SCHEDULE 2METHODS OF ANALYSIS
8a.DETERMINATION OF DIFFERENT FORMS OF NITROGEN IN THE SAME SAMPLE — IN THE PRESENCE OF CYANAMIDE NITROGEN
Forms of soluble nitrogen
3.2
The following are determined from different aliquot parts taken from the same solution of the sample:
3.2.1Total soluble nitrogen
3.2.1.1
In the absence of nitrates, by direct Kjeldahl digestion.
3.2.1.2
In the presence of nitrates, by Kjeldahl digestion on an aliquot part taken from the solution after reduction according to Ulsch, the ammonia being determined in both cases, as described in Method 2.
3.2.2
Total soluble nitrogen with the exception of nitric nitrogen, by Kjeldahl digestion after elimination in an acid medium of nitric nitrogen with ferrous sulphate, the ammonia being determined as described in Method 2.
3.2.3Nitric nitrogen by difference
3.2.3.1
In the absence of calcium cyanamide, between (3.2.1.2) and (3.2.2) or between total soluble nitrogen (3.2.1.2) and the sum of ammoniacal nitrogen and ureic nitrogen (3.2.4 + 3.2.5).
3.2.3.2
In the presence of calcium cyanamide, between (3.2.1.2) and (3.2.2) and between (3.2.1.2) and the sum of (3.2.4 + 3.2.5 + 3.2.6).
3.2.4Ammoniacal nitrogen
3.2.4.1
Solely in the presence of ammoniacal nitrogen and ammoniacal + nitric nitrogen, by applying Method 2.
3.2.4.2
In the presence of ureic nitrogen and/or cyanamide nitrogen, by cold distillation after making slightly alkaline, the ammonia being absorbed in a standard solution of sulphuric acid and determined as described in Method 2.
3.2.5Urea nitrogen
Either
3.2.5.1
By conversion using urease, into ammonia which is titrated with a standard solution of hydrochloric acid.
Or:
3.2.5.2
By gravimetry, with xanthydrol, although biuret will also be precipitated by xanthydrol, this should not give rise to significant error in the determination since its level is generally low in absolute value in compound fertilisers.
Or:
3.2.5.3
By difference, according to the following table:
Case | Nitric Nitrogen | Ammoniacal Nitrogen | Cyanamide Nitrogen | Difference |
|---|---|---|---|---|
1 | Absent | Present | Present | (3.2.1.1) − (3.2.4.2 + 3.2.6) |
2 | Present | Present | Present | (3.2.2) − (3.2.4.2 + 3.2.6) |
3 | Absent | Present | Absent | (3.2.1.1) − (3.2.4.2) |
4. | Present | Present | Absent | (3.2.2) − (3.2.4.2) |
3.2.6
Cynamide nitrogen, by precipitation as a silver compound, the nitrogen being estimated in the precipitate by the Kjeldahl method.