Your search keyword '"Glyphosate"' showing total 30,278 results

1. Adsorption-desorption of glyphosate in tropical sandy soil exposed to burning or applied with agricultural waste

Author

Garba, Jamilu, Samsuri, Abd Wahid, Hamdani, Muhammad Saiful Ahmad, and Sadiq, Tariq Faruq

Published

2024

2. Potential Role of Glyphosate, Glyphosate-Based Herbicides, and AMPA in Breast Cancer Development: A Review of Human and Human Cell-Based Studies.

Author

Schluter, Hannah, Bariami, Hajar, and Park, Hannah

Subjects

aminomethylphosphonic acid (AMPA), breast cancer risk, endocrine disruption, glyphosate, glyphosate-based herbicides (GBHs), women’s health, Glyphosate, Humans, Glycine, Herbicides, Breast Neoplasms, Female, Organophosphonates

Abstract

The potential connection between exposure to glyphosate and glyphosate-based herbicides (GBHs) and breast cancer risk is a topic of research that is rapidly gaining the publics attention due to the conflicting reports surrounding glyphosates potential carcinogenicity. In this review, we synthesize the current published biomedical literature works that have explored associations of glyphosate, its metabolite, aminomethylphosphonic acid (AMPA), and GBHs with breast cancer risk in humans and human cell-based models. Using PubMed as our search engine, we identified a total of 14 articles that were included in this review. In the four human studies, urinary glyphosate and/or AMPA were associated with breast cancer risk, endocrine disruption, oxidative stress biomarkers, and changes in DNA methylation patterns. Among most of the 10 human cell-based studies, glyphosate exhibited endocrine disruption, induced altered gene expression, increased DNA damage, and altered cell viability, while GBHs were more cytotoxic than glyphosate alone. In summary, numerous studies have shown glyphosate, AMPA, and GBHs to have potential carcinogenic, cytotoxic, or endocrine-disruptive properties. However, more human studies need to be conducted in order for more definitive and supported conclusions to be made on their potential effects on breast cancer risk.

Published

2024

3. Herbicidal interference: glyphosate drives both the ecology and evolution of plant–herbivore interactions.

Author

Zhang, Grace M. and Baucom, Regina S.

Abstract

Summary The coevolution of plants and their insect herbivores reflects eco‐evolutionary dynamics at work – ecological interactions influence adaptive traits, which feed back to shape the broader ecological community. However, novel anthropogenic stressors like herbicide, which are strong selective agents, can disrupt these dynamics. Little is known about how the evolution of herbicide resistance may impact plant–herbivore interactions. We performed a common garden field experiment using Ipomoea purpurea (common morning glory) and the herbicide glyphosate (Roundup) to investigate the ecological effects of herbicide exposure on insect herbivory patterns and assess the potential evolutionary consequences. We find that plants treated with glyphosate experienced higher levels of herbivory and altered chewing herbivory damage patterns. Additionally, we found that glyphosate resistance is positively associated with herbivory resistance, and uncovered positive selection for increased glyphosate resistance, suggesting that selection for increased glyphosate resistance has the potential to lead to increased herbivory resistance. Positive selection for glyphosate resistance, coupled with the detection of genetic variation for this trait, suggests there is potential for glyphosate resistance – and herbivory resistance via hitchhiking – to further evolve. Our results show that herbicides cannot just influence, but potentially drive the eco‐evolutionary dynamics of plant–herbivore interactions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Glyphosate losses through various stages of coffee production and consequences for human exposure.

Author

Bytof, Gerhard, Suesse-Herrmann, Oliver, Holtmann, Meike, Falenski, Jessica A., Theurillat, Viviane, and Eisenbrand, Gerhard

Abstract

AbstractGreen coffee beans, rejected for commercial use because of glyphosate contamination, were examined to monitor their glyphosate levels from harvest, through roasting, until various coffee extractions. The green beans, Arabica and Robusta, exhibited glyphosate levels above the EU-MRL (0.14–0.21 mg/kg), representing a worst-case scenario. The beans were roasted to different degrees and subsequently used for different coffee preparations. As a result of roasting (>200 °C), glyphosate contents were reduced, frequently by more than 73%. Remarkably, up to 9% of initial glyphosate was removed together with the silverskin, already at lower temperatures. Filtered and instant coffee beverages prepared from respective coffee samples resulted in virtually quantitative glyphosate transfer. Glyphosate transfer was significantly less for espresso, and ristretto, apparently due to the reduced amounts of water used for extraction. Aminomethylphosphonic acid (AMPA) was not detectable on any process level, confirming that AMPA is not a thermal glyphosate degradation product. In conclusion, compelling evidence is provided that glyphosate contamination becomes considerably reduced during roasting, whereas beverage preparation contributes at best to a minor further reduction. In consequence, even unusually high initial glyphosate loads in green beans are strongly reduced by the roasting process, resulting in a final cup content of <0.4 µg. [ABSTRACT FROM AUTHOR]

Published

2024

5. Root exudation of glyphosate in <italic>Eucalyptus urophylla</italic> S.T. Blake.

Author

Barros, Rodrigo Eduardo, Reis, Matheus Mendes, Tuffi Santos, Leonardo David, Fernandes Tiago, João Paulo, Gonçalves Lopes, Érika Manuela, and Silva Donato, Luan Mateus

Subjects

*EXUDATION (Botany), *HERBICIDE application, *HIGH performance liquid chromatography, *SOIL pollution, *PHOTOSYNTHETIC rates, *GLYPHOSATE

Abstract

AbstractGlyphosate stands out in the eucalyptus management, which makes it essential to know its behavior, its effects on the plant, and possible environmental impacts. This study aimed to identify and quantify the root exudation of glyphosate and aminomethylphosphonic acid (AMPA) by Eucalyptus urophylla with chromatographic and biological methods. The five glyphosate doses were tested (0, 360, 720, 1080 and 1440 g a.e ha−1) on E. urophylla plants. The physiological and intoxication evaluations were performed after herbicide application. Water samples remaining from the pots were used for chemical quantification of root exudation of glyphosate and AMPA in high-performance liquid chromatography. Cucurbita pepo plants were used as bioindicators of glyphosate in the water remaining in the pots after applying herbicide. The increase in glyphosate doses promoted linear growth in E. urophylla intoxication and significantly reduced total dry mass and root production. E. urophylla plants had their photosynthetic, transpiratory, and stomatal conductance rates reduced as the herbicide doses increased. The AMPA root exudation was not detected, but it was possible to identify the presence of glyphosate by bioassay and chemical methods. Root exudation of glyphosate by eucalyptus can result in lesser herbicide action in plant control and cause contamination of deeper soil layers. [ABSTRACT FROM AUTHOR]

Published

2024

6. Evaluating the effect of glyphosate on the growth and photosynthetic characteristics of <italic>Rosa roxburghii</italic> seedlings on Yunnan Guizhou Plateau.

Author

Chao, Zhang, Yun, Lei, Yumei, Fang, Lina, Guo, Kai, Yan, and Yue, Linfang

Subjects

*MORPHOGENESIS, *LEAF morphology, *GLYPHOSATE, *PHOTOSYNTHETIC pigments, *PHOTOSYNTHETIC rates

Abstract

Taking 4-year-old Rosa roxburghii seedlings as the research object, the effects of glyphosate in orchards on the nutritional growth, leaf structure, photosynthetic characteristics, fluorescence characteristics and fruits were studied by soil application of glyphosate. The results show that new leaf morphology was deformed and yellowed, stomatal density and stomatal index were significantly decreased, MDA content was increased, and SOD, CAT and LOX activities were significantly increased after 15 days of glyphosate treatment. PN, GS, Fv/Fm, ABS/RC, TRo/RC, ETo/RC and DIo/RC of new leaves were significantly reduced with increasing glyphosate concentrations. New leaf photosynthetic organ development and photosynthetic pigment accumulation were affected under glyphosate, resulting in inhibition of photosynthesis, leading to a decrease in photosynthetic rate and ultimately affecting fruit development. The protective enzyme activity of new leaves was activated after glyphosate spraying, thereby enhancing its adaptability to adversity, while damage to PSII was reduced by increasing the energy dissipated through heat dissipation and reducing excess excitation energy under low dose glyphosate treatment. The adaptability of new leaf cell membranes could be improved, and thus the damage caused by glyphosate was mitigated in Rosa roxburghii orchards when glyphosate was applied at concentrations of less than 1.84 kg.ha-1. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genome-wide association study reveals the genetic basis of rice resistance to three herbicides.

