Litcius/Paper detail

Worms and submersed macrophytes reduce methane release and increase nutrient removal in organic sediments

Sara Benelli, Marco Bartoli

2021Limnology and Oceanography Letters28 citationsDOIOpen Access PDF

Abstract

Abstract Organic sediments are greenhouse gas and nutrient hotspots. They may display lower methane (CH 4 ) emissions and increase nutrient retention when macrophytes and macrofauna are present, due to oxygen leakage from roots and bioirrigation. We tested this hypothesis via incubations of microcosms reproducing four treatments: bare sediment, sediment with oligochaetes, sediment with macrophytes, and sediment with both organisms. Along a 12‐d experiment, CH 4 ebullition in bare sediment (470 ± 13 mmol m −2 ) decreased by 67%, 88%, and 97% in the presence of plants, oligochaetes, and both organisms, respectively. Oligochaetes increased N 2 production by ~ 200 mmol N m −2 and nitrate consumption by a factor of 4, whereas macrophytes reduced nitrogen losses by ~ 65 mmol N m −2 . All treatments acted as phosphate sink. Results suggest that the maintenance of vegetation and associated macrofauna in organic sediments promotes their combined ecosystem services, resulting in significant reduction of greenhouse gas emission and nutrient release to the water column.

Topics & Concepts

MacrophyteMicrocosmEnvironmental chemistrySedimentNutrientSink (geography)Environmental scienceMethaneWater columnNitrateNitrogenChemistryEcologyBiologyCartographyOrganic chemistryPaleontologyGeographyPeatlands and Wetlands EcologyCoastal wetland ecosystem dynamicsSoil and Water Nutrient Dynamics