High metabolism and periodic hypoxia associated with drifting macrophyte detritus in the shallow subtidal Baltic Sea

Karl M. Attard*, Anna Lyssenko, Iván F. Rodil

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Abstract

Macrophytes form highly productive habitats that export a substantial proportion of their primary production as particulate organic matter. As the detritus drifts with currents and accumulates in seafloor depressions, it constitutes organic enrichment and can deteriorate O2 conditions on the seafloor. In this study, we investigate the O2 dynamics and macrobenthic biodiversity associated with a shallow g2300gm2 macrophyte detritus field in the northern Baltic Sea. The detritus, primarily Fucus vesiculosus fragments, had a biomass of g1700ggdryweightm-2, approximately 1.5 times larger than nearby intact F. vesiculosus canopies. A vertical array of O2 sensors placed within the detritus documented that hypoxia ([O2] <g63gμmolL-1) occurred for 23g% of the time and terminated at the onset of wave-driven hydrodynamic mixing. Measurements in five other habitats nearby, spanning bare sediments, seagrass, and macroalgae, indicate that hypoxic conditions were unique to detritus canopies. Fast-response O2 sensors placed above the detritus documented pulses of hypoxic waters originating from within the canopy. These pulses triggered a rapid short-Term (gmin) deterioration of O2 conditions within the water column. Eddy covariance measurements of O2 fluxes indicated high metabolic rates, with daily photosynthetic production offsetting up to 81g% of the respiratory demands of the detritus canopy, prolonging its persistence within the coastal zone. The detritus site had a low abundance of crustaceans, bivalves, and polychaetes when compared to other habitats nearby, likely because their low O2 tolerance thresholds were often exceeded.

OriginalsprogEngelsk
TidsskriftBiogeosciences
Vol/bind20
Udgave nummer9
Sider (fra-til)1713-1724
Antal sider12
ISSN1726-4170
DOI
StatusUdgivet - 1. maj 2023

Bibliografisk note

Funding Information:
This research has been supported by the Academy of Finland (grant no. 294853), the Danmarks Frie Forskningsfond (grant no. 7014-00078), and the Academy of Finland (grant no. 283417).

Funding Information:
Colleagues at the Tvärminne Zoological Station provided valuable assistance with the fieldwork and logistics. Anni Glud at the University of Southern Denmark constructed the oxygen microsensors used in this study. Elina Virtanen at the Finnish Environmental Institute (SYKE) provided spatial data used to estimate the extent of detritus canopies. The Walter and Andrée de Nottbeck Foundation supported this work through a postdoctoral fellowship to KMA and through a Masters fellowship to Anna Lyssenko. Further funding for this project was provided by research grants from the Academy of Finland (project ID 294853), the University of Helsinki and Stockholm University strategic fund for collaborative research (the Baltic Bridge initiative), and Denmark's Independent Research Fund (project ID 7014-00078). This study has utilized research infrastructure facilities provided by FINMARI (Finnish Marine Research Infrastructure network, The Academy of Finland, project ID 283417).

Publisher Copyright:
© 2023 The Author(s).

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