Abstract
Whereas the occurrence of oxic methane (CH₄) production (OMP) in the oxygenated water column of lakes is widely accepted, its mechanisms, isotopic signature, and contribution to total CH₄ emissions remain uncertain. Evidence suggests that phytoplankton produces CH(4), but it is unclear how this pathway contributes to ecosystem OMP rates. Shallow lakes are often productive and feature high phytoplankton biomass, which could potentially lead to high OMP rates and a substantial contribution to CH(4) emissions. Here we present results of a field mesocosm study carried out in three shallow lakes in the Pampean Plain (Argentina), designed to assess their ambient OMP dynamics. We combined this with laboratory experiments designed to estimate the potential CH(4) production by phytoplankton strains from these systems. We demonstrate that OMP occurred in all lakes, albeit at low rates; all tested phytoplankton strains produced CH(4), yet this production contributed up to 15% to OMP rates, implying that other pathways dominate the observed OMP. The contribution of OMP to lake CH(4) diffusive emissions was low for all lakes and likely influenced by lake morphometry, suggesting that, despite their high phytoplankton abundances, other sources-such as sediment CH(4) production and/or lateral inputs-dominate CH(4) emissions in these ecosystems.