Scooterman said:
A few nights ago MikeS mentioned how LR isn't really considered a Bio-Load, if this is true then how can the LR shed a whole year? Somehow it is feeding & living & pooping per say. Just one rock in a tub & it will shed for who knows how long, shedding is proof of life right? What would a tub full of LR be considered just shedding in a tub, if not a bio-load?
That's a good question Scooty. I suppose the answer depends on how we define biolaod, and where in the cycle of events taking place in our tanks biologically you want to start looking at it.
Ok...why is the rock shedding? Basically, because bacteria in and on it are processing nutrients and these are the byproducts of said production, right? Of course all the higher organisims in and on the rock, all the fauna and floura are contributing to this as well, and those could be considered bioload in and of itself, but the impact of these on the bioload of a tank itself I would classify as minimal at best. Of course this will vary from rock to rock...some will be rich in secondary life like that, others will be more devoid of it. But suffice it to say I think on average the majority of shed you see is due to bacterial activity. Is this a bioload on the tank? In a way, yes....but I think the degree to which you see shed is dependant on the system in the first place...ie how much nutrients are present for the bacteria to deal with. So really, it is almost a chicken or the egg kind of deal..the bacteria are causing the shed, but the nutrients must be present in the first place for the bacteria to process.
As for live rock shedding the whole year round...well, if it's in a tank with fish and other organisims, then there is a constant input of nutrients for the bacteria in the rock to deal with, and the cycle never ends. Which brings up an interesting point...if you have rock in a tank that is constantly shedding, perhaps this is an indicator that your bioload is too high for the rock...ie not enough mechanical removal of nutrients vs. the rock.
Two observations in my tank history lead me to believe this...first...with a DSB I saw virtually no shed from my rock, but once the sandbed went into flux, it started to shed. Once I moved that rock to a BB setup, it REALLY started to shed. This leads me to belive that the decrease in the DSB's ability to keep up with things biologically put an increased load on the rock. Once I moved it to the new BB setup, where there was no DSB (even in the limited capacity mine was functioning at) the shedding increased.
The other observation I made was with 100lbs of new rock I got in July. These went right into a cure tank. They shed a lot at first, but the shedding tapered off with time as nutrient levels in the tank and in the rock dropped off. The amount of shed is residual to the amount of nutrients available to be processed....
NaH2O said:
That was a good chat. I'd have to pull up the log, but I think what MikeS was saying is the rock isn't necessarily a bio-load, but more of a product of its environment. Maybe he can clarify for us.
Yes it was a very good chat with Nikki, Scooty, Charlie and all the others, a lot of interesting points were brought up...this is IMO a pretty complicated issue here...I hope my above post clarifies my point a bit...
NaH2O said:
I still think the rock is part of the load on the tank. It can only filter so much, right? The detritus it produces, instead of being bound up, are now free in the tank.
Yes it is initally, but IMO only to the degree to which it introduces nutrients into the system to start with. With the exception of newly introduced rock saturated with nutrients, the rock itself isn't introducing load on the system, on the other hand it's trying to deal with it. In an established system, the byproducts of the rock are going to be limited by the amount of nutrients available to be processed. The load comes from us feeding the higher organisims in the tank...the shed is the rock processing already present nutrients. So in the long run, I still don't see LR as a "load"....it's simply part of the reduction/recycle process, and is ultimately responsive to the nutrient load existant in the tank.
NaH2O said:
In my situation, has the rock begun to recycle the nutrients, instead of process it out? The algae on and inside the rock, block the end products from getting pushed out, so the bacteria recycle it? This would leave any new nutrients to be used by algae, or the algae are feeding on the end products of bacterial processes? BTW - I did take time to blast my rock.
Great points Nikki....well, as mojo likes to point out...there is exporting and then there is recycling...and the whole thing is one very complicated mess...
In this respect, the LR is in many ways no different than a DSB really...lots of factors can interfere with free nitrogen gas off from the system...so yeah, the rock is just the same as a DSB in many ways (only difference is the size of the substrate...:lol: )....you end up recycling a lot of these nutrients back into the system. But it is all dependent on the amount of nutrients available to be exported/recycled in the first place, right? The rock itself isn't putting the nutrients into the system in the long run. That's the point I've been getting at
NaH2O said:
This leads to another question....can live rock be too porous? Maybe the Pukani rock is subjected to high nutrient water, and it is saturated before even getting it.
That's one I have no idea on really....I'll take a blind stab at it with some ideas...:lol: I'd say no...less dense=less material to soak up nutrients...nitrate reduction may perhaps be inhibitied a bit...but no, I don't think it can be too porous...
Hope this helped clarify some of my thoughts...
MikeS
