Sedimentation Rates in Fairfield Osborn Preserve Marsh
Project Description: A marsh at the Fairfield Osborn Preserve has been gradually filling with sediment. We quantified rates of sedimentation and successional infilling by dating cores taken from the marsh. In 3 additional locations, we characterized soils in the upper watershed. These techiques are helpful for understanding erosion processes in the headwaters of Copeland Creek.
Duration: Fall 2012
Type of Educational Activities: service-learning
Project Faculty: Michelle Goman
Partners: Sonoma County Water Agency, SSU Field Stations & Nature Preserves
Participating Courses: Lab Methods in Physical Geography (GEOG 317) - 16 students
- Marsh: In image on right, polygon shows location at the Osborn Preserve. Lichau Road is at top right. Osborn Preserve faclities at at top, just right of center.
- Soil Characterization: 8 sites near the Osborn Preserve facilities (4 in grassland and 4 in mixed woodland)
- Marsh: Two cores were collected from near the center of the Marsh. A shovel was used to get through the surface soil and we used Livingstone and Russian Peat corers. We were unable to core all the way to the bottom but core depth provides a starting point for measuring sedimentation rates. Future sampling efforts will focus on obtaining deeper and multiple cores.
- Soil Characterization: bucket augers were used to sample grassland and mixed woodland sites
Soils were analyzed for color (Munsell Color System), texture, loss on ignition (LOI), grain size, pH, magnetics, charcoal and macrofossils. Marsh soils were additionally analyzed for, 210Pb and 137Cs. Lead 210 analyses were conducted to date the periods of erosion. Pb 210 is suitable for looking at aging sediments from the last 125+ years. Multiple samples establish a decay curve for the Pb. Erosive pulses were compared to weather data to identify rain events that linked to high rates of sedimentation.
Field surveys were conducted under the guidance of Michelle Goman. Laboratory analyses were made by a certified laboratory.
Data: (see data disclaimer)
- See report appendix.
Reports: Class report on soils and sedimentation rates. Excerpt: Testing for 210Pb dating results were complicated as the lead was too diffuse within the sediment to produce a well-developed curve. This is likely because of very high rates of sedimentation (Figure 27). Testing for 137Cs, however, proved more successful, and the lab at Rensselaer was able to identify a spike for the 1963 mark of peak nuclear activity, and thus calibrate depths for age. This resulted in their estimating a sedimentation rate of 0.3 cm per year for this site from 1950 to present.
- Characterization of sedimentation rates at Fairfield Osborn Preserve. Gavin Beach, Lareina Earls, Sarah Hebern, Kirstie Watkins, and Collin J. Yballa. 2013. (Advisor: Michelle Goman, Geography 317). Beach et al. 2013 (pdf, 4 Mb); 2013 WATERS abstracts
- Getting down and dirty. Sarah Hebern, Kirstie Watkins, Lareina Earls, Collin Yballa, and Gavin Beach. 2013. (Advisor: Michelle Goman, Geography 317). Watkins et al. 2013 (pdf, 91 Mb); 2013 WATERS abstracts
Potter, C. and S. Hiatt. 2009. Modeling river flows and sediment dynamics for the Laguna de Santa Rosa watershed in Northern California. Journal of Soil and Water Conservation. 64 (6): 383-393.