Originally posted by Randy Holmes-Farley
Please, I'll speak for myself. It is not hard to design a proper experiment in this case. If you spent more time thinking about the issue and less thinking up witty ways to make fun of people's ideas, you might have thought of it yourself.
I did, but I think the issue is unimportant. You seem to think it is important, but seem totally unable to present any data from aquaria supporting your position. Basically, you are "jumping up and down and waving your arms, " but don't seem to be willing or able to do the work.
I have pulled together a short reseach project over the last few years, showing the absurd levels of poisons in our tanks and the paths they take through our systems. I started with the sea water composition work by Atkinson and Bingman and
- Working through the foods added to our systems,
- the amounts of poisonous trace metals in our tanks water
- what is being exported (the data are on hand and will be published this autumn) and
- the toxicity of various waters to standard test.
It seems to me that if you thought that organic materials had some real effect in our systems, you could do the work to show those effects.
Basically, Randy, put up or shut up; all you have said is simple conjecture.
If we want to get into talking about contaminants in sediments (where the environmental problem often lies), that is well worth discussion. We have, however, no data on sediment pollutants in reef tanks.
I will - if I can get the $$ - be examining the metals in tank sediments late this autumn as one of the upcoming components of the this project of mine.
Perhaps you should undertake some research about the organic components, if you think they are important.
Considering the very low solubilty products of heavy metal carbonates and oxides it would require a pH far below necessary to dissolve calciumcarbonate. So the system will resist low enough pH concentrations being reached as long as calciumcarbonate is present.
The system will resist this, true enough, but these materials will still be toxic to organisms as they will encounter sufficiently low pH values during digestion. Many aquarium animals, including corals ingest and digest particulate material, additionally much fine particulate material - including potentially toxic material- is moved from tank sediments or the surface of live rock into the water where suspension-feeding animals will encounter it. The animals will convert this insoluble - and harmless - material into a toxic material within their body.
If that can not be deducted , and it can not be deducted, then nothing can be said about the toxicity or any inhibition effects.
Certainly, it can. In the same way, observational/correlative research is done. If the level of a certain chemical is measured in the same way it has been measured elsewhere, and if mortality has been associated with those measurements elsewhere, then the mortality may correlated with the measured value.
This does not imply direct cause. However, if such a correlation exists then there is certainly reason to suspect the measured factor is having an effect.
The "species" of the metal is unimportant. What is important is that every time the metal is measured at, or exceeds certain values, mortality occurs. It may well be due to the form of the metal in the solution, or to the form that the organism converts it to. However, it happens, the metal is toxic.
suggest you do a better literature search. Many enzymes will not function without heavy metals. Without them no corals, no coralline algae, no bacteria, no..........
Read the statement in the article again, and don't take it out of context. In the context of the article I was referring to the environmental physiology of these materials, and the statement is correct.
Certainly, in natural trace amounts these materials are necessary. Neither in the environmental literature nor in our aquaria are these materials at anything near natural trace amounts.
If toxicity takes place then it automatically means that the metal which is causing toxicity is taken in by whatever pathway by that organism.
If that happens the metal is bio-available. In such situations relatively huge amounts of that metal will be taken in until the organism dies or the pathways of toxic metal intake have ceased to function (almost dead).
This is absolutely incorrect. The material may be ingested in an non-toxic form and converted to a toxic form within the animal. Happens all the time....
And why there was no iron detectable in the aquariums you tested while all sea salts tested have a large amount of iron in them and there were other metals such as copper (which you consider to be toxic) still present in a concentration similar to what is present in saltmixes?
The test method is rather insensitive to iron. But more to the point, iron hydroxides have been shown to complex with some of the trace metals, and I suspect it is bound that way and removed from solution. Also, iron is preferentially taken up by cyanobacteria and some algae, so the concentration of iron is probably lowered biologically.
Copper is not taken up preferentially by any animal. I do consider it toxic, copper kills animals... and algae.... and bacteria. Maybe this isn't toxic by your definition, but it surely is by mine.
I am glad you will finally publish some results. Regardless of the result, at least you seem to have been doing some research, unlike other posters.
). In your article you wrote:
