Your search keyword '"Mendes KF"' showing total 24 results

1. First report of infestation by Planococcus citri (Risso, 1813) (Hemiptera: Pseudococcidae) on Cyperus esculentus (Poales: Cyperaceae).

Author

Godoi Junior MA, Sousa RN, Mendes KF, Pinto CMF, and Ribeiro WS

Subjects

Animals, Hemiptera classification, Hemiptera physiology, Cyperus classification

Published

2024

2. What is the most effective analytical method for quantification and identification of microplastics in contaminated soils?

Author

da Silva Brochado MG, de Noronha BG, da Costa Lima A, Guedes AG, da Silva RC, Dos Santos Dias DCF, and Mendes KF

Subjects

Spectroscopy, Near-Infrared methods, X-Ray Diffraction, Environmental Monitoring methods, Soil chemistry, Agriculture, Soil Pollutants analysis, Microplastics analysis, Microscopy, Electron, Scanning

Abstract

The increasing concern over microplastics (MPs) contamination in agricultural soils due to excessive plastic use is a worldwide concern. The objective of this study was to determine which analytical technique is most effective for the analysis of MPs in agricultural soils. Near-infrared spectroscopy (NIR), scanning electron microscopy (SEM), multispectral analysis, and X-ray diffraction were used to analyze sections of clay soil containing varying percentages of virgin white MPs from 0 to 100%. X-ray analysis only detected MPs at high concentrations (20%). However, NIR at 2.300 nm and multispectral analysis at 395 nm demonstrated greater accuracy and sensitivity in distinguishing between all MPs levels. SEM revealed that MPs have an amorphous structure that is distinct from crystalline soil, potentially influencing their interactions with other soil constituents. These findings highlight the value of NIR and multispectral analysis in accurately identifying and measuring MPs in soil. Efficient management plans rely on increased awareness of MPs' environmental impact., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

3. Biochar obtained from eucalyptus, rice hull, and native bamboo as an alternative to decrease mobility of hexazinone, metribuzin, and quinclorac in a tropical soil.

Author

Porto MAF, Mendes KF, Tornisielo VL, Guiotoku M, de Freitas Souza M, Lins HA, and Silva DV

Subjects

Charcoal, Soil, Adsorption, Environmental Monitoring, Oryza, Eucalyptus, Sasa, Herbicides analysis, Soil Pollutants analysis, Quinolines, Triazines

Abstract

Mobile herbicides have a high potential for groundwater contamination. An alternative to decrease the mobility of herbicides is to apply materials with high sorbent capacity to the soil, such as biochars. The objective of this research was to evaluate the effect of eucalyptus, rice hull, and native bamboo biochar amendments on sorption and desorption of hexazinone, metribuzin, and quinclorac in a tropical soil. The sorption-desorption was evaluated using the batch equilibrium method at five concentrations of hexazinone, metribuzin, and quinclorac. Soil was amended with eucalyptus, rice hull, and native bamboo biochar at a rate of 0 (control-unamended) and 1% (w w -1 ), corresponding to 0 and 12 t ha -1 , respectively. The amount of sorbed herbicides in the unamended soil followed the decreasing order: quinclorac (65.9%) > metribuzin (21.4%) > hexazinone (16.0%). Native bamboo biochar provided the highest sorption compared to rice hull and eucalyptus biochar-amended soils for the three herbicides. The amount of desorbed herbicides in the unamended soil followed the decreasing order: metribuzin (18.35%) > hexazinone (15.9%) > quinclorac (15.1%). Addition of native bamboo biochar provided the lowest desorption among the biochar amendments for the three herbicides. In conclusion, the biochars differently affect the sorption and desorption of hexazinone, metribuzin, and quinclorac mobile herbicides in a tropical soil. The addition of eucalyptus, rice hull, and native bamboo biochars is a good alternative to increase the sorption of hexazinone, metribuzin, and quinclorac, thus, reducing mobility and availability of these herbicides to nontarget organisms in soil., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

4. Gamma ray irradiation on Swiss cheese estates ( Monstera adansonii ): growth, development, and variation.

Author

Godoi Junior MA, Ribeiro WS, Sousa RN, Noronha BG, Rocha DI, Tornisielo VL, and Mendes KF

Subjects

Dose-Response Relationship, Radiation, Gamma Rays, Plant Leaves radiation effects

Abstract

Purpose: Swiss Cheese ( Monstera adansonii ) is an ornamental plant valued for its exotic leaves with openings and for the variety of colors. The technique of controlled exposure to gamma radiation was investigated to induce variegation (color change) in the leaves of this plant., Materials and Methods: Monstera adansonii cuttings were irradiated with different doses of radiation with 60 Co gamma rays (0, 1, 5, 10, 15, and 20 Gy) and evaluated for size, color, health, and growth., Results: Cuttings irradiated with 1 and 5 Gy exhibited temporary variegation in leaf color, but did not maintain these characteristics over time. Cuttings with higher doses of radiation (10, 15, and 20 Gy) did not survive well and showed a reduction in growth, number of leaves, health, and sprouting rate., Conclusions: This research concludes that gamma radiation can affect the development of cuttings and shows the potential to induce variegation at lower doses, but more studies and prolonged observation are needed to determine whether this technique can produce variegation in a consistent and lasting way in M. adansonii . Therefore, although promising initial results have been observed, it is premature to state that gamma radiation is an effective method for inducing variegation in this plant.

