Your search keyword '"chlorpyrifos"' showing total 15,751 results

1. Erratum: Addressing chemically-induced obesogenic metabolic disruption: selection of chemicals for in vitro human PPARα, PPARγ transactivation, and adipogenesis test methods.

Subjects

PEROXISOME proliferator-activated receptors, MOLECULAR structure, BENZOIC acid, ADIPOGENESIS, TEST methods, CHLORPYRIFOS, TRICLOSAN, EICOSAPENTAENOIC acid, ESSENTIAL fatty acids

Abstract

The document is a correction notice for a study on chemically-induced obesogenic metabolic disruption, focusing on the selection of chemicals for in vitro human PPARα, PPARγ transactivation, and adipogenesis test methods. It highlights a production error in Tables 2A–C, where molecular structures were incorrectly placed. The corrected tables provide detailed information on selected chemicals, their activity bands, and uses in various industries, pharmaceuticals, and pesticides. [Extracted from the article]

Published

2024

2. MOF-mediated cascade reaction system for ultrasensitive detection of alkaline phosphatase activity and organophosphorus pesticides.

Author

Zhang, Shengyuan, Yang, Ying, Yang, Dezhi, and Yang, Yaling

Abstract

A metal–organic-framework (MOF) fluorescent sensor is reported based on NH2-MIL-101(Fe) propelled pesticide and alkaline phosphatase (ALP) catalytic reaction. Different from previous reports, a cascade reaction system combined with MOF structural changes to generate fluorescence was employed. The rationale is that ALP can hydrolyze L-ascorbic acid 2-phosphate (AAP) into L-ascorbic acid (AA), which can reduce Fe3+ to decompose structurally NH2-MIL-101(Fe), resulting in 2-aminoterephthalic acid (NH2-BDC) with intense fluorescence. The fluorescence can be decreased to different degrees due to inhibition of organophosphate pesticides (OPPs) on the activity of ALP. By taking chlorpyrifos (CPY) as the model compound of an OPP pesticide and adding ALP and CPY into the NH2-MIL-101(Fe) framework, the resulting cascade reaction fluorescence sensors exhibit a good sensitivity for CPY and ALP sensing. The working ranges are 0.02–2 μg/L and 0.2–20 mU/mL with detection limits (LOD) of 5.31 ng/L and 0.05 mU/mL, respectively. The proposed sensor has been actually applied to satisfactory detection of CPY and ALP in food and serum samples. This fluorescence-based assay may extend the application of MOF-based biosensors. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Behavior of Mixed Metal Based Copper–Organic Framework for Uptake of Chlorpyrifos Pesticide from Wastewater and its Antimicrobial Activity.

Author

NourEldin, Basma M., Gahlan, Ahmed A., Mahross, Mahmoud H., and Abdelhameed, Reda M.

Subjects

ESCHERICHIA coli, X-ray powder diffraction, PHYSISORPTION, TRANSMISSION electron microscopy, FOURIER transform infrared spectroscopy

Abstract

Developing effective material for pesticide adsorption is a vital issue to protect the environment from their harmful effects. Copper-based metal–organic frameworks including Cu-BTC and its mixed metal derivatives (Fe-Cu-BTC, Co–Cu-BTC, and Mn-Cu-BTC) were successfully formed. Fe-Cu-BTC, Co–Cu-BTC and Mn-Cu-BTC MOFs were synthesized by direct substituting one Cu atom in Cu-BTC with Fe, Co, or Mn. Their structures were characterized using Powder X-ray diffraction (PXRD), Fourier-transform infrared spectroscopy FTIR, scanning electron microscopy with EDX, Transmission electron microscopy, BET surface area analysis, and Size distribution. Prepared MOFs adsorbed chlorpyrifos from wastewater and their adsorption capacities were compared. Pseudo-second-order kinetics and Langmuir isothermal models were the best to describe the adsorption of chlorpyrifos from water. The coordination bonding was the dominant mechanism; physical adsorption, π-π stacking interaction, and hydrogen bonding were also participated in the adsorption process. Cu-BTC, Fe-Cu-BTC, Co–Cu-BTC and Mn-Cu-BTC had elimination capacities of 379, 851, 683, and 762 mg/g, respectively. This study also investigates their antimicrobial activity against gram-positive and gram-negative bacteria and they exhibited a good inhibition effect. The inhibition zone of Co–Cu-BTC is greater than Cu-BTC with 1.44, 1.38, and 1.60 times for E. coli, Ps. Aeruginosa, S. aureus, respectively. The synthesized MOFs are promising materials for the removal of chlorpyrifos with effective antimicrobial agents. [ABSTRACT FROM AUTHOR]

Published

2024

4. Phytoremediation of Hg and chlorpyrifos contaminated soils using Phaseolus vulgaris L. with biochar, mycorrhizae, and compost amendments.

Author

Vargas, Alejandra, López, Julián E., Jaimes, Adriana, and Saldarriaga, Juan F.

Abstract

Anthropogenic activities, encompassing vast agricultural and industrial operations around the world, exert substantial pressure on the environment, culminating in profound ecological impacts. These activities exacerbate soil contamination problems with pollutants such as mercury (Hg) and chlorpyrifos (CPF) that are notable for their widespread presence and detrimental effects. The objective of this study is to evaluate the phytoremediation potential of Phaseolus vulgaris L., augmented with various combinations of biochar, mycorrhizal, and compost amendments, as a sustainable alternative for the remediation of soils contaminated with Hg and CPF. For this purpose, soil from a mining area with mercury contamination has been taken, to which CPF has been added in different concentrations. Then, previously germinated Phaseolus vulgaris L. seedlings with an average height of 10 cm were planted. Electrical conductivity, pH, organic matter, CPF, and Hg, as well as seedling growth parameters, have been evaluated to determine the processes of absorption of soil contaminants into the plant. A combination of biochar with mycorrhiza has been found to be an optimal choice for CPF and Hg remediation. However, all amendments have proven to be efficient in the remediation processes of the tested contaminants. [ABSTRACT FROM AUTHOR]

Published

2024

5. Maternal exposure to pesticides induces perturbations in the gut microbiota and blood–brain barrier of dams and the progeny, prevented by a prebiotic.

Author

Abou Diwan, Maria, Djekkoun, Narimane, Boucau, Marie-Christine, Corona, Aurélie, Dehouck, Lucie, Biendo, Maurice, Gosselet, Fabien, Bach, Véronique, Candela, Pietra, and Khorsi-Cauet, Hafida

Subjects

LABORATORY rats, PESTICIDE residues in food, GUT microbiome, INULIN, PESTICIDE pollution

Abstract

Exposure to pesticide residues during the first 1000 days of life can disrupt body homeostasis and contribute to chronic metabolic diseases. Perinatal chlorpyrifos (CPF) exposure alters gut microbiota (GM) balance, potentially affecting offspring's health. Given the GM influence on brain function, the primary aim is to determine if pesticide-induced dysbiosis (microbial imbalance) affects indirectly other organs, such as the blood–brain barrier (BBB). The secondary objective is to evaluate the prebiotics protective effects, particularly inulin in promoting microbial balance (symbiosis), in both mothers and offspring. A total of 15 or more female rats were divided in 4 groups: control, oral CPF-exposed (1 mg/kg/day), exposed to inulin (10 g/L), and co-exposed to CPF and inulin from pre-gestation until weaning of pups. Samples from intestines, spleen, liver, and brain microvessels underwent microbiological and biomolecular analyses. Bacterial culture assessed GM composition of living bacteria and their translocation to non-intestinal organs. RT qPCR and Western blotting detected gene expression and protein levels of tight junction markers in brain microvessels. CPF exposure caused gut dysbiosis in offspring, with decreased Lactobacillus and Bifidobacterium and increased Escherichia coli (p < 0.01) leading to bacterial translocation to the spleen and liver. CPF also decreased tight junction's gene expression levels (50 to 60% decrease of CLDN3, p < 0.05). In contrast, inulin partially mitigated these adverse effects and restored gene expression to control levels. Our findings demonstrate a causal link between GM alterations and BBB integrity disruptions. The protective effects of inulin suggest potential therapeutic strategies to counteract pesticide-induced dysbiosis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Enhanced remediation of chlorpyrifos-contaminated soil by immobilized strain Bacillus H27.

Author

Liu, Changrui, Wen, Shengfang, Li, Shuhan, Tian, Yu, Wang, Lanjun, Zhu, Lusheng, Wang, Jun, Kim, Young Mo, and Wang, Jinhua

Subjects

*SOIL remediation, *BACILLUS (Bacteria), *MICROBIAL remediation, *AMMONIA-oxidizing archaebacteria, *RICE hulls

Abstract

• The immobilized bacteria can promote the removal of chlorpyrifos in solution. • The immobilized bacteria can enhance remediation of chlorpyrifos-contaminated soil. • The immobilized bacteria can protect the functional diversity and metabolic activity of the soil microorganism. Chlorpyrifos is a pesticide widely used in agricultural production with a relatively long residual half-life in soil. Addressing the problem of residual chlorpyrifos is of universal concern. In this study, rice hull biochar was used as an immobilized carrier to prepare the immobilized strain H27 for the remediation of chlorpyrifos-contamination soil. Soil microorganisms after remediation were investigated by ecotoxicological methods. The immobilized strain H27 had the highest removal rate of chlorpyrifos when 10% bacterial solution was added to the liquid medium containing 0.075-0.109 mm diameter biochar cultured for 22 hr. This study on the removal of chlorpyrifos by immobilized strain H27 showed that the initial concentration of chlorpyrifos in solution was 25 mg/L, and the removal rate reached 97.4% after 7 days of culture. In the soil, the removal rate of the immobilized bacteria group increased throughout the experiment, which was significantly higher than that of the free bacteria and biochar treatment groups. The Biolog-ECO test, T-RFLP and RT-RCR were used to study the effects of the soil microbial community and nitrogen cycling functional genes during chlorpyrifos degradation. It was found that ICP group had the highest diversity index among the four treatment groups. The microflora of segment containing 114 bp was the dominant bacterial community, and the dominant microflora of the immobilized bacteria group was more evenly distributed. The influence of each treatment group on ammonia-oxidizing bacteria (AOB) was greater than on ammonia-oxidizing archaea (AOA). This study offers a sound scientific basis for the practical application of immobilized bacteria to reduce residual soil pesticides. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

7. 毒死脾水生生物毒性效应研究进展.

Author

张玉龙, 屈佩, 徐可东, 初永忠, 孙畅, 宫于琛, 霍明宇, 王宗灵, 张学雷, and 庞敏

Abstract

Copyright of Asian Journals of Ecotoxicology is the property of Gai Kan Bian Wei Hui and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Enhanced Removal of Chlorpyrifos, Cu(II), Pb(II), and Iodine from Aqueous Solutions Using Ficus Nitida and Date Palm Biochars.

