Abstract
ABSTRACT We studied soil nitrogen (N) management in a farmer’s organic rice farming in Japan, where the farmer applied no external N but incorporated gramineous fallow weeds and rice residues as in situ N sources. We focused on the effect of fallow weed incorporation on N-supplying capacity of the paddy soil by tracking decomposition of 15N-labeled fallow weeds after incorporation. The result fits well to the first order kinetics with the decomposition rate of 34.3% a year. A model of soil N accumulation and mineralization based on the first order kinetics showed that soil organic N originated from the incorporated weed would become saturated at the level 1.92 folds the annual input of weed N after several consecutive years of the incorporation. Mineralizable soil N (Min-N) of the weed origin would also become saturated after several years accounting for 21.2% of the total Min-N which includes the indigenous soil N from plow layer. We suspended weed incorporation (SWI) in a sub-plot of the fields for two consecutive years to compare Min-N therein with that in another subplot in the same fields subjected to continued weed incorporation (CWI). After 2 years of the suspension treatment, Min-N in SWI decreased to a similar extent as estimated with the soil-N model based on the first-order kinetics, with which we estimated that 16.9% of annual N uptake by the rice plants originated from the weed including 5.9% from the weed incorporated in the same year and 11.0% from that in the past years. N inflow to soil organic N from the weed was very close to N outflow attaining the steady state. The rice yield could thus be sustained by maintaining the soil N-supplying capacity via the internal cycling of fallow weed N.
Highlights
Nitrogen (N) is among the major determinants of rice growth, and its greater supply from soil contributes to increased crop yield and reduced need for additional fertilization during the crop season
We focused on the effect of fallow weed incorporation on N-supplying capacity of the paddy soil by tracking decomposition of 15N-labeled fallow weeds after incorporation
A model of soil N accumulation and mineralization based on the first order kinetics showed that soil organic N originated from the incorporated weed would become saturated at the level 1.92 folds the annual input of weed N after several consecutive years of the incorporation
Summary
Nitrogen (N) is among the major determinants of rice growth, and its greater supply from soil contributes to increased crop yield and reduced need for additional fertilization during the crop season. The incorporation of leguminous plants has caused two problems, one of which is the retardation of rice growth by some substances produced during decomposition in the field, and the other is the excessive N supply for rice cultivation (Yamasaki 1959). The latter problem would make the rice plants prone to lodging and deteriorate the grain quality, because a high N content of rice grain leads to low palatability. A problem, is that the internal cycling of nitrogen from gramineous fallow weeds has not been studied in detail (Arakawa and Abe 1984), especially the contribution of fallow weed N to the total soil N-supplying capacity is little known
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