Published

2024

5. Raw feedstock vs. biochar from olive stone: Impact on the sorption-desorption of diclosulam and tropical soil improvement.

Author

Gibbert AM, Guimarães T, da Silva EMG, da Silva LBX, Vilca FZ, and Mendes KF

Subjects

Adsorption, Agriculture, Charcoal chemistry, Soil chemistry, Olea chemistry, Herbicides chemistry, Soil Pollutants chemistry

Abstract

The addition of carbon-rich materials, such as raw feedstocks (RAW) and biochars, to agricultural soils is on the rise. This activity has many advantages, such as improving fertility, increasing water retention, and sequestering carbon. However, they can also increase the sorption of residual herbicides in the soil, reducing the effectiveness of weed control. Thus, the objective of this study was to evaluate soil improvement and the sorption-desorption process of diclosulam in soil unamended and amended with RAW from olive stone and their biochars produced in two pyrolysis temperatures (300 and 500 °C). Oxisol was used in this study, unamended and amended with RAW and biochars (BC300 and BC500) in a rate of 10% (w w -1 ). The sorption-desorption process was assessed by batch-equilibrium experiments and the analysis was performed using high-performance liquid chromatography (HPLC). The addition of the three materials to the soil increased the contents of pH, organic carbon, P, K, Ca, Mg, Zn, Fe, Mn, Cu, B, cation exchange capacity, base saturation and decreased H + Al. The unamended soil had K f (Freundlich sorption coefficient) values of diclosulam sorption and desorption of 1.56 and 12.93 mg (1 - 1/n) L 1/n Kg -1 , respectively. Unamended soil sorbed 30.60% and desorbed 13.40% of herbicide. Soil amended with RAW, BC300, and BC500 sorbed 31.92, 49.88, and 30.93% of diclosulam and desorbed 13.33, 11.67, and 11.16%, respectively. The addition of RAW and biochars from olive stone has the potential to change the soil fertility, but does not interfere with the bioavailability of diclosulam in weed control under field conditions, since the materials slightly influenced or did not alter the sorption-desorption of diclosulam.

Published

2024

6. Pre-emergence herbicides mixture in soybeans: Amaranthus hybridus control and crop selectivity on cover crops soil.

Author

Mita MR and Mendes KF

Subjects

Weed Control methods, Crops, Agricultural growth & development, Crops, Agricultural drug effects, Herbicides pharmacology, Amaranthus drug effects, Amaranthus growth & development, Glycine max drug effects, Glycine max growth & development, Soil chemistry

Abstract

The objective was to evaluate the efficacy of pre-emergence herbicides mixture applied to the soil with and without dead cover crops ( Sorghum bicolor ) for the control of Amaranthus hybridus L. (smooth pigweed) and its selectivity in soybeans. This study was structured in split plot (2 × 6 + 2), where factor A plots (with and without dead cover) and factor B six herbicides mixture: flumioxazin + S-metolachlor (50.4 + 1,008 g a.i. ha -1 ), flumioxazin + imazethapyr (60 + 127.2 g a.i. ha -1 ), pyroxasulfone + sulfentrazone (137.6 + 160 g a.i. ha -1 ), diuron + sulfentrazone (400 + 200 g a.i. ha -1 ), metribuzin + S-metolachlor (326.4 + 1,344 g a.i. ha -1 ) and sulfentrazone + imazethapyr (200 + 100 g a.i. ha -1 ) and two untreated control plots. As for the results, the herbicides flumioxazin + S-metolachlor, flumioxazin + imazethapyr and pyroxasulfone + sulfentrazone showed excellent control (97-99%) and were not influenced by the plot with and without dead cover. They also showed higher yield soybeans (<2,244 kg ha -1 ). All herbicides were selective to the soybeans. Overall, pre-emergence herbicides and cover crops were efficient methods for the control of A. hybridus , which farmers should use to avoid losses in yield soybeans due to weed competition.

Published

2024

7. Canavalia ensiformis enhances the phytoremediation of remineralized and sulfentrazone-contaminated tropical soils.

Author

Araujo GR, Augusto de Paiva Ferreira G, Vaz V, da Costa Lima A, Spolidorio ES, and Mendes KF

Subjects

Biodegradation, Environmental, Canavalia, Powders, Soil chemistry, Soil Pollutants analysis, Herbicides analysis

Abstract

The objective of the study was to assess the phytoremediation potential in two remineralized soils contaminated with sulfentrazone. Two soil types were evaluated: Oxisol (clayey) and Inceptisol (sandy loam), in pots, with and without the incorporation of the rock powder, at rates of 0, 4, and 8 t ha -1 . Following this, sulfentrazone was applied at rates of 200, 400, 600, and 800 g a. i. ha -1 , in addition to the control treatment without herbicide application, followed by the sowing of Canavalia ensiformis (jack bean). Injury level (IL) was assessed at 42 days after emergence (DAE), and biometric evaluations of the phytoremediating species were conducted at 70 and 120 DAE in the Oxisol and Inceptisol, respectively, for the following variables: height (HT), diameter (DM), trifoliate leaf number (TN), leaf area (LA), above-ground dry biomass (DB), and root dry biomass (RDB). At the end of the phytoremediation experiment, the soils were analyzed using High-Performance Liquid Chromatography (HPLC) and with Sorghum bicolor (sorghum) as a bioindicator to verify the residue of sulfentrazone. IL and DB assessments of the bioindicator species were conducted at 21 DAE. In both soils, higher herbicide rates (600 and 800 g a. i. ha -1 ) resulted in greater IL and reduced HT, LA, DB, and RDB of the phytoremediating species. C. ensiformis reduced the sulfentrazone residues in the soils. Although it did not directly influence phytoremediation, the rock powder improved soil fertility. In conclusion, C. ensiformis has the potential for effective phytoremediation of soils contaminated with sulfentrazone, providing safety for cultivating sensitive crops and benefiting the environment., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Kassio Ferreira Mendes reports was provided by Triunfo Mineração do Brasil LTDA. Grazielle Rodrigues Araujo reports was provided by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