Author

Mahmoud, Essam R. I., Aly, Hesham M., Hassan, Noura A., Aljabri, Abdulrahman, Khan, Asim Laeeq, and F. El-Labban, Hashem

Subjects

WATER purification, PALMS, POROSITY, SCANNING electron microscopy, BIOCHAR, DATE palm

Abstract

This study explores the adsorption efficiency of biochar derived from palm trees and Ficus nitida for the removal of various contaminants, including Cu(II), Pb(II), iodine, and chlorpyrifos from aqueous solutions. Biochar was prepared using a two-step pyrolysis process for date palm biochar and single-step pyrolysis for Ficus nitida biochar. Characterization techniques such as SEM, EDX, and FTIR revealed a significant surface area and a variety of functional groups in both types of biochar, essential for effective adsorption. The date palm biochar exhibited superior adsorption capacities for Cu(II) and Pb(II) ions, achieving efficiencies up to 99.9% and 100%, respectively, due to its high content of oxygen-containing functional groups that facilitated strong complexation and ion exchange mechanisms. Conversely, Ficus nitida biochar demonstrated a higher adsorption capacity for iodine, reaching 68% adsorption compared to 39.7% for date palm biochar, owing to its greater surface area and microporosity. In the case of chlorpyrifos, Ficus nitida biochar again outperformed date palm biochar, achieving a maximum adsorption efficiency of 87% after 24 h of incubation, compared to 50.8% for date palm biochar. The study also examines the effect of incubation time on adsorption efficiency, showing that the adsorption of chlorpyrifos by date palm biochar increased significantly with time, reaching a maximum of 62.9% after 48 h, with no further improvement beyond 12 h. These results highlight the importance of biochar characteristics, such as surface area, pore structure, and functional groups, in determining adsorption efficiency. The findings suggest that optimizing pyrolysis conditions and surface modifications could further enhance the performance of biochar as a cost-effective and sustainable solution for water purification and environmental remediation. [ABSTRACT FROM AUTHOR]

Published

2024

9. Ozone Treatment as a Green Technology for Removing Chlorpyrifos Residues from Vegetables and Its Impact on the Quality of Vegetables.

Author

Osman, Khaled A., Mohamed, Hala H. Elsayed, and Salama, Maher S.

Subjects

*BELL pepper, *SOLID phase extraction, *LEEK, *VEGETABLE quality, *VITAMIN C, *CUCUMBERS

Abstract

Because residues of chlorpyrifos being the most common in vegetables that are generally consumed uncooked and the demand for healthy vegetables has increased, an effective approach to remove these residues from vegetables is necessary. This study aimed to determine how effectively chlorpyrifos residues could be removed from a variety of vegetables by utilizing low concentrations of ozonated water as a green technology over different contact times. Solid-phase extraction was employed, and then residues were analyzed using GC‒MS. The study illustrated that the initial concentration of chlorpyrifos residues in arugula > parsley > leek > tomato > carrot > cucumber > cabbage > bell pepper. The % chlorpyrifos removal ranged 30–83, 91–97, 80–92, 92–95, 87–97, 95–97, 64–100, and 90–97% for bell pepper, tomato, cucumber, carrot, arugula, parsley, cabbage, and leek, respectively. A first-order kinetic model was assumed to explore the removal of chlorpyrifos and degradation rate constants increased as follows: parsley > carrot ≈ leek > arugula > tomato > cucumber > cabbage > bell pepper, with the absence of the chlorpyrifos-oxon which is more toxic than the parent chlorpyrifos after ozone treatments. Importantly, the use of ozonated water for chlorpyrifos removal had no appreciable adverse effects on the total phenolic compound, vitamin C levels, or free radical scavenging activity in most of the tested vegetables. These findings imply that ozone technology is a safe and effective method for eliminating chlorpyrifos from the surface of vegetables, potentially lowering the risk to consumer health. [ABSTRACT FROM AUTHOR]

Published

2024

10. Upconversion-based hydrogel kit with Python-assisted analysis platform for sample-to-result detection of organophosphorus pesticide.

Author

Kong, Minghui, Lu, Yang, Ma, Yuan, Zhao, Xu, Wu, Jiahang, Lu, Geyu, Yan, Xu, and Liu, Xiaomin

Subjects

*ORGANOPHOSPHORUS pesticides, *CHLORPYRIFOS, *DETECTION limit, *HYDROGELS, *PESTICIDE residues in food, *ENVIRONMENTAL monitoring, *PESTICIDE pollution

Abstract

A sensitive platform was constructed for on-site detection of chlorpyrifos by immobilizing a core–shell structured NaYbF 4 @NaYF 4 : Yb3+, Tm3+ UCNPs/MnO 2 composite in calcium alginate hydrogel kit. Specifically, the designed UCNPs fluorescent probe (NaYbF 4 @NaYF 4 : Yb3+, Tm3+) has the blue-violet emission. After mixing with MnO 2 nanoflakes, the blue-violet upconversion (UC) emission is quenched. Thiocholine (TCh), formed through acetylcholinesterase (AChE)-mediated catalysis, reduces MnO 2 nanoflakes to Mn2+ ions, thereby restoring the system's fluorescence. The introduction of chlorpyrifos inhibits AChE activity, accompanied by the quenching of the fluorescence signal. Based on the blue-violet UC emission signal response to chlorpyrifos, fluorescent photos were taken by smartphones. Utilizing a Python-assisted analysis platform, a "one-run" operation simultaneously captures image grayscale values, gray images, and differentiated pseudo-color images related to pesticide concentrations, enabling real-time and rapid quantitative analysis of pesticides. [Display omitted] On-site quantitative analysis of pesticide residues is crucial for monitoring environmental quality and ensuring food safety. Herein, we have developed a reliable hydrogel portable kit using NaYbF 4 @NaYF 4 : Yb, Tm upconversion nanoparticles (UCNPs) combined with MnO 2 nanoflakes. This portable kit is integrated with a smartphone reader and Python-assisted analysis platform to enable sample-to-result analysis for chlorpyrifos. The novel UCNPs maximizes energy donation to MnO 2 acceptor by employing 100 % of activator Yb3+ in the nucleus for NIR excitation energy collection and confining emitter Tm3+ to the surface layer to shorten energy transfer distance. Under NIR excitation, efficient quenching of upconversion blue-violet emission by MnO 2 nanoflakes occurs, and the quenched emission is recovered with acetylcholinesterase-mediated reactions. This process allows for the determination of chlorpyrifos by inhibiting enzymatic activity. The UCNPs/MnO 2 were embedded to fabricate a hydrogel portable kit, the blue-violet emission images captured by smartphone were converted into corresponding gray values by Python-assisted superiority chart algorithm which achieves a real-time rapid quantitative analysis of chlorpyrifos with a detection limit of 0.17 ng mL−1. At the same time, pseudo-color images were also added by Python in "one run" to distinguish images clearly. This sensor detection with Python-assisted analysis platform provides a new perspective on pesticide monitoring and broadens the application prospects in bioanalysis. [ABSTRACT FROM AUTHOR]

Published

2024

11. Adsorptive membrane separation for eco-friendly decontamination of chlorpyrifos via biochar-impregnated cellulose acetate mixed matrix membrane.

Author

Jacob, Meenu Mariam, Ponnuchamy, Muthamilselvi, Kapoor, Ashish, and Sivaraman, Prabhakar

Subjects

SUSTAINABILITY, FOURIER transform infrared spectroscopy, CELLULOSE acetate, CONTACT angle, ADSORPTIVE separation, BIOCHAR, BAGASSE

Abstract

In this work, the phase inversion approach is used to synthesize a blended mixed matrix membrane from cellulose acetate polymer and sugarcane bagasse biochar. The experiments were carried out to estimate the extent of chlorpyrifos (CPS) pesticide removal. The results showed that the removal rate was more than 99% in making the filtered water suitable enough for domestic use. The physical and functional characteristics of the membranes, such as permeability, and contact angle were identified. The changes in the membrane characteristics were observed using scanning electron microscopy, Fourier transform infrared spectroscopy, and X-ray diffraction both before and after the experimental trials. Experiments were conducted to assess not only the rejection characteristics of CPS, as a function feed concentration, but also the effect co-ions on the rejection used to analyze the composition both before and after filtration. The effects of initial CPS concentration, biochar loading, and co-ions on the membrane were investigated. The membranes showed contact angles between 70° and 97° and a permeability between 0.25 × 1010 m Pa−1 s−1 and 0.31 × 1010 m Pa−1 s−1. The effective removal of CPS from the contaminated aqueous stream was attributed to a combination of adsorptive uptake and membrane-based separation. CPS was found to get adsorbed onto the membrane matrix through an intraparticle diffusion mechanism along with an irreversible monolayer adsorption. The membrane-solute adsorptive interaction was represented by Langmuir isotherm and intraparticle diffusion models with a maximum adsorption capacity of 192.3 mg g−1. The findings indicated the efficacy of biochar-cellulose acetate mixed matrix membrane for sustainable and eco-friendly treatment of chlorpyrifos contaminated water. [ABSTRACT FROM AUTHOR]

Published

2024

12. Synergetic studies on the thermochemical activation and polyaniline integration on the adsorption properties of natural coal for chlorpyrifos pesticide: steric and energetic studies.

Author

Talha, Norhan, El-Sherbeeny, Ahmed M., Zoubi, Wail Al, and Abukhadra, Mostafa R.

Subjects

*THERMODYNAMIC functions, *HYDROGEN bonding, *ADSORPTION isotherms, *SURFACE properties, *COAL, *CELLULOSE acetate

Abstract

Three types of synthetic coal-derived adsorbents were characterized as potential enhanced structurers during the removal of chlorpyrifos pesticide. The raw coal (CA) was activated into porous graphitic carbon (AC), and both CA and AC were blended with polyaniline polymers (PANI/CA and PANI/AC) forming two advanced composites. The adsorption performances of the modified structures in comparison with CA were evaluated based on both the steric and energetic parameters of the applied advanced isotherm model (the monolayer model of one energy). The uptake performances reflected higher capacities for the PANI hybridized form (235.8 mg/g (PANI/CA) and 309.75 mg/g (PANI/AC) as compared to AC (156.9 mg/g) and raw coal (135.8 mg/g). This signifies the impact of activation step and PANI blending on the surface and textural properties of coal. The steric investigation determined the saturation of the coal surface with extra active sites after the activation step (Nm(AC) = 62.05 mg/g) and the PANI integration (Nm(PANI/CA) = 113.5 mg/g and Nm(PANI/AC) = 169.7 mg/g) as compared to raw coal (Nm(CA) = 39.6 mg/g). This illustrated the reported uptake efficiencies of the modified samples, which can be attributed to the enhancement in the surface area and the incorporation of additional chemical groups. The results also reflect that each site can be loaded with 3–4 molecules of chlorpyrifos, which are arranged vertically and adsorbed by multi-molecular mechanisms. The energetic studies (< 40 kJ/mol) suggested the physical uptake of pesticide molecules by dipole bonding and hydrogen bonding processes. The thermodynamic functions donate the exothermic properties of 47reactions that occur spontaneously. [ABSTRACT FROM AUTHOR]

Published

2024

13. Polygenic, autosomal, and stable spirotetramat resistance in Chrysoperla carnea resulting in increased fitness.

Author

Hassan, Shoaib and Shad, Sarfraz Ali

Subjects

*PESTICIDE resistance, *CHRYSOPERLA carnea, *CHRYSOPIDAE, *BIOLOGICAL pest control agents, *INTEGRATED pest control, *CHLORPYRIFOS

Abstract

Green lacewing, Chrysoperla carnea (Stephens) is a generalist predator used as a biological control agent in agro ecosystems. In order to use chemical and biological control in an integrated way, it is advantageous to know about natural enemy resistance response to a selected chemical. To determine C. carnea spirotetramat resistance potential, a population collected from the field was selected in the laboratory. Then we determined how spirotetramat resistance was inherited and how much it impacts the fitness of C. carnea. After eighteen selections with spirotetramat, the selected population (Spiro-Sel) of C. carnea had a 47-fold of resistance when compared to an UNSEL population. Inheritance results showed that spirotetramat resistance was inherited as an autosomal, incompletely dominant and polygenic trait. The values of effective dominance decreased from 0.87 (incomplete dominant) to 0.00 (complete recessive) as the concentration of spirotetramat increased from 625 mg/L to 10000 mg/L. The Spiro-Sel strain had no cross resistance to chlorfenapyr (1.10-fold), deltamethrin (1.26-fold) and chlorpyrifos (1.27-fold). After 7 generations without selection pressure resistance to all experimental insecticides in the Spiro-Sel strain was stable. Fitness data of the Spiro-Sel, Cross A, Cross B, UNSEL and susceptible strains of C. carnea showed that spirotetramat resistance increased the fitness of the selected green lacewing population. Life history parameters like fecundity, net reproductive rate, and relative fitness of the Spiro-Sel strain significantly increased when compared to the susceptible or unselected strains of C. carnea. These findings show that C. carnea is a perfect candidate for integrated pest management (IPM) programmes that combine biological control methods with selective pesticide applications to manage a variety of insect pests. Additionally, it would reduce the possibility of pests developing pesticide resistance despite repeated applications. It would be an excellent choice for widespread releases and be effective in most spray programs. [ABSTRACT FROM AUTHOR]

Published

2024

14. Visual detection of chlorpyrifos pesticide residues in foodstuffs using a colorimetric indicator based on copper nanoparticles.

