Composted biosolids enhance fertility of a sandy loam soil under dairy pasture |
| |
| Authors: | Email author" target="_blank">T?W?SpeirEmail author J?Horswell A?P?van?Schaik R?G?McLaren G?Fietje |
| |
| Institution: | (1) Institute of Environmental Science and Research Ltd, P.O. Box 50348, Porirua, New Zealand;(2) Soil, Plant and Ecological Sciences Division, Lincoln University, P.O. Box 84, Canterbury, New Zealand;(3) Living Earth Limited, P.O. Box 12698, Penrose, Auckland, New Zealand |
| |
| Abstract: | Field and pot trials were established to assess potential benefits and adverse effects of amending a sandy loam soil, under grazed ryegrass-clover pasture, with compost manufactured from wastewater biosolids, wood waste and green waste. Compost was applied to the field trial site annually for 4 years and the pot trials used soil from the field trial site each year after compost application. The pot trials demonstrated that yield of silver beet (Beta vulgaris L.) increased with increasing compost application rate and that plant metal uptake was (except for Zn) unrelated or inversely related to soil metal concentrations. In samples from the field trial, soil total C, N, P and Olsen P increased markedly with increasing compost application rate. Cation exchange capacity, exchangeable cations and total-extractable and EDTA-extractable metals (Cd, Cr, Cu, Ni, Pb and Zn) were also elevated, total Cu to the limit allowable in biosolids-amended soil. Soil basal respiration, microbial biomass C and anaerobically mineralisable N were significantly increased in the amended plots. Anaerobically mineralisable N was highly correlated with respiration (r =0.98, n =24) and only weakly related to microbial biomass C, probably indicating that a high proportion of the N mineralised was from the compost organic matter. Sulphatase and phosphatase activities increased, but not significantly, and there were no measurable effects on rhizobial numbers or on sensitive microbial biosensors (Rhizotox C and lux-marked Escherichia coli). Biosolids compost application enhanced soil fertility, productivity and microbial biomass and activity, with no apparent adverse effects attributable to heavy metals. |
| |
| Keywords: | Biosolids compost Heavy metals Enzyme activities Microbial biomass Lux biosensors |
| 本文献已被 SpringerLink 等数据库收录! |
|
