Linking connectivity to spatiotemporal variability in sediment dynamics and yield in glacierized, mountainous watersheds

An understanding of catchment-scale processes and sediment dynamics is crucial for the informed and sustainable development of mountain communities. Given the steep topography, glacier retreat, and intensifying weather patterns due to climate change, many mountain towns face heightened vulnerability to geohazards. Studies show that as glaciers retreat, paraglacial processes typically lead to elevated sediment yields, exacerbating existing hazards. However, postglacial landscapes are dynamic, complex, and heterogeneous systems shaped by a variety of processes, and no two systems are the same. The efficiency in which glacial sediments are reworked and transported to and through river systems (connectivity) varies over time and space. In this study, we investigate the link between landscape history, sediment (dis)connectivity, and postglacial sediment dynamics in a glacierized, mountainous catchment in Southern British Columbia. We begin by mapping the geomorphology, identifying sediment sources, storage landforms and transfer processes. Subsequently we employ morphometric analysis and landform mapping paired with age estimates, to quantify sediment yield. These results are compared to historical channel changes and estimates of structural connectivity to better understand the variation in postglacial sediment dynamics. By integrating diverse datasets and methodologies, we are able to estimate the variability in sediment yield and changing relative contributions of sediment sources at a range of spatial and temporal scales. Preliminary results of this work shed light on and underscore the need for additional studies that investigate long-term (e.g., postglacial) changes in sediment connectivity. Such research can inform decision-making in landscapes that are rapidly changing and experiencing deglaciation.