8. Pyrolysis Temperature vs. Application Rate of Biochar Amendments: Impacts on Soil Microbiota and Metribuzin Degradation.

Author

Mielke KC, Brochado MGDS, Laube AFS, Guimarães T, Medeiros BAP, and Mendes KF

Subjects

Temperature, Carbon Dioxide analysis, Soil chemistry, Pyrolysis, Charcoal chemistry, Soil Pollutants metabolism, Herbicides chemistry

Abstract

Biochar-amended soils influence the degradation of herbicides depending on the pyrolysis temperature, application rate, and feedstock used. The objective of this study was to evaluate the influence of sugarcane straw biochar (BC) produced at different pyrolysis temperatures (350 °C, 550 °C, and 750 °C) and application rates in soil (0, 0.1, 0.5, 1, 1.5, 5, and 10% w / w ) on metribuzin degradation and soil microbiota. Detection analysis of metribuzin in the soil to find time for 50% and 90% metribuzin degradation (DT 50 and DT 90 ) was performed using high-performance liquid chromatography (HPLC). Soil microbiota was analyzed by respiration rate (C-CO 2 ), microbial biomass carbon (MBC), and metabolic quotient ( q CO 2 ). BC350 °C-amended soil at 10% increased the DT 50 of metribuzin from 7.35 days to 17.32 days compared to the unamended soil. Lower application rates (0.1% to 1.5%) of BC550 °C and BC750 °C decreased the DT 50 of metribuzin to ~4.05 and ~5.41 days, respectively. BC350 °C-amended soil at high application rates (5% and 10%) provided high C-CO 2 , low MBC fixation, and high q CO 2 . The addition of low application rates (0.1% to 1.5%) of sugarcane straw biochar produced at high temperatures (BC550 °C and BC750 °C) resulted in increased metribuzin degradation and may influence the residual effect of the herbicide and weed control efficiency.

Published

2023

9. Diuron, hexazinone, and sulfometuron-methyl applied alone and in mixture in soils: Distribution of extractable residue, bound residue, biodegradation, and mineralization.

Author

Cristina Dos Reis F, Mielke KC, Mendes KF, Nogueira de Sousa R, Heluany MH, Tornisielo VL, and Filho RV

Abstract

Biodegradation studies of herbicides applied to the soil alone and in a mixture are required since herbicides are often used in combinations to control weeds. When herbicides are applied in mixtures, interactions may affect their environmental fate. Thus, the objective of this study was to evaluate the distribution of extractable residue, bound residue, biodegradation, and mineralization of diuron, hexazinone, and sulfometuron-methyl when applied alone and in a mixture in two agricultural soils. Biometric flasks filled with two types of soil (clay and sandy) collected from an area cultivated with sugarcane and treated with 14 C-radiolabeled solutions of the herbicides were incubated for 70 d. More 14 C-CO 2 was released when sulfometuron-methyl and hexazinone were applied in a mixture compared to when applied alone. Being used in a combination did not affect the mineralization of diuron. The soil texture directly influenced the mineralization, bound residue, and extractable residue of the three herbicides. The percentage of extractable residue decreased over time for all herbicides. Hexazinone and sulfometuron-methyl had the highest residue extracted on sandy soil when applied alone. Diuron showed the highest percentage of bound residue. The degradation of the three herbicides was higher in the clay soil regardless of the mode of application, which is related to the higher potential of the bacterial community in the clay soil to mineralize the herbicides., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Author(s).)

Published

2023

10. Can herbicides of different mode of action cause injury symptoms in non-herbicide-tolerant young soybean due to simulated drift?

Author

Brochado MGDS, Guidi YM, Lima ADC, Medeiros BAP, D'Angieri R, and Mendes KF

Subjects

Dicamba toxicity, Glycine max, Diquat pharmacology, Crops, Agricultural, 2,4-Dichlorophenoxyacetic Acid pharmacology, Herbicides toxicity

Abstract

Accidental herbicide drift onto neighboring crops, such as soybeans, can seriously harm non-target plants, affecting their growth and productivity. This study examined the impact of simulated drift from ten different herbicides (2,4-D, dicamba, glyphosate, saflufenacil, oxyfluorfen, hexazinone, diuron, diquat, nicosulfuron, and isoxaflutole) on young soybean plants. These herbicides were applied at three simulated drift levels (1/4, 1/16, and 1/32) equivalent to recommended commercial doses, and the resulting symptoms were carefully evaluated. Simulated drift caused distinctive symptoms, including chlorosis, twisting, necrosis, and growth abnormalities, varying depending on each herbicide's mode of action. Dicamba proved more toxic than 2,4-D, and symptom severity increased with drift proportion, with all herbicides causing over 30% injury at the 1/16 proportion. Notably, 2,4-D, dicamba, glyphosate, hexazinone, and diquat exceeded the half-maximal inhibitory concentration (IC 50 ) value, significantly reducing total biomass. Dicamba consistently caused 50% injury at all proportions, while hexazinone, at the highest dose proportion, led to plant mortality. Dicamba also had biomass accumulation beyond the growth reduction (GR 50 ), whereas hexazinone exhibited less than 10% accumulation due to its capacity to induce plant mortality. This study emphasizes the importance of understanding herbicide drift effects on non-target crops for more effective and safe weed management strategies.

