Fate of super(15)N and super(14)C from labelled plant material: Recovery in perennial ryegrass-clover mixtures and in pore water of the sward

摘要

The belowground C and N dynamics leading to organic and inorganic N leaching from perennial ryegrass-clover mixtures are not well understood. Based on the hypothesis that four different plant materials would degrade differently, a 16 months field experiment was conducted to determine (i) the source strength of labelled plant residues in dissolved inorganic N (DIN) and dissolved organic N (DON) in pore water from the plough layer, and (ii) the plant uptake of organically bound N. Litterbags containing super(14)C- and super(15)N-labelled ryegrass or clover roots or leaves were inserted into the sward of a ryegrass-clover mixture in early spring. The fate of the released super(14)C and super(15)N was monitored in harvested biomass, roots, soil, and pore water percolating from the plough layer. No evidence of plant uptake of dual- labelled organic compounds from the dual-labelled residues could be observed. N in pore water from the plough layer during autumn and winter had a constant content of dissolved organic N (DON) and an increasing content of dissolved inorganic N (DIN). A positive correlation between aboveground clover biomass harvested in the growth season and total-N in pore water indicated that decaying roots from the living clover could be a major source of the 10 kg N ha super(-1) being lost with pore water during autumn and winter. The presence of super(15)N in pore water shifted from the DON fraction in autumn to the DIN fraction in late winter, with strong indications that super(15)N originated from the living ryegrass. However, super(15)N in pore water originating from plant residues only constituted 1.5% of the total dissolved N from the plough layer.