Author

Xu, Peizhou, Qin, Yuhe, Ma, Maosen, Liu, Tengfei, Ruan, Fenhua, Xue, Le, Cao, Jiying, Xiao, Guizong, Chen, Yun, Fu, Hongyan, Zhou, Gege, Xie, Yonghua, and Xia, Duo

Subjects

SUSTAINABLE agriculture, WEED control, GENOME-wide association studies, GLUFOSINATE, GENETIC variation, HERBICIDE resistance, HERBICIDE-resistant crops

Abstract

Crop resistance to herbicides is crucial for agricultural productivity and sustainability amidst escalating challenges of weed resistance. Uncovering herbicide resistant genes is particularly important for rice production. In this study, we tested the resistance to three commonly used herbicides: glufosinate, glyphosate and mesotrione of 421 diverse rice cultivars and employed genome-wide association studies (GWAS) to unravel the genetic underpinnings of resistance to these three herbicides in rice. We discovered that cultivated rice exhibited rich variation in resistance to the three herbicides, and the differences among subpopulations were significant. Six identified associations harboring candidate genes for resistance to these herbicides were significant. Among them, RGlu6 and RGly8 were the major QTL for resistance to glufosinate and glyphosate, respectively. The favorable alleles of RGlu6 and RGly8 were primarily present in japonica cultivars that originated from Europe, highlighting the geographic and genetic diversity of herbicide resistance and emphasizing the localized selection pressures in European rice varieties. Moreover, our findings might suggest that traditional target genes may not contain tolerant alleles in nature, and alternative mechanisms with novel loci associated with resistance may work. By mapping the genes for herbicide resistance, our results may help develop new strategies to combat the dual challenges on effective weed management and herbicide sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

8. Stenotrophomonas pavanii MY01 induces phosphate precipitation of Cu(II) and Zn(II) by degrading glyphosate: performance, pathway and possible genes involved.

Author

Zhao, Shengchen, Xu, Zitong, and Wang, Jihong

Subjects

MICROBIAL remediation, COPPER, HEAVY metals, AGRICULTURE, AMINO acid sequence

Abstract

Microbial bioremediation is an advanced technique for removing herbicides and heavy metals from agricultural soil. In this study, the strain Stenotrophomonas pavanii MY01 was used for its ability to degrade glyphosate, a phosphorus-containing organic compound, producing PO43− as a byproduct. PO43− is known to form stable precipitates with heavy metals, indicating that strain MY01 could potentially remove heavy metals by degrading glyphosate. Therefore, the present experiment induced phosphate precipitation from Cu(II) (Hereinafter referred to as Cu2+) and Zn(II) (Hereinafter referred to as Zn2+) by degrading glyphosate with strain MY01. Meanwhile, the whole genome of strain MY01 was mined for its glyphosate degradation mechanism and its heavy metal removal mechanism. The results of the study showed that the strain degraded glyphosate best at 34°C, pH = 7.7, and an inoculum of 0.7%, reaching 72.98% within 3d. The highest removal of Cu2+ and Zn2+ in the test was 75.95 and 68.54%, respectively. A comparison of strain MY01's genome with glyphosate degradation genes showed that protein sequences GE000474 and GE002603 had strong similarity to glyphosate oxidoreductase and C-P lyase. This suggests that these sequences may be key to the strain's ability to degrade glyphosate. The GE001435 sequence appears to be related to the phosphate pathway, which could enable phosphate excretion into the environment, where it forms stable coordination complexes with heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

9. Ratiometric fluorescence probe based on boric acid-modified carbon dots and alizarin red for sensitive and rapid detection of glyphosate.

Author

Yang, Jingqi, Wang, Xinru, Yu, Ying, Cao, Yujuan, Guo, Manli, Hu, Xiaogang, Wang, Li, and Lin, Bixia

Abstract

By combining boric acid-modified carbon dots (p-CDs) and alizarin red (ARS), a double emission probe p-CDs@ARS with fluorescence at 410 nm and 600 nm is designed for the detection of glyphosate. When Cu2+ is added, it binds with ARS to cause ARS release from p-CDs@ARS, which decreases the fluorescence at 600 nm. However, in the presence of glyphosate, glyphosate competes to the binding of Cu2+, releasing ARS to bind with p-CDs again. Therefore, the fluorescence of 600 nm recovers. Based on this, the fluorescence of 410 nm and 600 nm act as the reference and response signal, respectively, achieving the ratiometric fluorescence detection of glyphosate. The linear range of glyphosate detection is 0.5–50 µM with a limit of detection at 0.37 µM which is well below the maximum residue limit for glyphosate in food. When the probe is used to detect the glyphosate residue in Pearl River water and cucumber, the detection results are well consistent with those detected by HPLC. The established method based on p-CDs@ARS has the advantages that the assembly of ratiometric fluorescence probe is simple, and the detection speed is fast. Additionally, a typical INHIBIT logical system has been successfully constructed based on glyphosate, Cu2+, and the fluorescence signal of p-CDs@ARS. [ABSTRACT FROM AUTHOR]

Published

2024

10. Residential proximity to agricultural pesticide use and cardiovascular disease risk factors among adult Latina women in California's Salinas Valley.

Author

Calderon, Lucia, Warner, Marcella, Gunier, Robert B, Rauch, Stephen, Hazard, Kimberly G, Kogut, Katherine, Eskenazi, Brenda, and Torres, Jacqueline M

Subjects

*STATISTICAL models, *BODY mass index, *RESEARCH funding, *RESIDENTIAL patterns, *HISPANIC Americans, *STATISTICAL sampling, *CARDIOVASCULAR diseases risk factors, *DESCRIPTIVE statistics, *PESTICIDES, *WAIST circumference, *ENVIRONMENTAL exposure, *DIASTOLIC blood pressure, *PYRIDINE, *AGRICULTURAL laborers, *BLOOD pressure, *AGRICULTURE, *GLYPHOSATE

Abstract

Cardiovascular disease is a leading cause of death worldwide. There is limited evidence that exposure to current-use pesticides may contribute to cardiovascular disease risk. We examined the association between residential proximity to the application of agricultural pesticides and cardiovascular risk factors among 484 adult women in the Center for the Health Assessment of Mothers and Children of Salinas (CHAMACOS) Study, a cohort based in an agricultural region of California. Outcome assessment was completed between 2010 and 2013. Using participant residential addresses and California's Pesticide Use Reporting database, we estimated agricultural pesticide use within 1 km of residences during the 2-year period preceding outcome assessment. We used Bayesian hierarchical modeling to evaluate associations between exposure to 14 agricultural pesticides and continuous measures of waist circumference, body mass index, and blood pressure. Each 10-fold increase in paraquat application around homes was associated with increased diastolic blood pressure (β = 2.60 mm Hg; 95% credible interval [CrI], 0.27-4.89) and each 10-fold increase in glyphosate application was associated with increased pulse pressure (β = 2.26 mm Hg; 95% CrI, 0.09-4.41). No meaningful associations were observed for the other pesticides examined. Our results suggest that paraquat and glyphosate pesticides may affect cardiovascular disease development in women with chronic environmental exposure. This article is part of a Special Collection on Environmental Epidemiology. [ABSTRACT FROM AUTHOR]

Published

2024

11. Saga of Soggy Sauerkraut.

Author

Harle, Dieter, McNeill, Michael J., Huber, Don M., Maney, Michael, Cano, Raul J., and Carlin, Martha

Subjects

*ORGANIC farming, *SANDY loam soils, *POULTRY manure, *LOAM soils, *SILT loam, *CABBAGE, *GLYPHOSATE