Published

2023

11. Spatial distribution of sorption and desorption process of 14 C-radiolabelled hexazinone and tebuthiuron in tropical soil.

Author

Mendes KF, Wei MCF, Furtado IF, Takeshita V, Pissolito JP, Molin JP, and Tornisielo VL

Subjects

Adsorption, Methylurea Compounds, Soil, Triazines, Herbicides analysis, Soil Pollutants analysis

Abstract

The understanding of the interaction between soil physicochemical attributes and herbicide behavior is fundamental for optimizing the efficient use of PRE-emergence herbicides in a more sustainable approach. However, it is still a poorly studied area within precision agriculture. Thus, the objective of this research was to evaluate the correlation of soil physicochemical attributes with the sorption and desorption processes of hexazinone and tebuthiuron to support application maps considering the field level variability. Soil samples from an agricultural area had their physicochemical attributes analyzed and were submitted to sorption and desorption studies of 14 C-tebuthiuron and 14 C-hexazinone using the batch equilibrium method. The values of sorption and desorption apparent coefficients (K d ), sorption and desorption percentage and bioavailability were correlated with soil attributes by Pearson's correlation. The K d values of tebuthiuron and hexazinone sorption ranged from 1.2 to 2.9 mL g -1 and 0.4-0.6 mL g -1 , respectively. For desorption of tebuthiuron and hexazinone, K d values ranged from 3.4 to 4.4 mL g -1 and 2.6-3.0 mL g -1 , respectively. A positive correlation among clay content, soil organic matter (OM), and tebuthiuron and hexazinone sorption K d values were found. Both herbicides had variable retention according to geographic position in the area. The recommendation of application of PRE herbicides, such as tebuthiuron and hexazinone, observing the physicochemical attributes of the soil is an alternative to increase efficiency in weed control and decrease the risk of environmental contamination., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

12. Potential of Egeria densa and Pistia stratiotes for the phytoremediation of water contaminated with saflufenacil.

Author

Alonso FG, Mielke KC, Brochado MGDS, Mendes KF, and Tornisielo VL

Subjects

Biodegradation, Environmental, Pyrimidinones, Sulfonamides, Water, Araceae, Water Pollutants, Chemical analysis

Abstract

Saflufenacil is an herbicide that is leachable in soil and has the potential to contaminate groundwater, besides having moderate toxicity to aquatic organisms. Some macrophyte species may interfere with the availability of herbicides in water, increasing dissipation in this environment. Thus, the objective of this work was to evaluate the absorption and dissipation of 14 C-saflufenacil in water by Egeria densa and Pistia stratiotes . Dissipation was performed with 14 C-saflufenacil applied directly in water and quantified by liquid scintillation spectrometry (LSS). The evaluation times were 0, 3, 6, 24, 48, 72 and 96 h after application (HAA) for E. densa and 0, 12, 24, 36, 48, 60, 84 and 108 HAA for P. stratiotes . Absorption was analyzed through plant combustion in a biological oxidizer. The presence of the macrophytes increased the dissipation of 14 C-saflufenacil in water. The half-life time (DT 50 ) of the herbicide decreased by 82.6% in the presence of E. densa at 96 HAA. For P. stratiotes , the reduction in DT 50 was 94.8% at 108 HAA. The absorption of 14 C-saflufenacil was low for both macrophytes during the evaluated time. However, the macrophytes E. densa and P. stratiotes showed potential for the phytoremediation of water contaminated with saflufenacil.

Published

2021

13. Effect of Fertiactyl ® on the absorption and translocation of 14 C-glyphosate in young eucalyptus plants.

Author

Adriano RC, Mendes KF, Alcántara-de la Cruz R, do Nascimento JLM, Ferreira LR, and Tornisielo VL

Subjects

Carbon Radioisotopes pharmacokinetics, Eucalyptus metabolism, Glycine pharmacokinetics, Glycine toxicity, Herbicides toxicity, Plant Leaves drug effects, Plant Shoots drug effects, Tissue Distribution, Glyphosate, Eucalyptus drug effects, Fertilizers, Glycine analogs & derivatives, Herbicides pharmacokinetics

Abstract

Fertiactyl ® is a foliar fertilizer with the potential to minimize the phytotoxicity effects caused by glyphosate drift in eucalyptus plants. As the interactions of the glyphosate and Fertiactyl ® in tank mix on the plant behavior are not yet known, the objective was to evaluate the absorption and translocation of 14 C-glyphosate, applied isolated and mixed in tank with Fertiactyl ® , in young eucalyptus plants (clone I-144, Eucalyptus urophylla x E. grandis ). The addition of Fertiactyl ® to the mixture of 14 C-glyphosate reduced the absorption by 94.3% in relation to the total absorbed at the end of the evaluation compared to plants treated only with 14 C-glyphosate, i.e., Fertiactyl ® protected the eucalyptus plants of the glyphosate intoxication by drift. The translocation rates from the treated leaves to the rest of the shoots and roots were low (<2% of the total recovered) in both treatments, suggest that restricted translocation is a mechanism of natural tolerance to glyphosate in plants of clone I-144. It is concluded that Fertiactyl ® , mixed in the solution with glyphosate, protects young eucalyptus plants against glyphosate drift by reducing the amount of herbicide absorbed.

