Kyongho Son

TL;DR: In this article, a long-term water balance model for the Susannah Brook catchment in Western Australia has been pursued using the downward approach, which is a systematic approach to determine the model with the minimum level of complexity, with parameter values that, in theory, are derivable from existing physiographic data relating to the catchment.

TL;DR: It is shown that cold and snow covered conditions have generally decreased over the past 100 years and this trends suggest positive outcomes for tree health as related to reduced fine root mortality and nutrient loss associated with winter frost but negative outcomes asrelated to the northward advancement and proliferation of forest insect pests.

TL;DR: In this paper, the current status of watershed science for both water quantity and quality and identifies critical gaps in our current knowledge and modeling capability in addressing the emergent needs in predicting watershed hydrologic and biogeochemical responses under natural and anthropogenic perturbations.

TL;DR: In this paper, a coupled agent-based water resource model (ABM) was used to investigate how the adaptive decisions of farmers can affect water resource management under both climate change impacts and fully utilized Indian water right conditions.

TL;DR: In this paper, a distributed process-based ecohydrological model (RHESSys) was used to explore controls and predict streamflow DOC loads in Biscuit Brook. But, the authors did not consider the impact of vegetation phenology and the connectivity of deep groundwater drainage through riparian zones on stream flow and DOC loads.