Effects of olive mill wastes with different degrees of maturity on behaviour of S‑metolachlor in three soils

Laboratory and field experiments were conducted on three Mediterranean agricultural soils in so as to investigate the effects of de-oiled two-phase olive mill waste (D) and two-phase olive mill waste (W) and their level of organic matter maturity on the environmental fate of the herbicide S‑metolach...

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Published inGeoderma Vol. 348; pp. 86 - 96
Main Authors Peña, David, Albarrán, Ángel, Gómez, Soraya, Fernández-Rodríguez, Damián, Rato-Nunes, José Manuel, López-Piñeiro, Antonio
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.08.2019
Subjects
Adsorption
Dehydrogenase activity
Dissipation
Leaching
Olive mill waste
S‑metolachlor
HI
AD
D
Dehydrogenase activity
H
TOC
Leaching
Olive mill waste
CW
Adsorption
AW
W
Dissipation
WSOC
S‑metolachlor
HA
SM
FA
DHA
HPLC
EC
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Summary:Laboratory and field experiments were conducted on three Mediterranean agricultural soils in so as to investigate the effects of de-oiled two-phase olive mill waste (D) and two-phase olive mill waste (W) and their level of organic matter maturity on the environmental fate of the herbicide S‑metolachlor (SM). Three Mediterranean agricultural soils were amended with fresh (D and W) and composted W (CW) wastes under laboratory conditions. Furthermore, under field conditions, one of the soils was also amended with both wastes (D and W) over 9 years in order to assess the effects of the “aging” transformation (AD and AW treatments, respectively). Significant increases in SM adsorption were observed in all the amended soils, with no reduction in the herbicide's effectiveness. The adsorption process was more reversible with the fresh organic amendments (D or W) than with CW or (even more so) with AD or AW. The fresh amendments also increased the persistence of SM; however the field-aged and composted amendments enhanced its dissipation as a result increased soil microbial activity showed by high levels of soil dehydrogenase activity. The AD- and AW-amended soils, showed the greatest decrease in leaching loss of SM (from 51.9% in original soil to 9.33% in AD and 8.05% in AW), reflecting the strong influence of adsorption-desorption processes on SM leaching. This study has shown that the application of olive mill wastes as organic amendments may be considered a useful strategy to reduce leaching of SM in soils poor in organic matter, especially if those wastes have a high level of organic matter maturity. [Display omitted] •The effects were especially dependent on the organic matter's maturity.•Olive mill wastes increased SM sorption without reducing its effectiveness.•Only fresh of olive mill wastes could prolong the persistence of SM.•Olive mill wastes composted or aged reduced SM leaching.
ISSN:0016-7061
1872-6259
DOI:10.1016/j.geoderma.2019.04.022