Abstract

The creation of undesirable (soggy) sauerkraut resulted in the loss of $1,000,000 worth of organic sauerkraut in 2022, which prompted a multistep investigation of the cause and potential solution. The cause of this condition has been previously reported as unique fermentation conditions and the lack of key trace nutrients essential for cabbage (Brassica oleracea var. capitata) cell wall integrity. Because the condition was limited to organic sauerkraut in 2022, this investigation initially focused on differences in fermentation conditions between organic and conventional sauerkraut. No differences in fermentation conditions accounted for the condition; therefore, attention was focused on analyzing the mineral content of cabbage grown for sauerkraut production that pinpointed a deficiency in critical micronutrients such as iron, copper, manganese, boron, and zinc. This deficiency was traced to the use of poultry manure that was contaminated with glyphosate residue from conventionally fed turkeys and chickens that consumed genetically engineered (GE) feed and used as the fertilizer for organic cabbage production. The presence of glyphosate, a potent mineral chelator and antibiotic, was identified as a significant factor that impairs the absorption and physiological function of essential minerals in the shikimate metabolic pathway whereby cell walls and lignin are produced, thus compromising the structural quality of the sauerkraut. After this discovery, the study progressed to evaluate various remediation strategies aimed at eliminating glyphosate from the soil and restoring nutrient uptake. Corn grain and silage were selected as the test crops for this phase. Among the tested remediation solutions were raw sauerkraut juice containing Lactobacillus plantarum, which is reported to degrade glyphosate in the rumen of dairy cows and two patented proprietary microbial mixtures, PB027 and PB027SK, that degrade glyphosate by all three of the known metabolic pathways. These treatments were specifically formulated to degrade residual glyphosate in the soil. The results showed that these interventions could reduce soil glyphosate levels by 80% to 90% within 6 to 7 months to significantly enhance both the yield and quality of corn grain and silage. The increase in corn grain yield from glyphosate degradation on the Shiocton silt loam soil was 907.89 kg·ha-1 (13.5 bushels/acre). The increase in yield on the irrigated Kidder sandy loam soil was quantified at 726.31 kg·ha-1 (10.8 bushels/acre) for corn grain and 6.62 t·ha-1 (2.68 t/acre) for silage, with an additional improvement in silage feed quality beneficial for milk production. The findings underscore the importance of addressing both micronutrient sufficiency and glyphosate residue in soil to ensure the optimal growth of cabbage and the quality of sauerkraut produced. By successfully identifying manure as a subtle source of nutrient immobilization and implementing effective soil remediation techniques, this research highlights a clear path forward for improving crop yield and quality to ultimately enhance the structural integrity and consumer acceptance of sauerkraut. This study has broader applications for the nutritional content and crop yields of many organic crops that use conventional poultry and animal manures that may contain glyphosate in desiccated plant tissues or GE feeding operations. [ABSTRACT FROM AUTHOR]

Published

2024

12. Enhanced capacity of a leaf beetle to combat dual stress from entomopathogens and herbicides mediated by associated microbiota.

Author

ZHANG, Yuxin, XU, Handan, TU, Chengjie, HAN, Runhua, LUO, Jing, and XU, Letian

Subjects

*CHRYSOMELIDAE, *HERBICIDE residues, *PEST control, *GLYPHOSATE, *ASPERGILLOSIS

Abstract

Herbicides have demonstrated their impact on insect fitness by affecting their associated microbiota or altering the virulence of entomopathogenic fungi toward insects. However, limited research has explored the implications of herbicide stress on the intricate tripartite interaction among insects, associated bacterial communities, and entomopathogens. In this study, we initially demonstrated that associated bacteria confer a leaf beetle, Plagiodera versicolora, with the capability to resist the entomopathogenic fungus Aspergillus nomius infection, a capability sustained even under herbicide glyphosate stress. Further analysis of the associated microbiota revealed a significant alteration in abundance and composition due to glyphosate treatment. The dominant bacterium, post A. nomius infection or following a combination of glyphosate treatments, exhibited strong suppressive effects on fungal growth. Additionally, glyphosate markedly inhibited the pathogenic associated bacterium Pseudomonas though it inhibited P. versicolora's immunity, ultimately enhancing the beetle's tolerance to A. nomius. In summary, our findings suggest that the leaf beetle's associated microbiota bestow an augmented resilience against the dual stressors of both the entomopathogen and glyphosate. These results provide insight into the effects of herbicide residues on interactions among insects, associated bacteria, and entomopathogenic fungi, holding significant implications for pest control and ecosystem assessment. [ABSTRACT FROM AUTHOR]

Published

2024

13. Legacy effects of Phragmites australis and herbicide treatments can reduce survival but do not prevent native plant establishment.

Author

Bowe, Audrey, Simek, Zachary, Dávalos, Andrea, and Blossey, Bernd

Subjects

*HERBICIDE application, *PHRAGMITES australis, *NATIVE species, *PLANT succession, *GLYPHOSATE

Abstract

Introduced Phragmites australis represents a widespread threat to North American wetlands. Management agencies invest millions of dollars annually to manage the species, mostly by applying herbicides, to mitigate and prevent negative impacts. The often temporary reduction of P. australis rarely increases native diversity, and long‐term legacy effects of P. australis and repeat herbicide treatments are unknown. We used a coordinated management program targeting mostly small P. australis populations in the Adirondack Park in New York State, United States, to assess the potential for such legacy effects. We planted individuals of three native species as sentinels into treated and untreated, uninvaded reference wetlands after unassisted succession had occurred in treatment areas. Sentinel plants survived and grew in treated areas, suggesting legacy of P. australis and its management did not permanently limit establishment of native plants. However, responses were variable among sentinel species, with negative or neutral impacts on survival rates and neutral or positive effects on growth. Species‐specific responses and large variation in survival rates between sites and sentinels indicate that site factors are a dominant influence on survival and growth. Importantly, as treatment frequency increased, survival of one sentinel species decreased significantly, indicating a potential for long‐term negative impacts of repeated herbicide applications. Additional replanting after P. australis treatment and initial unassisted plant succession may enable more diverse plant communities to return, including species not able to recruit from local seed banks or seed sources. However, it remains unclear if active transplanting will enable more long‐term suppression of P. australis. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effects of different timing and rate of glyphosate application on the residue level, grain quality, and processing performance of two Canadian malting barley varieties.

Author

Izydorczyk, Marta S., McMillan, T., Tittlemier, S. A., O'Donovan, J., and Tidemann, B. D.

Abstract

Background and Objectives: A preharvest application of glyphosate on malting barley can assist in the management of perennial weed growth before harvest and serves as a harvest aid by drying down the crop. The main objective of this study was to assess the effects of preharvest glyphosate application at two glyphosate rates (900 or 1125 g ae/ha) and three application timings based on the maturity and seed moisture level (soft dough, hard dough, or mature). Findings: The levels of glyphosate residue in barley grain were highly variable among locations and years ranging from 0 to 95 mg/kg. Glyphosate application at both rates at the soft dough stage significantly decreased the kernel weight of barley grain. Barley grain with up to 40 mg/kg of glyphosate residue exhibited adequate germination energy required for malting purposes; however, the residue negatively affected the growth of roots during the malting process. The levels of α‐amylase in malt decreased with increasing levels of glyphosate residue in barley. Other malt and wort parameters were generally not affected by the glyphosate application on barley. Conclusions: Too early application of glyphosate at the soft dough stage of barley grain development reduced the kernel weight and size, interfered with roots production, affected synthesis of α‐amylase, and reduced the malt extract in several cases. Significance and Novelty: Results indicated that in the majority of environments, when glyphosate was applied at the recommended stage and rate, neither the maximum residue limit was exceeded nor were the germination and malting quality of barley impaired. In real farming conditions, it might be hard to achieve similar results despite adherence to the recommended timing of glyphosate application because of the nonuniform level of crop maturity in the field and/or uncontrollable environmental effects. [ABSTRACT FROM AUTHOR]

Published

2024

15. The response of microbiome assembly within different niches across four stages to the cultivation of glyphosate-tolerant and conventional soybean varieties.

