|
|
|
#31
10-06-2014, 02:28 PM
|
|||||
|
|||||
Quote:
I just looked at BRS, as I'm not familiar with their recommendations, and I see they want you to change it out every 4-8 weeks. To compare my recommendation to BRS: My recommendation is 1 tbsp (15 mL) per 30 gallons changed every 2-3 weeks. So my recommendation on 105 gallons works out to 140-210 mL in 8 weeks. I use RowaPhos strictly. I haven't used BRS HC GFO in several years. BRS recommendation of 225 mL of the HC GFO changed every 4-8 weeks is 225 mL to 450 mL in 8 weeks. There is almost no data available to compare the different brands of GFO, although I have found one comparing RowaPhos to PhosBan. http://www.theaquariumsolution.com/f...n%20report.pdf Ultimately, my recommendation is based on using RowaPhos, and I am not sure if my recommendation can be directly compared. 
|
|
#32
10-06-2014, 02:52 PM
|
|||||
|
|||||
|
In response to post #14 by Asylumdown. http://www.canreef.com/vbulletin/sho...8&postcount=14
Some points to understand... Test kits only read inorganic phosphate (PO4), and cyano can use both organic and inorganic phosphate. GFO only binds inorganic phosphate (PO4). The red (or green or brown) stringy gunk we see in the system is not the cyanobacterium. That "gunk" is what the cyanobacterium exudes, and the bacterium is under that, and to a degree within it as well which is a method of spreading (aka hormongia aka motile reproductive filaments). Cyanobacteria are biologically really cool - they don't follow the usual rules. Cyanobacteria are autotrophs, and the species that we see are also able to fix atmospheric nitrogen (which is really cool because cyanobacteria are aerobic and nitrogen fixation requires anaerobic conditions). Cyanobacteria are particularly good at surviving in both iron-limited and phosphate-limited environments. Quote:
Quote:
I think you're over-thinking my use of the word "balanced". The balance I'm referring to is simply that the water column contains roughly the same amount of phosphate as the substrate (sand/rock). I think we are "arguing" different points. It appears to me that your side is that you think cyanobacteria are triggered by iron, where I believe cyanobacteria are triggered by phosphate imbalance within the system. My own experiences (and yours also, it appears) have shown that adding a large amount of GFO to a tank can ultimately cause abundant growth of cyanobacteria. Seeing as cyanobacteria are not responsive to iron-limited nor phosphate-limited environments, then it must be something else.
|
|
#33
10-06-2014, 06:54 PM
|
||||||
|
||||||
|
Quote:
That red slime isn't just cyano, it's an entire self contained microscopic ecosystem. Quote:
Cyano is also likely uniquely adapted to using the kind of iron found in GFO compared to all the other organisms in your tank. They emit organic molecules called siderophores that specifically react with inorganic, oxidized forms of iron and turn it in to something they can easily absorb. This makes then capable of living in iron limited environments. It makes them excellent at living in iron rich environments. Quote:
Quote:
If you have high phosphate in the water and no cyano growing either: 1. You don't have cyano present 2. Something is effectively predating the cyano Or 3. Some other nutrient or environmental condition is limiting its growth. Quote:
Given how little P it needs relative to N and C, and how good it is at scavenging it from low P environments, and that (as you mentioned) cyanobacteria can use forms of phosphate not readily scrubbed by GFO, it's far more likely that no reactor you could buy has the adsorbing capacity to reduce phosphorous levels in your tank to the point where it would be limiting to Cyanobacteria. All your corals would die if you did. In the rocks or otherwise. What you are supplying, however, is large quantities of an atom that is differentially vital to Cyanobacteria for survival; that isn't regularly dosed by most people; is found only in trace amounts in foods and most salt mixes; and is in a form that organisms other than cyanobacteria will probably have a hard time using. Quote:
It's not that they're not responsive to low iron/low phosphate environments. It's that they're adapted to surviving in them. Take an organism adapted to surviving in an environment where some critical nutrient is limited and provide that nutrient in excess, you get steroid-like growth.
|
|
#34
10-06-2014, 08:15 PM
|
|||||
|
|||||
|
I'm curious how you have come to the conclusion that the cyano in our tank is likely Oscillatoria? Is that your own ID from your microscope or are you reading this in your research?