Author

Sheikh, Mahdieh and Shekarchizadeh, Hajar

Subjects

PESTICIDE residues in food, PESTICIDE pollution, COPPER, GLYPHOSATE, FOOD crops

Abstract

Introduction: Accurate and simple detection of pesticide residue amounts in food and crops is crucial for human health protection, food safety, environmental impact, trade, and consumer confidence. Methods: Consequently, a colorimetric indicator based on copper nanoparticles (CuNPs) was developed for the detection of chlorpyrifos in this study. Results: The prepared CuNPs-based colorimetric indicator exhibited color changes from black to green or blue in the presence of chlorpyrifos, visible to the naked eye and without the need for special equipment. An intriguing feature of this indicator was that its color turned blue for chlorpyrifos amounts below the maximum residue limit (MRL) and green for amounts exceeding the MRL. The complex formation of CuNPs with chlorpyrifos via the Cu-S bond, confirmed by FTIR, XPS, and XRD analysis, was responsible for the color change. Subsequently, the structure of CuNPs transitioned from a clustered to an aggregated state, as evident in the TEM images. The selectivity of the synthesized indicator against four other pesticides (glyphosate, malathion, diazinon, and imidacloprid) was investigated, revealing high selectivity against chlorpyrifos. Finally, the performance of the synthesized indicator was validated using real samples, demonstrating its high accuracy and sensitivity. Conclusion: In summary, the prepared indicator represents a promising method for simple, cost-effective, accurate, and highly selective detection of chlorpyrifos. [ABSTRACT FROM AUTHOR]

Published

2024

15. Synthesis, Performance Measurement of Dy 2 EuSbO 7 /ZnBiDyO 4 Heterojunction Composite Catalyst and Photocatalytic Degradation of Chlorpyrifos within Pesticide Wastewater under Visible Light Irradiation.

Author

Luan, Jingfei, Xiao, Yang, Hao, Liang, Yao, Ye, Niu, Bowen, Yang, Guangmin, and Wang, Yichun

Subjects

*PHOTODEGRADATION, *VISIBLE spectra, *HYDROXYL group, *CATALYTIC activity, *POLLUTANTS

Abstract

For the first time, a novel catalyst named Dy2EuSbO7 was successfully synthesized via the high-temperature solid-state sintering method (HTSSM). Dy2EuSbO7/ZnBiDyO4 heterojunction photocatalyst (DZHP) was fabricated through the HTSSM for degrading chlorpyrifos (CPS) in the pesticide wastewater under visible light irradiation (VSLID). Under VSLID, DZHP could effectively degrade CPS in pesticide wastewater. The experimental outcomes suggested that the kinetic curve with the Dy2EuSbO7/ZnBiDyO4 heterojunction (DZH) as a photocatalyst for the reduction of CPS under VSLID conformed to the first-order kinetics (FOKT). After VSLID of 156 min, the photocatalytic degradation (PTD) removal rate of CPS using DZH as photocatalyst was 1.12 times, 1.21 times, or 2.96 times that using Dy2EuSbO7 as a photocatalyst, ZnBiDyO4 as a photocatalyst, or nitrogen-doped titanium dioxide as a photocatalyst. After VSLID of 156 min for four cycle degradation tests (FCDTS) with DZH as a photocatalyst, the removal rate of CPS reached 98.78%, 97.66%, 96.59%, and 95.69%, respectively. Above results indicated that the DZHP possessed high stability. Experiments with the addition of trapping agents showed that hydroxyl radicals (•OH) owned the strongest oxidative removal ability for degrading CPS compared with superoxide anions (•O2−) or holes (h+). The oxidation capacity of three oxidation radicals for eliminating CPS was ranked in the ascending order as follows: h+ < •OH < •O2−. Lastly, the possible degradation pathway and degradation mechanism of CPS were discussed in detail. A visible light responsive heterojunction catalyst with high catalytic activity and a photocatalytic reaction system which were capable of efficiently removing toxic organic pollutants from pesticide wastewater were obtained. [ABSTRACT FROM AUTHOR]

Published

2024

16. Resolving Coffee Waste and Water Pollution—A Study on KOH-Activated Coffee Grounds for Organophosphorus Xenobiotics Remediation.

Author

Milanković, Vedran, Tasić, Tamara, Pašti, Igor A., and Lazarević-Pašti, Tamara

Subjects

*WATER pollution potential, *COFFEE grounds, *COFFEE waste, *MALATHION, *XENOBIOTICS

Abstract

This study investigates using KOH-activated coffee grounds (KACGs) as an effective adsorbent for removing organophosphorus xenobiotics malathion and chlorpyrifos from water. Malathion and chlorpyrifos, widely used as pesticides, pose significant health risks due to their neurotoxic effects and environmental persistence. Spent coffee grounds, abundant biowaste from coffee production, are chemically activated with KOH to enhance their adsorptive capacity without thermal treatment. This offers a sustainable solution for biowaste management and water remediation. Adsorption kinetics indicating rapid initial adsorption with high affinity were observed, particularly for chlorpyrifos. Isotherm studies confirmed favorable adsorption conditions, with higher maximum adsorption capacities for chlorpyrifos compared to malathion (15.0 ± 0.1 mg g−1 for malathion and 22.3 ± 0.1 mg g−1 for chlorpyrifos), highlighting its potential in mitigating water pollution. Thermodynamic analysis suggested the adsorption process was spontaneous but with the opposite behavior for the investigated pesticides. Malathion interacts with KACGs via dipole–dipole and dispersion forces, while chlorpyrifos through π–π stacking with aromatic groups. The reduction in neurotoxic risks associated with pesticide exposure is also shown, indicating that no more toxic products were formed during the remediation. This research contributes to sustainable development goals by repurposing biowaste and addressing water pollution challenges through innovative adsorbent materials. [ABSTRACT FROM AUTHOR]

Published

2024

17. Metformin ameliorates cardiopulmonary toxicity induced by chlorpyrifos.

Author

Farhadi, Ramtin, Daniali, Marzieh, Baeeri, Maryam, Foroumadi, Roham, Gholami, Mahdi, Hassani, Shokoufeh, Mirzababaei, Soheyl, Haghi-Aminjan, Hamed, Navaei-Nigjeh, Mona, Rahimifard, Mahban, and Abdollahi, Mohammad

Subjects

*ORGANS (Anatomy), *REACTIVE oxygen species, *DNA, *HEART failure, *OXIDATIVE stress, *METFORMIN

Abstract

Chlorpyrifos (CPF) is a widely used pesticide that can impair body organs. Nonetheless, metformin is known for its protective role against dysfunction at cellular and molecular levels led by inflammatory and oxidative stress. This study aimed to investigate the modulatory impacts of metformin on CPF-induced heart and lung damage. Following the treatment of Wistar rats with different combinations of metformin and CPF, plasma, as well as heart and lung tissues, were isolated to examine the level of oxidative stress biomarkers like reactive oxygen species (ROS) and malondialdehyde (MDA), inflammatory cytokines such as tumor necrosis alpha (TNF-α), high mobility group box 1 (HMGB1) gene, deoxyribonucleic acid (DNA) damage, lactate, ADP/ATP ratio, expression of relevant genes (TRADD, TERT, KL), and along with histological analysis. Based on the findings, metformin significantly modulates the impairments in heart and lung tissues induced by CPF. [ABSTRACT FROM AUTHOR]

Published

2024

18. Effect of chlorpyrifos on cypermethrin-induced dopaminergic neurotoxicity in rats.

Author

Rawat, Neeraj and Singh, Mahendra Pratap

Subjects

*TYROSINE hydroxylase, *PARKINSON'S disease, *GRIP strength, *PESTICIDES, *CYCLOOXYGENASE 2, *DOPAMINE, *CYPERMETHRIN, *CHLORPYRIFOS

Abstract

The study aimed to investigate the combined effects of chlorpyrifos and cypermethrin combined on dopaminergic neurotoxicity, motor behaviours and level of selected inflammatory proteins in rats compared to either alone for delineating an interaction between these two pesticides. The rotarod and grip strength tests were employed to assess neurobehavioural changes. The striatal dopamine content and expression of tyrosine hydroxylase (TH), α-synuclein, cyclooxygenase-2 (COX-2), and tumour necrosis factor-α (TNF-α) proteins in the nigrostriatal tissue were measured. Chlorpyrifos impaired the neurobehavioural indexes, reduced the striatal dopamine level, augmented the level of α-synuclein, COX-2, and TNF-α and attenuated the expression of TH similar to but a little less than cypermethrin. Half the dose of both pesticides together produced additional neurotoxicity compared with the usual (highest employed) dose of either alone. The results showed that chlorpyrifos induced moderately less dopaminergic neurotoxicity than cypermethrin. In the combination, they produced a little higher toxicity than either pesticide alone. [ABSTRACT FROM AUTHOR]

Published

2024

19. Exploring Astrocytes Involvement and Glutamate Induced Neuroinflammation in Chlorpyrifos-Induced Paradigm Of Autism Spectrum Disorders (ASD).

Author

Varma, Manasi, Bhandari, Ranjana, Sarkar, Ankan, Jain, Manish, Paliwal, Jyoti K., Medhi, Bikash, and Kuhad, Anurag

Subjects

*AUTISM spectrum disorders, *REACTIVE oxygen species, *PAIN perception, *ADOLESCENT development, *SOCIAL skills

Abstract

Autism spectrum disorders (ASD) are neurodevelopmental disorders manifested mainly in children, with symptoms ranging from social/communication deficits and stereotypies to associated behavioral anomalies like anxiety, depression, and ADHD. While the patho-mechanism is not well understood, the role of neuroinflammation has been suggested. Nevertheless, the triggers giving rise to this neuroinflammation have not previously been explored in detail, so the present study was aimed at exploring the role of glutamate on these processes, potentially carried out through increased activity of inflammatory cells like astrocytes, and a decline in neuronal health. A novel chlorpyrifos-induced paradigm of ASD in rat pups was used for the present study. The animals were subjected to tests assessing their neonatal development and adolescent behaviors (social skills, stereotypies, sensorimotor deficits, anxiety, depression, olfactory, and pain perception). Markers for inflammation and the levels of molecules involved in glutamate excitotoxicity, and neuroinflammation were also measured. Additionally, the expression of reactive oxygen species and markers of neuronal inflammation (GFAP) and function (c-Fos) were evaluated, along with an assessment of histopathological alterations. Based on these evaluations, it was found that postnatal administration of CPF had a negative impact on neurobehavior during both the neonatal and adolescent phases, especially on developmental markers, and brought about the generation of ASD-like symptoms. This was further corroborated by elevations in the expression of glutamate and downstream calcium, as well as certain cytokines and neuroinflammatory markers, and validated through histopathological and immunohistochemical results showing a decline in neuronal health in an astrocyte-mediated cytokine-dependent fashion. Through our findings, conclusive evidence regarding the involvement of glutamate in neuroinflammatory pathways implicated in the development of ASD-like symptoms, as well as its ability to activate further downstream processes linked to neuronal damage has been obtained. The role of astrocytes and the detrimental effect on neuronal health are also concluded. The significance of our study and its findings lies in the evaluation of the involvement of chlorpyrifos-induced neurotoxicity in the development of ASD, particularly in relation to glutamatergic dysfunction and neuronal damage. [ABSTRACT FROM AUTHOR]

Published

2024

20. Highly Porous Cellulose-Based Carbon Fibers as Effective Adsorbents for Chlorpyrifos Removal: Insights and Applications.

