Soil organic matter increases gener

Soil organic matter increases generally soil structural stability irrespective of the origin of the stresses (KayandVandenBygaart,2002). Kirchhof et al. (2000) first measured the sinkage resistance that simulated themechanical resistance to manual transplantation of rice crop and found that it decreased with increasing intensity. However, the effects of SOC concentration on sinkage resistance are rarely studied in the field. After puddling, the muddy suspension over the plough pan becomes consolidated, with micro-cracks formed due to repeated cycles of wetting and drying during the rice growth period (Yoshida and Adachi, 2001; Timsina and Connor, 2001). Soil
shrinkage and swelling due to wetting and drying cycles is a key process controlling the formation of soil structure in paddy field. Lennartz et al. (2009) and Zhang et al. (2013) found a larger shrinkage capacity in old paddy soils than in young paddy soils,
which were attributed the difference to a lower bulk density (Lennartz et al., 2009) and a greater SOC concentration and less intensive drying (Zhang et al., 2013) in the old paddy field. Denget al. (2014) reported that soil shrinkage capacity of a paddy soil
was affected by SOC concentration, puddling intensity and predrying intensity. This work suggests that soil puddlability impacts on shrinkage capacity (Deng et al., 2014). The change in soil structure can cause rapid changes in soil strength and hydraulic
properties (Ringrose-Voase et al., 2000; Yoshida and Adachi, 2001; Kukal and Aggarwal, 2003a; Mohanty et al., 2004; Mousavi et al.,2009) and then impact rice and post-rice crop yields (Kirchhof et al., 2000; Kukal and Aggarwal, 2003b; Mohanty et al., 2004;
Lennartz et al., 2009). However, it is unclear how puddlability affected by SOC concentration will further influence soil mechanical and hydraulic properties and then root growth during the rice growth period. Rice straw is the main source of organic C inputs in the paddy fields and is often attributed to the increase in SOC concentration
after returning to paddy fields (Pan et al., 2004; Ji et al., 2012; Liu et al., 2012). Rice straw is often incorporated to different soil depth by using different powered machines (Liu et al., 2012), resulting in a larger amount of rice straw incorporated to the shallow plough layer. Using a three year experiments, the general objective of this
study was to examine the effects of rice straw incorporation and tillage depth on soil puddlability, soil physical properties during the rice growth period and then root growth traits. The specific objective was to determine how soil mechanical properties from puddling tillage, through the rice growth period, to harvest are correlated with SOC concentration. It is hypothesized that SOC concentration will positively influence soil mechanical properties, but the correlation will be affected by wetting and drying cycles during the rice growth period.