Effects of mound building Lasius flavus on organic carbon and nutrient fluxes in soils of temperate grassland ecosystems

Abstract

Ants that build long-lasting mounds and move large amounts of mineral soil may influence the composition and fluxes of soil solutions, and thus soil nutrient cycling. However, studies quantifying such effects are scarce. In central Europe, the yellow meadow ant (Lasius flavus) is a common species that changes the character of extensively managed grasslands by its mound building activity.In total, sixteen mound-control pairs were selected within four plots on two grassland sites in Thuringia, Central Germany and monitored from 2013 to 2016. On each plot, bulk precipitation and soil solutions were collected via two open funnel samplers and eight suction plates to determine input and loss fluxes of dissolved organic carbon (DOC), nitrogen (DN), and base cations under L. flavus mounds and control locations. Effects of L. flavus mounds on soil microclimatic conditions were also investigated.In comparison to the controls, L. flavus mounds were characterised by slightly lower soil temperatures and always lower soil moisture. The main driver of lower fluxes of DOC and DN from mounds was related to the reduced seepage water flux under mounds compared to the adjacent grassland. Lasius flavus activity increased potassium (K) concentrations and fluxes in soil solutions from mounds in comparison to the controls, independent from plot-specific soil and seepage water flux variability. Increased concentrations of calcium (Ca) and magnesium (Mg) were measured in the soil solutions of the mounds but were generally not associated with higher Ca or Mg fluxes. In conclusion, L. flavus present unique micro-sites within grassland ecosystems by creating mounds that may function as ecosystem control points for the cycling of certain elements, such as K.