Variation in seagrass meadow respiration measured by aquatic eddy covariance

Accurate daily metabolic estimates of respiration, gross primary production, and net ecosystem metabolism are necessary to assess ecosystem health and blue carbon contributions of vegetated coastal ecosystems. Using our database of 2115 hourly benthic oxygen (O-2) fluxes measured by aquatic eddy covariance, we examine how respiration for a Zostera marina seagrass meadow varies through night and day, and how this affects commonly performed metabolic estimates. Respiration decreased linearly by 29% through the night and a corresponding linear increase in daytime respiration coupled with production described by a standard photosynthesis-irradiance curve accurately predicted measured daytime O-2 fluxes. Many studies have questioned the widely used assumption in metabolic estimates that nighttime and daytime respiration are constant and equal. However, if respiration can be approximated as we found here by linear relationships, standard means for calculating daily metabolic numbers remain valid if estimates are based on full 24-h records of flux data.

Automated summary

Accurate daily metabolic estimates are essential for evaluating the health of ecosystems and blue carbon contributions of vegetated coastal ecosystems. This study examined respiration variation in a Zostera marina seagrass meadow using aquatic eddy covariance, and investigated its impact on commonly used metabolic estimates.