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Drivers of soil respiration across a management intensity gradient in temperate grasslands under drought

Antonios Apostolakis, Ingo Schöning, Beate Michalzik, Valentin H. Klaus, Runa S. Boeddinghaus, Ellen Kandeler, Sven Marhan, Ralph Bolliger, Markus Fischer, Daniel Prati, Falk Hänsel, Thomas Nauß, Norbert Hölzel, Till Kleinebecker, Marion Schrumpf

2022Nutrient Cycling in Agroecosystems12 citationsDOIOpen Access PDF

Abstract

Abstract Soil respiration is an important pathway of soil organic carbon losses in temperate grasslands; however, it is rarely studied across broad management intensity gradients in a landscape. Using the soda-lime method, we measured in-situ soil CO 2 efflux with single measurements of long exposure time (i.e. 3 day long) in 150 grasslands in three German regions in early summer 2018 and 2019. The grasslands ranged from unfertilized and grazed grasslands to intensively fertilized and frequently harvested ones. To assess effects of grazing and fertilization intensities and plant diversity on soil CO 2 efflux, we used Structural Equation Modeling to account for direct effects and indirect effects through soil and plant organic matter quantity and quality. Soil CO 2 efflux was suppressed by limited water availability caused by naturally occurring droughts in both study years. Under the prevailing environmental conditions, grazing intensity, plant biomass and plant C:N ratio were not related to soil CO 2 efflux. In contrast, fertilization intensity was positively associated with soil CO 2 efflux (standardized coefficient of net effect: + 0.04 in 2018 and + 0.03 in 2019). This was because fertilization led to lower plant species richness and, thus, to lower C:N ratios in soils, which were associated with higher soil CO 2 efflux (plant species richness net effect: −0.09 in 2018 and −0.18 in 2019; soil C:N ratio direct effect: −0.23 in 2018 and −0.33 in 2019). Intensively managed grasslands have higher soil respiration than extensively managed, plant species-rich grasslands even under the extreme conditions of natural droughts.

Topics & Concepts

Environmental scienceGrazingSoil respirationSoil carbonAgronomySoil waterBiomass (ecology)Temperate climateEcosystemSoil organic matterSpecies richnessEcologyBiologySoil scienceSoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologyEcology and Vegetation Dynamics Studies