Corals, light, [pigments and junk like that

mojoreef

mojoreef

Just a reefer
Ok I thought it best to have this seperate as I dont want to turn the direction of the other thread. Its a goodie.
Ok here is how it works. If I get to techy just ask me .
Corals have Zoox which is an algae, actually they are dinoflagellates. they are the same as the nasty ones in our tanks but do not have a tail. With in this dino are pigments. A series of chlorophyll’s which are green and carotenoid peridinin which is yellow. (yellow and green make??? brown, thus most corals are brown) now these pigments are basically chemical molecules that possess the ability to absorb visible light photons. and so the process starts. The energy of the light photons are captured by these pigments and transfered through a sytem called ETS (electron transport system). and eventually end up in a reaction center, which leads to the formation of ATP and NADPH . ATP is the food (Hmm andrenlintriphosphate??? (sp). and nadph is reducing power. both form organic compounds the coral can use as food.
Now the ammounts of these pigments in corals is not a carved in sstone thing, they can have more chlorophyll’s and less carotenoid's or visa visa and this can influence the color of the coral and/or clam. So how does that influence the light we use??? most of the pigments chlorophyll have a strong ability to gather light in the blue and violet range. the other more dominant pigment carotenoid peridinin mostly absorbs blue light waves, but does absorb violet and a tiny bit of green. So you make the call on the K of the bulb you wish to use (or combination).
So now lets move away from the aglae that is providing food and take a look at some of the actual colors of the corals, because as we know not all corals are brown (thank God). :)
Also with in the coral are more pigments. they have a variety of different purposes and requirements. they reside with in the tissue of the coral itself. Now these pigments do not have the ability to traansfer light energy, but it has been found that in very deep waters they ave the ability to alter particular color wave lengths. This is done by absorbing one color and the fluorescing a color the coral can use. SPS or shallow water corals produce large ammounts of pigments under high lighting intencity. So lets get into the meat of it.
Most pigments in coral tissue are called pocilloporin and are catagorized as either Brightly Colored Low Fluorescent Pocilloporins or as Highly Fluorescent Pocilloporins. Highly Fluorescent Pocilloporin pigments have the ability to absorb light with a specific wavelength and then fluoresce or emit this light into a different wavelength. Most of the highly flouresent varity act as UV protectorants. protecting the coral and algae from UV's and to much light. the lower flourescent types tend to help the Zoox pgments convert uv and /or violet leght into something useable.
these pigments absorb light basically with in the zone of 400 to 620 nm. violet to blue to some green and some yellow and some red. they absorb those light but fluorese dofferent colors back out. the colors the fluorese out are the colors we see in oour tanks.
So conclution...sorta. most of the light waves corals use for growth are in the range of blue and violet. this is for food but not necessarly the color of the coral. the pigemnts inside the corals tissue, have a roader range of absorbtion and emit a different color then they absorb (usually). but it has nothing to do with thier feeding process.

Anyway I hope I didnt make it more confusing.

MIke
 
Pro_builder

Pro_builder

Well-Known Member
Ok, I think I am really lost now.
So if corals absorb more Blue light than anything else, shouldn't a 20K bulb be better for the coral than a 10K? Or am I still looking at this all wrong???? :confused: :confused:

Thanks for the insight to the whole lighting thing.
 
reefrunner

reefrunner

Contributing Member
Better is kind of a subjective term. A 6700K bulb shoulod provide enough blue to make the zooxanthellae happy, cause it will grow under them, therefore it must be happy and healthy. As the maestro has explained to me, the last thing your coral will expend energy on is growth. The 20K bulbs will produce more UV with will activate the pigments in the corals and make them more colorful.
 
mojoreef

mojoreef

Just a reefer
Yep. Troy you have to look at it on a bulb by bulb basis. An Iwasaki buld has huge ammounts of blue and violet light waves, even though it is a 65K. its intencity allows this. the 20k bulb has the big spike in blue but doesnt have alot of intencity. SO it does as Kev said. 10K ushios have a huge spike of violet so they are viable but they lack a bit in the blue department.
To be honest on the whole most bulbs in the 400 watt and in the 250 watt will wowrk just fine and grow great colorful corals. it is just going to boil down to your personal taste in the look of the tank to your individual eye.

Mike
 
NaH2O

NaH2O

Contributing Member
Originally posted by mojoreef
ATP is the food (Hmm andrenlintriphosphate??? (sp). and nadph is reducing power.
MIke
Click to expand...

ATP = adenosine 5'-triphosphate

NADPH = nicotinamide adenine dinucleotide phosphate

Just in case someone is interested

{edit to fix a glaring error - for those that caught it I apologize - that's what happens when I post at one in the morning on something like this- YIKES!!}
 
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mps9506

mps9506

Well-Known Member
Mike,
Do you have any sources for the info you provided on coral pigmentation. I haven't found much info on them personally, and everything I have learned about them has been word of mouth or a few books which usually state that info about the actual purpose of the pigmentation is a bit weak.
IE. The eaxact role UV plays in coral pigmentation.