Published

2021

14. Using 14 C-glyphosate to investigate the distribution of two formulations in transgenic glyphosate-resistant soybean.

Author

Almeida GPD, Mendes KF, Regitano JB, Piccolomini Dias NM, Dias Guimarães AC, and Tornisielo VL

Subjects

Brazil, Glycine analogs & derivatives, Glyphosate, Herbicides, Glycine max

Abstract

Glyphosate residues in grain can be explained by the concentrations and formulations of glyphosate products. This study aimed to evaluate the residues from glyphosate formulations labeled with 14 C-glyphosate applied to leaves of glyphosate-resistant soybean (GRS) in two life cycles by liquid scintillation spectrometry. Different plant tissues were analyzed after the end of the plants' life cycles. The experimental design was four repetitions of three treatments: Roundup® Original, Roundup Ready ® , and unformulated glyphosate (control). The application of the dosing solution was 120 µL on the first four trifoliate leaves (10 µL per leaflet) of each plant, deposited manually with a 1-µL dispenser. All treatment solutions were calculated at a 1.2 kg a.e ha -1 of glyphosate. Glyphosate formulations of Roundup ® Original and Roundup Ready ® increased 14 C-glyphosate distribution in GRS compared to the unformulated herbicide, regardless of the experiment (first or second cycle). Overall, the percentages of total radioactivity applied (18.33 kBq) found in grains were less than 5%. Grains, stems, and leaves showed the highest levels of herbicide residues compared to other parts of the plant. Despite the Roundup Ready ® formulation having increased residues, the highest value found in grains, 1.95 mg kg -1 , was less than 10 mg kg -1 , the maximum residue limit (MRL) in Brazil.

Published

2021

15. Sorption-desorption and biodegradation of sulfometuron-methyl and its effects on the bacterial communities in Amazonian soils amended with aged biochar.

Author

Obregón Alvarez D, Mendes KF, Tosi M, Fonseca de Souza L, Campos Cedano JC, de Souza Falcão NP, Dunfield K, Tsai SM, and Tornisielo VL

Subjects

Adsorption, Bacteria metabolism, Biological Availability, Brazil, Charcoal, RNA, Ribosomal, 16S metabolism, Soil, Biodegradation, Environmental, Herbicides analysis, Soil Pollutants analysis, Sulfonylurea Compounds analysis

Abstract

Sulfometuron-methyl is a broad-spectrum herbicide, used throughout Brazil; however, its environmental impacts in biochar (BC) amended soils is not fully understood. Biochar is known to enhance soil quality but can also have undesired effects such as altering the bioavailability and behavior of herbicides. Microbial communities can degrade herbicides such as sulfometuron-methyl in soils; however, they are known to be affected by BC. Therefore, it is important to understand the tripartite interaction between these factors. This research aimed to evaluate the sorption-desorption and biodegradation of sulfometuron-methyl in Amazonian soils amended with BC, and to assess the effects of the interactions between BC and sulfometuron-methyl on soil bacterial communities. Soil samples were collected from field plots amended with BC at three doses (0, 40 and 80 t ha -1 ) applied ten years ago. The herbicide sorption and desorption were evaluated using a batch equilibrium method. Mineralization and biodegradation studies were conducted in microcosms incubated with 14 C-sulfometuron-methyl for 80 days. Systematic soil sampling, followed by DNA extraction, quantification (qPCR) and 16S rRNA amplicon sequencing were performed. The presence of BC increased the sorption of the herbicide to the soil by 11% (BC40) and 16% (BC80) compared to unamended soil. The presence of BC also affected the degradation of 14 C-sulfometuron-methyl, reducing the mineralization rate and increasing the degradation half-life times (DT50) from 36.67 days in unamended soil to 52.11 and 55.45 days in BC40 and BC80 soils, respectively. The herbicide application altered the bacterial communities, affecting abundance and richness, and changing the taxonomic diversity (i.e., some taxa were promoted and other inhibited). A tripartite interaction was found between BC, the herbicide and soil bacterial communities, suggesting that it is important to consider the environmental impact of soil applied herbicides in biochar amended soils., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

16. Fertiactyl® in mixture with glyphosate decreases herbicide absorption and translocation in coffee seedlings.

Author

Mielke KC, Mendes KF, do Nascimento JLM, Adriano RC, Ferreira LR, and Tornisielo VL

Subjects

Absorption, Physiological, Biological Transport, Glycine pharmacokinetics, Plant Leaves metabolism, Seedlings metabolism, Glyphosate, Coffea metabolism, Fertilizers, Glycine analogs & derivatives, Herbicides pharmacokinetics