Author

Tasić, Tamara, Milanković, Vedran, Unterweger, Christoph, Fürst, Christian, Breitenbach, Stefan, Pašti, Igor A., and Lazarević-Pašti, Tamara

Subjects

ADSORPTION capacity, ADSORPTION kinetics, CARBON fibers, CHLORPYRIFOS, NEUROTOXICOLOGY

Abstract

The extensive utilization of the organophosphate pesticide chlorpyrifos, combined with its acute neurotoxicity, necessitates the development of effective strategies for its environmental removal. While numerous methods have been explored for chlorpyrifos removal from water, adsorption is the most promising. We investigated the potential of two cellulose-derived porous carbons as adsorbents for chlorpyrifos removal from water, prepared by either CO2 or H2O activation, resulting in similar morphologies and porosities but different amounts of heteroatom functionalities. The kinetics of batch adsorption removal from water fits well with the pseudo-first-order and pseudo-second-order kinetic models for both materials. The Freundlich, Langmuir, Dubinin–Radushkevich, and Sips isotherm models described the process of chlorpyrifos adsorption very well in all investigated cases. The maximum adsorption capacity determined from the Sips isotherm model gave values of 80.8 ± 0.1 mg g−1 and 132 ± 3 mg g−1 for the H2O and CO2 activated samples, respectively, reflecting the samples' differences in heteroatom functionalities. Additionally, the application of either adsorbent led to reduced toxicity levels in all tested samples, implying that no harmful by-products were generated during adsorption. Comparative analysis with the existing literature further validates the study's findings, suggesting the efficacy and applicability of cellulose-based porous carbons for sustainable chlorpyrifos remediation. [ABSTRACT FROM AUTHOR]

Published

2024

21. Resolving Coffee Waste and Water Pollution—A Study on KOH-Activated Coffee Grounds for Organophosphorus Xenobiotics Remediation

Author

Vedran Milanković, Tamara Tasić, Igor A. Pašti, and Tamara Lazarević-Pašti

Subjects

pesticides, malathion, chlorpyrifos, adsorption, AChE, neurotoxicity, Therapeutics. Pharmacology, RM1-950, Toxicology. Poisons, RA1190-1270

Abstract

This study investigates using KOH-activated coffee grounds (KACGs) as an effective adsorbent for removing organophosphorus xenobiotics malathion and chlorpyrifos from water. Malathion and chlorpyrifos, widely used as pesticides, pose significant health risks due to their neurotoxic effects and environmental persistence. Spent coffee grounds, abundant biowaste from coffee production, are chemically activated with KOH to enhance their adsorptive capacity without thermal treatment. This offers a sustainable solution for biowaste management and water remediation. Adsorption kinetics indicating rapid initial adsorption with high affinity were observed, particularly for chlorpyrifos. Isotherm studies confirmed favorable adsorption conditions, with higher maximum adsorption capacities for chlorpyrifos compared to malathion (15.0 ± 0.1 mg g−1 for malathion and 22.3 ± 0.1 mg g−1 for chlorpyrifos), highlighting its potential in mitigating water pollution. Thermodynamic analysis suggested the adsorption process was spontaneous but with the opposite behavior for the investigated pesticides. Malathion interacts with KACGs via dipole–dipole and dispersion forces, while chlorpyrifos through π–π stacking with aromatic groups. The reduction in neurotoxic risks associated with pesticide exposure is also shown, indicating that no more toxic products were formed during the remediation. This research contributes to sustainable development goals by repurposing biowaste and addressing water pollution challenges through innovative adsorbent materials.

Published

2024

22. Synergetic studies on the thermochemical activation and polyaniline integration on the adsorption properties of natural coal for chlorpyrifos pesticide: steric and energetic studies

Author

Norhan Talha, Ahmed M. El-Sherbeeny, Wail Al Zoubi, and Mostafa R. Abukhadra

Subjects

Coal, Activation, Polyaniline, Composites, Chlorpyrifos, Adsorption, Medicine, Science

Abstract

Abstract Three types of synthetic coal-derived adsorbents were characterized as potential enhanced structurers during the removal of chlorpyrifos pesticide. The raw coal (CA) was activated into porous graphitic carbon (AC), and both CA and AC were blended with polyaniline polymers (PANI/CA and PANI/AC) forming two advanced composites. The adsorption performances of the modified structures in comparison with CA were evaluated based on both the steric and energetic parameters of the applied advanced isotherm model (the monolayer model of one energy). The uptake performances reflected higher capacities for the PANI hybridized form (235.8 mg/g (PANI/CA) and 309.75 mg/g (PANI/AC) as compared to AC (156.9 mg/g) and raw coal (135.8 mg/g). This signifies the impact of activation step and PANI blending on the surface and textural properties of coal. The steric investigation determined the saturation of the coal surface with extra active sites after the activation step (Nm(AC) = 62.05 mg/g) and the PANI integration (Nm(PANI/CA) = 113.5 mg/g and Nm(PANI/AC) = 169.7 mg/g) as compared to raw coal (Nm(CA) = 39.6 mg/g). This illustrated the reported uptake efficiencies of the modified samples, which can be attributed to the enhancement in the surface area and the incorporation of additional chemical groups. The results also reflect that each site can be loaded with 3–4 molecules of chlorpyrifos, which are arranged vertically and adsorbed by multi-molecular mechanisms. The energetic studies (

Published

2024

23. Histological and Behavioral Alterations of the Striped Catfish P. Hypophthalmus Exposed to Chlorpyrifos

Author

Chhaba, Bhagchand, Dhamagaye, HB, Pawase, AS, Sapkale, PH, Meshram, SJ, Chavan, BR, Goud, E Arun, and Hanmante, Anand A

Published

2024

24. Adsorption of chlorpyrifos in water using polyaniline/graphene oxide composites.

Author

Mohapatra, Sachidananda, Sahoo, Rajat Kumar, Nayak, Rajesh Kumar, Panda, Bishnu Prasad, Konarde, Mayureshwar Sunil, NR, Aswathy, and Mohapatra, Aswini Kumar

Subjects

*GRAPHENE oxide, *DISPERSING agents, *FOURIER transform infrared spectroscopy, *POLLUTANTS, *SCANNING electron microscopy, *POLYANILINES

Abstract

Graphene oxide and polyaniline have some unique properties and are considered as new generation materials for various applications. One major application of these materials is the adsorption of pollutants. In this study, Graphene oxide was synthesized with different levels of oxidation by using the modified Hummers method. Polyaniline/graphene oxide composite was synthesized by in situ polymerization with GO loading at 10% and 50% and further the composite is casted inside a disposable syringe by using N-methyl-2-pyrrolidone (NMP) as a dispersing agent. An adsorption experiment was carried out for water containing pesticide chlorpyrifos. The produced materials were characterized by FTIR spectroscopy & and XRD. Morphology was studied by SEM images. The FTIR spectra shows the formation of functional groups like -OH, -COOH on graphene, which may increase the hydrophilicity and adsorption properties. FTIR spectra of the composite portrayed the formation of bonds between polyaniline and graphene oxide. XRD peaks were obtained corresponding to crystals of polyaniline and graphite sheets. The adsorption efficiency was determined by analysis of water samples before and after filtration by using GC-MS. The composite produced with 50% amount of GO showed optimum results for the removal of chlorpyrifos. However, the composite with 10% GO loading is showing very low efficiency for the removal of chlorpyrifos. The PANI/GO composite is a possible candidate for the treatment of river water polluted by agricultural pollutants. [ABSTRACT FROM AUTHOR]

Published

2024

25. Are Pesticide Residues Found in the Oranges Produced in Sari?

Author

Narges Mazloomi, Ebrahim Salehifar, Mohammadhosein Esfahanizadeh, Hashem Ghezelsofla, Keyvan Mahdavi Mashaki, Esmaeil Babanezhad, and Laleh Karimzadeh

Subjects

preharvest interval, oranges, pesticides, ethion, chlorpyrifos, pyriproxyfen, Medicine, Medicine (General), R5-920

Abstract

Background and purpose: Today, ensuring food security for the inhabitants of the earth, and preserving agricultural production from destruction due to drought, pests, and diseases, seems more necessary than ever. Farmers across the world are forced to use various pesticides to combat factors that reduce production, but these toxins not only remain on the surface of the products but also penetrate the tissues of fruits, vegetables, and even grains. Although washing fruits or peeling them can be effective in reducing surface contamination of pesticides, removing their toxic effects from the internal tissues of fruits is almost impossible. In such a way most agricultural products that have been exposed to pesticides and are presented to the market shortly after spraying contain pesticide residues. Although the use of pesticides and chemical fertilizers in modern agriculture significantly increases agricultural products, it should be noted that excessive use of pesticides in agricultural production leads to higher levels of pesticide residues in agricultural products exceeding the Maximum Residue Limit, which is considered a risk factor for human health and environmental pollution. The negative effects of chemical toxins on health include various types of cancers, neurological diseases, diabetes, respiratory diseases, failures, fetal diseases, genetic problems, and harmful effects on the environment such as pest resistance, their dominance, and the disappearance of beneficial insects. Considering that citrus fruits are considered a strategic product in Mazandaran province, this research was conducted to investigate the level of pesticide residues in citrus orchards in Sari County. Materials and methods: The residues of pesticides in the citrus fruits produced in Sari county were investigated in areas monitored by the Agricultural Jihad Organization, the Agricultural Research Center, and Natural Resources of Mazandaran province, to control the type, method of pesticide use, and observing the withholding period. In this study, 15 oranges fruit samples were examined. Each sample was approximately 1 kilogram of each product, which was transferred to the food control laboratory of Mazandaran University of Medical Sciences at a temperature of 4 degrees Celsius. The samples were prepared using the QuEChERS method. The consumption and residue levels of pesticides were identified using the GC-MS method. The Food and Drug Organization and the National Standard Organization of Iran (ISIRI) declared 200 types of pesticides as the most commonly used pesticides in citrus orchards, which were evaluated for their residues in this research. Results: Totally, 3 types of pesticides including Chlorpyrifos, Ethion (Class II), and Pyriproxyfen (Class U) were identified, with Chlorpyrifos being the most commonly used. None of the identified pesticides belonged to Class Ia or Class Ib. Among the identified pesticides, the residue of Ethion exceeded the Maximum Residue Limit (MRL) set by ISIRI. Conclusion: Given the role of pesticides in food safety and environmental pollution, efforts to reduce the use of pest control poisons to minimize the risk to human health and the environment remain challenging and a valuable goal. Although monitoring of production by executive organizations has led to a significant reduction in pesticide consumption, in some cases, residues higher than the permissible limit are still observed. Also, it should be noted that pesticide residues can become environmental pollutants by entering the soil and water. Therefore, along with increasing farmers' awareness, the expansion, substitution, and implementation of Integrated Pest Management (IPM) are still significant for environmental preservation and cost reduction.

