If you move bacteria from a cycled tank to a new and youi also add Stability, The stability does nothing, it is all being done by what you transferred from tthe cycled path. Well actually thr Stability may become food for other microorganisms. So it may help in that respect, but nothing in stability is doing any of the cycling.
It is easy to think it is but none of us can see or measure what is going on. Only a well equiped lab can do this.
I do not pay any attention to anybody who offers to help with a fish -in cycle. They are doing nothing good for the hobby, for the fish and especially not for folks just entering the hobby.
That vid Ceez posted should never be shown to any new fish keeper. And adding Prime and Stability for 14 days actually slowed your cycle it did nothing to speed it up. Had you added a bottle of actual nitrifying bacteria you would have needed to do this only once amnd with some ammonia in the water the tanks would be ready to stock in a couple of days. If you added the proper amount of bacteria you could have fully stocked the tank.
The secret to having a great filtration set-up is massive` media of the proper sort. Why do folks thing undergravel filters work so well? 3 inches of the proper sized substrate is an awfully massive amount of bio-media. And unlike 3 inches of substrate without a UGF which will only host nitrifying bacteria to a depth of well under an inch, the UGF is oxygenated the endtire depth and therefore the endtire substrate can host the aerobic nitrifiers.
Just because one pours a bottle of useless spores into a tank and then that tank is cycle some time later does not mean that those spores had anything to do with establishing the cycle in the tank. SeaChem knows Stability doesn't cycle a tank. But the are not willing to say so prominently. But they know-->
http://www.seachem.com/Library/SeaGrams/Biofiltration.pdf
Bear in mind that until the mid 1990s the prevailing thinging was that the bacteria in tanks were the same as the ones in wastewater. But nobody had set out to confirm this until Dr. Timothy Hovanec decide to take on this task as his Pd.D. thesis. He did the science add he could not find any of the bacteria that were supposed to be there.
When he reported to jis advisor that he could not find the bacteria, his advodor told Dr. H, "You are new to doing all of this testing. Yopu must have made a mistake, Do it again." So Dr. H did it again and got the same results. And if you want to read the paper which was ultimately published in a peer reviewed journal,
Hovanec, T.A. and DeLong, E.F., 1996. Comparative analysis of nitrifying bacteria associated with freshwater and marine aquaria.
Applied and environmental microbiology,
62(8), pp.2888-2896.
Three nucleic acid probes, two for autotrophic ammonia-oxidizing bacteria of the b subdivision of the class Proteobacteria and one for a subdivision nitrite-oxidizing bacteria, were developed and used to study nitrifying bacterial phylotypes associated with various freshwater and seawater aquarium biofilters. Nitrosomonas europaea and related species were detected in all nitrifying seawater systems and accounted for as much as 20% of the total eubacterial rRNA. In contrast, nitrifying bacteria belonging to the b-proteobacterial subdivision were detected in only two samples from freshwater aquaria showing vigorous nitrification rates. rRNA originating from nitrite-oxidizing a subdivision proteobacteria was not detected in samples from either aquarium environment. The data obtained indicate that chemolithotrophic ammonia oxidation in the freshwater aquaria was not due to b-proteobacterial phylotypes related to members of the genus Nitrosomonas and their close relatives, the organisms usually implicated in freshwater nitrification. It is likely that nitrification in natural environments is even more complex than nitrification in these simple systems and is less well characterized with regard to the microorganisms responsible.
Since the above paper the ammonia and nitrite bacteria inFw and SW ghave been better identified. Then it was discovered that there are Ammonia Oxidizing Archaea and finally that the Nitrospira identified by Dr. H. et al as the ones oxidixing nitrite to nitrate are also able to convert ammonia to nitrate on thei own. This was considered to ne finding holy grail of nitrifing bacteria.
Seachem has no published scientici papers which support the idea that what is in Stability has anything to do with nitrifying bacteria. And when Hovanec at al did their nitrospira paper they ran a series of tanks using Cycle. What happened in the tanks with Cycle was that the bacteria that went into the tank fromthe bottle were not found weeks later when the tanks were deemed fully cycled.
Hovanec, T.A., Taylor, L.T., Blakis, A. and Delong, E.F., 1998. Nitrospira-like bacteria associated with nitrite oxidation in freshwater aquaria.
Applied and environmental microbiology,
64(1), pp.258-264
ABSTRACT
Oxidation of nitrite to nitrate in aquaria is typically attributed to bacteria belonging to the genus
Nitrobacter which are members of the α subdivision of the class
Proteobacteria. In order to identify bacteria responsible for nitrite oxidation in aquaria, clone libraries of rRNA genes were developed from biofilms of several freshwater aquaria. Analysis of the rDNA libraries, along with results from denaturing gradient gel electrophoresis (DGGE) on frequently sampled biofilms, indicated the presence of putative nitrite-oxidizing bacteria closely related to other members of the genus
Nitrospira. Nucleic acid hybridization experiments with rRNA from biofilms of freshwater aquaria demonstrated that
Nitrospira-like rRNA comprised nearly 5% of the rRNA extracted from the biofilms during the establishment of nitrification.
Nitrite-oxidizing bacteria belonging to the α subdivision of the class Proteobacteria (e.g., Nitrobacter spp.) were not detected in these samples. Aquaria which received a commercial preparation containing Nitrobacter species did not show evidence of Nitrobacter growth and development but did develop substantial populations of Nitrospira-like species. Time series analysis of rDNA phylotypes on aquaria biofilms by DGGE, combined with nitrite and nitrate analysis, showed a correspondence between the appearance of
Nitrospira-like bacterial ribosomal DNA and the initiation of nitrite oxidation. In total, the data suggest that
Nitrobacter winogradskyi and close relatives were not the dominant nitrite-oxidizing bacteria in freshwater aquaria. Instead, nitrite oxidation in freshwater aquaria appeared to be mediated by bacteria closely related to
Nitrospira moscoviensis and
Nitrospira marina.
Here area few snippets from the rest of the paper:
You can read the entire paper here
https://journals.asm.org/doi/full/10.1128/aem.64.1.258-264.1998
There is a very simple fact here. The science supporting Dr. H's work and subsequent confirmation by others scientists is there for anybody to read. What you cannot find in the science are any peer reviewed research papers which provide support for the other cycling products on the market. There is no paper showing Stability, Cycle, Quick Start etc. work to establish the nitrogen cycle in aquariums.
There is a reason for this lack of scientific evidence.
Here are three of my lists of papers bookmarked on this subject. In order for them to be in the list means I have actually read the paper.
View attachment 342226View attachment 342227
And these are my links relating to the Archaea or Archaea v.s. Bacteria.
View attachment 342234
