Abstract

Environmental costs from nitrogen (N) loss have been substantial in Chinese rice cropping systems. Naturally occurring fallow weeds may provide a similar ecosystem service as cover crops in scavenging N with the advantage of no inputs. In this study, an on-farm experiment and 15N-tracing micro-plot experiment were conducted to: (1) investigate the aboveground biomass and N uptake by fallow weeds; and (2) quantify the sources of N uptake by fallow weeds in the rice cropping system. Results showed that fallow weeds produced an average aboveground biomass of 245 g m−2 across a wide range of regions, with the highest values of 305 g m−2 at the regional level and 474 g m−2 at the field level. Fallow weeds had an average N uptake of 2.46 g m−2, with the highest values of 2.97 g m−2 at the regional level and 4.93 g m−2 at the field level. N uptake by fallow weeds increased 59% from N fertilization during the rice-growing season (18 g N m−2, the national average N rate of China), and about 90% of this increase was driven by an increase in soil N uptake. Our study suggests that naturally occurring fallow weeds have great potential for providing the ecosystem service of reducing potential N loss by scavenging inorganic N (primarily N mineralized from soil organic matter) in the rice cropping system.

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