Abstract

The application of glyphosate to coffee crops can cause injuries to plants. Fertiactyl ® foliar fertilizer reduces injuries when mixed with glyphosate; however, it is important to establish which mechanisms are responsible for this protective action. This study aimed to evaluate the absorption and translocation of glyphosate applied separately and in mixture with Fertiactyl ® in coffee seedlings. Absorption and translocation were performed with 14 C-glyphosate applied separately and in mixture with Fertiactyl ® at 0, 6, 12, 24, 48, 96, and 144 hours after application (HAA). Most of the 14 C-glyphosate applied to coffee seedlings was not absorbed. The 14 C-glyphosate applied separately had a higher absorption by coffee seedlings (6.5%) than in a mixture with Fertiactyl ® (2.7%) at 144 HAA. The maximum translocation of the 14 C-glyphosate applied separately was 0.69% at 81.2 HAA and in mixture with Fertiactyl ® was 0.41% at 41.2 HAA. The treated leaves retained a higher percentage of 14 C-glyphosate when applied separately (5.6% at 144 HAA) than in a mixture with Fertiactyl ® (2.2% at 144 HAA). Low translocation (<1%) for the rest of the plant shoots was observed both for the 14 C-glyphosate applied separately and in combination with Fertiactyl ® . Therefore, Fertiactyl ® decreased the absorption and translocation of 14 C-glyphosate in coffee seedlings.

Published

2021

17. Phytoremediation of quinclorac and tebuthiuron-polluted soil by green manure plants.

Author

Mendes KF, Maset BA, Mielke KC, Sousa RN, Martins BAB, and Tornisielo VL

Subjects

Biodegradation, Environmental, Manure, Methylurea Compounds, Quinolines, Soil, Herbicides, Soil Pollutants analysis

Abstract

Quinclorac and tebuthiuron are residual herbicides that may remain in the soil longer than for the cropping season. The objective of this research was to evaluate the use of green manure plants to remediate soils treated with quinclorac and tebuthiuron. Soils were separately treated with 14 C-quinclorac and 14 C-tebuthiuron at 266.4 and 132 g ha -1 , respectively. After 21 days, four green manure plants, namely Crotalaria spectabilis , Canavalia ensiformis , Stizolobium aterrimum , and Lupinus albus , were separately sown in the treated soils. Overall, all four species absorbed more 14 C-tebuthiuron [ C. ensiformes (22.49%), S. aterrimum (16.71%), L. albus (15%), and C. spectabilis (4.48%)] than 14 C-quinclorac [ C. ensiformis (13.44%), L. albus (10.02%), S. aterrimum (6.2%), and C. spectabilis (1.75%)]. Quinclorac translocation in all four plants was greater in young leaves compared to old leaves, cotyledons, or roots, and 14 C-tebuthiuron translocation in all four plant species was greater in old leaves and cotyledons compared to young leaves or roots. Regardless of the differences in translocation between the two herbicides, the four green manure plants are capable to remediate soils that have been treated with quinclorac and tebuthiuron. However, C. ensiformis is more efficient for the remediation of tebuthiuron-treated soil compared to the other plants.

Published

2021

18. Cow bonechar decreases indaziflam pre-emergence herbicidal activity in tropical soil.

Author

Mendes KF, Furtado IF, Sousa RN, Lima ADC, Mielke KC, and Brochado MGDS

Subjects

Animals, Cattle, Soil, Tropical Climate, Weed Control, Bone and Bones, Herbicides chemistry, Herbicides pharmacology, Indenes chemistry, Indenes pharmacology, Plant Weeds drug effects, Triazines chemistry, Triazines pharmacology

Abstract

The addition of carbonaceous material such as cow bonechar to the soil can affect the availability of applied pre-emergent herbicides such as indaziflam. However, how cow bonechar affects the bioavailability of indaziflam is not yet known. The aim of this study was to evaluate the effect of cow bonechar on herbicidal activity of indaziflam on weeds in a tropical soil. Cow bonechar was added homogeneously to top soil, at 1, 2, 5, 10, and 20 t ha -1 , in addition to treatment with unamended soil. At 21 days after indaziflam (75 g ha -1 ) application, injury weed levels, weed species that emerged spontaneously were identified and the weeds present in each sampling unit were collected. Only 1.4 t ha -1 cow bonechar added to soil was enough to reduce the weed injury level by 50%. From the addition of 2 t ha -1 cow bonechar the application of indaziflam was not efficient to weed control, being equivalent to treatments without herbicide application. Eight weed species (3 monocots and 5 dicots) were identified in all treatments. Eleusine indica and Digitaria horizontalis accounted for about 99.7% of the entire infestation of the weed community. Cow bonechar decreases indaziflam pre-emergence herbicidal activity in tropical soil for weed control, most likely due to the high sorption and unavailability of the product in the soil solution.

Published

2021

19. Indaziflam sorption-desorption and its three metabolites from biochars- and their raw feedstock-amended agricultural soils using radiometric technique.

