An Evaluation of Vegetation Influences on Infiltration in Hawaiian Soils

Changes in vegetation communities such as removing trees, introducing grazing ungulates, and replacing native plants with invasive species have substantially altered soil infiltration processes and rates and therefore runoff, erosion, and aquifer recharge. We hypothesize that broad vegetation communities can be characterized by distributions of saturated hydraulic conductivity (Kfs). We used 300 field measurements of hydraulic conductivity from six sites on five of the Hawaiian Islands to show this effect. We analyzed the data using three broad ecosystem categories: grasses, trees and shrubs, or bare soil. The soils of each site have co-evolved with past and present ecological community without significant mechanical disturbance by agriculture or other human activities. Geometric mean values Kfs are 203 mm/h for soils hosting trees and shrubs, 50 mm/h for grasses, and 13 mm/h for bare soil. Differences are statistically significant at the 95% confidence level. These examples show that it is feasible to make maps of Kfs based on field and ecosystem data. These ecosystem trends can be used to estimate ongoing changes to runoff and recharge from climate and land use change.