Leaching potential and forms of phosphorus in deep row applied biosolids underlying hybrid poplar

Abstract

Biosolids deep row incorporation (DRI) offers an alternative recycling approach for bioenergy crop production, but phosphorus additions in excess of the vegetation requirements can potentially impair water quality. The effects of DRI of anaerobically digested (AD) and lime-stabilized (LS) biosolids at four rates (213, 426 Mg ha −1 for AD and 328, 656 Mg ha −1 for LS) and a single rate of conventional P fertilizer on leaching of PO 4–P, and TKP were investigated in a hybrid poplar plantation in a coastal plain heavy mineral mine reclamation site. The effects of AD and LS biosolids aging on the transformations and losses of P applied with the biosolids were also studied. Zero tension lysimeters were installed at the site to collect leachate. Samples were collected at least monthly for 30 months between July 2006 and December 2008. We also analyzed biosolids P (labile P, Al-, Fe-bound-P, Ca-bound-P, total P, Mehlich 1 P) fractions. The loss of P was determined and P binding constituents were described via regression analysis. Orthophosphate and TKP from the DRI biosolids leached in negligible amounts, and were similar to leaching from conventional P fertilization. Most of the P was Al- and Fe-bound in the AD biosolids and Ca-bound in the LS biosolids. Labile P decreased with decrease in organic C, which indicated that P leaching potential from the DRI biosolids decreased with aging. Our results indicated that P mobility from biosolids of the type used should not pose a water quality risk.