First stage, an effective mechanicla filter, removing most organic matter. ( a skimmer removes max +- 30%)
A high nutrient import -export system, having a high bio-load, needs a high and reliable ( autotrophic) carrying capacity, need(s) effective biofilter(s).
The use of a biofilter makes it possible to manage and adjust the carrying capacity and nutrient export as desired, at any time.
Biofilters for simultanious remineraliation ( removing DOM), nitrification, denitrification, for managing the nutrient reserve , the presence of nitrate, phoshate, and other building materials . For managing the nitrogen source availability determent for growth rates of most organisms.
The use of a biofilter makes it possible to correct the nutrient reserve and nutrient balance as desired, at any time.
For active nutrient management a refuge or reactor is used as biofilter
LNS and VLNS do not need manageable biofilters but using them makes managing such a low nutrient system easy.
Keeping corals, a high DOC content must be avoided, it messes up the coral holobiont.
Some products used to battle the messengers may be a lot more harmfull as the messengers ever may cause. What is in the bottle?
By killing the messengers one does not win wars. Nitrate and phosphate are not the enemy! They do not kill. Overdosing carbohydrates does.
Why nitrate and phosphate may build up in a well lit closed aquarium system and are not used up by photo-autotrophs?
Do you consider this system to be a high nutrient system?
What is considerd to be a high bioload in a reef aquarium? With SPS? With LPS? Compared to a ZMAS, a zero emmisionmarine aquaculture system, growing sensitive larvae to a bioload of 80kg/m³?
Why heavy (automatic) feeding?
Feeding the endusers directly or indirectly?
Heavy feeding of end users ends up in a high DOM content, TOC and DOC, high heterotrophic activity, high energy needs, , high CO2, nitrogen ( ammonia) and phosphorus production. High bacterial toxins production.
In a balanced system, supporting a high bioload, 60% of the feed may come from remineralization ( be reused) and may support primary and secondary producers which means feeding the endusers is the main nutrient managment factor.
The presence of primary and secondary producers may be a guide for managing the system.
The C/N ratio of feed , the protein content, is very important for nutrient management. High protein food increases the nutrient reserve.
Denitrator: a device used to transform nitrate into nitrogen gas. In most cases kept anoxic. No, it does not export phosphate
Alcohol denitrator: must be fed daily, difficult to manage. Anoxic conditions are needed. The export rate is difficult to manage. for specialists only.
Sulphur denitrator: the BADES process uses alk, ( produces H+, accids) as does the nitrification process, and many other processes. When BADES is used correctly in combination with calcium carbonate as a substrate it does not consume alk . In a reef tank alk must be monitored and corrected anyway. A sulphur denitrator is kept anoxic which makes it difficult or impossible to manage the export rate. For
making good use of BADES, annoxic conditions are NOT needed.
Carbon dosing: does not export a thing from the system. Overdosing removes installed autotrophic carrying capacity wich is not advisable in high bioload systems, needing a reliable carrying capacity. Suitable for managing the nutrient reserve, for making small corrections by managing the ammonium-nitrogen availability, making ammonia more or less available for autotrophic growth by stimulating fast heterotrophic growth.
Lanthanium Cloride: my God!
Biopellets: are pellets made of a natural organic ( bio) carbon source. The intention is to increase heterotrophic growth. As it targets the same as carbon dosing, it does not remove a thing from the system. Can also be used in anoxic conditions to support heterotrophic denitrification, wich does export nitrogen. As the nitrate content in the reactor is not manageable and organic carbon is unlimited available such a reactor will become a H2S factory due to sulphate reductiion. Are not suitable for a normal nitrifying biofilter due to the unlimited organic carbon availability.
