GEOMORPHIC INFLUENCES ON SALMONID RECOLONIZATION IN A POST-FIRE ENVIRONMENT

Little Beaver Creek (LBC) is a third-order tributary within the Cache la Poudre River basin in the Colorado Front Range, USA. In 2020, the Cameron Peak Fire ignited and continued to burn through late October 2020 in the LBC watershed. Rugged terrain and beetle-killed forests in the fire perimeter made it difficult to suppress the burn and contributed to the large percentage of high severity burn areas. Before the fire, LBC had ongoing research on water quality, wood dynamics, historic beaver-influenced valley morphology, and hyporheic exchange. Although this research has continued to monitor post-fire conditions, little has been done to understand the relationship between conditions and salmonid recolonization.

LBC contains high quantities of relic beaver dams which create obstructions where wood and sediment are readily captured. These areas develop anastomosing channels (beads) which return to single thread (strings) in the interim reaches. My work will synthesize previous research with a complete census of channel adjustments, hydrologic connectivity, habitat heterogeneity, and salmonid abundance to understand the relative importance of beads versus strings on salmonid success after a major disturbance, like wildfire. I hypothesize that the presence of geomorphically heterogenous, bead reaches increases the spatial scale and distribution of habitat refugia for salmonids and increases resilience for the whole system. Preliminary results have shown these areas are providing new habitat for salmonids due to retention of fire related inputs, corroborated by higher abundance of fishes at these sites.

Not only are third-order streams important to the health and quality of downstream rivers, but trends show that large fires are to become more common in Colorado. Prolonged drought, increased impacts on forests, increased water demand, and regional warming from climate change will continue to put pressure on already sensitive river systems and salmonids. If we can show that the preservation of functioning, heterogenous reaches has a positive impact on watershed and salmonid recovery post-disturbance, then we will provide insight for management of watersheds that directly increases resilience.