Published

2024

26. Exploring sources of inaccuracy and irreproducibility in the CDC bottle bioassay through direct insecticide quantification

Author

Evah F. Peard, Calvin Luu, Kimberly J. Hageman, Rose Sepesy, and Scott A. Bernhardt

Subjects

Susceptibility bioassay, Dose-response curves, Lethal concentration, Chlorpyrifos, Lambda-cyhalothrin, Organophosphate, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The Centers for Disease Control and Prevention (CDC) bottle bioassay is a commonly used susceptibility test for measuring insect response to insecticide exposure. However, inconsistencies and high variability in insect response when conducting CDC bottle bioassays have been reported in previous publications. We hypothesized that the CDC bottle bioassay results may be compromised when expected and actual insecticide concentrations in the bottles are not equivalent and that inadequate bottle cleaning and/or loss during insecticide introduction and bottle storage steps could be responsible. We explored this hypothesis by quantifying insecticides using gas chromatography tandem mass spectrometry (GC-MS/MS) in bottles that had been cleaned, prepared, and stored according to the CDC guidelines. Methods We investigated the bottle cleaning, preparation, and storage methods outlined in the CDC bottle bioassay procedure to identify sources of irreproducibility. We also investigated the effectiveness of cleaning bottles by autoclaving because this method is commonly used in insecticide assessment laboratories. The two insecticides used in this study were chlorpyrifos and lambda-cyhalothrin (λ-cyhalothrin). Insecticides were removed from glass bioassay bottles by rinsing with ethyl-acetate and n-hexane and then quantified using GC-MS/MS. Results The CDC bottle bioassay cleaning methods did not sufficiently remove both insecticides from the glass bottles. The cleaning methods removed chlorpyrifos, which has higher water solubility, more effectively than λ-cyhalothrin. Chlorpyrifos experienced significant loss during the bottle-coating process whereas λ-cyhalothrin did not. As for bottle storage, no significant decreases in insecticide concentrations were observed for 6 h following the initial drying period for either insecticide. Conclusions The CDC bottle bioassay protocol is susceptible to producing inaccurate results since its recommended bottle cleaning method is not sufficient and semi-volatile insecticides can volatilize from the bottle during the coating process. This can lead to the CDC bottle bioassay producing erroneous LC50 values. High levels of random variation were also observed in our experiments, as others have previously reported. We have outlined several steps that CDC bottle bioassay users could consider that would lead to improved accuracy and reproducibility when acquiring toxicity data. Graphical Abstract

Published

2024

27. Assessing organophosphate insecticide retention in muscle tissues of juvenile common carp fish under acute toxicity tests

Author

Imtiyaz Qayoom, Masood Balkhi, Malik Mukhtar, Adnan Abubakr, Uzma Siddiqui, Sameena Khan, Asma Sherwani, Ishrat Jan, Riyazali Sayyed, and Andrea Mastinu

Subjects

Bioaccumulation, Chlorpyrifos, Dimethoate, Cyprinus carpio, Toxicity, Bio-concentration factor, Toxicology. Poisons, RA1190-1270

Abstract

Organophosphate insecticide spray poses potential threat of contamination of environmental components their accumulation in aquatic organisms. Although various physiological deficits associated with their exposure in fishes are documented, yet their retention in their edible muscle tissues has been poorly studied. In this context, the study was undertaken to ascertain the bioaccumulation of two organophosphate insecticide compounds (dimethoate and chlorpyrifos) in the muscles of juvenile Cyprinus carpio. The study could provide insight into the risks to human health associated with consuming contaminated fish flesh. The fishes exposed to various concentrations of dimethoate and chlorpyrifos in-vivo for 96 to ascertain the uptake and retention of these insecticides in the muscle. Results indicated that fish muscles accumulated the residues at all the concentrations with the recovery of 2.99% (0.032 ppm) of dimethoate exposed to LC50 concentrations. In contrast, the chlorpyrifos residues were found Below the Detection Level (BDL) in the fishes exposed to LC50 concentrations. The percentage bioaccumulation of dimethoate in fish muscle was 88.10%, and that of chlorpyrifos was BDL. The bio-concentration factor was dose-dependent and increased with increasing doses of both insecticides. The study invites attention to human health risk assessment in the regions where contaminated fish are consumed without scientific supervision.

Published

2024

28. Evaluating the augmented effect of potential plant growth promoting cyanobacterial strains on salinity and insecticidal stress tolerance of Oryza sativa L. under hydroponic cultivation.

Author

Gayathri, Manickam, Shunmugam, Sumathy, Sridhar, Jayavel, and Muralitharan, Gangatharan

Abstract

Cyanobacteria are essential in paddy fields, aiding soil fertility. Soil pollution, caused by excessive chemical fertilizers and pesticides, poses a global crisis. To use cyanobacterial biofertilizers effectively, strains need to tolerate and break down these agrochemicals, including herbicides. This study examined the ability of potential plant growth promoting cyanobacterial strains Nostoc commune MBDU 101 and Scytonema bohneri MBDU 104 to tolerate salinity - NaCl (100 mM) and chlorpyrifos (5 mg L-1) stress of Oryza sativa L. grown under hydroponic conditions, both individually and in combination with each other. These cyanobacterial strains have already been proven for their ability to produce phytohormones and are now assessed for their salinity and insecticide tolerance through growth parameters, including chlorophyll, carotenoids, and protein content, over 24 days under test conditions. Those treatments that demonstrated optimal cyanobacterial growth were subsequently tested for their impact on O. sativa L. under hydroponic conditions along with a control group. Notably, N. commune MBU101 under chlorpyrifos stress showed distinctive positive effects on plant growth, with a shoot length of 3.18 cm, seedling length of 6.68 cm, 13 lateral roots, and a leaf length of 6.73 cm. Scytonema bohneri MBDU 104 (SB104) exposed to NaCl stress exhibited the highest seedling weight among all treatments and the control. GC-MS analysis of N. commune revealed the presence of 3,5,6-trichloro-2-methoxypyridine (TMP) and 3,5,6-trichloro-2-pyridinol (TCP) as degradation products of chlorpyrifos. These findings emphasize the potential of these cyanobacterial strains in enhancing soil health and crop growth while mitigating the environmental impact of agrochemicals. [ABSTRACT FROM AUTHOR]

Published

2024

29. Pesticide Induced Oxidative Stress on Non-target Organism Labeo rohita.

Author

PESALA, RAVI SEKHAR and YERRAGUDI, SAVITHRI

Abstract

The application of pesticides in agricultural activities can result in their runoff into water bodies, causing water contamination. This contamination poses a threat to water quality, rendering it harmful to aquatic organisms. This study investigated the acute toxic effects of the synthetic pyrethroid pesticide cypermethrin and the organophosphate pesticide chlorpyrifos, both individually and in combination, on the antioxidant enzyme activities viz., Xanthine oxidase (XOD), Superoxide dismutase (SOD) and Catalase (CAT) in the liver and gill tissues of the fish, Labeo rohita. L. rohita were exposed to sub-lethal concentrations of cypermethrin and chlorpyrifos individually and in combination for 7 days. The concentrations used were 1/10th of the LC50 dosage for individual treatments (0.308 µg/L for cypermethrin and 44.28 µg/L for chlorpyrifos) and 1/20th of the LC50 for the combined treatment (0.154µg/L for cypermethrin + 22.14µg/L for chlorpyrifos). The findings of this study revealed a significant (P<0.05) increase in the activities of Xanthine oxidase (XOD), Superoxide dismutase (SOD) and Catalase (CAT) in both liver and gill tissues compared to the control group. The observed alterations were more pronounced in the combined treatment as compared to individual exposures, suggesting a potential synergistic effect of cypermethrin and chlorpyrifos. [ABSTRACT FROM AUTHOR]

Published

2024

30. Photocatalytic degradation of organophosphorus pesticide Chlorpyrifos using CdS/NiS nanocomposite.

Author

Bansal, Neha and Kumar, Ashavani

Abstract

Chlorpyrifos (CPS) is a nerve poisoning organophosphate pesticide that inhibits acetylcholinesterase enzyme and badly impacts the nervous system and disruption of hormones in living beings. Heterostructured semiconductor photocatalysts show outstanding adsorption of organic contaminants for environmental remediation. In this study, we have synthesized CdS/NiS nanocomposite via hydrothermal method and use NCs as promising water splitting photocatalyst. The prepared NCs were characterized by X-ray diffraction, SEM–EDX, PL, UV–visible, and electrochemical impedance spectroscopy (EIS). X-ray diffraction (XRD) results indicate that as synthesized CdS/NiS nanocomposite is composed of hexagonal CdS and rhombohedral structured NiS. Energy-dispersive X-ray (EDX) gives the information of elemental composition, and the luminescence and band gap determination were done using PL and UV–visible spectroscopy. The CdS/NiS nanocomposite showed the enhanced optical properties as compared to CdS which confirmed the successful charge separation. The degradation of chlorpyrifos was therefore monitored to determine the efficiency of CdS/NiS hetrostructured photocatalyst and it was observed that 95.39% of CPS removal achieved within 110 min with 20 mg photocatalyst amount and 250 ppm concentration of pollutant. The electrochemical measurement indicated low charge transfer resistance (60.63 Ω) of CdS/NiS nanocomposite which infers high charge separation, also complemented by low emission peak intensity in PL spectrum. Scavenger tests are used to investigate the reactive species in photocatalytic reaction process. Further, the reusability of photocatalyst, when studied on fresh sample of CPS pesticide, the degradation efficiency decreased from 95.39 to 91.31%, indicating the efficient reusability of CdS/NiS nanocomposite. Compared to CdS, CdS/NiS nanocomposite exhibits the greater photocatalytic degradation rate under the irradiation of visible light. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effects of acute toxicity of the pesticide Chlorpyrifos and the metal Cadmium, both individually and in mixtures, on two species of native neotropical cladocerans.

Author

Raymundo, Larissa Broggio, Gomes, Diego Ferreira, Miguel, Mariana, Moreira, Raquel Aparecida, and Rocha, Odete

Subjects

ECOLOGICAL risk assessment, ACUTE toxicity testing, CADMIUM, CHLORPYRIFOS, FENITROTHION, INDUSTRIAL metals, PESTICIDES, ORGANOPHOSPHORUS pesticides

Abstract

The excessive use of pesticides in agriculture and the widespread use of metals in industrial activities and or technological applications has significantly increased the concentrations of these pollutants in both aquatic and terrestrial ecosystems worldwide, making aquatic biota increasingly vulnerable and putting many species at risk of extinction. Most aquatic habitats receive pollutants from various anthropogenic actions, leading to interactions between compounds that make them even more toxic. The aim of this study was to assess the effects of the compounds Chlorpyrifos (insecticide) and Cadmium (metal), both individually and in mixtures, on the cladocerans Ceriodaphnia rigaudi and Ceriodaphnia silvestrii. Acute toxicity tests were conducted for the compounds individually and in mixture, and an ecological risk assessment (ERA) was performed for both compounds. Acute toxicity tests with Cadmium resulted in EC50-48 h of 0.020 mg L−1 for C. rigaudi and 0.026 mg L−1 for C. silvestrii, while tests with Chlorpyrifos resulted in EC50-48 h of 0.047 μg L−1 and 0.062 μg L−1, respectively. The mixture test for C. rigaudi showed the occurrence of additive effects, while for C. silvestrii, antagonistic effects occurred depending on the dose level. The species sensitivity distribution curve for crustaceans, rotifers, amphibians, and fishes resulted in an HC5 of 3.13 and an HC50 of 124.7 mg L−1 for Cadmium; an HC5 of 9.96 and an HC50 of 5.71 μg L−1 for Chlorpyrifos. Regarding the ERA values, Cadmium represented a high risk, while Chlorpyrifos represented an insignificant to a high risk. [ABSTRACT FROM AUTHOR]

Published

2024

32. Design of silver nanoparticle‐embedded nano zirconium‐based metal–organic frameworks for highly sensitive detection of chlorpyrifos in real samples.

