Admit - I was lazy this time - I did not measure nitrite. There is not much if any nitrite produced. I think it is 'over limit' on nitrite processors. I would be happy to send some samples to @AquaBiomics. I was hoping he was looking at these and would maybe give a discount code in the interest of science
If you do do this, just bare in mind the resolution of the test. I can't remember, but I am pretty sure their test only narrows down to the genus level, rather than species level. And we know different species (and indeed strains) of nitrifiers, even from the same genus, can exhibit wildly different nitrification rates.Admit - I was lazy this time - I did not measure nitrite. There is not much if any nitrite produced. I think it is 'over limit' on nitrite processors. I would be happy to send some samples to @AquaBiomics. I was hoping he was looking at these and would maybe give a discount code in the interest of science
My standard comment on any of this stuff is - Yes you're right. BUT - lets say there are 0 nitrifiers. that would mean something, IMHO. It at least gives some information. For example my rocks may be covered with pseudomonas - IDK. Thats the problem again IMHO - no one knows what are in these experimental tanks. Perhaps Aquabiomics is not perfect - but it IMHO does give an idea.
Oh for sure, I absolutely am rooting for you to do a test via AquaBiomics.
I am super keen to see the results lol. Just wanted to raise a thought beforehand, but absolutely it would be interesting to see the results. ^_^
Dan, as usual outstanding work!! You are an experimental machine!!Nitrifying Bacteria. Where Are You?
FINAL RESULTS
You will recall that I am interested in observing where nitrifying bacteria settle in a new aquarium. For practical reasons I am using very small, 0.3 L, aquaria to perform replicate tests with different surfaces. The experiment is simple. Grow BioSpira in these little aquaria, then do a 100% water change but save the water. Then test the water and the aquaria separately for their ability to consume ammonia and nitrite. The water is tested by adding ammonia to it and observing how fast the ammonia and nitrite are consumed. The aquarium surfaces are tested for nitrification by adding fresh Instant Ocean and ammonia and observing ammonia and nitrite consumption. After four days, when the ammonia is depleted and little nitrite is left, I repeat the test. Perform a 100% water change, etc. After a total of three tests were performed, the data was analyzed. Here is the data and what seems to tell us.
The bar charts below show how much ammonia and nitrite are consumed after one day by the aquarium surfaces and the water removed in the 100% water change. Ammonia and nitrite consumption charts tell similar stories. There is substantial nitrification occurring in the water, but the activity is higher for the aquarium surfaces. The presence of nitrification in the water suggests that nitrifying bacteria are being shed or dispersed from the surfaces during the tests. Another observation is that the presence of aragonite surfaces increase nitrification activity over just plastic surfaces, my bare bottom tank. Sand or rock slices enhance nitrification equally well. The near constant nitrification rate over the three tests suggests that only one dose of ammonia might be needed for a fish-less aquarium cycling. No further enhancement in capability is gained by repeated ammonia doses.
How is aragonite sand or rock slices enhancing ammonia and possibly nitrite consumption rates over the plastic surfaces of the aquarium? The simplest explanation is increased surface area. Larger surface areas accommodate larger bacteria populations (see plots below).
A comparison of ammonia and nitrite consumption to the total wetted surface area for the bare aquarium and rock slice containing aquarium (see table below) demonstrates that increasing surface area increases nitrification activity. If there is sufficient surface area, adding more does not increase the nitrification rate (compare rock and sand containing aquaria nitrification rates above)
This surface area effect can be also observed in the same aquarium. When the nitrification activity for the rock slices and aquarium (“Box-Rocks”) are assessed separately, the correlation between surface area and nitrification is seen once again.
Conclusion. The experimental data confirm that nitrification occurs on surfaces. Activity was also observed in the water, at least initially. Multiple ammonia additions in this experiment did not enhance nitrification capability, suggesting that fish-less cycling may not benefit from multiple doses. And finally, insufficient surface area can limit nitrification rates but this may not be an issue for a hobby-size aquarium.
Enjoy!
Well done!
One more idea for you to consider. I call it the no nitrite/no nitrate start up for a new aquarium. It is an idea with no data to say whether it would work.
Its a good idea but I do not think it will work in the long run - let us say - to store it for 10 days - can you figure out why?
Seems like this should work. Not much different than keeping "charged" media in the sump for future use.
I traced the outline of the rock slice on paper, cut out 5he paper, and weighed the paper. For edges, I ran string along edges and estimated the average thickness of the slice with a ruler
My thoughts exactly! It would be fun to see the effect on activity after filtering the water with different porosity filters, after removing particulates and then after using a 0.20 micron filter
I can’t figure it out?Its a good idea but I do not think it will work in the long run - let us say - to store it for 10 days - can you figure out why?
Sincerely Lasse
You figured it out
. If you treat the media for not drying out - you will also limit the oxygen that the film can get. But as long as it is some moist and contact with fresh air (read new oxygen) it will work. It can be difficult to uppfill both demands - moist and free access to rather dry air
Actually. I suppose a thin film of water exposed to air will likely stay more oxygenated than submerged in a tub of water. As long as the film don't dry out.You figured it out
Sincerely Lasse
This would be the external area. How about internal though? It's probably hard to quantify that. But I would say that's something important.
Exactly - but how do you hinder a surface with unlimited contact with air (with lesser RH than 100 %) not to dry out - you can´t - it will dry out. If you hinder free contact - oxygen in the surrounding air will disappear and you get anaerobic - example wrapt in plastic environment
Maybe it will be difficult to compare experiments because we don’t know the number of viable bacteria we each started with. Did we use the same concentration of ammonia? If my water change protocol removed bacteria, wouldn’t ammonia consumption become higher as the biofilm increased in size experiment to experiment?
I think you are right. The maturing biofilm seems to be shedding less and less. And this is consistent with little or no ammonia oxidation occurring in the water of older aquaria.
@taricha and I modified the API ammonia test to detect total ammonia down to around 0.02 ppm and to quantitate it down to about 0.05 ppm. We used the Hanna low range silica Checker to measure the color intensity. The Checker was calibrated with a total ammonia reference standard. For this experiment, differences in readings of 10% were definitely different.
Yes, this was my assumption, but it was continually proven wrong
It would been so satisfying for the two activities to sum to the total of the unseparated samples. Here is why I think they don’t.
