Abstract:
Along with nitrogen, phosphorus and potassium are the most important nutrition elements for plants; they are to be found
in all their organs, are components of the needed substances for vital processes, and have important roles in many
biochemical reactions. Accessible fractions for plant nutrition are but small fractions of the total phosphorus and
potassium soil contents. The influence of soil reaction (pH), humus content, and total forms upon phosphorus and
potassium solubilization in the ammonium acetate lactate solution at pH 3.7, down to a 50 cm soil depth, was studied in
an agro-chemical experiment carried out in six farms of the Great Brăila Island, with seven field crops diversely fertilized
with nitrogen, phosphorus, sulphur, and – for only one of the crops and in small quantities – potassium; phosphorus
available contents for plants were also computed as in neutral – slightly alkaline soils as it is the case they are not the
same with the contents analytically determined in the used extractant. Phosphorus and potassium solubilization degrees
were very significantly influenced by soil reaction and in the case of potassium by the organic matter content too. Because
of the neutral – slightly alkaline soil reaction phosphorus soluble in the ammonium acetate lactate solution and the one
available for plants, found out by computing, were differently influenced. Effects registered under each crop were very
significant for phosphorus and less for potassium following the diverse fertilization systems.