Author

Mahajan, Mahendra R. and Patil, Pravin O.

Abstract

Chlorpyrifos (CPS) is widely found in food and water sources due to agricultural use, posing health and environmental risks. Therefore, this work introduces a fluorescent sensor design of silver nanoparticle‐embedded nano zirconium‐based metal–organic frameworks (UiO‐66‐NH2@AgNPs) for accurate examination of CPS. Briefly, UiO‐66‐NH2 was synthesized hydrothermally, exhibiting weak luminescence owed to ligand‐to‐metal charge transfer (LMCT). Here, it limits its direct utility in fluorescence‐based detection. To address this limitation, silver nanoparticles (AgNPs) were introduced into UiO‐66‐NH2, enhancing fluorescence via the metal‐enhanced fluorescence (MEF) effect. Briefly, a comprehensive spectral analysis such as XPS, SEM, TEM, PXRD, etc., was performed to validate the synthesis of UiO‐66‐NH2@AgNPs. Subsequent evaluation revealed that CPS effectively quenched the luminescence intensity of UiO‐66‐NH2@AgNPs through a static quenching mechanism. The fluorescence intensity exhibited good linearity with CPS concentration in the span of 10 to 1,000 ng/mL, with a recognition limit of 191.5 ng/mL(S/N = 3). The interaction involved Ag‐S bond formation and electrostatic interactions, reducing fluorescence intensity. The method was confirmed through successful CPS detection in fruit samples. The UiO‐66‐NH2@AgNPs nanoprobe offers a simple, sensitive, and accurate platform for CPS sensing, with potential for future use in detecting CPS in fruits and vegetables. [ABSTRACT FROM AUTHOR]

Published

2024

33. Increased Levels of Phosphorylated-P38α Induce WNT/β-Catenin and NGF/P75NTR/TrkA Pathways Disruption and SN56 Cell Death following Single and Repeated Chlorpyrifos Treatment.

Author

Moyano, Paula, Flores, Andrea, Fernández, María de la Cabeza, García, Jimena, Sanjuan, Javier, Plaza, José Carlos, and Del Pino, Javier

Subjects

LEARNING disabilities, MEMORY disorders, COGNITION disorders, CELL death, PROSENCEPHALON

Abstract

Chlorpyrifos (CPF) biocide, exposure to which is mainly produced in the human population through diet, induces several neurotoxic effects. CPF single and repeated exposure induces memory and learning disorders, although the mechanisms that produce these outcomes are complex and not well understood. CPF treatment (single and repeated) of cholinergic septal SN56 cells induced an increase in phosphorylated-P38α levels that led to WNT/β-Catenin and NGF/P75NTR/TrkA pathways disruption and cell death. These results provide new knowledge on the mechanisms that mediate CPF basal forebrain cholinergic neuronal loss induced by CPF single and repeated exposure and can help unravel the way through which this compound produces cognitive decline and develop efficient treatments against these effects. [ABSTRACT FROM AUTHOR]

Published

2024

34. A Sensitive SERS Sensor Combined with Intelligent Variable Selection Models for Detecting Chlorpyrifos Residue in Tea.

Author

Yang, Hanhua, Qian, Hao, Xu, Yi, Zhai, Xiaodong, and Zhu, Jiaji

Subjects

SERS spectroscopy, THRESHOLDING algorithms, INTELLIGENT sensors, CHLORPYRIFOS, DETECTION limit

Abstract

Chlorpyrifos is one of the most widely used broad-spectrum insecticides in agriculture. Given its potential toxicity and residue in food (e.g., tea), establishing a rapid and reliable method for the determination of chlorpyrifos residue is crucial. In this study, a strategy combining surface-enhanced Raman spectroscopy (SERS) and intelligent variable selection models for detecting chlorpyrifos residue in tea was established. First, gold nanostars were fabricated as a SERS sensor for measuring the SERS spectra. Second, the raw SERS spectra were preprocessed to facilitate the quantitative analysis. Third, a partial least squares model and four outstanding intelligent variable selection models, Monte Carlo-based uninformative variable elimination, competitive adaptive reweighted sampling, iteratively retaining informative variables, and variable iterative space shrinkage approach, were developed for detecting chlorpyrifos residue in a comparative study. The repeatability and reproducibility tests demonstrated the excellent stability of the proposed strategy. Furthermore, the sensitivity of the proposed strategy was assessed by estimating limit of detection values of the various models. Finally, two-tailed paired t-tests confirmed that the accuracy of the proposed strategy was equivalent to that of gas chromatography–mass spectrometry. Hence, the proposed method provides a promising strategy for detecting chlorpyrifos residue in tea. [ABSTRACT FROM AUTHOR]

Published

2024

35. In-vitro Toxicity of Synthetic Insecticides against Subterranean Termites, Coptotermes heimi (Isoptera: Rhinotermitidae).

Author

Qasim, Muhammad, Majeed, Muhammad Zeeshan, Arshad, Muhammad, Abbas, Umair, Shehzad, Mehar Zubair, and Muhammad Raza, Abu Bakar

Abstract

Subterranean termites cause significant damage to agricultural crops and wooden infrastructures worldwide. Coptotermes and Odontotermes were found as the most abundant and damaging genera of subterranean termites in Pakistan. Many conventional synthetic insecticides are being used to combat termite infestations with often unsatisfactory control results. This study assessed the comparative toxicity of some prevailing synthetic insecticides with different modes of action against subterranean termites Coptotermes heimi Wasmann (Isoptera: Rhinotermitidae) which was found as a dominant termite species in district Sargodha. Filter paper disc-based bioassays revealed that all insecticides showed a significant impact (P < 0.001) on the mortality of C. heimi workers and this mortality response was directly proportional to insecticidal concentrations and exposure times. Significantly higher mortality was recorded by chlorpyrifos (100.0%) and fipronil (95.0%) at 72 h post-exposure with minimum LC50 values of 1.29 and 2.04%, respectively. Similar trend of effectiveness was exhibited by their LT50 values. Minimum mortality of C. heimi workers was recorded by the formulations of chlorantraniliprole and abamectin. Based on overall study results, it is concluded that chlorpyrifos and fipronil are effective synthetic termiticides and are recommended to the indigenous farmers for combatting subterranean termite infestations. [ABSTRACT FROM AUTHOR]

Published

2024

36. 金银合金纳米星/聚氯乙烯柔性表面增强拉曼基底的 制备及其对毒死蜱的检测

Author

宋芷仪, 崔琅, 潘越, 娄勤卿, 王书婷, 王周平, and 马小媛

Subjects

SERS spectroscopy, SUBSTRATES (Materials science), POLYVINYL chloride, SILVER nitrate, CHLORPYRIFOS

Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Exploring sources of inaccuracy and irreproducibility in the CDC bottle bioassay through direct insecticide quantification.

Author

Peard, Evah F., Luu, Calvin, Hageman, Kimberly J., Sepesy, Rose, and Bernhardt, Scott A.

Subjects

*INSECTICIDES, *BIOLOGICAL assay, *GLASS bottles, *TANDEM mass spectrometry, *BOTTLES, *COATING processes

Abstract

Background: The Centers for Disease Control and Prevention (CDC) bottle bioassay is a commonly used susceptibility test for measuring insect response to insecticide exposure. However, inconsistencies and high variability in insect response when conducting CDC bottle bioassays have been reported in previous publications. We hypothesized that the CDC bottle bioassay results may be compromised when expected and actual insecticide concentrations in the bottles are not equivalent and that inadequate bottle cleaning and/or loss during insecticide introduction and bottle storage steps could be responsible. We explored this hypothesis by quantifying insecticides using gas chromatography tandem mass spectrometry (GC-MS/MS) in bottles that had been cleaned, prepared, and stored according to the CDC guidelines. Methods: We investigated the bottle cleaning, preparation, and storage methods outlined in the CDC bottle bioassay procedure to identify sources of irreproducibility. We also investigated the effectiveness of cleaning bottles by autoclaving because this method is commonly used in insecticide assessment laboratories. The two insecticides used in this study were chlorpyrifos and lambda-cyhalothrin (λ-cyhalothrin). Insecticides were removed from glass bioassay bottles by rinsing with ethyl-acetate and n-hexane and then quantified using GC-MS/MS. Results: The CDC bottle bioassay cleaning methods did not sufficiently remove both insecticides from the glass bottles. The cleaning methods removed chlorpyrifos, which has higher water solubility, more effectively than λ-cyhalothrin. Chlorpyrifos experienced significant loss during the bottle-coating process whereas λ-cyhalothrin did not. As for bottle storage, no significant decreases in insecticide concentrations were observed for 6 h following the initial drying period for either insecticide. Conclusions: The CDC bottle bioassay protocol is susceptible to producing inaccurate results since its recommended bottle cleaning method is not sufficient and semi-volatile insecticides can volatilize from the bottle during the coating process. This can lead to the CDC bottle bioassay producing erroneous LC50 values. High levels of random variation were also observed in our experiments, as others have previously reported. We have outlined several steps that CDC bottle bioassay users could consider that would lead to improved accuracy and reproducibility when acquiring toxicity data. [ABSTRACT FROM AUTHOR]

Published

2024

38. Fabrication of gold-silver alloy nanostars / polyvinyl chloride flexible surface-enhanced Raman scattering substrate and its detection for chlorpyrifos.

Author

SONG Zhiyi, CUI Lang, PAN Yue, LOU Qinqing, WANG Shuting, WANG Zhouping, and MA Xiaoyuan

Subjects

SERS spectroscopy, SUBSTRATES (Materials science), POLYVINYL chloride, SILVER nitrate, CHLORPYRIFOS

Abstract

A gold-silver alloy nanostars/polyvinyl chloride flexible surface-enhanced Raman scattering (SERS) substrate was fabricated, which has the advantages of high transparency, strong flexibility, and remarkable SERS enhancement performance.During the fabrication process of composite substrate, the addition amount of polyvinyl chloride (PVC) was optimized to obtain a flexible PVC substrate first.Meanwhile, the volume ratio of chloroauric acid/silver nitrate was optimized to prepare the anisotropic gold-silver alloy nanostars (Au@Ag NSs) with distinctive shape and significant SERS enhanced effect.Then, 4-mercaptobenzoic acid, a Raman signal molecule, was detected by Raman spectrometer to determine its SERS intensity on the composite substrate, and the optimal concentration of the Au@Ag NSs solution was determined, which further verified the good SERS effect, reproducibility, and stability of the substrate.Finally, it was successfully applied to the detection of chlorpyrifos residue on apple surface. [ABSTRACT FROM AUTHOR]

Published

2024

39. Biodegradation of chlorpyrifos by an optimized Bacillus consortium isolated from pesticide-contaminated soils of Kerala, India.