Author

Shengqian Chao, Yu Sun, Yin Zhang, Yifan Chen, Lili Song, Peng Li, Xueming Tang, Jingang Liang, and Beibei Lv

Subjects

PLANT diseases, PLANT protection, FUNGAL communities, BACTERIAL communities, ECOLOGICAL niche

Abstract

Introduction: Plants are inherently connected with the microbiome, which plays a crucial role in regulating various host plant biological processes, including immunity, nutrient acquisition, and resistance against abiotic and biotic stresses. Many factors affect the interaction between plants and microbiome. Methods and results: In this study, microbiome samples were collected from five niches (bulk soil, rhizoplane, root endosphere, phylloplane, and leaf endosphere) across four developmental stages (seedling, flowering, podding, and maturity) of various soybean varieties. Composition and structure of bacterial and fungal communities were analyzed using 16S rRNA gene and ITS (Internally Transcribed Spacer) region amplicon sequencing. It was observed that both niches and developmental stages significantly impact on the assembly and composition of soybean microbiome. However, variety, presence of a transgene, and glyphosate application had minimal effects on microbial communities. The dominant microbiome varied across the five niches, with most containing beneficial microbial communities capable of promoting plant growth or increasing disease resistance. Types and abundance of the dominant microbes affected network stability, potentially resulting in functional changes in different ecological niches. Conclusion: This study provides theoretical evidence for microbial protection of plants against diseases and demonstrates that systematic analysis of the composition and diversity of soybean microbiomes can contribute to the development of biological control technologies. [ABSTRACT FROM AUTHOR]

Published

2024

16. Multi‐Biomarkers' Responses in Gills of Oreochromis niloticus Exposed to Glyphosate and Polyethylene Microplastic, Isolated and in Mixture.

Author

Soares, Marco Aurélio Miranda, Ferreira, Ericsson Rubens Rodrigues, Tavares, Driele, Moron, Sandro Estevan, Fernandes, Marisa Narciso, Mariano, Wagner dos Santos, and Paulino, Marcelo Gustavo

Subjects

POISONS, NILE tilapia, POLLUTANTS, GLYPHOSATE, MICROPLASTICS

Abstract

Microplastics (MPs) and glyphosate‐based herbicides (GBH) are among the most common contaminants in aquatic environments. In Brazilian rivers, both contaminants were found in elevated levels, leading to a high probability of their association, which can alter their individual effects and potentially intensify their toxicity. This study evaluated the isolated and combined effects of polyethylene microplastics (PE‐MPs) and GBH on Oreochromis niloticus using multi‐biomarkers of toxicity. The fish were subjected to a 96‐h exposure period, with concentrations set based either isolated, PE‐MPs group (5 mg L−1), GBH group (5 mg L−1), or in a group of associated contaminants (GAC), PE‐MP + GBH (5 mg L−1 + 5 mg L−1). Toxicity effects were evaluated using biochemical, cytogenetic, hematological, and histopathological biomarkers. We observed change in erythrocyte parameters leading to macrocytic normochromic anemia in GAC. Leukocyte parameters indicate a nonspecific immunosuppression caused by the exposure of associated contaminants, besides the attempts to repair damage caused by PE‐MPs. Histopathological markers indicate damage to tissues exposed to contaminants. Besides, there were morphophysiological adjustments on gills, with proliferation and hypertrophy of mitochondria‐rich cells on GBH and GAC, besides epithelium ruptures, which were mostly present in the exposed groups. Therefore, this study indicates that PE‐MPs and GBHs present toxic effects in O. niloticus with the used concentrations, intensified by the association of contaminants. Thus, multi‐biomarkers were useful key to verify toxicity, providing data to the investigation of high levels of contaminant's mixture toxicity present in aquatic environments. [ABSTRACT FROM AUTHOR]

Published

2024

17. Simulated herbicide drift alters native plant flowering phenology.

Author

Olszyk, David, Pfleeger, Thomas, Shiroyama, Tamotsu, Blakeley-Smith, Matthew, Lee, E. Henry, Nash, M. S., and Plocher, Milton

Subjects

EFFECT of herbicides on plants, FLOWERING of plants, PLANT phenology, DICAMBA, PLANT reproduction, HERBICIDES

Abstract

Data for herbicide effects on plant flowering are needed to determine potential impacts on plant reproduction. Thus, flowering phenology was determined for up to 12 weeks after herbicide treatment for native Willamette Valley plants growing in small plots on two Oregon State University experimental farms. Six perennial species were evaluated: Camassia leichtlinii (CALE), Elymus glaucus (ELGL), Eriophyllum lanatum (ERLA), Festuca idahoensis subsp. roemeri (FEID), Iris tenax (IRTE), and Prunella vulgaris var. lanceolata (PRVU). Effects of glyphosate and dicamba, alone and in combination, were determined using simulated drift rates of 0.1 or 0.2 x field application rates (FAR) of 1119 g ha−1 active ingredient (a.i.) (830 g ha−1 acid glyphosate) for glyphosate and 560 g ha−1 a.i. for dicamba. Flowering phenology was evaluated as stage of development on a scale from no buds (converted to 0), buds (1), pre-flowering (2), flowering (3), post-flowering (4), to mature seeds (5) before herbicide treatment and for 12 weeks after treatment. Flowering response to herbicides varied by species and farm; but, in general, dicamba and glyphosate resulted in earlier flowering stages (delayed or not full flowering) for the dicot ERLA, and to a lesser extent, PRVU; and glyphosate resulted in earlier flowering stages for the monocot IRTE. Based on these data, the concentration of herbicide affecting flowering stage was 0.1 x FAR. Once flowering stage was inhibited by dicamba and glyphosate, plants generally did not recover to full flowering. This study provided evidence that common herbicides can affect flowering phenology of native plants with implications for seed production. Highlights: Flowering phenology (stage of development) of six perennial plant species was evaluated in the field after treatment with dicamba and/or glyphosate. Dicamba and glyphosate resulted in delay of flowering (earlier stages of development) for dicots, especially Eriophyllum lanatum and, to a lesser extent, Prunella vulgaris var. lanceolata. Glyphosate resulted in delay of flowering for the monocot Iris tenax. Flowering stage was affected by 0.1 x a field application rate of 1119 g ha−1 active ingredient (a.i.) (830 g ha−1 acid glyphosate) for glyphosate and 560 g ha−1 a.i. for dicamba. Once flowering stage was inhibited by herbicides, the plants generally did not recover. [ABSTRACT FROM AUTHOR]

Published

2024

18. Insights into the enhanced adsorption of glyphosate by dissolved organic matter in farmland Mollisol: effects and mechanisms of action.

Author

Jiao, Yaqi, Jia, Junxin, Gu, Jiaying, Wang, Sa, Zhou, Qin, Li, Hui, and Li, Li

Abstract

Dissolved organic matter (DOM) is easy to combine with residual pesticides and affect their morphology and environmental behavior. Given that the binding mechanism between DOM and the typical herbicide glyphosate in soil is not yet clear, this study used adsorption experiments, multispectral techniques, density functional theory, and pot experiments to reveal the interaction mechanism between DOM and glyphosate on Mollisol in farmland and their impact on the environment. The results show that the adsorption of glyphosate by Mollisol is a multilayer heterogeneous chemical adsorption process. After adding DOM, due to the early formation of DOM and glyphosate complex, the adsorption process gradually became dominated by single-layer chemical adsorption, and the adsorption capacity increased by 1.06 times. Glyphosate can quench the endogenous fluorescence of humic substances through a static quenching process dominated by hydrogen bonds and van der Waals forces, and instead enhance the fluorescence intensity of protein substances by affecting the molecular environment of protein molecules. The binding of glyphosate to protein is earlier, of which affinity stronger than that of humic acid. In this process, two main functional groups (C–O in aromatic groups and C–O in alcohols, ethers and esters) exist at the binding sites of glyphosate and DOM. Moreover, the complexation of DOM and glyphosate can effectively alleviate the negative impact of glyphosate on the soil. This study has certain theoretical guidance significance for understanding the environmental behavior of glyphosate and improving the sustainable utilization of Mollisol. [ABSTRACT FROM AUTHOR]

Published

2024

19. Colorimetric detection of organophosphorus pesticides based on Nb2CTx MXene self-reducing PdPt nanozyme integrated with hydrogel and smartphone.

