I'll address this first. Nice word but wrong usage. Salt would be ubiquitous, C. irritans is an obligate parasite so where there are no fish, there is no parasite. It's impossible.
Ok, semantics here. How much actually exists where there are fish?
Read these two sentences you posted and ask yourself the same question... Does it make sense that the odds are in favor of the parasite remaining "stable" for lack of a better phrase? From collection to holding, to transport, to transfer station, to LFS, to Qt to your tank? No, the odds are stacked against that being the norm. Is it possible most definately yes, but that was not what I responded to in your post and I think you know that. The assertation that fish are always infested with C. irritans is fundamentally flawed given what is known about the parasite so far.
It absolutely does make sense. The parasite doesn't have to remain "stable" in one fish. It just contaminates the whole process, and as long as fish are around it continues to live. It has to remain "stable" in the system. And if an infected fish ends up in my QT tank, observation alone does not ensure that it is infection free.
Successful parasites in the wild do not kill their hosts, and very rarely make them particularly sick. It is a basic fact of parasitology. The goal of the parasite (as with all organisms on this planet) is to reproduce. Reproduction is cut short if the host dies or develops immunity. A better evolutionary plan is to effect a low-level infection that allows the life cycle to continue. This is how virtually all parasites operate.
It all boils down to the question I asked earlier; what is the true incidence of infection free fish that are wild caught?
You are completely correct in terms of adding fish. Unless prophilactically treating the fish you cannot be sure. It is actually become more common/popular to treat the fish with hyposalinity once other problems that may conflict with the treatment are discounted/eliminated. When it comes to anything else, yes you can be 100% sure. The parasite must have a fish host so the isolation time away from fish will eliminate the problem 99.99% of the time.
This I understand. If one believes that C. irritans can truly be eliminated, then logically one must believe in all QT of fish being in hyposalinity or other forms of treatment. And thanks to your links below, through which I understand the life cycle better, I would no longer argue that ich can't be eliminated. But it does require the treatment, and not just observation, in QT.
I'll stick to the subject matter, I know little of human biology!
Your being led by a misconception here. Only a small percentage of animals collected are infested. By and large the greatest portion of infested animals occurs between the
"capture to aquarium" phase of their journey.
C. irritans in particular is an obligate parasite but must
leave the fish for it to reproduce. How can this parsite permanently infest a fish in the wild if it must leave the host in order to complete it's lifecycle? In the ocean the fish simply swims away, in our tanks it has nowhere to go. As the theront density increases in an aquarium, the more easily/faster fish become infested.
That information is freely available on the web if using the right search terms..
wild occurrences of cryptocaryon irritans
I looked at many of the links that your link to google presents, including the Terry Bartelme series in Advanced Aquarist. I see the assertion a lot, that very few fish are infected, but I don't see proof. "Show me the Money"
It's my turn to ask you to read your statement and see if it really makes sense. If it were really the case that only a small percentage are infected, then we should expect C. irritans to go extinct, for the reason you state; the fish simply swims away and is infection free. It is an obligate parasite and needs a fish host. But yet everything I have read indicates that it is actually adapting and expanding into areas not previously seen.
You ask "How can this parsite permanently infest a fish in the wild if it must leave the host in order to complete it's lifecycle?" It appears that you are thinking of the life cycle too narrowly, as if it is one organism at a time that infects the fish. A low-level, clinically silent (i.e. doesn't cause disease or death) infection would consist of many organisms, all in different stages of developement. So some trophonts may be ready to exit the host today, while others may not drop off for a week. Now if there are theronts around where the fish is swiming, some may attach tomorrow, and some in 3 days (recently hatched from a tomont on that day). All of this allows a continual, low-level presence in the host. It's not as if the life-cycle is synchronized for all the organisms that arise from the same or different tomonts.
It all really depends on the population of C. irritans where the fish tend to be. So, I would ask for more data. What evidence is there that these organisms are, or are not, ubiquitous in areas where fish tend to be (rather than the whole ocean). Just the basic facts of it's life cycle argue for its ubiquitousness. Given the fact that theronts rapidly lose their ability to infect, in order for any fish to get infected the theronts would have to exist in very large amounts. The ocean is a big place and large numbers are needed to increase the odds of a theront and fish actually meeting.
As I noted above, it's once the fish is kept in a captive environment that the rate of infestation increases. In the wild, the fish is easily rid of the problem. If you read up on aquired immunity and why many fish succumb so easily to the parasite you understand why the tang statement you've made makes little sense.
I agree with the basics of this statement, but not because the fish "rid" themselves of the problem. It's because they are not heavily infected in the ocean. It's why the disease is deadly in the aquarium and not in the ocean. Just simply a matter of "infectious load." As you state above, our aquariums keep the fish in contact with a higher concentration of trophonts than would be present in the ocean.
Please choose your words a little more prudently, I am neither religious or arrogant. Many thanks in future for that consideration.
I'm not here to fight with you or belittle you (anyone) so please keep the personal agenda out of it and stick strictly with the science of the topic.
Cheers
Steve
I apologize. But I'm not sure what you expect when you begin a statement with "Sorry, that is just sheer nonsense." That is the height of arrogance. And the use of the term
dogma has nothing to do with religion.
I am happy to stick strictly with the science of the topic, and believe that the questions and thoughts posted above are valid. They may not be accurate, and that I can live with when presented with proof.
