Root-induced changes of soil hydraulic properties - A review

	Root-induced changes of soil hydraulic properties - A review
	Lu, Jianrong; Zhang, Qi; Werner, Adrian D.; Li, Yunliang; Jiang, Sanyuan; Tan, Zhiqiang
刊名	JOURNAL OF HYDROLOGY
	2020
卷号	589
英文摘要	Regional-scale hydrological investigations that involve vegetation change usually neglect root-induced modification (RIM) of soil hydraulic properties (SHP). However, there is evidence that root distributions may impart major control over SHP. A critical barrier to incorporating RIM of SHP in catchment hydrology models is the high uncertainty of root-effect parameterization. In response to this, the current article reviews available literature to summarize the key processes, measurement, prediction and implications of RIM of SHP. Previous studies found contrasting root effects (on SHP) depending on which processes are dominant, including root growth (or decay) and the density and diameter of roots. Based on data from laboratory experiments and field testing, RIM of SHP can be summarized as: (1) fine roots (root diameter < 1 mm) at low density tend to block soil pores, leading to reduced saturated water content (theta(s)), saturated hydraulic conductivity (K-s), and higher air entry potential (AEP); (2) fine roots at high density tend to eliminate macro-pores while increasing pore volume, leading to increased theta(s) and AEP, and reduced K-s; (3) coarse roots (root diameter > 2 mm) tend to cause small-scale compaction, particle re-orientation and macro-pore development, leading to increased theta(s) and Ks, and decreased AEP. Root growth also tends to enhance soil moisture retention hysteresis. Root decay is expected to have the opposite effects to root growth due to the creation of continuous macro-pores, which may lead to K-s increases of up to two orders-of-magnitude. In general, the enhancement of Ks due to plant roots can be expected in fine-textured soils, whereas plants roots are known to reduce K-s and theta(s) and increase soil water retention capacity in coarse-textured soils. An important aspect of RIM of SHP is the temporal variability that arises from seasonality and/or agricultural cycles. While neglecting RIM of SHP in hydrologic simulation may lead to high uncertainties, there remain significant knowledge gaps that impede the development of quantitative guidance on RIM of SHP at the catchment scale, at which variability in environmental conditions and human activities precludes the application of simple root-effect equations.
内容类型	期刊论文
源URL	[http://159.226.73.51/handle/332005/20079]
专题	中国科学院南京地理与湖泊研究所
推荐引用方式 GB/T 7714	Lu, Jianrong,Zhang, Qi,Werner, Adrian D.,et al. Root-induced changes of soil hydraulic properties - A review[J]. JOURNAL OF HYDROLOGY,2020,589.
APA	Lu, Jianrong,Zhang, Qi,Werner, Adrian D.,Li, Yunliang,Jiang, Sanyuan,&Tan, Zhiqiang.(2020).Root-induced changes of soil hydraulic properties - A review.JOURNAL OF HYDROLOGY,589.
MLA	Lu, Jianrong,et al."Root-induced changes of soil hydraulic properties - A review".JOURNAL OF HYDROLOGY 589(2020).