Author

Varghese, Edna Mary, Sivadas, Shalu, Suresh, Chippy, U., Devikrishna, K., Vidhya, K. P., Akhil, and M. S., Jisha

Subjects

*BACILLUS (Bacteria), *CHLORPYRIFOS, *BACILLUS amyloliquefaciens, *BACILLUS pumilus, *HAZARDOUS waste sites

Abstract

The current study attempted to develop a bacterial consortium which can degrade chlorpyrifos pesticide efficiently. Five morphologically different bacterial strains, capable to tolerate high chlorpyrifos concentration, were isolated from pesticide-contaminated soil. Further, possible combinations of the isolates were formed and each combination was screened and chlorpyrifos degradation percentage and half-lives were calculated. The consortium CON11, comprising of four isolates (CP28, CP30, CP31, and CP34) showed the highest chlorpyrifos degradation. The individual independent variables of chlorpyrifos degradation by CON11 viz. temperature (°C), pH, incubation time (days) and pesticide concentration (ppm) were optimized using one-factor at-a-time experiments. The consortium isolates were then identified by the molecular tools 16S rRNA gene typing and the sequences were submitted to GenBank. The four bacterial isolates thus identified are Bacillus amyloliquefaciens CP28 (MH667455), Bacillus pumilus CP30 (MH667456), Bacillus marisflavi CP31 (MN715880), and Bacillus subtilis CP34 (MH667458). These isolates which comprise CON11 consortium could degrade 91% of 100 ppm chlorpyrifos after 6 days of incubation at 30 °C and pH 7 with a half-life of 1.73 days indicating the promising potential of the consortium, CON11, in the cleanup of chlorpyrifos contaminated sites. [ABSTRACT FROM AUTHOR]

Published

2024

40. Magnetic dispersive micro-solid-phase extraction integrated with hollow fiber liquid-phase microextraction for preconcentration of trace amounts of chlorpyrifos pesticide in aqueous samples.

Author

Kouchakinejad, Reyhaneh, Shariati, Shahab, Abolhasani, Jafar, Ghorbani Kalhor, Ebrahim, Vardini, Mohammad Taghi, and Dorri, Ameneh

Subjects

*SOLID phase extraction, *CHEMICAL preconcentration, *HOLLOW fibers, *CHLORPYRIFOS, *GAS chromatography/Mass spectrometry (GC-MS), *PESTICIDES, *IONIC strength, *FACTORIAL experiment designs

Abstract

In the present study, the integration of magnetic dispersive micro-solid-phase extraction (MD-µSPE) with hollow fiber liquid-phase microextraction (HF-LPME) prior to gas chromatography–mass spectrometry (GC/MS) was developed to preconcentrate and determine trace amounts of chlorpyrifos pesticide. Azolla filiculoides fern biomass was loaded by magnetite nanoparticles to prepare magnetic adsorbent (azolla@Fe3O4). The structural characteristics of the produced magnetic nanocomposites (MNCs) were investigated by FESEM, TEM, VSM, FTIR, EDX, and XRD methods. In the proposed MD-µSPE/HF-LPME method, the adsorption/desorption variables in MD-µSPE step were optimized by Taguchi fractional factorial design. After chlorpyrifos adsorption in the optimized condition of MD-µSPE (Vsample = 50 mL, contact time = 15 min, solution pH = 3, adsorbent mass = 0.05 g, ionic strength = 0.01 mol L−1, and eluent type = ethanol), 2.0 mL of the desorbed ethanolic solution was added to 16 mL of 10% (w/v) NaCl aqueous solution for the next HF-LPME method and the final analysis was performed by GC/MS. The developed method showed a limit of detection of 0.05 μg L−1, a limit of quantification of 0.5 μg L−1, a dynamic linear range of 0.5–1000.0 μg L−1, preconcentration factors between 700 and 1050, and a repeatability (RSD%) of 6.9%. The suitability of the MD-µSPE/HF-LPME method was confirmed by measuring chlorpyrifos in real samples with relative recoveries in the range of 97.0–108.5%. The results showed good accuracy and precision of the developed MD-µSPE/HF-LPME method for the preconcentration and determination of trace amounts of chlorpyrifos in the aqueous samples. [ABSTRACT FROM AUTHOR]

Published

2024

41. Photocatalytic Removal of the Endocrine Disruptor Chlorpyrifos using a ZnO.MoO3 Composite Supported on Al2O3.

Author

Attaria, Fatima, Rashid Tariq, Saadia, Abbas Chotana, Ghayoor, and Ahmed, Dildar

Subjects

*ENDOCRINE disruptors, *CHLORPYRIFOS, *POISONS, *CANCER cell proliferation, *PESTICIDES, *ESTROGEN receptors, *ORGANOPHOSPHORUS pesticides

Abstract

Chlorpyrifos is an endocrine disruptor pesticide that induces breast cancer cell proliferation through Estrogen receptor alpha pathway in humans. It also has toxic effects on some beneficial insects like bees, wasps, and arthropods, even low levels of CP can kill fish in water. Thus, it is important to efficiently remove this compound from wastewaters to get rid of its hazardous effects. Al2O3 supported ZnO.MoO3 composite was prepared as an efficient material for photo‐degradation of chlorpyrifos under UV irradiation and characterized by SEM‐EDX, XRD and TG techniques. The XRD analysis showed the orthorhombic structures with band gap of 2.86 eV for ZnO.MoO3/Al2O3 which was 2.96 eV for MoO3/Al2O3. The kinetics of degradation depicted that ZnO.MoO3/Al2O3 afforded a complete degradation of chlorpyrifos with half life of only 3 minutes which otherwise was 24 minutes in the presence of MoO3/Al2O3. The complete mineralization of chlorpyrifos was confirmed by GC/MS analysis, where no peaks of intermediates were recorded. The prepared material also exhibited good recyclability without any leaching of Zn and Mo metals. Thus, ZnO.MoO3/Al2O3 is an efficient and cost effective material for removal of chlorpyrifos. Its potential may also be explored for the removal of other hazardous organic pollutants. [ABSTRACT FROM AUTHOR]

Published

2024

42. Photocatalytic Removal of the Endocrine Disruptor Chlorpyrifos using a ZnO.MoO3 Composite Supported on Al2O3.

Author

Attaria, Fatima, Rashid Tariq, Saadia, Abbas Chotana, Ghayoor, and Ahmed, Dildar

Subjects

ENDOCRINE disruptors, CHLORPYRIFOS, POISONS, CANCER cell proliferation, PESTICIDES, ESTROGEN receptors, ORGANOPHOSPHORUS pesticides

Abstract

Chlorpyrifos is an endocrine disruptor pesticide that induces breast cancer cell proliferation through Estrogen receptor alpha pathway in humans. It also has toxic effects on some beneficial insects like bees, wasps, and arthropods, even low levels of CP can kill fish in water. Thus, it is important to efficiently remove this compound from wastewaters to get rid of its hazardous effects. Al2O3 supported ZnO.MoO3 composite was prepared as an efficient material for photo‐degradation of chlorpyrifos under UV irradiation and characterized by SEM‐EDX, XRD and TG techniques. The XRD analysis showed the orthorhombic structures with band gap of 2.86 eV for ZnO.MoO3/Al2O3 which was 2.96 eV for MoO3/Al2O3. The kinetics of degradation depicted that ZnO.MoO3/Al2O3 afforded a complete degradation of chlorpyrifos with half life of only 3 minutes which otherwise was 24 minutes in the presence of MoO3/Al2O3. The complete mineralization of chlorpyrifos was confirmed by GC/MS analysis, where no peaks of intermediates were recorded. The prepared material also exhibited good recyclability without any leaching of Zn and Mo metals. Thus, ZnO.MoO3/Al2O3 is an efficient and cost effective material for removal of chlorpyrifos. Its potential may also be explored for the removal of other hazardous organic pollutants. [ABSTRACT FROM AUTHOR]

Published

2024

43. Changes in motor behavior and lumbar motoneuron morphology following repeated chlorpyrifos exposure in rats.

Author

Romer, Shannon H., Miller, Kaitlyn M., Sonner, Martha J., Ethridge, Victoria T., Gargas, Nathan M., and Rohan, Joyce G.

Subjects

*MOTOR neurons, *CHLORPYRIFOS, *CENTRAL nervous system, *RATS

Abstract

Chlorpyrifos is an organophosphate pesticide associated with numerous health effects including motor performance decrements. While many studies have focused on the health effects following acute chlorpyrifos poisonings, almost no studies have examined the effects on motoneurons following occupational-like exposures. The main objective of this study was to examine the broad effects of repeated occupational-like chlorpyrifos exposures on spinal motoneuron soma size relative to motor activity. To execute our objective, adult rats were exposed to chlorpyrifos via oral gavage once a day, five days a week for two weeks. Chlorpyrifos exposure effects were assessed either three days or two months following the last exposure. Three days following the last repeated chlorpyrifos exposure, there were transient effects in open-field motor activity and plasma cholinesterase activity levels. Two months following the chlorpyrifos exposures, there were delayed effects in sensorimotor gating, pro-inflammatory cytokines and spinal lumbar motoneuron soma morphology. Overall, these results offer support that subacute repeated occupational-like chlorpyrifos exposures have both short-term and longer-term effects in motor activity, inflammation, and central nervous system mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

44. Urtica dioica Extract Abrogates Chlorpyrifos-Induced Toxicity in Zebrafish Larvae.

Author

Mhalhel, Kamel, Kadmi, Yassine, Ben Chira, Ahlem, Levanti, Maria, Pansera, Lidia, Cometa, Marzio, Sicari, Mirea, Germanà, Antonino, Aragona, Marialuisa, and Montalbano, Giuseppe

Subjects

*CHLORPYRIFOS, *STINGING nettle, *BRAIN-derived neurotrophic factor, *RATS, *BRACHYDANIO, *LARVAE, *ZEBRA danio, *TELENCEPHALON

Abstract

Chlorpyrifos (CPF) is a widely used organophosphate insecticide, though its excessive use causes environmental contamination, raising concerns about its adverse effects on human health. In this regard, Urtica dioica stands out as a promising candidate for counteracting chemical 'contaminant' toxicity thanks to its therapeutic properties. Therefore, our study aimed to investigate the potential of an Urtica dioica ethanolic extract (UDE) to mitigate chlorpyrifos-induced toxicity. Eight compounds in the Urtica dioica ethanolic extract have been identified, most of which present significant potential as antioxidant, anti-inflammatory, and neuroprotective agents. Chlorpyrifos exposure altered hatching rates, increased the incidence of teratogenic effects, and upregulated the expression of brain-derived neurotrophic factor (Bdnf) in zebrafish larvae telencephalon. On the other hand, UDE demonstrated a preventive effect against CPF-induced teratogenicity, which is expressed by a lower morphological deformity rate. Moreover, the UDE showed a rather protective effect, maintaining the physiological condition of the telencephalon. Additionally, CPF altered the locomotor behavior of larvae, which was characterized by irregular swimming and increased activity. This defective behavioral pattern was slightly attenuated by the UDE. Our findings suggest that the UDE possesses significant protective properties against CPF-induced toxicity, probably conferred by its natural antioxidant and anti-inflammatory contents. Still, further research is needed to elucidate the recruited mechanisms and implicated pathways on UDE's protective effects. [ABSTRACT FROM AUTHOR]

Published

2024

45. Degradation of Chlorpyrifos Residue on Tropical Inceptisol Soil with Indigenous Bacteria Treatment.

Author

Kurnia, Asep, Zu'amah, Hidayatuz, Sulastri, Baiq Nunung, and Makmur, Ria Fauriah

Subjects

*SOIL microbiology, *CHLORPYRIFOS, *PERSISTENT pollutants, *PESTICIDE residues in food, *PESTICIDE pollution

Abstract

The use of soil microbes is one of the most effective methods for degrading pesticide residue in soil. Microbes can accelerate the degradation of persistent pollutants including chlorpyrifos in soil. This research aims to find soil bacteria with the greatest potential to degrade chlorpyrifos residue in tropical inceptisol soil and determine its degradation index (DI). The soil used in this experiment was collected from agricultural fields in the districts of Demak, Central Java Province, Indonesia. The experiment was performed using factorial randomize complete block design composed of two factors and four replications. The first factors were made up of two treatments, namely, sterile soil (S) and nonsterile soil (NS). The second factors were composed of five treatments, namely, 1) Delftia acidovorans, 2) Entrobacter sp., 3) Chryseobacterium geocarposphaerae, 4) a mix of three bacteria, and 5) without bacteria (check). Results revealed that D. acidovorans grew faster than other bacteria in chlorpyrifos-contaminated soil. The optimum condition of bacteria growth and chlorpyrifos degradation was observed at the temperature of 28.9 °C and soil pH of 5.75. D. acidovorans promoted the degradation of chlorpyrifos residue in soil faster than others with a DI of 0.096. The half-life of chlorpyrifos in soil was faster in NS than in S. [ABSTRACT FROM AUTHOR]

Published

2024

46. Fabrication of electrochemical sensor based on molecularly imprinted polymers for monitoring chlorpyrifos in real samples.

