Connections to Tidal Marsh and Restored Salt Ponds Drive Seasonal and Spatial Variability in Ecosystem Metabolic Rates in Lower South San Francisco Bay

Abstract: We characterized five years of seasonal metabolic patterns in two tidal sloughs in Lower South San Francisco Bay, one surrounded by a broad tidal marsh and the other connected to restored salt ponds (ponds). Despite comparable seasonal dissolved oxygen (DO) patterns, the two sloughs exhibited markedly different seasonal metabolic rates. The in-depth analysis of these small intertidal systems reveals the complexity of processes at work in the fringing habitats of larger estuaries. In the marsh-connected slough,… Show more

“…The outflow of low-DO water further drives the swing in the creeks and channels. The drop in DO concentration during low tide is consistent with observations in other systems such as Jug Bay in Maryland (Swarth & Peters, 1993), Elkhorn Slough (Nidzieko et al, 2014), and Lower South San Francisco Bay (Roberts et al, 2022) in California.…”

The Roles of Tidal Marshes in the Estuarine Biochemical Processes: A Numerical Modeling Study

“…The outflow of low-DO water further drives the swing in the creeks and channels. The drop in DO concentration during low tide is consistent with observations in other systems such as Jug Bay in Maryland (Swarth & Peters, 1993), Elkhorn Slough (Nidzieko et al, 2014), and Lower South San Francisco Bay (Roberts et al, 2022) in California.…”

The Roles of Tidal Marshes in the Estuarine Biochemical Processes: A Numerical Modeling Study

Ecosystem Metabolism: What is it, how do we Measure it, and What it Tells us About Coastal Ecosystems