CACL2 EXTRACTABLE N FRACTIONS AND K2SO4 EXTRACTABLE N RELEASED ON FUMIGATION AS AFFECTED BY GREEN MANURE MINERALIZATION AND SOIL TEXTURE

A soil incubation experiment was carried out over 70 days (aerobic, 15 degrees C) using a clay and a sandy soil produced by amendment with b entonite and quartz sand respectively. Fresh endive leaves were added as green manure (109 mg N kg(-1) soil). Controls without green manure were also included. Samples were taken periodically in order to determ ine CaCl2 extractable N fractions and N in microbial biomass by a fumi gation-extraction method. With the green manured soils CaCl2 extractab le organic N was maximal at day 2 of incubation followed by an exponen tial decrease until constant levels were reached. At day 2 of incubati on the apparent recovery rate of applied green manure as CaCl2 extract able organic N was 44% (clay) and 46% (sandy soil). Without green manu re the organic N extracted was only 0.3% (clay) and 0.5% (sandy soil) related to the total soil organic N. NH4+ showed an intermediate incre ase (maximum at day 14) with green manured soils and was always neglig ible with controls. From day 14 onwards the NO3- accumulation was more pronounced with green manured soils compared with controls. The appar ent extent of green manure mineralization at the end of incubation was 47.2 and 43.3% of the applied N in the clay and the sandy soil respec tively. To summarize, bentonite amendment had no substantial effect on the rate and extent of N mineralization nor on the amount of CaCl2 ex tractable organic N. The extractability of N released on fumigation ap pears to be restricted by bentonite. Green manure increased the amount of extractable N released on fumigation with both soils. It is conclu ded that CaCl2 extractable organic N largely consists of organic subst ances which, in contrast to some constituents released on fumigation a re only weakly adsorbed to clay surfaces and therefore are highly acce ssible to mineralization.