Let's be sure we are talking apples and oranges here.
There are 3 key events or levels:
1) when nitrification is slowed to the point that it can't keep up with ammonia levels. BB populations grow but too slowly to eliminate ammonia and nitrite. (This can be a point that ammonia and nitrite levels inhibit BB population growth.)
2) when BB populations continue to process ammonia but do not grow. At this level the BB population is simply replacing itself and not expanding.
3) when nitrification stops completely and the BB population is essentially hibernating.
These events not only occur at different pH levels, but they do so differently for nitrobacter and nitrosomas. Ammonia and /or nitrite might be present at any of the 3 levels. Nitrates might appear in level 1 & 2, but might not be detected in level 3.
Depending upon which BB one is discussing and which event one is referring to, the pH level will be different since all 3 technically describe a failure in the BB to properly process ammonia & nitrites.
Imo, given this, the generally most useful statement is then that pH levels between 5.5 and 7 will reduce the effectiveness of BB to the point where nitrification will not occur or occur at a level that is inadequate for the aquarium.
The exact pH level isn't as important as keeping aquariums functioning at a level to process at least the amount fish are producing. The presence of nitrite and ammonia in tests is proof that this level hasn't been met.
https://www.climate-policy-watcher....nfluence-of-ph-on-the-nitrification-rate.html
The other consideration of course is that this assumes all things are equal. Lower oxygen levels, lower temperatures, the presence of ammonia or nitrites, the level of potassium all raise or lower the level at which nitrification will eliminate ammonia and nitrites.
