Reactions of lipids in corn with ammonia

Ammonia has recently been employed in experimental tests for the treatment of corn to inactivate aflatoxin, to control molds, and as a preservative during ambient‐air drying of freshly harvested high‐moisture corn. When these various ammonia treatments are properly applied, no adverse effects have b...

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Bibliographic Details
Published inJournal of the American Oil Chemists' Society Vol. 55; no. 6; pp. 526 - 529
Main Authors Black, L. T., Spencer, G. F., Brekke, O. L.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer‐Verlag 01.06.1978
Subjects
Aflatoxins - analysis
Ammonia
Chemical Phenomena
Chemistry
Fatty Acids, Unsaturated
Food Preservation
Zea mays
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Summary:Ammonia has recently been employed in experimental tests for the treatment of corn to inactivate aflatoxin, to control molds, and as a preservative during ambient‐air drying of freshly harvested high‐moisture corn. When these various ammonia treatments are properly applied, no adverse effects have been found on any of the constituents of whole corn. However, in the work being reported when 0.1% or more ammonia was in contact with corn in the presence of air for more than a few days, irreversible changes occurred in the polyunsaturated lipids that were proportionate to the ammonia concentrations. The extent of the changes were dependent upon: (a) air‐to‐corn ratio, (b) ammonia concentration, (c) temperature, (d) corn moisture, and (e) time. The changes were characterized by a reduction in unsaturation of the lipid, by incorporation of nitrogen into the lipids, and by a consequent increase in lipid polarity. The change in polarity of these altered lipids rendered them unextractable with the usual fat solvents. Air (oxygen) and an initiating mechanism that occurs naturally in corn were required for the lipid‐ammonia interaction to occur. This interaction involved only the polyunsaturated fatty acid moieties and formed a class of nitrogenous derivatives. Corn may be treated with ammonia for purposes of detoxification or preservation for long periods with no detectable adverse effects on the lipid composition, as long as headspace air is kept low during ammoniation. This may be accomplished in any of the following ways: (a) by ammonia ting the corn with a very limited headspace, (b) by ammoniating corn in a sealed bin and displacing the air in the headspace with ammonia gas, and (c) by replacing the headspace air with an inexpensive, inert gas such as nitrogen.
ISSN:0003-021X
1558-9331
DOI:10.1007/BF02668062