Author

Liao, Diyan, Zhao, Yong, Zhou, Yi, Yi, Yinhui, Weng, Wenchuan, and Zhu, Gangbing

Subjects

SMARTPHONES, DETECTION limit, GLYPHOSATE, ACETYLCHOLINESTERASE, PESTICIDES

Abstract

The extensive usage of organophosphate pesticides (OPs) has posed severe harm to human health and environmental system, but achieving highly effective and on-site detection is still a great challenge. In this work, a novel nanozyme Nb2CTx MXene/bimetallic PdPt (Nb2CTx@PdPt) was synthesized firstly through a simple self-reduction method, and the results show that the as-prepared Nb2CTx@PdPt nanozyme exhibits outstanding peroxidase-like activity. Interestingly, the nanozyme activity of Nb2CTx@PdPt is restrained remarkably in the presence of acetylcholine chloride and acetylcholinesterase while it can be restored through the addition of OPs (selecting glyphosate as a model). Based on this phenomenon, a sensitive colorimetric assay coupled with hydrogel and smartphone for OPs was then constructed. After optimizing various conditions, the designed sensing platform can achieve stable, rapid, and sensitive on-site detection for OPs, showing superior sensing performances: a wide linearity of 1.0 ng mL−1–1.0 µg mL−1 and low detection limit of 0.419 ng mL−1. [ABSTRACT FROM AUTHOR]

Published

2024

20. Impact of saflufenacil and glyphosate-based herbicides on the morphoanatomical and development of Enterolobium contortisiliquum (Vell.) Morong (Fabaceae): new insights into a non-target tropical tree species.

Author

de Araújo, Hugo Humberto, Soares, Graciele Daiane Diniz, Dias-Pereira, Jaqueline, da Silva, Luzimar Campos, and de Morais Machado, Vinícius

Subjects

BIOTIC communities, CULTIVATED plants, PESTICIDE pollution, GLYPHOSATE, FOLIAR diagnosis, HERBICIDES

Abstract

The unregulated use and improper management of herbicides can cause negative effects on non-target species and promote changes in biological communities. Therefore, the current study is aimed at understanding morphoanatomical responses and effects on seedling development induced by the herbicides glyphosate and saflufenacil in Enterolobium contortisiliquum, a non-target tropical species. The plants were cultivated in a greenhouse and subjected to herbicides at doses of 0, 160, 480, and 1440 g a.e ha−1 for glyphosate, and 0, 25, 50, and 100 g a.i ha−1 for saflufenacil. We conducted visual and morphological assessments over 90 days post-application. Leaf samples were collected 12 days after the application for anatomical analysis, and we also performed a micromorphometric analysis of the leaf tissues. Biomarkers of phytotoxicity were identified in plants exposed to both herbicides, even at the lowest doses, including in leaves without visual symptoms. The main morphological alterations were the decrease in growth, stem diameter, and dry mass. Furthermore, the leaves and stems visually exhibited chlorosis and necrosis. Both herbicides triggered anatomical modifications such as significant changes (p < 0.05) in the thickness of leaf tissues, hypertrophy, cell collapse, and changes in epicuticular waxes. However, the alterations induced by glyphosate were more widespread compared to saflufenacil, encompassing alterations in the root system. We confirmed that the different mechanisms of action of each herbicide and the existence of an underground reserve system in this species are intrinsically linked to the morphological and developmental responses described. Our findings suggest that E. contortisiliquum could be a potential bioindicator species for these herbicides in the environment, even at concentrations lower than those typically recommended for field application. [ABSTRACT FROM AUTHOR]

Published

2024

21. A simplified liquid chromatography‐mass spectrometry methodology to probe the shikimate and aromatic amino acid biosynthetic pathways in plants.

Author

El‐Azaz, Jorge and Maeda, Hiroshi A.

Subjects

*PHENYLPROPANOIDS, *AMINO acids, *PHENYLALANINE, *PLANT cells & tissues, *BIOSYNTHESIS, *HYDROPHILIC interaction liquid chromatography, *GLYPHOSATE

Abstract

SUMMARY Plants direct substantial amounts of carbon toward the biosynthesis of aromatic amino acids (AAAs), particularly phenylalanine to produce lignin and other phenylpropanoids. Yet, we have a limited understanding of how plants regulate AAA metabolism, partially because of a scarcity of robust analytical methods. Here, we established a simplified workflow for simultaneous quantification of AAAs and their pathway intermediates from plant tissues, based on extraction at two alternative pH and analysis by Zwitterionic hydrophilic interaction liquid chromatography coupled to mass spectrometry. This workflow was then used to analyze metabolic responses to elevated or reduced carbon flow through the shikimate pathway in plants. Increased flow upon expression of a feedback‐insensitive isoform of the first shikimate pathway enzyme elevated all AAAs and pathway intermediates, especially arogenate, the last common precursor within the post‐chorismate pathway of tyrosine and phenylalanine biosynthesis. Additional overexpression of an arogenate dehydrogenase enzyme increased tyrosine levels and depleted phenylalanine and arogenate pools; however, the upstream shikimate pathway intermediates remained accumulated at high levels. Glyphosate treatment, which restricts carbon flow through the shikimate pathway by inhibiting its penultimate step, led to a predictable accumulation of shikimate and other precursors upstream of its target enzyme but also caused an unexpected accumulation of downstream metabolites, including arogenate. These findings highlight that the shikimate pathway and the downstream post‐chorismate AAA pathways function as independently regulated modules in plants. The method developed here paves the way for a deeper understanding of the shikimate and AAA biosynthetic pathways in plants. [ABSTRACT FROM AUTHOR]

Published

2024

22. Vitamin E improves oxidative stress, apoptosis, and steroidogenesis impairment in glyphosate-induced mice.

Author

Shafiee Mehr, Mehdi, Haeri, Seyed Mohammad Jafar, Barzroodi Pour, Mitra, and Bayat, Mohammad

Subjects

*POISONS, *VITAMIN E, *BCL-2 genes, *GENITALIA, *GENE expression

Abstract

AbstractBackgroundMethodsResultsConclusionGlyphosate (Gly) is a nonselective pesticide with high potential to toxic effects on the reproductive system. Recent studies suggest that Vitamin E can indeed have a positive impact on the reproductive system, while Gly, a nonselective pesticide, has been linked to significant risks of toxicity on reproductive health. It’s crucial to be mindful of the potential impacts of such substances on the reproductive system.Seventy female mice were categorized into seven groups.: (1) control, (2) olive oil (as Vit E solvent), (3) Vit E, (4) L-Gly, (5) H-Gly, (6) L-Gly + Vit E, and (7) H-Gly + Vit E. Various factors related to oxidative stress, antioxidant activity, steroid hormones, and mRNA expression levels of genes involved in apoptosis and steroidogenesis were assessed.After treatment with both doses of Gly, the malondialdehyde level significantly increased in comparison to the control group. Conversely, the activity of catalase and the levels of glutathione, estrogen, and progesterone decreased. Treatment of mice with both doses of Gly resulted in increased mRNA levels of Bax, caspase-3, and caspase-9 genes, as well as a decreased mRNA level of the Bcl-2 gene and factors involved in steroidogenesis (StAR and 3-β-HSD) comparison to the control group.These results offer that vitamin E could help improve some of the adverse effects of Gly in the ovaries of female mice. [ABSTRACT FROM AUTHOR]

Published

2024

23. Contaminants and residues have varied distributions in large volumes of wheat.

Author

Tittlemier, Sheryl A., Blagden, Richard, Chan, Jason, Drul, Dainna, Gaba, Don, Huang, Mei, Richter, Anja, Roscoe, Mike, Serda, Maria, Timofeiev, Valentina, and Tran, Michael

Subjects

*ERGOT alkaloids, *MYCOTOXINS, *LOADING & unloading, *PLANT products, *POLLUTANTS, *OCHRATOXINS, *DEOXYNIVALENOL, *GLYPHOSATE

