Characterizing preferential flow in cracked paddy soils using computed tomography and breakthrough curve

•Soil cracks significantly changed the macropore distribution in size and space.•The breakthrough curves showed the existence of preferential flow in paddy soils.•Soil cracks did not enhance preferential flow as they did not reach the plow pan.•The relationships between soil macropore features and B...

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Bibliographic Details
Published in:Soil & tillage research 2015-03, Vol.146, p.53-65
Main Authors: Zhang, Z.B., Peng, X., Zhou, H., Lin, H., Sun, H.
Format: Article
Language:English
Subjects:
Breakthrough curve
Computed tomography
Macropore characteristics
Oryza sativa
Paddy soil cracks
Preferential flow
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Summary:•Soil cracks significantly changed the macropore distribution in size and space.•The breakthrough curves showed the existence of preferential flow in paddy soils.•Soil cracks did not enhance preferential flow as they did not reach the plow pan.•The relationships between soil macropore features and BTC parameters were poor.•The difference in preferential flow between the soils was removed by the plow pan. Soil cracks generated in paddy fields may change soil structure and provide pathways for preferential flow. However, the quantitative relationship between soil cracks and preferential flow remain unclear in paddy soils. The objectives of this study were to (1) reveal the effect of soil cracking on soil structure and preferential flow, (2) find a quantitative relationship between characteristics of soil structure and preferential flow in two paddy fields. Two paddy fields, one cultivated for 20 years (YPF) and the other cultivated for more than 100 years (OPF), were subjected to either alternate flooding and drying (AFD) or continuous flooding (CF) (as a control) during rice growing season. Undisturbed soil columns (10cm in diameter and 20cm in height) were sampled in the four plots. Macropores (including cracks) were quantified using computed tomography (CT), and preferential flow was assessed by breakthrough curve (BTC). The results showed that the presence of soil cracks under the AFD increased average macropore length but decreased the number of macropores significantly (P0.05). Both the shape of BTCs and fitting parameters demonstrated that soil cracks (5.31–11.9cm depth) did not increase preferential flow because they did not perforate through the dense plow pan. Soil columns in the CF plots displayed a bit more preferential flow due to a deeper macropore distribution as compared with the AFD plots. While macropore features were different at the two paddy s
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2014.05.016