Ch4rlie said:
I would certainly not want to be drinking water with nitrates at 25-30 ppm, and I would not keep my fish in the same.
Well, for those who have nitrates coming out of tap at around 40ppm, like I do, what can we do to lower the levels of nitrate and exactly, what is the harm in drinking this amount of nitrate for humans?
And as for fish tanks, changing water will not make any changes to nitrate levels unless, as far as I know, you have a good level of plants which I always believed consume nitrate.
If you can clarify any of this, that would be appreciated.
I'll offer what I can. TTA has provided the technical aspect that I had hoped he would (thanks TTA). He also corrected my numbers for safe drinking water. As for the effects of high nitrate on humans, I know one of these has to do with a developing fetus in pregnant women, and this is serious; related, I have come across dangers for young children more than adults. One should be able to find data on all this online. Fortunately, I have zero nitrates in my water. And this means I have not delved into the methods for dealing with this, but I have read suggestions from members here and elsewhere, who would be more able to answer this point.
I can offer more on the second question. First, as I said, the majority of aquarium plants do not take up nitrate unless ammonia/ammonium is unavailable for their purposes. In controlled tests,
Elodea nuttallii had removed 50% of the available ammonium within 8 hours, but very few nitrates; only after 16 hours when most of the ammonium was gone did the plant begin to take up nitrates. The uptake of ammonium is much quicker too.
Pistia stratiotes was found to take up ammonium in 4 hours, while it required 20 hours to take up nitrate. Both of these studies, and there are many others, show that ammonium uptake is preferred and faster. And as I mentioned previously, this results in less nitrite and thus less nitrate depending upon the number and species of plants. Many of us with fairly heavily-planted tanks can test and find zero nitrates on a regular basis.
As for the water changes, these do and will significantly reduce nitrates
if the nitrates are occurring within the aquarium, meaning, as a result of the fish and feeding them. This is why over-stocked tanks or over-fed tanks have (or can have) high nitrates and require substantial water changes. The danger of course is that a missed water change can be deadly to the fish, so the stocking should not push the envelope, so to speak, just in case.
And that brings me to TTA's referenced study. A nitrate (here it is NO3-N) level of 10 mg/l (= 10 ppm) can adversely affect several species, and this is the maximum level allowed by US law in public water systems. According to TTA's calculation numbers, this would be 40 ppm with an API nitrate kit. I have no idea which scale Dr. Monks' is using when he repeatedly advises in PFK that nitrates be kept no higher than 20 ppm, but I would assume the API type as he is dealing with hobbyists. I will attempt to ascertain this and report further.
As I mentioned earlier, the data is not exhaustive, but what has been done certainly shows that the higher the nitrates, and/or the longer the exposure period, the more detrimental to all aquarium fish, although in varying degrees to specific species. The detrimental effect of nitrates should not be at all surprising, when one remembers that in the natural waters in which all our fish originally occur, the nitrate level is rarely as high as 1 or 2 ppm, and that is not much. It makes as much sense to me for someone to say that fish can over time adapt to higher nitrate, as it would to say they can adapt to high ammonia or nitrite too. They obviously cannot.
Byron.
?
/m.m.aslo.info/lo/toc/vol_42/issue_3/0529.pdf