Abstract

AbstractAnalysis of bulk wheat consignments for naturally-occurring contaminants and residues from plant protection products is common, and helps manage potential health risks to consumers. The heterogeneous distribution of some mycotoxins in wheat has been described, however the distribution of other contaminants and residues has not yet been reported. This study characterized distributions of deoxynivalenol, ochratoxin A, ergot alkaloids, cadmium, and glyphosate in nine large consignments of wheat by analysing composite samples representing sub-lots prepared from increments obtained during the entire loading process. The widest span of concentrations within a consignment occurred for ochratoxin A (<0.5–22.9 µg/kg) and ergot alkaloids (0.009–0.486 mg/kg), followed by deoxynivalenol (<0.05–0.76 mg/kg) and glyphosate (<0.3–5.01 mg/kg), and then cadmium (0.022–0.102 mg/kg). Experimental semivariograms were plotted to model the spatio-temporal correlation of analytes within consignments during loading. Analyses demonstrated that distributions of contaminants and residues within a particular consignment differed, and that distributions of a particular contaminant or residue differed among consignments. The results indicate that sampling during only a portion of a loading or unloading process can result in a composite sample that is not representative of the consignment and thus increase the risk of misclassifying a consignment as compliant. [ABSTRACT FROM AUTHOR]

Published

2024

24. Freshwater dissolved oxygen dynamics: changes due to glyphosate, 2,4-D, and their mixture, both under clear and turbid-organic conditions.

Author

Lozano, V. L., Miranda, C. E., Vinocur, A. L., Sabio y García, C. A., Vera, M. S., González, C., Wolansky, M. J., and Pizarro, H. N.

Subjects

*OXYGEN saturation, *GLYPHOSATE, *MICROBIAL communities, *FRESH water, *TURBIDITY, *HERBICIDES

Abstract

To evaluate the effect of glyphosate, 2,4-D, and their combination on daily dissolved oxygen saturation percentage (DO%) in freshwater, two separate outdoor mesocosm experiments were performed. The experiments were conducted under contrasting conditions: one in clear mesotrophic status lasting 23 days, and the other in organic turbid eutrophic conditions lasting 21 days. Single concentrations were applied as commercial formulations at two levels. Samples of phytoplankton (micro + nano, picoeukaryotes, picocyanobacteria), mixotrophic algae, and heterotrophic bacteria were analyzed at four sampling dates. Increases in DO levels were consistently observed in both clear and turbid systems treated with glyphosate, either alone or in combination with 2,4-D, suggesting that DO is a sensitive indicator. DO increased in all glyphosate treatments. DO increases reflected different changes in phytoplankton communities, increasing with micro + nano phytoplankton abundance in the clear experiment but with increased picocyanobacteria in the turbid. In contrast, 2,4-D reduced DO levels, but only in the turbid system, where micro + nano phytoplankton abundance decreased. The clear system showed greater resilience by restoring DO levels before the turbid one. Mainly additive effects of the herbicide mixture were observed on dissolved oxygen levels (DO%), but a distinct synergistic decrease was detected within turbid systems, underscoring the importance of considering turbidity as a contributing factor in the freshwater impacts of herbicides. [ABSTRACT FROM AUTHOR]

Published

2024

25. Genome-wide association study reveals the genetic basis of rice resistance to three herbicides.

Author

Peizhou Xu, Yuhe Qin, Maosen Ma, Tengfei Liu, Fenhua Ruan, Le Xue, Jiying Cao, Guizong Xiao, Yun Chen, Hongyan Fu, Gege Zhou, Yonghua Xie, and Duo Xia

Subjects

SUSTAINABLE agriculture, WEED control, GENOME-wide association studies, GLUFOSINATE, GENETIC variation, HERBICIDE resistance, HERBICIDE-resistant crops

Abstract

Crop resistance to herbicides is crucial for agricultural productivity and sustainability amidst escalating challenges of weed resistance. Uncovering herbicide resistant genes is particularly important for rice production. In this study, we tested the resistance to three commonly used herbicides: glufosinate, glyphosate and mesotrione of 421 diverse rice cultivars and employed genome-wide association studies (GWAS) to unravel the genetic underpinnings of resistance to these three herbicides in rice. We discovered that cultivated rice exhibited rich variation in resistance to the three herbicides, and the differences among subpopulations were significant. Six identified associations harboring candidate genes for resistance to these herbicides were significant. Among them, RGlu6 and RGly8 were the major QTL for resistance to glufosinate and glyphosate, respectively. The favorable alleles of RGlu6 and RGly8 were primarily present in japonica cultivars that originated from Europe, highlighting the geographic and genetic diversity of herbicide resistance and emphasizing the localized selection pressures in European rice varieties. Moreover, our findings might suggest that traditional target genes may not contain tolerant alleles in nature, and alternative mechanisms with novel loci associated with resistance may work. By mapping the genes for herbicide resistance, our results may help develop new strategies to combat the dual challenges on effective weed management and herbicide sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

26. Genomics and taxonomy of the glyphosate-degrading, copper-tolerant rhizospheric bacterium Achromobacter insolitus LCu2.

Author

Kryuchkova, Yelena V., Neshko, Alexandra A., Gogoleva, Natalia E., Balkin, Alexander S., Safronova, Vera I., Kargapolova, Kristina Yu., Shagimardanova, Elena I., Gogolev, Yuri V., and Burygin, Gennady L.

Abstract

A rhizosphere strain, Achromobacter insolitus LCu2, was isolated from alfalfa (Medicago sativa L.) roots. It was able to degrade of 50% glyphosate as the sole phosphorus source, and was found resistant to 10 mM copper (II) chloride, and 5 mM glyphosate–copper complexes. Inoculation of alfalfa seedlings and potato microplants with strain LCu2 promoted plant growth by 30–50%. In inoculated plants, the toxicity of the glyphosate–copper complexes to alfalfa seedlings was decreased, as compared with the noninoculated controls. The genome of A. insolitus LCu2 consisted of one circular chromosome (6,428,890 bp) and encoded 5843 protein genes and 76 RNA genes. Polyphasic taxonomic analysis showed that A. insolitus LCu2 was closely related to A. insolitus DSM23807T on the basis of the average nucleotide identity of the genomes of 22 type strains and the multilocus sequence analysis. Genome analysis revealed genes putatively responsible for (1) plant growth promotion (osmolyte, siderophore, and 1-aminocyclopropane-1-carboxylate deaminase biosynthesis and auxin metabolism); (2) degradation of organophosphonates (glyphosate oxidoreductase and multiple phn clusters responsible for the transport, regulation and C–P lyase cleavage of phosphonates); and (3) tolerance to copper and other heavy metals, effected by the CopAB–CueO system, responsible for the oxidation of copper (I) in the periplasm, and by the efflux Cus system. The putative catabolic pathways involved in the breakdown of phosphonates are predicted. A. insolitus LCu2 is promising in the production of crops and the remediation of soils contaminated with organophosphonates and heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

27. <italic>Anthoxanthum odoratum</italic> (Poaceae) as a bioindicator of arbuscular mycorrhizal fungi abundance prior to native revegetation on agricultural soils.

Author

Horton, Sky, Lowther, Mandy, and Lord, Janice

Subjects

*VESICULAR-arbuscular mycorrhizas, *HERBICIDE application, *AGRICULTURE, *FARMS, *PLANT colonization

Abstract

Mycorrhizal fungi, which form symbiotic associations with plant roots, can be critical to the successful establishment of plants. Up to 90% of land plant species form associations with arbuscular mycorrhizal fungi (AMF), which develop fungal structures inside host roots. Common site preparation practices prior to ecological restoration, such as soil disturbance and herbicide application, may lessen the availability of AMF, potentially jeopardising plant establishment. However, the state of the soil microbiome can be difficult to assess directly. This study examines the potential of the widespread pasture grass Anthoxanthum odoratum (Sweet Vernal, Poaceae) as a bioassay of AMF abundance in soils. We present a rapid clearing and staining protocol for visualising AMF structures in the roots of A. odoratum. We then compare % colonisation on roots of naturally established A. odoratum plants collected from undisturbed pastures vs. sprayed and tilled pastures. Roots of A. odoratum collected from sprayed and tilled pastures showed a significantly lower average AMF colonisation at 43.8% compared with 57.6% on roots from undisturbed pastures. However, all plants sourced from the sprayed and tilled pastures still showed some AMF structures. Our results strongly suggest that A. odoratum can be a useful bioindicator of AMF presence and abundance in soils, offering a promising tool for seed-based restoration on retired agricultural land. [ABSTRACT FROM AUTHOR]

Published

2024

28. Glyphosate resistance and no fitness cost in backcross offspring of wild soybean and transgenic soybean with epsps gene.