Author

Mendes KF, Soares MB, Sousa RN, Mielke KC, Brochado MGDS, and Tornisielo VL

Subjects

Adsorption, Charcoal, Indenes, Soil, Triazines, Herbicides analysis, Soil Pollutants analysis

Abstract

This study aimed to characterize the effect of amending soils with biochars derived from soybean residues, sugarcane bagasse, and wood chips on the sorption-desorption of indaziflam and indaziflam-triazinediamine (FDAT), indaziflam-triazine-indanone (ITI), and indaziflam-carboxylic acid (ICA) metabolites applied to soils from three Midwestern U.S. states, a silt loam and a silty clay loam. Biochars produced from different feedstock were used as soil amendments and compared with raw feedstock. Sorption-desorption experiments of indaziflam and its three metabolites were performed using the batch equilibration method and analyzed for 14 C activity by liquid scintillation counting (radiometric technique). In all soils, the use of organic amendments promoted greater sorption and less desorption of indaziflam and ITI. The addition of biochar to soils promoted greater sorption of the four tested chemical products compared with the corresponding raw materials. Among the biochars, grape wood chips showed greater potential in sorb indaziflam and ITI. In general, none of the biochars affected the sorption and desorption of FDAT and ICA. Characterization of biochar to be used as a soil amendment (immobilizer) is highly recommended prior to field addition to optimize the sorption process and to prevent increased soil and water contamination of indaziflam and its metabolites following biochar addition.

Published

2021

20. Phytoextraction of diuron, hexazinone, and sulfometuron-methyl from the soil by green manure species.

Author

Teófilo TMDS, Mendes KF, Fernandes BCC, Oliveira FS, Silva TS, Takeshita V, Souza MF, Tornisielo VL, and Silva DV

Subjects

Diuron analysis, Herbicides analysis, Saccharum, Soil, Biodegradation, Environmental, Diuron metabolism, Herbicides metabolism, Manure, Soil Pollutants metabolism, Sulfonylurea Compounds metabolism, Triazines metabolism

Abstract

The herbicides diuron, hexazinone, and sulfometuron-methyl present a potential risk of environmental contamination and are widely used for weed control in sugarcane cultivation. Our objectives were to measure the tolerance of Canavalia ensiformes (L.) DC., Stilizobium aterrimum L., Raphanus sativus L., Crotalaria spectabilis Röth, Lupinus albus L., and Pennisetum glaucum (L.) R. Br. To the herbicides diuron, hexazinone, and sulfometuron-methyl to assess the capacity of these species to extract and accumulate the herbicides in their tissues. Before sowing the green manure species, the soils were individually contaminated with the three 14 C-radiolabeled herbicides. 14 C-diuron and 14 C-sulfometuron-methyl showed higher values remaining in the soil (>90%) for all species of green manure compared to hexazinone (<80%). The green manure species analyzed showed greater potential to remedy soils contaminated with hexazinone than the other herbicides. C. ensiformes showed high phytoextraction of hexazinone when compared to the other species, removing 11.2% of the pollutant from the soil, followed by L. albus (8.6%), S. aterrimum (7.3%), R. sativus (4.8%), C. spectabilis (2.5%), and P. glaucum (1.1%). The results indicate that the phytoextraction of diuron, hexazinone and sulfometuron-methyl is dependent on the species of green manure and can be an important tool for the decontamination of areas polluted by these herbicides., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

21. The Dissipative Potential of Gamma Irradiation in Residues of Imidacloprid and Thiamethoxam in the Postharvest of Common Beans.

Author

Armelim JM, Mendes KF, Pimpinato RF, and Tornisielo VL

Subjects

Calibration, Cobalt Radioisotopes, Gamma Rays, Food Irradiation methods, Insecticides analysis, Neonicotinoids analysis, Nitro Compounds analysis, Pesticide Residues analysis, Phaseolus, Thiamethoxam analysis

Abstract

Gamma irradiation ( 60 Co) in postharvest of common beans (Phaseolus vulgaris L.), has already proven beneficial, regarding the prolongation of shelf life and physical, chemical, and organoleptic aspects of grains. However, few prior studies have investigated the effect of gamma irradiation on the dissipation of pesticides in foods, especially insecticides in beans. This study aimed to evaluate the waste dissipation of two insecticides, imidacloprid and thiamethoxam, used in the cultivation of common bean, a variety of Carioca, using gamma irradiation. Ground bean samples were spiked each insecticide in the laboratory at 3, 4, and 5 mg/kg, and were then irradiated at 0, 1, and 2 kGy per irradiator with a 60 Co source. Liquid chromatography-tandem mass spectrometry was used to quantify the insecticides. The irradiation promoted dissipation of thiamethoxam at 1 and 2 kGy doses, with the highest dissipation verified at 2 kGy. In general, at this higher dose of irradiation the reduction dissipation of thiamethoxam was 66% of the mean value found in the treatment without irradiation and ∼44% relative to the 1 kGy dose. Conversely, imidacloprid showed no effect of irradiation on waste dissipation, except in the treatment of 5 mg/kg at 2 kGy dose. From the results, it was concluded that the gamma irradiation might have applicability in dissipating thiamethoxam in real bean samples., Practical Application: Pesticide residues remaining from bean cultivation, sensitive to optimal doses of gamma irradiation, can be transformed into other less harmful or nonharmful substances, increasing the quality of the beans before the food arrives at the consumer's table. Irradiation of the grains after harvest also eliminates the need for application of other pesticides to preserve the grains during storage, as the technique is capable of eradicating deteriorating agents, such as microorganisms and insects., (© 2018 Institute of Food Technologists®.)