Author

Singh, Damnita, Verma, Neelam, Bhari, Ranjeeta, and Kumar, Kuldeep

Subjects

*IMPRINTED polymers, *ELECTROCHEMICAL sensors, *CARBON electrodes, *FOURIER transform infrared spectroscopy, *CHLORPYRIFOS, *SCANNING electron microscopes

Abstract

Chlorpyrifos (CPF) is an organophosphate pesticide that has been used for decades to enhance crop yield but its persistent usage has led to dreadful health issues in humans as well as other species. In the current work, an electrochemical sensor has been fabricated with immobilized molecularly imprinted polymers (MIPs) on a glassy carbon electrode to detect CPF. MIPs were bulk polymerized with a functional monomer itaconic acid. MIPs were characterized by Fourier transform infrared spectroscopy, scanning electron microscope, cyclic voltammetry and electrochemical impedance spectroscopy. The execution of the developed electrochemical sensor was scrutinized with differential pulse voltammetry (DPV). Various parameters like the pH of the electrolyte, the concentration and volume of MIPs (after elution), and the adsorption time were optimized for the analysis of the analyte (CPF) with the fabricated sensor. Under optimal conditions, the peak current of different CPF concentrations was examined by DPV method. The peak current was in linear proportionality with CPF (2.8 × 10−14 to 2.8 × 10−5 mol l−1) with a low detection limit of 1.912 × 10−14 mol l−1. The developed electrochemical sensor detected CPF in real samples with excellent results and a recovery percentage ranging from 100 to 106% (relative standard deviation, RSD < 5%). Also, the sensor exhibited good reproducibility, stability and selectivity. Therefore, the developed electrochemical sensor holds great potential for the monitoring of CPF in fruits and vegetables. [ABSTRACT FROM AUTHOR]

Published

2024

47. Effect of chlorpyrifos‐exposure on the expression levels of CYP genes in Daphnia magna and examination of a possibility that an up‐regulated clan 3 CYP, CYP360A8, reacts with pesticides.

Author

Ohnuki, Shinpei, Tokishita, Shinichi, Kojima, Masaki, and Fujiwara, Shoko

Subjects

CHLORPYRIFOS, DAPHNIA magna, GENE expression, ECOLOGICAL risk assessment, PESTICIDES, AMINO acid sequence, INSECTICIDES

Abstract

Daphnia magna is a test organism used for ecological risk assessments of pesticides, but little is known about the expression levels of cytochrome P450s (CYP)s and their changes after pesticide exposure in the less than 24‐h‐olds used for ecotoxicity tests. In this study, D. magna juveniles were exposed to 0.2 μg/L of chlorpyrifos under the conditions for acute immobilization test as specified by the OECD test guideline for 24 h, and then the gene expression was compared between the control and chlorpyrifos‐exposure groups by RNA‐sequencing analysis, with a focus on CYP genes. Among 38 CYP genes expressed in the control group, seven were significantly up‐regulated while two were significantly down‐regulated in the chlorpyrifos‐exposure group. Although the sublethal concentration of chlorpyrifos did not change their expression levels so drastically (0.8 < fold change < 2.6), CY360A8 of D. magna (DmCYP360A8), which had been proposed to be responsible for metabolism of xenobiotics, was abundantly expressed in controls yet up‐regulated by chlorpyrifos. Therefore, homology modeling of DmCYP360A8 was performed based on the amino acid sequence, and then molecular docking simulations with the insecticides that were indicated to be metabolized by CYPs in D. magna were conducted. The results indicated that DmCYP360A8 could contribute to the metabolism of diazinon and chlorfenapyr but not chlorpyrifos. These findings suggest that chlorpyrifos is probably detoxified by other CYP(s) including up‐regulated and/or constitutively expressed one(s). [ABSTRACT FROM AUTHOR]

Published

2024

48. Nitrogen-Doped Carbon Cryogels as Adsorbents: Efficient Removal of Organophosphate Pesticides from Water and Assessment of Toxicity Reduction.

Author

Lazarević-Pašti, Tamara, Anićijević, Vladan, Karkalić, Radovan, Baljozović, Miloš, Babić, Biljana, and Pašti, Igor A.

Subjects

DOPING agents (Chemistry), WATER purification, DIMETHOATE, TOXICITY testing, SORBENTS, ORGANOPHOSPHORUS pesticides, PESTICIDES

Abstract

Pesticides pose a significant threat to nontargeted organisms, and their pervasive use makes avoidance challenging. We employed nitrogen-doped carbon cryogels for the removal of organophosphate pesticides. The materials were synthesized and characterized using SEM, Raman spectroscopy, XPS, and BET analysis. Results revealed mesoporous cryogels with pore diameters ranging from 3 to 13 nm. Interestingly, the specific surface area did not change systematically with increasing nitrogen content. All investigated materials have similar composition and structural disorder. Dimethoate, malathion, and chlorpyrifos removal was investigated under stationary and dynamic conditions. Stationary conditions demonstrated successful removal of aliphatic dimethoate and malathion by all investigated materials. Conversely, the materials with the lowest and highest nitrogen content proved ineffective with aromatic chlorpyrifos. Under dynamic conditions, all materials effectively removed malathion and chlorpyrifos while exhibiting suboptimal performance for dimethoate adsorption. Application of nitrogen-doped carbon cryogels to tap water spiked with pesticides yielded successful results under the same conditions. Toxicity testing of treated samples revealed a consistent decrease in toxicity, indicating that contact with cryogels reduces the initial solution's toxicity. This result also confirms that material–pesticide interaction does not lead to the formation of more toxic byproducts. The demonstrated efficacy suggests the potential application of these materials in water treatment. [ABSTRACT FROM AUTHOR]

Published

2024

49. Decontamination of Chlorpyrifos Residue in Soil by Using Mentha piperita (Lamiales: Lamiaceae) for Phytoremediation and Two Bacterial Strains.

Author

Aioub, Ahmed A. A., Fahmy, Mohamed A., Ammar, Esraa E., Maher, Mohamed, Ismail, Heba A., Yue, Jin, Zhang, Qichun, and Abdel-Wahab, Sarah I. Z.

Subjects

PEPPERMINT, PHYTOREMEDIATION, CHLORPYRIFOS, CROPS, SOILS, LAMIACEAE

Abstract

This study utilizes Mentha piperita (MI) for the first time to investigate the uptake and translocation of chlorpyrifos (CPF; 10 µg g−1) from soil, introducing a new approach to improve the efficacy of this technique, which includes using biosurfactants (Bacillus subtilis and Pseudomonas aeruginosa) at 107 CFU/mL to degrade CPF under greenhouse conditions. Moreover, antioxidant enzymes, including superoxide dismutase (SOD) and peroxidase (Prx), and oxidative stress due to hydrogen peroxide (H2O2) and malondialdehyde (MDA) in MI roots and leaves were evaluated under CPF stress. Our results demonstrated that amending soil with MI and B. subtilis followed by P. aeruginosa significantly reduced CPF levels in the soil (p > 0.05) and enhanced CPF concentrations in MI roots and leaves after 1, 3, 7, 10, and 14 days of the experiment. Furthermore, CPF showed its longest half-life (t1/2) in soil contaminated solely with CPF, lasting 15.36 days. Conversely, its shortest half-life occurred in soil contaminated with CPF and treated with MI along with B. subtilis, lasting 4.65 days. Soil contaminated with CPF and treated with MI and P. aeruginosa showed a half-life of 7.98 days. The half-life (t1/2) of CPF-contaminated soil with MI alone was 11.41 days. A batch equilibrium technique showed that B. subtilis is better than P. aeruginosa for eliminating CPF from soil in In vitro experiments. Notably, CPF-polluted soil treated with coadministration of MI and the tested bacteria improved the activities of SOD and Prx and reduced H2O2 and MDA compared with CPF-polluted soil treated with MI alone. Our findings demonstrated that using B. subtilis and P. aeruginosa as biosurfactants to augment phytoremediation represents a commendable strategy for enhancing the remediation of CPF contamination in affected sites while reducing the existence of harmful pesticide remnants in crop plants. [ABSTRACT FROM AUTHOR]

Published

2024

50. Biotransformation of Chlorpyrifos Shewanella oneidensis MR-1 in the Presence of Goethite: Experimental Optimization and Degradation Products.

Author

Tang, Shen, Li, Yanhong, Zhu, Zongqiang, Wang, Yaru, Peng, Yuqing, Zhang, Jing, Nong, Peijie, Pan, Shufen, Fan, Yinming, and Zhu, Yinian

Subjects

GOETHITE, CHLORPYRIFOS, SHEWANELLA oneidensis, ORGANOPHOSPHORUS pesticides, BIOCONVERSION, MICROBIAL remediation, RESPONSE surfaces (Statistics)

Abstract

In this study, the degradation system of Shewanella oneidensis MR-1 and goethite was constructed with chlorpyrifos as the target contaminant. The effects of initial pH, contaminant concentration, and temperature on the removal rate of chlorpyrifos during the degradation process were investigated. The experimental conditions were optimized by response surface methodology with a Box–Behnken design (BBD). The results show that the removal rate of chlorpyrifos is 75.71% at pH = 6.86, an initial concentration of 19.18 mg·L−1, and a temperature of 30.71 °C. LC-MS/MS analyses showed that the degradation products were C4H11O3PS, C7H7Cl3NO4P, C9H11Cl2NO3PS, C7H7Cl3NO3PS, C9H11Cl3NO4P, C4H11O2PS, and C5H2Cl3NO. Presumably, the degradation pathways involved are: enzymatic degradation, hydrolysis, dealkylation, desulfur hydrolysis, and dechlorination. The findings of this study demonstrate the efficacy of the goethite/S. oneidensis MR-1 complex system in the removal of chlorpyrifos from water. Consequently, this research contributes to the establishment of a theoretical framework for the microbial remediation of organophosphorus pesticides in aqueous environments. [ABSTRACT FROM AUTHOR]

Published

2024