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Influence of Paulownia fortunei (Seem.) Hemsl. roots on preferential flow in the red soil hilly region

Authors :
Zhuo Tian
Shuaipu Zhang
Qinxue Xu
Mingfeng Bi
Jianhua He
Source :
Soil and Water Research, Vol 18, Iss 2, Pp 89-101 (2023)
Publication Year :
2023
Publisher :
Czech Academy of Agricultural Sciences, 2023.

Abstract

Preferential water flow in soil significantly affects runoff, water infiltration, storage, groundwater environment, and soil stability. Plant roots positively affect preferential flow development. This study explored the relationship between the root system of Paulownia fortunei (Seem.) Hemsl. and preferential flow using dyeing tracer test and image analysis techniques. A typical red soil hilly region on the outskirts of Guilin City (Guangxi, China) was selected as the study area. A Bright Blue solution was used to visualize the pathways followed by the infiltrated water in simulated rainfall experiments, and Image Analyzer of Plants was used to analyze the root length, surface area, and volume. The results revealed significant differences in the root surface area density of coarse roots (RSAD-CR) and length index of preferential flow (LI) among soil profiles at various distances from the tree trunk. The root volume density of coarse (RVD-CR) and total roots (RVD-TR), the root length density of coarse roots (RLD-CR), and RSAD-CR were significantly correlated with the characteristics of dyeing morphology. Conversely, the root length density and root surface area density of fine (RLD-FR and RSAD-FR, respectively) and total roots (RLD-TR and RSAD-TR, respectively), and the root volume density of fine roots (RVD-FR) were not significantly correlated with the characteristic parameters of dyeing morphology. The root systems of P. fortunei were critical for enhancing soil water infiltration and developing preferential flow in red soil hilly regions. Coarse roots had a greater impact on the development of preferential flow than fine roots, and root volume had a greater influence on preferential flow development than root length and root surface area. This study contributes to a better understanding of the hydrological cycle at the plant-soil interface in red soil hilly regions.

Details

Language :
English
ISSN :
18015395 and 18059384
Volume :
18
Issue :
2
Database :
Directory of Open Access Journals
Journal :
Soil and Water Research
Publication Type :
Academic Journal
Accession number :
edsdoj.8ade69f5b6044149b188c08eaa08d961
Document Type :
article
Full Text :
https://doi.org/10.17221/140/2022-SWR