| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 4357141 | Fungal Biology | 2012 | 7 Pages |
Soil water repellency (SWR) has a drastic impact on soil quality resulting in reduced infiltration, increased runoff, increased leaching, reduced plant growth, and increased soil erosion. One of the causes of SWR is hydrophobic fungal structures and exudates that change the soil–water relationship. The objective of this study was to determine whether SWR and infiltration could be manipulated through inoculation with fungi. The effect of fungi on SWR was investigated through inoculation of three fungal strains (hydrophilic – Fusarium proliferatum, chrono-amphiphilic – Trichoderma harzianum, and hydrophobic – Alternaria sp.) on a water repellent soil (WR-soil) and a wettable soil (W-soil). The change in SWR and infiltration was assessed by the water repellency index and cumulative infiltration respectively. F. proliferatum decreased the SWR on WR-soil and slightly increased SWR in W-soil, while Alternaria sp. increased SWR in both the W-soil and the WR-soil. Conversely T. harzianum increased the SWR in the W-soil and decreased the SWR in the WR-soil. All strains showed a decrease in infiltration in W-soil, while only the F. proliferatum and T. harzianum strain showed improvement in infiltration in the WR-soil. The ability of fungi to alter the SWR and enmesh soil particles results in changes to the infiltration dynamics in soil.
► SWR and infiltration changed by fungi with varying wetting properties. ► All strains increased SWR and decreased infiltration in a wettable soil. ► Trichoderma harzianum/Fusarium proliferatum increased infiltration (decrease SWR) in a repellent soil. ► Alternaria sp. decreased infiltration (increase SWR) in a repellent soil. ► The change in SWR in soil is related to the wetting properties of inoculated fungi.
