Re: Light Intensity vs. Light Duration
<a href=showthread.php?s=&postid=12060936#post12060936 target=_blank>Originally posted</a> by silverwolf72 Can you get away with less light if the photo period is longer?
It depends on what you mean by "get away with." If you mean, "Can a coral end up with the same net amount of photosynthate with a long photoperiod of low intensity light compared to a short photoperiod of high intensity light (assuming similar total amount of light when integrated over the photoperiod)?" then the answer is a resounding yes.
Over the lower end of the light intensity corals see in nature (e.g., what they see in the early morning and the late afternoon) the rate or photosynthesis varies linearly with light intensity. As light intensity becomes saturating the rate of photosynthesis levels off and an increase in light intensity doesn't result in an increase in light intensity. See a typical P/E curve below:
http://www.okstate.edu/artsci/botany/bisc3034/lnotes/lightsat.jpg
If we are on the lower end of the curve, below saturating intensity, then an change in light will result in a proportional change in photosynthesis, although exactly how much depends on the organism an the light intensity to which it is adapted. In other words, it isn't a 1:1 relationship.
For example, increasing light intensity from 50 uE/m2/s to 100 uE/m2/s on a shade-adapted coral might double the rate of photosynthesis whereas in a light-adapted coral it might only increase the rate 20%. It depends on what the organism is adapted to, and hence where photosynthesis becomes light saturated for that particular critter.
While it is theoretically inescapable that one could achieve the same net daily photosynthesis by using a long photoperiod of low intensity as a shorter photoperiod of high intensity, without doing physiological experimentation, one doesn't have a good way of knowing how much longer the photoperiod needs to be for a given reduction of light intensity.
As above, by reducing the light intensity from 100 umol/m2/s to 50 umol/m2/s we would need to double the photoperiod for the shade-adapted coral but quintuple it for the light-adapted coral to achieve the same daily net photosynthesis.
What effect would it have on corals?
Depends
If longer light periods are an acceptable replacement for higher intensity would this not be a better way to go? (less heat generated, less radiation produced, less expensive equipment)
Possibly, but to really be sure of what we're getting requires a lot of work and physiological experimentation.
In general I think it best to shoot for somewhere around the middle of the range for what we might think is acceptable light intensity for the coral: if we are either on the high end or low end we have a reduce margin of error.
A photoperiod of 10-12 hrs is a good starting point I think. One can certainly go longer if one wishes, but I'd do so cautiously and watch the corals to ensure that they are not responding negatively. Perhaps increase photoperiod an hour a week and make sure everything continues to look well--back down if something starts to look 'off.'
Moya et al., 2006 looked to see if there was a diel cycle of calcification in corals. One of the ways they did this was by varying the photoperiod the corals were exposed to. At a light intensity of 175 uE/m2/s, which was enough to saturate calcification and easly obtained using metal halides or T5's, the corals experienced the highest net rates of calcification after the longest photoperiod they examined (20 hrs). They only did this for a couple of days, so it's not clear the corals would have remained "happy" under this photoperiod continuously, but for a couple of days they did just fine.
Chris
