Just to make sure, can I use these? They seem to be 0.22um and hydrophilic ?
It depends. In general, I like the Hanna Phosphate ULR because it has a better accuracy than the low range phosphate, and it reads in ppm and doesn’t have the 3 min shut-off engineering fail on the phosphorous checker.
| Range | 0.00 to 2.50 ppm |
| Resolution | 0.01 ppm |
| Accuracy @ 25°C/77°F | ±0.04 ppm ±4% of reading |
| Range | 0.00 to 0.90 ppm |
| Resolution | 0.01 ppm |
| Accuracy @ 25°C/77°F | ±0.02 ppm ±5% of reading |
| Range | 0 to 200 ppb |
| Resolution | 1 ppb |
| Accuracy @ 25°C/77°F | ±5 ppb ±5% of reading |
Thank you it does make sense for the absorbing side of the experiment, would it be the same scenario on the desorption process? if you were to double the ratio of water volume to sand on the sample would the phosphates maintain X ppm or half X ppm.
Which Hanna to buy depends on the lowest concentration you want to measure and the range of concentrations. The Hanna ultra low range (ULR) model measures in the 0 - 0.05 ppm a bit more reliably than the low range (LR) model. The LR model has a maximum measurement of 2.5 ppm where as the ULR model tops out at 0.6 ppm. @Rick Mathew can add more background to this topic
Cool experiment. I want to do this to compare to your results. If you are interested in comparing PO4 in sand beds, I added information to help standardize the method
This will be tricky to standardize. Ideally we would grab a core sample of the sand bed and then cut out a slice of the core around 1.5 cm. Until, then we we will do our best to scoop out sand at comparable depths
In my sand studies, phosphate is rapidly released in 0 ppm water. It is possible that you rinsed off 10-25% of the phosphate from the sand grain surface in each rinse.
Good. Stirring is important. Time is important. 24 hours might be slightly better in ensure equilibrium.
Excellent. Very critical. Even a small amount of “dust” will throw off the reading
I calculate 1 micro gram was desorbed from 2.5 g of sand, or 0.4 micro gram PO4 per gram of sand @1.05 micro molar PO4…this seems like a reasonable number but we would need to know the phosphate concentration surrounding the sand when sampled to say any more about the number. The 0.4 value suggests it was surrounded by a higher phosphate concentration than 0.1 ppm of the aquarium water. This is reasonable though. Pore water can have a higher concentration of phosphate, ammonia, nitrate, etc.
I think @jda nailed it...The ULR Checkers both the Phosphate and Phosphorous will do the job...Your desired testing range would define your decision...I have evaluated both and their performance is equal to if not better than Hanna reports.
One explanation for theses results is the irreversible binding of phosphate. It is unlikely to have this much reversibly bound phosphate in equilibrium with 0.1 ppm PO4 in seawater unless the rubble used in the experiment had the surface area of GAC which seems like an impossibility or at least an unverified phenomenon.
Nice follow up experiment.@Dan_P
I did the test. I let the calcium carbonate mix with my magnetic stirrer for less than a day. The initial phosphate reading was 0.00 and the reading after filtering the water from the mixture was 0.01ppm which is within the claimed accuracy of the checker.
So, it didn’t really add any phosphates.
I wasn’t until I probed this little sandbed in the sump. I bought a little wet/dry vacuum, now I have no sandbed. I’m a little surprised how it was apparently depressing pH.
Yes, it’s only been about 9 hrs but my CO2 bubbly scrubber thing has barely run (been on bypass) with all windows and doors shut, solid @8.4pH. Guess I’ll know more tonight, the lights have only been off a few hours. I calibrated the probe, just because it was quite unexpected.
