Persistent hot spots of CO2 and CH4 in coastal nearshore environments

Nearshore environments are typically supersaturated with the potent greenhouse gases methane and carbon dioxide, due to intense remineralization of the elevated supply of organic carbon in these systems. These environments are characterized by overlapping biogeochemical gradients and heterogeneous morphology, and the overall spatial variability in nearshore greenhouse gas concentrations remains unclear. We measured surface water partial pressures of carbon dioxide and methane synoptically with water quality parameters in the coastal Baltic Sea, covering two ice-free seasons. The high-frequency flow-through data revealed sites with recurring very high partial pressures of carbon dioxide and methane (i.e., hot spots) scattered around the 50 km x 40 km study area, exceeding overall partial pressure averages by 455 mu atm (CH4) and 2396 mu atm (CO2). High partial pressures were linked with elevated inputs of allochthonous and autochthonous organic matter, underpinning the major role of organic enrichment of coastal environments in global carbon cycling.

Automated summary

Nearshore environments are often supersaturated with potent greenhouse gases methane and carbon dioxide, due to intense remineralization of organic carbon supply. In the coastal Baltic Sea, we measured the partial pressures of these gases in surface water and identified hot spots with high concentrations, which were linked to organic matter inputs.