The main factor was tillage depth a

The main factor was tillage depth and the split factor was the amount of rice straw incorporation. Soil puddling tillage was performed by using a furrow plough and a rotary harrow driven by tractors with 75 and 80 horsepower, respectively, resulting in
different depths of tillage (or plough layer), i.e. deep tillage (DT, 0.25–0.30m deep) and shallow tillage (ST, 0.15–0.20m). After the plowing, the soil was puddled and smoothed by using a loaded rake. Rice stubble (50–100mm high) (C1) and total rice straw
(C2) from the previous season was incorporated into the plough layer during the first plowing. An additional treatment without organic C input (C0) was set up using a metal box (11m), which was inserted in C1 plot and there was no cropping and no fertilization. Grain yieldwas weighed to estimate the input of organic carbon (OC) after harvest of the early rice in 2011. Rice straw and root biomass were estimated from the ratios of grain yield to rice straw biomass (1.40) and grain yield to root biomass (2.49) that was measured in the same field, but not in the same season. The 50–
100mmrice stubble accounted for 12.5% of the total rice straw. The carbon content of rice straw and root was 420 and 380 g kg1, respectively. The early grain yield and the amount of OC input before the late rice in 2011 are presented in Fig.1. The amount of OC
input was C2 > C1 > C0 irrespectively of tillage depth and was ST >DT for both C1 and C2. The cropping system was double rice cropping, with the first rice transplanted around 20th April and harvested around 20th July and the second rice transplanted around 25th July and harvested around 1st November. Rice seedlings were manually
transplanted at the same density in each plot. In all the treatments studied, fertilizers were applied at rates of 180 kg-N ha1, 90 kg-Pha1 and 165 kg-K ha1. Urea and potassium chloride were applied, 50% and 30% as basal fertilizer, 25% and 30% as tillering fertilizer, and 25% and 40% as panicle fertilizer, respectively. Superphosphate was applied 100% as basal fertilizer. The fields were flooded to 50–80mm above the ground three to four days before transplanting and lasted till the establishment of seedlings, followed by one week free drainage, re-flooded till the peak
tillering stage, followed by another one week free drainage, and reflooded during the flowering stage, followed by free drainage after the filling stage. In total, there were three times of free drainage during a rice growth period.