Published

2018

22. Role of soil physicochemical properties in quantifying the fate of diuron, hexazinone, and metribuzin.

Author

Guimarães ACD, Mendes KF, Dos Reis FC, Campion TF, Christoffoleti PJ, and Tornisielo VL

Subjects

Brazil, Diuron analysis, Triazines analysis, Herbicides analysis, Soil chemistry, Soil Pollutants analysis

Abstract

The physicochemical properties of soil are fundamental to quantification of the fate of herbicides. Thus, the aim of this research was to evaluate the fate of diuron, hexazinone, and metribuzin in five soils (Clay-1, Clay-2, Loam-1, Loam-2, and Sand), presenting variation in clay content, cation exchange capacity (CEC), pH, and organic carbon (OC). Herbicides radiolabeled with 14 C were applied, and the 14 C-CO 2 released from mineralization was trapped in 0.2 mol L -1 sodium hydroxide solution. The degradation ratio, as well as herbicide-bound residues (non-extractable), transformation products, and residues extractable from soil, was also evaluated. Average 14 C-CO 2 evolution accumulated for diuron mineralization was higher (22.24%) than hexazinone (7.73%) and metribuzin (3.20%). The degradation time half-life (DT50) values for hexazinone correlated with soil OC content. Although no correlation between soil properties and DT50 values was found for metribuzin, the degradation rate and total degree of mineralization were low in sand soil for metribuzin. Regarding diuron, OC content and CEC value appear to be related to mineralization and degradation rate, respectively. Differences in soil properties can influence the persistence and fate of herbicides, affecting their impact on the environment, weed control, and possible effects on subsequent crops.

Published

2018

23. Aminocyclopyrachlor sorption-desorption and leaching from three Brazilian soils.

Author

Francisco JG, Mendes KF, Pimpinato RF, Tornisielo VL, and Guimarães ACD

Subjects

Adsorption, Aluminum Silicates, Brazil, Clay, Herbicides analysis, Herbicides chemistry, Pyrimidines analysis, Soil chemistry, Soil Pollutants analysis, Water Pollutants, Chemical chemistry, Pyrimidines chemistry, Soil Pollutants chemistry

Abstract

This study aimed to evaluate the sorption-desorption and leaching of aminocyclopyrachlor from three Brazilian soils. The sorption-desorption of 14 C-aminocyclopyrachlor was evaluated using the batch method and leaching was assessed in glass columns. The Freundlich model showed an adequate fit for the sorption-desorption of aminocyclopyrachlor. The Freundlich sorption coefficient [K f (sorption) ] ranged from 0.37 to 1.34 µmol (1-1/n) L 1/n kg -1 and showed a significant positive correlation with the clay content of the soil, while the K f (desorption) ranged from 3.62 to 5.36 µmol (1-1/n) L 1/n kg -1 . The K f (desorption) values were higher than their respective K f (sorption) , indicating that aminocyclopyrachlor sorption is reversible, and the fate of this herbicide in the environment can be affected by leaching. Aminocyclopyrachlor was detected at all depths (0-30 cm) in all the studied soils, where leaching was influenced by soil texture. The total herbicide leaching from the sandy clay and clay soils was <0.06%, whereas, ∼3% leached from the loamy sand soil. The results suggest that aminocyclopyrachlor has a high potential of leaching, based on its low sorption and high desorption capacities. Therefore, this herbicide can easily contaminate underground water resources.

Published

2017

24. Quantification of the fate of mesotrione applied alone or in a herbicide mixture in two Brazilian arable soils.

Author

Mendes KF, Martins BA, Dos Reis MR, Pimpinato RF, and Tornisielo VL

Subjects

Acetamides analysis, Biodegradation, Environmental, Brazil, Crops, Agricultural, Half-Life, Triazines analysis, Cyclohexanones analysis, Herbicides analysis, Soil chemistry, Soil Pollutants analysis

Abstract

The effects of mesotrione, S-metolachlor, and terbuthylazine, applied in mixture, on soil biodegradation remain insufficiently researched. However, herbicide mixtures have been a common practice in agricultural systems in the last years. Understanding the fate of soil-applied herbicides may help on planning weed management tactics towards more sustainable and efficient weed control. Therefore, this study evaluated the fate of mesotrione alone and in mixture with S-metolachlor and terbuthylazine when applied to two contrasting arable Brazilian soils. Mineralization and degradation experiments were conducted using 14 C-mesotrione alone or in mixture. From the 49-day laboratory incubation data, increased mineralization half-life of mesotrione was observed for the mixture of herbicides, ranging from a 4-day increase for the sandy loam soil to a 1-day increase in the sandy clay texture soils. Mesotrione degradation rate had a twofold increase in the sandy loam compared to the sandy clay soil. Two metabolites can be identified from mesotrione degradation, 4-methyl-sulfonyl-2-nitrobenzoic acid (MNBA) and 2-amino-4-methylsulfonyl benzoic acid (AMBA). Indices for the score of ubiquity in groundwater indicated mesotrione possesses leaching potential for both soils. Applying mesotrione alone or in mixture did not influence the amount of bound residues from mesotrione. However, mesotrione degradation rate was influenced by soil texture regardless if applied alone or in mixture. Mesotrione biotransformation was relatively quick, indicating that this herbicide has low persistence and, consequently, low residual effect on crops and weeds when present in similar soils to this present study.

Published

2017