Quote:
I think the ideas are interesting, but I also think there is more to it. I don't think it is as simple as adding iron via GFO. There are too many instances in my mind where cyanobacteria have popped up and it would be tough to blame it on iron. It makes me think about what the cause may be in those instances. Since cyanobacteria are such amazing critters I imagine there are many situations that could cause the growth. I'm also sure I've seen at least a dozen different species of cyanobacteria in saltwater systems. I like this discussion though. It is discussions like these that get us thinking in new ways and solve old problems with new ideas.  Last edited by Myka; 10-06-2014 at 08:20 PM.
|
|
#35
10-07-2014, 12:47 AM
|
|||||
|
|||||
|
Yes, I'm definitely over simplifying it, as cyano has been a problem for as long as people have been keeping salt water tanks. In nature there's probably lots of cases where the nutrients needed for it to grow are present but it still doesn't, so there's a lot of complicated interactions going on. One paper I read even hypothesized background levels of hydrogen peroxide, which can naturally reach as high as 0.36 ppm in some parts of the ocean, might inhibit huge amounts of cyano bacterial growth (reactive oxygen is particularly deadly to cyano's photosynthetic structures).
You also have predators that we probably don't keep in tanks, bioturbation on a much larger scale, stronger wave action, and more things to compete with it. I'm sure we could also find lots of tanks that deal with cyano that don't use gfo. But, when you've got it, or are fighting it, I think it's worth considering that what has been long touted as a cure might in fact be part of the problem if gfo and low tested phosphate isn't slowing it down at all. There's good, supported science to suggest a link, and a long evolutionary history that makes cyano uniquely adapted to turning your best tools against you. In researching some background for this thread I even found an article where they assessed how good glucose and fructose were at making different species of oscillatoria grow (sad news, sugar dosers). Fwiw, I'm on day three of phozdown dosing and I'm either wishfully seeing things, or my cyano population is down by 25%
|
|
#36
10-07-2014, 02:48 AM
|
|||||
|
|||||
|
Quote:
Going beyond genus to species would take a microscope way better than mine, and even people who are experts on this as a career never seem to agree. This is what it looks like under my super crappy microscope (it's a video so you need to click on it): That magnification wasn't high enough to see the heterotrophic and chemoautotrophic bacteria that live in association with the cyano mat, but you can see the super cool stretched out diamond shaped diatoms and a couple of the watermelon seed shaped dinoflagellates that live in association with the film. It's called "Oscillatoria" because the filaments re-orient themselves by oscillating back and forth until they are positioned as best as possible to receive the light, which is why the strands look like they're vibrating. I think it might be part of why cyano mats seem to shrink at night, the entire colony can deflate at night, then puff up over the course of the day as individual filaments stretch out to try and get the most light. Last edited by asylumdown; 10-07-2014 at 02:52 AM.
|
|
#37
10-07-2014, 03:15 AM
|
|||||
|
|||||
|
FWIW, based on those pictures, O. margaritifera, O. okenii, and O. subsalsa are great matches for the kinds we typically do battle with.
|
|
#38
10-18-2014, 03:49 AM
|
||||
|
||||
|
Well just thought I would put my 2 cents in. I had Cyno start to appear and this is what worked for me. Pull the GFO and GAC get some Seachem Purigen like 1L and pick up a few of the Seachem " The Bag" works perfect for the Media as it is fine. You can put it in the sump or better would be a small Canister or if you have an AquaClear hang it on the back or side. I did this and within the first day you could see the Cyno start to disappear and your water will sparkle. This stuff lasts quite a while and can be regenerated. It rapidly removes Organics from the water.
One other thing maybe I missed it but is your skimmer working as it should? The other thing maybe lights old tubes or bulbs if you are use them. Give the Purigen a try, its simple safe. The other thing I just thought of that seem to help also was Brightwell Aquatics-Microbacter 7, with a large tank you may need to get the 2L bottle. Good luck. All the best. Mike P.S one other thing you can try if you use the Purigen is cut back the lighting time or shut them off for 2 to 3 days. That should get ride of the stuff real fast.
|
|
#39
10-25-2014, 01:19 AM
|
|||||
|
|||||
|
Quote:
 I've been using 225ml and changing it every 2 weeks I'll try cutting it in half to start with and see what happens with my PO4 readings/algae issues If all is good I'll keep cutting it back to a point where I know what amount to use every 2 weeks
|
Linear Mode
