TY - JOUR
T1 - Biochar Addition to a Mediterranean Agroecosystem
T2 - Short-Term Divergent Priming Effects
AU - Raya Moreno, Irene
AU - Domene, Xavier
AU - Carabassa, Vicenç
N1 - Publisher Copyright:
© 2024 by the authors.
PY - 2024/2/1
Y1 - 2024/2/1
N2 - The goal of this study was to evaluate biochar’s resistance to microbial decomposition and its impact on native soil organic matter (SOM) decomposition. Conducted in a vineyard with a sandy loam Mediterranean soil with neutral pH and low organic carbon content, the experiment involved the application of 6.5 g biochar kg
−1 derived from pine (PB) and corn cob (ZB). The monitoring period spanned two years, with soil samples collected at short- and medium-term timepoints (2 and 26 months post-application) and incubated in the lab for an additional 250 days. Soil respiration, the CO
2-C isotopic signature, and dissolved organic carbon (DOC
hw) were assessed to identify potential priming effects (PE) and evaluate their persistence over two years. In the short term, biochar-induced priming effects were feedstock and pyrolysis temperature dependent, exhibiting negative priming in high-temperature wood biochar and positive priming in low-temperature grass biochar. The mechanism behind short-term positive priming was attributed to the higher labile organic carbon (OC) content in ZB compared to PB. In the medium term, initial strong priming effects shifted to slightly negative priming effects in both biochars, indicating the depletion of labile carbon fractions and the emergence of physical protection processes that mitigated priming.
AB - The goal of this study was to evaluate biochar’s resistance to microbial decomposition and its impact on native soil organic matter (SOM) decomposition. Conducted in a vineyard with a sandy loam Mediterranean soil with neutral pH and low organic carbon content, the experiment involved the application of 6.5 g biochar kg
−1 derived from pine (PB) and corn cob (ZB). The monitoring period spanned two years, with soil samples collected at short- and medium-term timepoints (2 and 26 months post-application) and incubated in the lab for an additional 250 days. Soil respiration, the CO
2-C isotopic signature, and dissolved organic carbon (DOC
hw) were assessed to identify potential priming effects (PE) and evaluate their persistence over two years. In the short term, biochar-induced priming effects were feedstock and pyrolysis temperature dependent, exhibiting negative priming in high-temperature wood biochar and positive priming in low-temperature grass biochar. The mechanism behind short-term positive priming was attributed to the higher labile organic carbon (OC) content in ZB compared to PB. In the medium term, initial strong priming effects shifted to slightly negative priming effects in both biochars, indicating the depletion of labile carbon fractions and the emergence of physical protection processes that mitigated priming.
KW - SOC mineralization
KW - biochar
KW - field study
KW - soil incubation
KW - soil respiration
KW - stable carbon isotopes
UR - http://www.scopus.com/inward/record.url?scp=85187250347&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/1bd6ac83-c350-3124-9128-f887a30c17b5/
UR - https://portalrecerca.uab.cat/en/publications/09c1d80a-ca94-45cc-915e-530f811c1962
U2 - 10.3390/agriculture14020242
DO - 10.3390/agriculture14020242
M3 - Article
SN - 2077-0472
VL - 14
JO - Agriculture (Switzerland)
JF - Agriculture (Switzerland)
IS - 2
M1 - 242
ER -