Mineralization of three organic manures used as nitrogen source in a soil incubated under laboratory conditions

The rate and timing of manure application when used as nitrogen (N) fertilizer depend on N-releasing capacity (mineralization) of manures. A soil incubation study was undertaken to establish relative potential rates of mineralization of three organic manures to estimate the value of manure as N fertilizer. Surface soil samples of 0- 15 cm were collected and amended with cattle manure (CM), sheep manure (SM), and poultry manure (PM) at a rate equivalent to 200 mg N kg(-1) soil. d Soil without any amendment was used as a check (control). Nitrogen-release potential of organic manures was determined by measuring changes in total mineral N [ammonium-N + nitrate-N (NH4+-N+NO3--N)], NH4+-N, and accumulation of NO3--N periodically over 120 days. Results indicated that the control soil (without any amendment) released a maximum of 33 mg N kg(-1) soil at day 90, a fourfold increase (significant) over initial concentration, indicating that soil had substantial potential for mineralization. Soil with CM, SM, and PM released a maximum of 50, 40, and 52 mg N kg(-1) soil, respectively. Addition of organic manures (i.e., CM, SM, and PM) increased net N released by 42, 25, and 43% over the control (average). No significant differences were observed among manures. Net mineralization of organic N was observed for all manures, and the net rates varied between 0.01 and 0.74 mg N kg(-1) soil day(-1). Net N released, as percent of organic N added, was 9, 10, and 8% for CM, SM, and PM. Four phases of mineralization were observed; initial rapid release phase in 10-20 days followed by slow phase in 30-40 days, a maximum mineralization in 55-90 days, and finally a declined phase in 120 days. Accumulation of NO3--N was 13.2, 10.6, and 14.6 mg kg(-1) soil relative to 7.4 mg NO3--N kg(-1) in the control soil, indicating that manures accumulated NO3--N almost double than the control. The proportion of total mineral N to NO3- -N revealed that a total of 44-61% of mineral N is converted into NO3--N, indicating that nitrifiers were unable to completely oxidize the available NH4+ . The net rates of mineralization were highest during the initial 10-20 days, showing that application of manures 1-2 months before sowing generally practiced in the field may cause a substantial loss of mineralized N. The rates of mineralization and nitrification in the present study indicated that release of inorganic N from the organic pool of manures was very low; therefore, manures have a low N fertilizer effect in our conditions.