Author

Liu, Laipan, Zhang, Li, Fang, Zhixiang, Shen, Wenjing, Yin, Xin, Ren, Zhentao, Yu, Qi, Liang, Jingang, and Liu, Biao

Subjects

*GENETIC drift, *CROP yields, *BIOLOGICAL fitness, *GLYPHOSATE, *BIOMASS

Abstract

Background: The commercial utilization of genetically modified soybeans has yielded substantial economic advantages. Nevertheless, the genetic drift towards wild soybeans is one of the main ecological risks that needs to be addressed. Previous experiments demonstrated the absence of fitness cost or florescence overlap in hybrid offspring resulting from the crossbreeding of transgenic soybean GTS40-3-2 and Zhengzhou wild soybeans. In this study, hybrid progeny was systematically crossed with wild soybeans to establish a backcross progeny system. This system was employed to evaluate the ecological risk associated with the backcross progeny of transgenic and wild soybeans. Results: The findings indicated that the offspring from the backcross exhibited glyphosate tolerance. Furthermore, the expression of foreign proteins in the backcross offspring was notably lower than in the transgenic soybean, and there was no significant difference when compared to the hybrid progeny. Parameters such as germination rate, aboveground biomass, pods per plant, full seeds per plant, and 100-grain weight exhibited no significant differences between the negative and positive lines of the backcross progenies, and no fitness cost was identified in comparison to wild soybeans. These results underscore the potential for foreign genes to propagate within other wild soybeans, which requires continuous attention. Conclusions: The widespread adoption of genetically modified soybeans has undeniably led to substantial economic gains. However, the research findings emphasize the critical importance of addressing the ecological risks posed by genetic drift towards wild soybeans. The backcross progeny system established in this study indicates that the potential for foreign gene dissemination to wild soybean populations warrants continued attention and mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

29. Glyphosate Detection via Defect Engineering on NiAl Layered Double Hydroxides.

Author

Velázquez-Hernández, I., Lopez-Miranda, J. Luis, Ramos-Castillo, C. M., Gonzalez-Reyna, Marlen Alexis, Esparza, Rodrigo, Arjona, Noé, and Estévez, Miriam

Abstract

On-site detection of herbicides is imperative to ensure food safety; thus, effective electrochemical sensors are required. In this study, electrochemical detection of glyphosate and glufosinate was achieved through the rational design of a defect-engineered transductor based on surface-defective NiAl layered double hydroxides supported on a N-doped carbonaceous support. The NiAl atomic composition was optimized, and the 3:1 ratio exhibited the best performance. In phosphate buffer solution (0.1 M PBS pH 11), this material presented a sensitivity of 276 mA M–1 cm–2 and a limit of detection (LOD) of 0.43 μM (as determined by cyclic voltammetry). The LOD was enhanced to 0.081 μM using differential pulse voltammetry. An electrochemical solid-state sensor for on-site tests was developed using screen-printed electrodes and hydrated poly-(vinyl alcohol) membranes. The solid-state prototype was tested under laboratory conditions by spraying glyphosate onto a plant, and the electrochemical results demonstrated good repeatability and stability. The excellent detection performance of the sensor was attributed to the induced surface defects and the major center of Ni exposure, as determined by chemical calculations, where the induced defects enabled changes in the surface electrical properties of the layered double hydroxide (LDH). [ABSTRACT FROM AUTHOR]

Published

2024

30. Seasonal comparison of household vinegar and glyphosate treatments on Microstegium vimineum removal in the North Carolina, United States piedmont.

Author

Martinez, Casey L., Siegert, Courtney M., Granger, Joshua J., and Iglay, Raymond B.

Subjects

*TREATMENT effectiveness, *PLANT diversity, *FOREST management, *SPECIES diversity, *GLYPHOSATE

Abstract

Microstegium vimineum, or Japanese stiltgrass, is an invasive species that readily outcompetes native vegetation and is of poor forage quality for wildlife. This species is widespread throughout the southeastern United States, including North Carolina. Much of this region is privately owned and there is a gap in the literature providing succinct information about the best methods of treatment, timing of treatment, and effects of treatment on native herbaceous plants in this region. This study seeks to address this gap by evaluating two treatments that are easily accessible to landowners (glyphosate and vinegar) applied at three intervals throughout the growing season to assess the effects on M. vimineum removal and the herbaceous plant community. We found that glyphosate application was the most effective treatment, removing nearly 100% of M. vimineum but resulting in less diverse herbaceous communities. In contrast, vinegar application was both effective (54.9 ± 2.7% M. vimineum removal) and maintained species richness and diversity. Timing of applications did not affect treatment efficacy or plant diversity for either treatment. This study provides evidence that vinegar is an effective substitute for synthetic herbicides and can support M. vimineum removal efforts while maintaining plant diversity. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effect of Biostimulants and Glyphosate on Morphophysiological Parameters of Zea mays (L.) Seedlings under Controlled Conditions.

Author

Tandathu, Tabisa, Kotzé, Elmarie, Van Der Watt, Elmarie, and Khetsha, Zenzile Peter

Subjects

*WEED competition, *GLYPHOSATE, *CHLOROPHYLL spectra, *CORN, *WEED control

Abstract

Maize (Zea mays L.) is the major produced crop in South Africa, but numerous abiotic/biotic stressors threaten its production. Herbicides are mainly in the agricultural sector to minimise crop yield losses caused by weed competition. However, with most weeds becoming resistant to glyphosate, South African farmers have used higher herbicide concentrations than typically recommended. This study was conducted to determine the effect of two biostimulants (brassinosteroids and KELPAK) and glyphosate on the morphophysiological parameters of maize seedlings. Experiments were carried out in the glasshouses of the Department of Soil, Crop, and Climate Sciences at the University of the Free State in Bloemfontein for eight weeks over two seasons, 2017/2018 and 2018/2019. The treatments did not significantly affect all maize morphological parameters except the plant dry mass. Compared to the control, plant dry mass was significantly (p < 0.05) increased by 15.72 g when glyphosate was applied in combination with brassinosteroids during the 2019 growing season. The application of glyphosate, brassinosteroids, and KELPAK differed significantly (p < 0.05) between weeks across the physiological parameters in the two seasons: an irrefutable significant increase was recorded in the rates of transpiration between the weeks. Although significant differences were recorded in the chlorophyll fluorescence, chlorophyll, and carotenoid content, these parameters were similar to the control, especially in the last week of data collection. During the early developmental stage of maize, farmers can administer biostimulants—brassinosteroid (5 g ai ha−1) and KELPAK (5% ai ha−1)—alone and in combination in glyphosate-resistant maize cultivars treated with glyphosate to aid maize seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

32. Dicamba: Dynamics in Straw (Maize) and Weed Control Effectiveness.

Author

Mundt, Tamara Thais, Gimenes Cotrick Gomes, Giovanna Larissa, Picoli Junior, Gilmar José, Lopez Ovejero, Ramiro Fernando, Domingues Velini, Edivaldo, and Carbonari, Caio Antonio

Subjects

*WEED control, *RAINFALL, *GLYPHOSATE, *HERBICIDES, *STRAW, *NO-tillage

Abstract

Dicamba is a post-herbicide, showing some activity in soil, and its dynamics can be influenced by several factors, including the presence of straw. Brazil has more than 50% of its production area in a no-till system; thus, a good amount of the herbicide is intercepted by the straw. This study aimed to evaluate dicamba dynamics in straw and weed control efficacy when sprayed as a PRE herbicide. For this, five different studies were conducted: we utilized different straw amounts (1) and different drought periods (2) for straw sprayed with dicamba and dicamba + glyphosate to evaluate its release from straw, different straw amounts (3), different drought periods (4), and wet and dry straw (5) to evaluate pre-emergence weed control (Bidens pilosa and Ipomoea grandifolia) and dicamba availability in medium-texture soil. Around 80% of dicamba was released from the straw after 100 mm of rainfall. One day after dicamba application, 65–70% of dicamba was released from the straw with 20 mm of rainfall, while for 7 and 14 DAA, 60% was released. Dicamba was efficient in controlling the pre-emergence of both species studied, and the amount of straw did not interfere in weed control; however, dicamba was less available in the soil after rainfall when sprayed in the straw than when sprayed directly in the soil. Up to 80% of dicamba can be released from the straw after 100 mm of rainfall and weed control was efficient for the species studied; however, the carryover effect in sensitive crops might become an issue. [ABSTRACT FROM AUTHOR]

Published

2024

33. Multiple Herbicide Resistance in Annual Ryegrass (Lolium rigidum Gaudin) in the Southeastern Cropping Region of Australia.

