SULFATE REDUCTION AND SEDIMENT METABOLISM IN TOMALES BAY, CALIFORNIA

Sulfate reduction rates (SRR) in subtidal sediments of Tomales Bay, Ca lifornia, were variable by sediment type, season and depth. Higher rat es were measured in near-surface muds during summer (up to 45 nmol cm- 3 h-1), with lower rates in sandy sediments, in winter and deeper in t he sediment. Calculations of annual, average SRR throughout the upper 20 cm of muddy subtidal sediments (about 30 mmol S m-2 d-1) were much larger than previously reported net estimates of SRR derived from both benthic alkalinity flux measurements and bay wide, budget stoichiomet ry (3.5 and 2.6 mmol m-2 d-1, respectively), indicating that most redu ced sulfur in these upper, well-mixed sediments is re-oxidized. A port ion of the net alkalinity flux across the sediment surface may be deri ved from sulfate reduction in deeper sediments, estimated from sulfate depletion profiles at 1.5 mmol m-2 d-1. A small net flux of CO2 measu red in benthic chambers despite a large SRR suggests that sediment sin ks for CO2 must also exist (e.g., benthic microalgae).