convect upward beginning the cycle again. An
aquatic marine animal which has hemoglobin based blood and a special gland for absorbing the molecules would work. Perhaps the 'bloodfish' is responsible for,
or a result of this entire ecoaquatic system.
New contributor
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
add a comment |
Your Ocean has a high hemoglobin content
I would suggest using some sort of symbiotic system where said ocean thermally
convects hemoglobin to the surface where it absorbs Oxygen from the atmosphere.
This would create a bright red color. The convection along with the weight of
the molecule could then cause it to sink where a certain organisms in or on the bottom of the sea deplete the Oxygen where it will gradually turn a darker shade
of red, at which time it will convect upward beginning the cycle again. An
aquatic marine animal which has hemoglobin based blood and a special gland for absorbing the molecules would work. Perhaps the 'bloodfish' is responsible for,
or a result of this entire ecoaquatic system.
New contributor
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
add a comment |
Your Ocean has a high hemoglobin content
I would suggest using some sort of symbiotic system where said ocean thermally
convects hemoglobin to the surface where it absorbs Oxygen from the atmosphere.
This would create a bright red color. The convection along with the weight of
the molecule could then cause it to sink where a certain organisms in or on the bottom of the sea deplete the Oxygen where it will gradually turn a darker shade
of red, at which time it will convect upward beginning the cycle again. An
aquatic marine animal which has hemoglobin based blood and a special gland for absorbing the molecules would work. Perhaps the 'bloodfish' is responsible for,
or a result of this entire ecoaquatic system.
New contributor
Your Ocean has a high hemoglobin content
I would suggest using some sort of symbiotic system where said ocean thermally
convects hemoglobin to the surface where it absorbs Oxygen from the atmosphere.
This would create a bright red color. The convection along with the weight of
the molecule could then cause it to sink where a certain organisms in or on the bottom of the sea deplete the Oxygen where it will gradually turn a darker shade
of red, at which time it will convect upward beginning the cycle again. An
aquatic marine animal which has hemoglobin based blood and a special gland for absorbing the molecules would work. Perhaps the 'bloodfish' is responsible for,
or a result of this entire ecoaquatic system.
New contributor
edited 52 mins ago
Arkenstein XII
2,134425
2,134425
New contributor
answered 2 hours ago
SiGGERSiGGER
172
172
New contributor
New contributor
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
add a comment |
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
1
1
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
Single-sentence answers are never appreciated. We expect you to justify your answer. On top of that, considering the OP asked for something "scientifically possible," it appears this doesn't answer the OP's question (unless you can scientifically justify a sea of blood).
– JBH
2 hours ago
add a comment |
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1
Just for clarity, are you looking to fill these seas with red-colored liquid that can support life, or looking for a way to make normal water appear red?
– Giter
6 hours ago
Normal water appear red
– Andech
6 hours ago
Reminds me of Vampirella.
– Renan
6 hours ago
It's theorized that the chemical reactions in the cells of alien life could be facilitated by a liquid medium other than water, if you wanna get really out there. Of course water is the most likely medium by far because of its abundance and its many convenient qualities
– Kyle Delaney
2 hours ago