Influence of SOM Composition, Clay Minerals, and pH on 2,4-D and MCPA Retention in Peri-Urban Soils

Ćwieląg-Piasecka, Irmina; Debicka, Magdalena; Fleszar, Anna

doi:10.3390/su151612525

Cited by 1 publication

(1 citation statement)

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“…MCPA is a weak carboxylic acidic herbicide with a pKa value of 3.07, meaning it will mostly be in its anionic form in soils with a pH from 5.0 to 8.0 and sorbed by interactions between its carboxylic groups and ionizable groups of soil organic matter (OM) [4,5]. Since pH affects the protonation-deprotonation reaction of the ionizable groups of soil OM, it has been postulated that pH is the critical factor driving the transport, transformation, and bioaccumulation of MCPA in the environment [6]. Consequently, the sorption of MCPA and other acidic pesticides increases in soils with high OM contents but falls dramatically with increasing soil pH [7].…”

Section: Introductionmentioning

confidence: 99%

The Effects of the Co-Application of MCPA Herbicide and Urea on Grass Rhizosphere Microcosms

Campos,

Palma,

Faundez

et al. 2024

Agronomy

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Background: Urea fertilizer and MCPA herbicide are widely used agrochemicals in pastures. Even though urea hydrolysis impacts soil pH, potentially affecting MCPA dissipation, little is known about the effects of their co-application into the rhizosphere. Hence, we aimed to analyze the dynamics of urea transformation and MCPA dissipation when both are co-applied to the soil. Methods: A greenhouse experiment was conducted with a planted control and treatments incorporating urea and/or MCPA. Subsequently, pH changes, urea transformation into N‑NH4+ and N‑NO3−, the enzymatic activity of urease and dehydrogenase, and MCPA dissipation were monitored for 30 d. Results: Urea application induced a significant (p < 0.05) pH change, production of N‑NH4+ (from 50 and 250 mg kg−1) and N‑NO3− (from 206 to 347 mg kg−1), and urease (from 12 to 35 µmol N-NH4⁺g⁻1 h⁻1) and dehydrogenase (from 0.5 to 2.5 mg TPF g−1 h−1) activities. Urea also decelerated MCPA dissipation in the latter half of the experiment, whereas MCPA reduced urease activity when urea and herbicide were co-applied. Conclusions: Urea was the primary factor modifying the properties of the rhizosphere by stimulating the activity of microbial enzymes, shaping the pH changes during its mineralization, and decelerating MCPA dissipation. MCPA did not reduce urea mineralization but slowed urease activity, constituting an insight that requires further study.

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