OFFICIAL INSPECTIONS 53. Ill 



Phosphoric acid, water-soluble 4^ 



citrate-soluble 4 



in fine ground bone and tankage 4 



in cottonseed meal, castor pomace 4 



in coarse bone, tankage and ashes 3^ 



in mixed fertilizers, if insoluble in am- 

 monium citrate 2 



Potash as high grade sulphate and in forms free from 



muriate (chloride) 54 



as muriate 4+ 



in cottonseed meal and castor pomace 5 



RULES FOR CALCULATING VALUATION OF FERTILIZERS. 



The commercial valuation will be accurate enough as a m.eans 

 of comparison if the following rule is adopted: 



Multiply 3.8 by the percentage of nitrogen. 



Multiply 0.8 by the percentage of available phosphoric acid. 



Multiply 0.4 by the percentage of insoluble phosphoric acid 



Multiply 1.05 by the percentage of potash. 



The sum of these 4 products will be the commercial valua- 

 tion per ton on the basis taken. 



Illustration. The table of analyses shows a certain fertilizer 

 to have the following composition: Nitrogen 3.30 per cent; 

 Available phoLSphoric acid 8.00 per cent; Insoluble phosphoric 

 acid 1. 00 per cent; Potash 6.00 per cent. The valuation in 

 this case will be computed thus : 



Nitrogen, 3.8X3.30 $12 54 



Available phosphoric acid, 0.8X8.00 6 40 



Insoluble phosphoric acid. 0.4X1-00 40 



Potash, 1.05X6.00 6 30 



$25 64 

 Since this rule assumes all the nitrogen to be organic and all 

 the potash to be in the form of the sulphate, it is evident that 

 the valuations thus calculated must not be taken as the only 

 guide in the choice of a fertiHzer. In every case the farmer 

 should consider the needs of his soil before he begins to consider 

 the cost. In many instances a little careful experimenting will 

 sihow him that materials containing either nitrogen, potash, or 

 phosphoric acid alone will serve his purpose as fully as a "com- 



