Nitrification is the process that drives most aquaponic systems, and yet, it is oftentimes poorly understood- even by experts.
Nitrogen in Aquaponics
Nitrogen is one of the most important plant elements, but making it available depends very closely on the ability of system bacteria to add oxygen to ammonia and nitrite (both toxic) to produce nitrate- a relatively benign form of nitrogen that is plant available.
This process of oxidation is known as nitrification, and it serves a number of secondary functions in the system as well, including acidification of the system water.
You see, as the bacteria oxidize ammonia and nitrite, they release hydronium ions into the solution, making the system more acidic naturally.
For people who want to run their systems in the optimal nutrient availability pH range, nitrification is the single most important process towards lowering pH
Nitrifying Bacteria in Aquaponics
There has always been a perceived balance between pH and nitrification efficiency, based on the assumption that nitrification activity in aquaponic systems was primarily a function of two different groups of bacteria: Nitrosomonas spp., and Nitrobacter spp.
In lab trials, these bacterial species have showed sensitivity to pH, with changes in pH affecting their ability to oxidize ammonia (Nitrosomonas) and nitrite (Nitrobacter). It should be noted, that most nitrifying bacteria (studied so far at least), are total wimps when it comes to changing environmental variables. This is important to know for two reasons:
- Changing your pH rapidly will reduce your nitrification efficiency.
- Most nitrifiers are very hard to remove from the environment and culture in a lab.
Why Do I Need to Know This?
What does this have to do with the nitrification debate? Well, point #1 tells us that perhaps many of the “system crashes” ascribed to running a system pH too low, may actually be attributed to decreasing system pH too quickly.
Point #2 tells us that Nitrosomonas and Nitrobacter may not really be the most important nitrifiers in systems- they’re simply the easiest groups to isolate and grow in a petri dish in a lab.
What does this mean?
Well, it basically means that the hard and fast rules of nitrification may not be as hard and fast as they’re typically communicated. There are many systems out there running very low pH ranges with great nitrification efficiency (including ours). It may be that Nitrosomonas and Nitrobacter species are the primary nitrifiers in our system, but the reality is, we just don’t know. What we do know is that our nitrification is efficient and excellent regardless of our system pH.
Nitrification in Soil
To put this in perspective- there are many acid soils and marine environments around the world, where nitrification occurs at remarkably low pH ranges. Many of the nitrifiers in these environments aren’t members of the Nitrobacter or Nitrosomonas groups. Many of them are unknown.
In a single shovel of soil, there’s an estimated 10,000 different species of bacteria, or roughly twice the number of bacteria currently known to science. With that in mind, I think that it’s not just possible, but probable that there are some pretty interesting bacteria performing nitrifying functions in aquaponic systems around the world.
If you’re interested in more information on this subject, there are a number of resources out there, and I’ll plan on getting more information out as my time allows. In the meantime, check out our BSA video detailing Biological Surface Area- arguably the most important system design element that fosters nitrification.
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