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The impact of agricultural management on soil aggregation and carbon storage is regulated by climatic thresholds across a 3000 km European gradient

Edlinger, Anna; Garland, Gina; Banerjee, Samiran; Degrune, Florine; García-Palacios, Pablo; Herzog, Chantal; Pescador, David Sánchez; Romdhane, Sana; Ryo, Masahiro; Saghaï, Aurélien; Hallin, Sara; Maestre, Fernando T; Philippot, Laurent; Rillig, Matthias C; van der Heijden, Marcel G A (2023). The impact of agricultural management on soil aggregation and carbon storage is regulated by climatic thresholds across a 3000 km European gradient. Global Change Biology, 29(11):3177-3192.

Abstract

Organic carbon and aggregate stability are key features of soil quality and are important to consider when evaluating the potential of agricultural soils as carbon sinks. However, we lack a comprehensive understanding of how soil organic carbon (SOC) and aggregate stability respond to agricultural management across wide environmental gradients. Here, we assessed the impact of climatic factors, soil properties and agricultural management (including land use, crop cover, crop diversity, organic fertilization, and management intensity) on SOC and the mean weight diameter of soil aggregates, commonly used as an indicator for soil aggregate stability, across a 3000 km European gradient. Soil aggregate stability (-56%) and SOC stocks (-35%) in the topsoil (20 cm) were lower in croplands compared with neighboring grassland sites (uncropped sites with perennial vegetation and little or no external inputs). Land use and aridity were strong drivers of soil aggregation explaining 33% and 20% of the variation, respectively. SOC stocks were best explained by calcium content (20% of explained variation) followed by aridity (15%) and mean annual temperature (10%). We also found a threshold-like pattern for SOC stocks and aggregate stability in response to aridity, with lower values at sites with higher aridity. The impact of crop management on aggregate stability and SOC stocks appeared to be regulated by these thresholds, with more pronounced positive effects of crop diversity and more severe negative effects of crop management intensity in nondryland compared with dryland regions. We link the higher sensitivity of SOC stocks and aggregate stability in nondryland regions to a higher climatic potential for aggregate-mediated SOC stabilization. The presented findings are relevant for improving predictions of management effects on soil structure and C storage and highlight the need for site-specific agri-environmental policies to improve soil quality and C sequestration.

Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:07 Faculty of Science > Department of Plant and Microbial Biology
07 Faculty of Science > Zurich-Basel Plant Science Center
Dewey Decimal Classification:580 Plants (Botany)
Scopus Subject Areas:Physical Sciences > Global and Planetary Change
Physical Sciences > Environmental Chemistry
Physical Sciences > Ecology
Physical Sciences > General Environmental Science
Language:English
Date:June 2023
Deposited On:12 Apr 2023 09:04
Last Modified:29 Aug 2024 01:38
Publisher:Wiley-Blackwell Publishing, Inc.
ISSN:1354-1013
OA Status:Hybrid
Publisher DOI:https://doi.org/10.1111/gcb.16677
PubMed ID:36897740
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