Low water level drives high nitrous oxide emissions from treatment wetland

Kasak, Kuno; Kill, Keit; Uuemaa, Evelyn; Maddison, Martin; Aunap, Raivo; Riibak, Kersti; Okiti, Isaac; Teemusk, Alar; Mander, Ü.

Low water level drives high nitrous oxide emissions from treatment wetland

2022

Wetlands that are restored for carbon sequestration or created for water treatment are an important sources of greenhouse gases, especially methane. The emission of nitrous oxide (N₂O) from these systems is often considered negligible due to the inundation and anerobic conditions that support complete denitrification. We used closed chamber method to analyze N₂O fluxes over a long-term period across heterogeneous wetland ecosystem constructed for treating nitrate-rich agricultural runoff. Our results showed that the water depth and temperature were most important factors affecting high N₂O emissions. The shallow areas where water depth was less than 9 cm created N₂O hot spots that emitted 48.8% of the total wetlands annual emission while only covering 6% of the total area. The annual emission from shallow-water hot spots with dense helophytic vegetation was 4.85 ± 0.5 g N₂O–N m⁻² y⁻¹ while it was only 0.37 ± 0.01 g N₂O–N m⁻² y⁻¹ in deeper zones. While the water depth was the main factor for high N₂O emissions, the temperatures increased the magnitude of the flux and therefore summer droughts and water drawdown created even larger hot spots. These results also suggest that IPCC benchmarks could underestimate N₂O emission from shallow waterbodies. Thus, it is important that the shallow zones and water level drawdown in the created or restored wetlands is avoided to minimize the N₂O flux.

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