Also with what you said abou the the pigments taking one wavelength and emitting a different better useable wavelength,
wouldn't that mean a bulb with more of peaks in the green range cause a coral to emit more blue? Where as a bulb that has a major peak at 420nm would result in a less blue coral because the pigments wouldn't need to convert anyh useable light?
Just trying to understand this a bit better as I have never really studied the pigmentation aspect of corals.

Mike
 
Scooterman

Scooterman

Active Member
I think pigmentation is where I ws loosing it yesterday Mike, I've seen where Deep sea creatures live in total darkness, their pigmentation is none existant, or albino, clear or some sort of no coloration.
 
Cougra

Cougra

Well-Known Member
I'll throw my 2 cents in here and state that in my opinion the temperature of a bulb isn't the best indicator of the colour/wavelength of light that a bulb puts out. It's good for generalization but when it comes down to telling what I'm getting I'll look for a spectrum indicator if at all possible.

Kelvin is an indication of the colour percieved not the actual light produced.

I'll trust a spectrum analysis over temperature ratings any time.
 
mojoreef

mojoreef

Just a reefer
Cougra you are so right. I have seen bulbs that were advertized to be of a certain K and then when put on a scope, were something completely different. Thats why I always wait for the testing before I jump in on a new bulb.

Scooter its a tough subject with alot of different varables, good luck

Wit/Troy I have forgotten more then I remember :p

Mike, strong questions let me see if I can explain.
On the sources I will dig a few up for you but do some searches on GFP like protiens, and Fluorescent Pocilloporin pigments and carotenoid pigments within the Symbiodinium algae, this will give you a good start.

Mike thier are Pocilloporins pigements with in the coral that are only stimulated by the presence of UV-A and UV-B. In corals that are directly exposed to this (say on reef tops) the protien (pigment) is produced to be utilized as a protectorant (most are clear). In deeper waters it has been found that these pigments can fluoresce UV-A and violet light into more photosynthetically useable light.

Also with what you said abou the the pigments taking one wavelength and emitting a different better useable wavelength, wouldn't that mean a bulb with more of peaks in the green range cause a coral to emit more blue? Where as a bulb that has a major peak at 420nm would result in a less blue coral because the pigments wouldn't need to convert any useable light?
Click to expand...
Mike most of that is associated with the presence of UV's. at deeper levels. Here is the general concept. Thier about 3 major protien based pigments that are know. each absorbs light at a particluar range of wave length, in turn they fluoresce at a slightly higher wave length, were talking 10 to 30 MN, so not a sweeping change, but enough to add to the total of the light. Again how this all looks to the human eye is a completely different subject.


Mike
 
Scooterman

Scooterman

Active Member
Lighting is so under estimated in a reef, from what I understand now Boomer also mention in a post the VHO(maybe all the florescent tubs) are only recommended to be used 6 months. This is contrary to the venders listing of products but then again the PAR on these lights are so much less the MH's, If I threw on a few Mh's in my tank, it would pop with growth as I've seen so many times.
 
mps9506

mps9506

Well-Known Member
Originally posted by mojoreef

Mike thier are Pocilloporins pigements with in the coral that are only stimulated by the presence of UV-A and UV-B. In corals that are directly exposed to this (say on reef tops) the protien (pigment) is produced to be utilized as a protectorant (most are clear). In deeper waters it has been found that these pigments can fluoresce UV-A and violet light into more photosynthetically useable light.


Mike most of that is associated with the presence of UV's. at deeper levels. Here is the general concept. Thier about 3 major protien based pigments that are know. each absorbs light at a particluar range of wave length, in turn they fluoresce at a slightly higher wave length, were talking 10 to 30 MN, so not a sweeping change, but enough to add to the total of the light. Again how this all looks to the human eye is a completely different subject.


Mike
Click to expand...

Thanks for the point in the right direction. Just did a little reading...
Looked at some layman information on flavines, urobilines and pterines. Hopefully not outdated, most info dated around 1999.
Also I think I need to read some more about mycosporine-like amino acids (MAAs).
Anyways a green flourecening pigment can be activated by 380nm light and the energy that flouresces back is somewhere from 450-530nm. Aparently the reason many corals become flourescent green the the aquaria under strong lights according again to Borneman.

As a side note, anyone know of any lights that primarily peak at 650-700nm??? I think I have an at home experiment I want to setup...

I gotta go do some more reading...
Mike
 
mojoreef

mojoreef

Just a reefer
Mike try the hungarian 4500K, lol.
On a side note, back in the old days we used to toy with UV lighting to perk up our SPS coloration, alot of the Japanese tanks still use UV lighting to do this.

WARNING!!!!!! do not try this as you ride the fine line of colorful and instantly dead.

MIke
 
mps9506

mps9506

Well-Known Member
Yeah,
I've seen those red ushio bulbs they use to "highlight" certain sections of the tank or certain corals. I've personally been happy with my 10k's.
Maybe grab some street lights from the energy company :D
Mike
 
wooddood

wooddood

the wood dude
thanks all great info.i know from my experience on pc bulbs that 65k coralife bulbs dont even come close to 65k custom sealife pc'c man what a differance in intensity.
 
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