Causal Relationships between Stream NO₃⁻ Concentrations at Baseflow Conditions and Key Regulating Factors in the Kinki Region of Japan, Including the Japan-sea Side Area and Encompassing a Climatic Gradient

抄録

Large nitrate (NO₃⁻) leaching from forests is undesirable. Along the Japan-sea side, stream NO₃⁻ concentrations are low level in Japan despite the high level of nitrogen (N) deposition. Here, the causal relationships between stream NO₃⁻ concentrations and key regulating factors were investigated using structural equation modeling (SEM) for the Kinki region (KIN) of Japan, which consists of seven prefectures and includes the Japan-sea side of KIN (JSK), with the objectives of identifying the specific mechanism of NO₃⁻ leaching for the JSK and comparing it with the one for the entire KIN. In the previous study, stream water was collected from 1,691 watersheds without human-created features in KIN (405 from JSK) between 1997 and 2012, and key factors regulating NO₃⁻ leaching were clarified using Random Forest regression. SEM mostly supported the previously suggested mechanisms. Deposited N was incorporated into the ecosystem, enhanced N mineralization and nitrification in the soil, and increased NO₃⁻ leaching. Heavy rain over the entire KIN and snow along JSK lowered NO₃⁻ concentration in soil water and NO₃⁻ leaching. Contrary to the expectation, precipitation during the growing season along JSK contributed to N input into the ecosystems. We provided the first statistical mechanism of NO₃⁻ leaching using SEM.