Atrazine nanoencapsulation improves pre‐emergence herbicidal activity against <i>Bidens pilosa</i> without enhancing long‐term residual effect on <i>Glycine max</i>

Preisler, Ana Cristina; Pereira, Anderson do Espírito Santo; Campos, Estefânia Vangelie Ramos; Dalazen, Giliardi; Fraceto, Leonardo Fernandes; Oliveira, Halley Caixeta

doi:10.1002/ps.5482

Cited by 49 publications

(35 citation statements)

References 48 publications

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“…[30] Maximum quantum yield decreased when the B. pilosa weed and soybean (Glycine max) were treated with a commercial formulation of atrazine and the herbicide encapsulated in nanocapsules of poly(e-caprolactone). [31] An ETR decrease was detected after atrazine treatment of maize, weeds, and Calophyllum brasiliense. [32] Application of nanocapsules with atrazine decreased Y(II) and ETR in the Amaranthus viridis and Bidens pilosa weeds.…”

Section: Treatment/controlmentioning

confidence: 94%

Biological effects of the free and embedded metribuzin and tribenuron-methyl herbicides on various cultivated weed species

Volova

Baranovsky

Petrovskaya

et al. 2020

Journal of Environmental Science and Health, Part B

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The present study addresses the herbicidal activity and biological effects of the metribuzin (MET) and tribenuron-methyl (TBM) herbicides used to control various weed species (Amaranthus retroflexus, Sinapis arvensis, and Leucanthemum maximum). The effects of the free herbicides and the herbicides embedded in granules of degradable polymer poly-3-hydroxybutyrate [P(3HB)] blended with birch wood flour were compared. Metribuzin, regardless of the form, caused 100% mortality of the three weeds by day 21. The herbicidal activity of tribenuron-methyl was lower than that of metribuzin, but the embedded TBM was superior to the free herbicide in the length and strength of its action on the weeds. Both metribuzin forms dramatically decreased the main parameters of fluorescence: maximum quantum yield of photosystem-II [Y(II) max ], maximum quantum yield of non-photochemical quenching [Y(NPQ) max ], and maximum rate of non-cyclic electron transport [ETR max ] and concentrations of chlorophyll a and b. The effect of the embedded TBM on the photosynthetic activity of the weeds was lower in the first two weeks of the growth of herbicidetreated plants but lasted longer than the effect of the free TBM and increased over time. Embedding of metribuzin in the matrix of degradable blend did not decrease its herbicidal activity.

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Section: Treatment/controlmentioning

confidence: 94%

Biological effects of the free and embedded metribuzin and tribenuron-methyl herbicides on various cultivated weed species

Volova

Baranovsky

Petrovskaya

et al. 2020

Journal of Environmental Science and Health, Part B

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“…These NPs inhibit the physiological processes and growth phases in several weed species. For example, Ch-NPs retard germination and growth phases in Bidens pilosa [ 130 , 131 ] NPs atrazine disrupts PSII activity in Amaranthus viridus [ 132 ], Fe 3 O 4 NPs (Iron oxide NPs) + purified diatomite + glyphosate decrease pH level in Cynodon dactylon [ 133 ], Zero valent Fe NPs (Iron NPs) retard germination in Lolium perenne [ 32 ]. The efficacy of metribuzan, (a commercial herbicide) was enhanced via using NPs to maintain the growth of the weed population including Melilotus album, T. aestivum, Agrostis stolonifera, and Setaria macrocheata [ 19 ] .…”

Section: Nanoformulations As a Promising Tool In An Agricultural Systemmentioning

confidence: 99%

Smart nanomaterial and nanocomposite with advanced agrochemical activities

et al. 2021

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Conventional agriculture solely depends upon highly chemical compounds that have negatively ill-affected the health of every living being and the entire ecosystem. Thus, the smart delivery of desired components in a sustainable manner to crop plants is the primary need to maintain soil health in the upcoming years. The premature loss of growth-promoting ingredients and their extended degradation in the soil increases the demand for reliable novel techniques. In this regard, nanotechnology has offered to revolutionize the agrotechnological area that has the imminent potential over conventional agriculture and helps to reform resilient cropping systems withholding prominent food security for the ever-growing world population. Further, in-depth investigation on plant-nanoparticles interactions creates new avenues toward crop improvement via enhanced crop yield, disease resistance, and efficient nutrient utilization. The incorporation of nanomaterial with smart agrochemical activities and establishing a new framework relevant to enhance efficacy ultimately help to address the social acceptance, potential hazards, and management issues in the future. Here, we highlight the role of nanomaterial or nanocomposite as a sustainable as well stable alternative in crop protection and production. Additionally, the information on the controlled released system, role in interaction with soil and microbiome, the promising role of nanocomposite as nanopesticide, nanoherbicide, nanofertilizer, and their limitations in agrochemical activities are discussed in the present review.

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“…Nanopesticides have been very successfully tested for control of pine wilt nematode, with nanoencapsulated avermectin shown to have superior toxicity to the nematode's gastrointestinal system, greater sustained-release performance and improved photolytic stability in comparison to a traditional delivery of avermectin (Su et al, 2020). Nanoencapsulating atrazine has also been found to reduce the harmful environmental effects of this herbicide, without negatively affecting the mortality rate of Bidens pilosa seedlings (Preisler et al, 2020). Nanoencapsulated atrazine in the latter study had inhibitory effects at 200 g/ha that were equivalent to those of nonencapsulated herbicide at 2 000 g/ha, representing a ten-fold reduction in the herbicide concentration.…”

Section: Nanofertilizers and Pesticidesmentioning

confidence: 99%