Doyeni, Modupe Olufemi; Kadziene, Grazina; Pranaitiene, Simona; Slepetiene, Alvyra; Skersiene, Aida; Shamshitov, Arman; Trinchera, Alessandra; Warren Raffa, Dylan; Testani, Elena; Fontaine, Sebastien; Rodriguez-Hernandez, Antonio; Rasmussen, Jim; Sánchez-Moreno, Sara; Hanegraaf, Marjoleine; Un, Akin; Sail, Simon; Suproniene, Skaidre

doi:10.3390/agronomy14123024

Results

Title: A Comparative Study of Agroecological Intensification Across Diverse European Agricultural Systems to Assess Soil Structure and Carbon Dynamics.
Authors: Doyeni, Modupe Olufemi; Kadziene, Grazina; Pranaitiene, Simona; Slepetiene, Alvyra; Skersiene, Aida; Shamshitov, Arman; Trinchera, Alessandra; Warren Raffa, Dylan; Testani, Elena; Fontaine, Sebastien; Rodriguez-Hernandez, Antonio; Rasmussen, Jim; Sánchez-Moreno, Sara; Hanegraaf, Marjoleine; Un, Akin; Sail, Simon; Suproniene, Skaidre
Abstract: Continuous agricultural activities lead to soil organic carbon (SOC) depletion, and agroecological intensification practices (i.e., reduced soil disturbance and crop diversification) have been suggested as strategies to increase SOC storage. The study aims to assess the effect of agroecological intensification levels (lower (T1) and highest (T2)) on the soil C pool and aggregate stability and validate the correlation between different variables compared to the control (lowest/none (T3), where agroecological intensification was not applied. The C-stock, soil microbial biomass carbon (SMB-C), SOC, water extractable organic carbon (WEOC) in bulk soil, fine and coarse soil aggregates, and water-stable aggregates (WSA) were measured during maximum nutrient uptake in plants under diversified agroecological practices across different environmental conditions (core sites: Italy (CS1), France (CS2), Denmark (CS4), Spain (CS5), Netherlands (CS6), Lithuania (CS7), Turkey (CS8), and Belgium (CS9)). The soil aggregate stability varied among the CSs and treatments. At sites CS7 and CS9, WSA was higher in T1 and T2 compared to the control; a similar trend was observed at other sites, except CS1. SMB-C differed among the core sites, with the lowest value obtained in CS5 (52.3 μg g−1) and the highest in CS6 (455.1 μg g−1). The highest average contents of SOC and WEOC were obtained in bulk soil at CS2 (3.1 % and 0.3 g kg−1 respectively). Positive and statistically significant (p < 0.001) correlations were detected among all variables tested with SOC in bulk soil and WSA. This study demonstrates the significance of agroecological practices in improving soil carbon stock and optimizing plant–soil–microbe interactions.
Subjects: SOIL structure; CARBON in soils; CROP diversification; SOIL moisture; AGRICULTURE
Publication: Agronomy, 2024, Vol 14, Issue 12, p3024
ISSN: 2073-4395
Publication type: Academic Journal
DOI: 10.3390/agronomy14123024

A Comparative Study of Agroecological Intensification Across Diverse European Agricultural Systems to Assess Soil Structure and Carbon Dynamics.

SOIL structure; CARBON in soils; CROP diversification; SOIL moisture; AGRICULTURE

Agronomy, 2024, Vol 14, Issue 12, p3024

2073-4395

Academic Journal

10.3390/agronomy14123024