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fullmonti
10/07/2009, 08:07 PM
You know how it's often said only add a given critter/coral to a "well established tank".

Lets say you have a fairly new tank, say 2 months old, cycle completed perimeters all good.

And a 1 year old tank with exactly the same perimeters, this tank would be considered reasonably well established & the first tank would not.

My question is if all the perimeters are the same what happened/changed in that extra 10 months to make this a well established tank? I know the older tank would have more pods, but most the the critters in question don't rely on pods anyway, so what are some of the other things going on that don't show up in water perimeters?

Mike O'Brien
10/07/2009, 08:15 PM
Long rant from Borneman on the same subject.

Hi Eric, I was hoping you could help me to understand better what it means for a system to "mature" or "become established". Hobbyists (me included) are always saying not to keep that sps or this anenome for a least a year until your system has matured. What exactly are the differences between a tank which finished cycling a month ago and one that finished cycling 11 months ago? Does it have to do with water parameters being more stable? Does it have to do with natural food availability? Does "tank maturity" pertain more to those who utilize a DSB, because it takes 6 months for a DSB to become functional ?<<

Tank maturity seems to be even more of an issue without the sand bed. The sand bed just takes some time to get enough nutrients in it to sustain populations and stratify into somewhat stable communities and become functional. So, here's the tank reason, and then I'll blow into some ecology for you. When you get a tank, you start with no populations of anything. You get live rock to form the basis of the biodiversity - and remember that virtually everything is moderated by bacteria and photosynthesis in our tanks. So liverock is the substrate for all these processes, and also has a lot of life on it. How much depends on a lot of things.

Mostly, marine animals and plants don’t like to be out of water for a day at a time...much less the many days to sometimes a week that often happens. So, assuming you are not using existing rock from a tank, or the well-treated aquacultured stuff, you have live rock that is either relatively free of anything alive to begin with, or you have live rock with a few stragglers and a whole lot of stuff dying or about to die because it won’t survive in the tank. Some, if not most, rock exporters have a “curing process” that gets rid of a lot of the life to begin with and some of this is to keep it from dying and fouling further, but some of it would have lived if treated more carefully.

From the moment you start, you are in the negative. Corallines will be dying, sponges, dead worms and crustaceans and echinoids and bivalves, many of which are in the rock and you won't ever see. Not to mention the algae, cyanobacteria, and bacteria, most of which is dehydrated, dead or dying, and will decompose. This is where the existing bacteria get kick started. Bacteria grow really fast, and so they are able to grow to levels that are capable of uptaking nitrogen within...well, the cycling time of a few weeks to a month or so. The “starter bacteria” products give me a chuckle. Anyone with a passing knowledge of microbiology would realize that for a product to contain live bacteria in a medium that sustains it would quickly turn into a nearly solid mass of bacteria, and if the medium is such that it keeps them inactive, then the amount of bacteria in a bottle is like adding a grain of salt to the ocean compared to what is going to happen quickly in a tank with live rock in it.

However, if you realize the doubling time of these bugs, you would know that in a month, you should have a tank packed full of bacteria and no room for water. That means something is killing or eating bacteria. Also realize that if you have a tank with constant decomposition happening at a rate high enough to spike ammonia off the scale, you have a lot of bacteria food...way more than you will when things stop dying off and decomposing. So, bacterial growth may have caught up with the level of nitrogen being produced, but things are still dying...you just test zero for ammonia because there are enough bacteria present to keep up with the nitrogen being released by the dying stuff. It does not necessarily mean things are finished decomposing or that ammonia is not being produced.

Now, if things are decomposing, they are releasing more than ammonia. Guess what dead sponges release? All their toxic metabolites. Guess what else? All their natural antibiotic compounds which prevents some microbes from doing very well. Same with the algae, the inverts, the cyano, the dinoflagellates, etc. They all produce things that can be toxic – and sometimes toxic to things we want, and sometimes to things we don’t want. So, let's just figure this death and decomposition is going take a while.

OK, so now we have a tank packed with some kinds of bacteria, probably not much of others. Eventually the death stops. Now, what happens to all that biomass of bacteria without a food source? They die. Some continue on at an equilibrium level with the amount of nutrients available. And, denitrification is a slow process. Guess what else? Bacteria also have antibiotics, toxins, etc. all released when they die. But, the die-off is slow, relative to the loss of nutrients, and there is already a huge population, and yet you never test ammonia. "The water tests fine.” But, all these swings are happening. Swings of death, followed by growth until limited, then death again, then nutrients available for growth, and then limitation and death. But, every time, they get less and less, but they keep happening – even in mature tanks. Eventually, they slow and stabilize.

What's left? A tank with limited denitrification (because its slow and aerobic things happen fast) and a whole lot of other stuff in the water. Who comes to the rescue and thrives during these cycles? The next fastest growing groups...cyanobacteria, single celled algae, protists, ciliates, etc. Then they do their little cycle thing. And then the turf algae take advantage of the nutrients (the hair algae stage). Turfs get mowed down by all the little amphipods that are suddenly springing up because they have a food source. Maybe you've bought some snails by now, too, or a fish. And the fish dies, of course, because it may not have ammonia to contend with, but is has water filled with things we can't and don't test for...plus, beginning aquarists usually skimp on lights and pumps initially, and haven't figured out that alkalinity test, so pH and O2 are probably swinging wildly at this point.

So, the algae successions kick in, and eventually you have a good algal biomass that handles nitrogen, produces oxygen through photosynthesis, takes up the metabolic CO2 of all the other heterotrophs you can’t see, the bacteria have long settled in and also deal with nutrients, and the aquarium keeper has probably stopped adding fish for a spell because they keep dying. Maybe they started to visit boards and read books and get the knack of the tank a bit. They have probably also added a bunch of fix-it-quick chemicals that didn’t help any, either. Also, they are probably scared to add corals that would actually help with the photosynthesis and nutrient uptake, or they have packed in corals that aren't tolerant of those conditions.

About a year into it, the sand bed is productive and has stratified, water quality is stable, and the aquarist has bought a few more powerheads, understands water quality a bit, corallines and algae, if not corals and other things are photosynthesizing well, and the tank is "mature." That's when fish stop dying when you buy them (at least the cyanide free ones) and corals start to live and grow and I stop getting posts about "I just bought a coral and its dying and my tank is two months old" and they start actually answering some questions here and there instead of just asking questions (though we should all always be asking questions, if not only to ourselves!).

So, ecologically, this is successional population dynamics. Its normal, and it happens when there is a hurricane or a fire, or whatever. In nature though, you have pioneer species that are eventually replaced by climax communities. We usually try and stock immediately with climax species. And find it doesn't always work.

Now, the "too mature" system is the old tank syndrome. Happens in nature, too. That whole forest fire reinvigorating the system is true. Equally true on coral reefs where the intermediate disturbance hypothesis is the running thought on why coral reefs maintain very high diversity...they are stable, but not too stable, and require storms, but not catastrophic ones....predation, but not a giant blanket of crown of thorns, mass bleaching, or loss of key herbivores.

This goes to show what good approximations these tanks are of mini-ecosystems. Things happen much faster in tanks, but what do you expect given the bioload per unit area. So, our climax community happens in a couple years rather than a couple of centuries. Thing is, I am fully convinced that intermediate tank disturbance would prevent old tank syndrome.

fullmonti
10/07/2009, 08:33 PM
WOW that was more good info than I had hoped for, & fast too!

I hope lots of people read this, helped me understand much better!

Thanks

Mike O'Brien
10/07/2009, 08:49 PM
No Problem. Glad that helped :)