Enhancing marsh elevation using sediment augmentation: A case study from southern California, USA

Evyan Borgnis Sloane, M.S., Karen Thorne, Ph.D., Christine Whitcraft, Ph.D., and Victoria Touchstone, 2021. “Enhancing marsh elevation using sediment augmentation: A case study from southern California, USA”, Shore & Beach, 89(4), 21-32.

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http://doi.org/10.34237/1008943

Enhancing marsh elevation using sediment augmentation: A case study from southern California, USA
Evyan Borgnis Sloane, M.S.,(1) Karen Thorne, Ph.D.,(2)
Christine Whitcraft, Ph.D.,(3) and Victoria Touchstone(4)
1) California State Coastal Conservancy, 1515 Clay Street, 10th Floor, Oakland, CA 94612; evyan.sloane@scc.ca.gov;
2) U.S. Geological Survey, Western Ecological Research Center, One Shields Avenue, Davis, CA 95616;
3) California State University at Long Beach, 1250 Bellflower Blvd., MS 9502, Long Beach, CA 90840-9502;
4) U.S. Fish and Wildlife Service, 1080 Gunpowder Point Drive, Chula Vista, CA 91910.

Tidal marshes are an important component of estuaries that provide habitat for fish and wildlife, protection from flooding, recreation opportunities, and can improve water quality. Critical to maintaining these functions is vertical accretion, a key mechanism by which tidal marshes build elevation relative to local sea level. The beneficial use of dredged material to build marsh elevations in response to accelerating sea level rise has gained attention as a management action to prevent habitat loss over the coming decades. In January 2016, a sediment augmentation project using local dredged material was undertaken at Seal Beach National Wildlife Refuge in Anaheim Bay, California, USA, to benefit tidal marsh habitat and the listed species it supports. The application process added 12,900 cubic meters of sediment with an initial, average 22-cm gain in elevation over a 3.2-hectare site. Due to sediment characteristics and higher than anticipated elevations in some areas, vegetation colonization did not occur at the expected rate; therefore, adaptive management measures were undertaken to improve hydrology of the site and facilitate vegetation colonization. More case studies that test and monitor sea level adaptation actions are needed to assist in the planning and implementation of climate-resilient projects to prevent coastal habitat loss over the coming century.