Temperature decrease along hyporheic pathlines in a large river riparian zone

Hyporheic zones contribute to lower temperatures in many rivers, creating a longitudinal heterogeneous array of thermal refuges. In this study, we had the unique opportunity to show temperature reduction along hyporheic zone pathlines in a large river system that contribute to the maintenance of refuges through discharge into off-channel habitats. Temperature was monitored in a dense network of wells that were located along pathlines in small islands, determined from a calibrated groundwater flow model. Temperature along one 600-m pathline was reduced about 7 degrees C. Among three islands that were adjacent to the river, the northern two showed exponential decrease in temperature with distance, with fitted thermal Peclet numbers of 2.7 and 6.5, whereas the southern island showed no significant decrease. We suggest that this is due to the higher infiltration rate in the wet season in this larger, more mature island, which suppresses hyporheic flow in the wet season. Stable isotope sampling showed that values of delta H-2 were higher in areas where we observed lower temperatures. The overall relationship of delta H-2 versus temperature was significant with a slope of -0.329. This implies that lower temperatures are associated with water that has had contact with deeper groundwater or that lower temperatures have been affected by local rainfall infiltration or water that has entered the hyporheic zone in winter. These findings are important because they allow estimation of the temperature benefit that may be achieved in similar geomorphic settings, providing implications for riparian restoration.