Effects of vegetation type on water permeability and water retention capacity of mountain soils: comparison of the adjacent forest and grassland on the somma of Mt. Aso

azuho MATSUMOTO, Masaru WATANABE, Sachio ITO, Ryo TAKANO, Noriyo TAKADA, Shinji YAMAMOTO and Koji HARASHINA

Abstract

The differences in the water permeability and water retention capacity were examined between the adjacent coniferous forest (Chamaecyparis obtusa) and grassland (Miscanthus sinensis) soils (Andosol) on the somma of Mt. Aso, Japan. The saturated hydraulic conductivity of forest soils (27.6 mm h-1) was 4.4―fold higher than that of grassland soils (6.3mm h-1). Although total porosity did not differ between the vegetation soil types (approximately 80 %), non‐capillary and coarse capillary porosities in the forest soils (7.2 % and 13.3 %, respectively) were significantly larger than those in the grassland soils (4.5 % and 9.2 %, respectively). These results suggest that forests aid disaster prevention and water source protection by improving the water permeability and water retention capacity of soil in this area.

Key words

hydraulic conductivity, water retention capacity, Andosol, Mt. Aso