TY - JOUR
T1 - Organic versus conventional farming
T2 - Medium-term evaluation of soil chemical properties
AU - Maucieri, Carmelo
AU - Tolomio, Massimo
AU - Raimondi, Giorgia
AU - Toffanin, Arianna
AU - Morari, Francesco
AU - Berti, Antonio
AU - Borin, Maurizio
PY - 2022/9/13
Y1 - 2022/9/13
N2 - Agricultural management affects soil fertility through the frequency and type of agronomic practices such as mechanical operations, type and rate of fertilizers, crop rotations, and residue management. This study evaluated the evolution of soil chemical properties (pH; electrical conductivity; soil organic carbon, SOC; total Kjeldahl nitrogen, TKN; and available phosphorous, PO4-P) over time in two farming systems, organically and conventionally managed, after 5 and 14 years after the establishment of both systems, in northeastern Italy. SOC content remained stable in the conventional farming system, but slightly decreased in the organic farming system, despite inputs from organic amendments. In contrast, soil TKN remained consistently higher in the organic farming system. The PO4-P increased over time, in both farming systems. Moreover, we observed that an increase of 1% in soil clay content resulted in increases of 0.0534 and 0.0053 g kg–1 in SOC and TKN, respectively. In conclusion, our results indicate that organic management does not have an advantage over conventional management in terms of soil organic matter accumulation.
AB - Agricultural management affects soil fertility through the frequency and type of agronomic practices such as mechanical operations, type and rate of fertilizers, crop rotations, and residue management. This study evaluated the evolution of soil chemical properties (pH; electrical conductivity; soil organic carbon, SOC; total Kjeldahl nitrogen, TKN; and available phosphorous, PO4-P) over time in two farming systems, organically and conventionally managed, after 5 and 14 years after the establishment of both systems, in northeastern Italy. SOC content remained stable in the conventional farming system, but slightly decreased in the organic farming system, despite inputs from organic amendments. In contrast, soil TKN remained consistently higher in the organic farming system. The PO4-P increased over time, in both farming systems. Moreover, we observed that an increase of 1% in soil clay content resulted in increases of 0.0534 and 0.0053 g kg–1 in SOC and TKN, respectively. In conclusion, our results indicate that organic management does not have an advantage over conventional management in terms of soil organic matter accumulation.
KW - soil chemical properties
KW - Soil fertility drivers
KW - soil organic matter
U2 - 10.4081/ija.2022.2114
DO - 10.4081/ija.2022.2114
M3 - Article
AN - SCOPUS:85138130799
SN - 1125-4718
VL - 17
JO - Italian Journal of Agronomy
JF - Italian Journal of Agronomy
IS - 3
M1 - 2114
ER -