Some people associate balance with the 16:1 ratio.
I think it is important to understand the concept of the Redfield ratio however that specific number has no value to a reefer. We have no way to measure the total available N and P in a system to make use of it. Even if we could measure it, it would have little value since it fluctuates greatly over a 24 hour period.
This is from one of the studies I posted earlier. It shows the folly of trying to maintain a specific ratio.
"Aquatic scientists have often relied on the Redfield ratio to gauge whether nutrient supplies are sufficient. Redfield (
14) observed that the ratio of carbon:nitrogen: Phosphorus in marine phytoplankton was quite constant, with mean ratios by weight of ≈40:7:1. The Redfield ratio has subsequently been accepted as a general indicator for balanced growth with potential for near optimum growth rates (
8). In the Experimental Lakes Area (ELA), lakes rendered eutrophic by experimental additions of N and P at N: P ratios less than Redfield ratio (7:1 weight ratio) have had N concentrations increase to above Redfield ratios as the result of N fixation by diazotrophic heterocystous cyanobacteria (
2,
9,
15,
16). Algal biomass and chlorophyll
a have remained proportional to P inputs regardless of the ratio of N: P added as fertilizer. Here, we describe a deliberate and extreme long-term experiment to test the effectiveness of controlling N on eutrophication."
Which is backed up further on with this.
"In a second experiment in nearby Lake 226, we deliberately tested the effects of N limitation, by adding N and C to two isolated basins, but phosphorus only to one basin (North). N: P ratios in North Basin fertilizer were 4.6 to 5.5:1 by weight, well below the Redfield ratio. Large algal blooms were again in proportion to P additions, but the responding species were primarily N-fixing cyanobacteria (
2,
7)."