Managing and living with geohazards is especially challenging in mountain landscapes and requires an understanding of catchment-scale sediment dynamics and internal system functioning. While sediment budgeting is a valuable framework, challenges remain including partitioning sediment yield by source and grain size and addressing scale issues.
This study advances our understanding of bed material dynamics in glacierized mountain catchments by applying a range of complementary techniques to measure sediment transfers in the Fitzsimmons Creek watershed. First, we measured the historical bed material yield using field surveys and historical air photo analysis, revealing an average specific sediment yield of 210 Mg km−2 yr−1, that varied by a factor of 17 over the 76-year record. Hydro-meteorological and historical analyses suggest that gravel extraction had the largest impact over the past three decades, while an extreme landslide and flood event produced the highest recorded sediment yield. Second, we constructed a detailed sediment budget along the river system using high-resolution, multi-temporal lidar and geomorphic mapping data. Sediment source partitioning indicates that landslide, active channel, and floodplain sources each contributed about one-third of the total sediment supply. Net degradation occurred along the valley bottom upstream of the fan-delta, resulting in steadily increasing downstream sediment yield. This trend is punctuated by chronic landsliding near the outlet, driven by postglacial incision through glaciogenic sediments at a hanging valley step. Contemporary glacial and proglacial sources were not measured directly but surprisingly contributed minimally. These findings provide insight into the sediment dynamics of glacierized mountain catchments and their potential controls.
Key points include:
- The 76-year bed material yield record varied by up to a factor of 17, primarily in response to an extreme event and gravel extraction
- Sediment source partitioning suggests that landslide, active channel, and floodplain sources each contribute one third of the total yield
- Glacial landscape configuration was important, while contemporary glacial and proglacial sources supplied little sediment
This paper was co-authored by Mike Turley, Marwan Hassan, Olav Lian, and NHC”s Andre Zimmermann. Click here to read the full publication.