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Title: NUTRIENT AVAILABILITY AND CHANGES IN MICROBIAL BIOMASS OF ORGANIC AMENDMENTS DURING FIELD INCUBATION

Author
item HE, Z - UNIV. OF FLA. FT PIERCE
item Alva, Ashok
item CALVERT, D - UNIV. OF FLA. FT PIERCE
item LI, Y - UNIV. OF FLA. HOMESTEAD
item STOFFELLA, P - UNIV. OF FLA. FT PIERCE
item BANKS, D - UNIV. OF FLA. FT PIERCE

Submitted to: Compost Science and Utilization
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 1/1/2000
Publication Date: 8/1/2000
Citation: HE, Z.L., ALVA, A.K., CALVERT, D.V., LI, Y.C., STOFFELLA, P.J., BANKS, D.J. NUTRIENT AVAILABILITY AND CHANGES IN MICROBIAL BIOMASS OF ORGANIC AMENDMENTS DURING FIELD INCUBATION. COMPOST SCIENCE AND UTILIZATION, 8:293-302. 2000.

Interpretive Summary: Field evaluation of release and availability of nutrients and potentially toxic elements from composts is necessary to estimate their nutrient contribution to crops. A biosolid (BSD), a yard waste (YW), and a West Palm Beach cocompost (WPCC) were incubated under field conditions in a citrus grove on an Oldsmar fine sandy soil (sandy, siliceous, hyperthermic Alfic Arenic Haplaquods). The incubation columns and the soil underneath each column were sampled on 0, 240, and 360 days after incubation and analyzed for KC1 extractable NH4-N, NO3-N, 0.5 M NaHCO3 extractable P, and Mehlich 3 extractable K, Fe, Mn, Zn, Cu, and microbial biomass. The total concentration and extractable portion of each element greatly varied among the three organic amendments. Approximately 34-73 percent of K, 1-14 percent of Fe, 7-68 percent of Zn, 7-47 percent of Mn, and 2-34 percent of Cu in the three organic amendments were extractable by them Mehlich 3 reagent at the beginning of incubation. Incubation of these amendments under field conditions for a period of 1 yr increased the availability of N, P, K, and several micronutrients including Fe, Cu, Zn,and Mn. Microbial biomass-C and -P were markedly increased during the field incubation. However, the BSD, containing high total C and other nutrients, produced less microbial biomass-C than the two composts. The rapid increase in concentrations of available metals including Cu, Zn,and Mn in the BSD during the incubations may have adverse effects on microbial biomass growth and proliferation in the compost. A combination of BSD and YW improved conditions for the microbial biomass growth as evidenced by the increase in microbial biomass C and P of this combination during the course of incubation.

Technical Abstract: Field evaluation of release and availability of nutrients and potentially toxic elements from composts is necessary to estimate their nutrient contribution to crops, potential effect on soil and environmental quality. A biosolids (BSD), a yard waste (YW), and a West Palm Beach cocompost (WPCC) were incubated under field conditions in a citrus grove on an Oldsmar fine sandy soil (sandy, siliceous, hyperthermic Alfic Arenic Haplaquods). The incubation columns and the soil underneath each column were sampled on 0, 240, and 360 days after incubation and analyzed for Kcl extractable HN4-N and NO3-N, 0l5 M NaHCO3 extractable P, and Mehlich 3 extractable K, Fe, Mn, Zn, Cu, and microbial biomass. The total concentration and extractable proportion of each element greatly varied among the three organic amendments. Approximately 34-73% of K, 1-14% of Fe, 7-68% of Zn, 7-47% of Mn, and 2-34% of Cu in the three organic amendments were extractable by the Mehlich 3 reagent at the beginning of incubation. Incubation of these amendments under field conditions for a period of 1 year increased the availability of N, P, K, and several micronutrients including Fe, Cu, Zn, and Mn. Microbial biomass-C and -P were markedly increased during the field incubation. However, the BSD, containing high total C and other nutrients, produced less microbial biomass-C than the two composts. The rapid increase in concentrations of available metals including Cu, Zn, and Mn in the BSD during the incubation may have adverse effects on microbial biomass growth and proliferation in this compost. A combination of BSD and YW improved conditions for the microbial biomass growth as evidenced by the increase in microbial biomass C and P of this combination during the course of incubation.