Author

Mahajan, Gulshan and Chauhan, Bhagirath Singh

Subjects

*WEED control, *PARAQUAT, *GLUFOSINATE, *ITALIAN ryegrass, *GLYPHOSATE, *HERBICIDES, *HERBICIDE resistance, *WEEDS

Abstract

Annual ryegrass (Lolium rigidum) is a problematic weed in winter crops and fallows in the southeastern cropping region (SCR) of Australia. This weed has evolved resistance to multiple herbicide groups, globally. In Australia, L. rigidum is more prevalent in the western and southern regions than in SCR. To assess the herbicide resistance status of L. rigidum, the response of five L. rigidum populations (collected from the SCR) to glyphosate, glufosinate, paraquat, haloxyfop-P-ethyl, and clethodim is determined using dose–response curves. Three parametric logistic models are used to determine the herbicide dose required to achieve 50% survival (LD50) and 50% growth reduction (GR50). The LD50 values for 50% survival at 28 days after treatment range from 1702 g a.e. ha−1 to 8225 g a.e. ha−1 for glyphosate, 1637 g a.i. ha−1 to 1828 g a.i. ha−1 for glufosinate, 141 g a.i. ha−1 to 307 g a.i. ha−1 for paraquat, 11 g a.i. ha−1 to 107 g a.i. ha−1 for haloxyfop-P-ethyl, and 17 g a.i. ha−1 to 48 g a.i. ha−1 for clethodim. The resistance factor, based on GR50 value, is highest in the S7 population (2.2 times) for glyphosate, the S11 population (2.3 times) for glufosinate, the S11 population (2.0 time) for paraquat, the S7 population (3.9 times) for haloxyfop-P-ethyl, and the S3 population (3.1 times) for clethodim, compared with the susceptible or less tolerant population. The S11 population is found to be resistant to five tested herbicides, based on resistance factors. Similarly, the S3 population is highly resistant to glyphosate, haloxyfop-P-ethyl, and clethodim compared with the W4 population. These results suggest that L. rigidum populations in the SCR exhibit resistance to multiple herbicide groups at labelled field rates. The findings highlight the necessity of adopting an integrated management approach, including the use of residual herbicides, tank mixing herbicides with different modes of action, and rotating herbicides in conjunction with cultural and mechanical control methods. [ABSTRACT FROM AUTHOR]

Published

2024

34. Morphology of the hypopharyngeal gland of the stingless bee Scaptotrigona postica (Apidae: Meliponini) and the effects of pesticides.

Author

de Almeida Sousa, Renan Gabriel and de Azevedo Brito, Pedro Vale

Abstract

Bees play a crucial role in pollination but are exposed to various pesticides during nectar and pollen collection, which can impact their health and pollination efficiency. This study aimed to investigate morphological and histochemical changes in the hypopharyngeal glands of Scaptotrigona postica after exposure to three chemical compounds: glyphosate, fipronil, and Tween. Nurse bees of S. postica were divided into four experimental groups and fed with sucrose syrup containing the compounds for 24 h. After the exposure period, the hypopharyngeal glands were analyzed for morphology using light microscopy and transmission electron microscopy. The hypopharyngeal glands of S. postica exhibited a tubuloacinar structure, with unicellular acini approximately 54 µm in diameter. Exposure to fipronil resulted in changes in the organization of the rough endoplasmic reticulum (RER) and increased area and sphericity of the acini compared to all other groups, as well as a higher presence of proteins in the cytoplasm compared to other pesticides, potentially due to increased food consumption. Bees exposed to glyphosate showed alterations in the mitochondria compared to all groups. The Tween group did not exhibit significant changes in cellular ultrastructure, only a smaller area and sphericity compared to the control group. The hypopharyngeal glands are highly sensitive to pesticides and are efficient bioindicators. Significant changes in these glands can compromise the maintenance of the colony. [ABSTRACT FROM AUTHOR]

Published

2024

35. Kinetics and sorption behavior of glyphosate and tricyclazole for their efficient retention in biomixtures.

Author

Sethi, Garima, Saini, Renu, Banerjee, Tirthankar, Kumar, Rajesh, Sahu, Sudama Ram, and Singh, Neera

Subjects

*WHEAT straw, *PESTICIDES, *BIOCHAR, *SORPTION, *DESORPTION

Abstract

The present investigation aims to study adsorption-desorption behavior of glyphosate and tricyclazole in rice straw-compost biomixtures. To enhance pesticide adsorption and performance of the bio-purification system, rice straw-compost (BM) biomixture was mixed with wheat straw biochar (WBC, 1% and 5%), and adsorption of both pesticides in control (BM) and WBCBM(1%) and WBCBM(5%) biomixtures was compared. The kinetics study suggested that the pseudo-second-order model best explained the time-dependent adsorption of both pesticides and intraparticle adsorption was not the rate-determining step. Tricyclazole was more sorbed than glyphosate in all biomixtures which can be attributed to its lower water solubility. The WBC increased the sorption of both pesticides, but the effect varied with the nature of pesticides and biochar content. The adsorption coefficient values in BM, WBCBM(1%), and WBCBM(5%) biomixtures were 26.74, 38.16, and 51.97 (glyphosate) and 38.07, 59.94, and 84.54 (tricyclazole), respectively. The adsorption data was subjected to the Freundlich, the Langmuir, and the Temkin isotherms, and among them, the Freundlich isotherm best explained pesticide adsorption behavior. Desorption results suggested that the adsorption of glyphosate was more irreversible than tricyclazole and depended upon initial pesticide concentration. This study suggested that biochar mixed rice straw-compost biomixtures can be exploited in bio-purification systems for glyphosate and tricyclazole. [ABSTRACT FROM AUTHOR]

Published

2024

36. Ultra-Trace Electrochemical Determination of Glyphosate Using Bimetallic Metal–Organic Frameworks (MOFs) with Differential Pulse Voltammetry.

Author

Nguyen, Thi Ngoc Anh, Nguyen, Manh B., Dinh, Trong Hoat, Vu, Cam Tu, Pham, Thi Hai Yen, Pham, Hong Phong, Nguyen, Ngoc Tien, Tran, Quang Hai, Nguyen, Thi Kim Thuong, and Vu, Thi Thu Ha

Subjects

*GLYPHOSATE, *LIQUID chromatography-mass spectrometry, *METAL-organic frameworks, *CARBON electrodes, *VOLTAMMETRY

Abstract

Hierarchically bimetallic Zr-Cu metal–organic framework combined with 1,3,5-benzenetricarboxylic acid (Zr-CuBTC MOFs) was synthesized using hydrothermal reaction and used as modifier for investigation of non-electroactive glyphosate. These MOFs were dropcasted on a glassy carbon electrode (GCE) and non-electroactive glyphosate were tested by cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and differential pulse voltammetry (DPV). Glyphosate in water was recognized by the difference of currents in spiked and non-spiked glyphosate samples. At the same time, CuBTC and Fe-CuBTC were investigated for the best material for sensor development. The results showed the bimetallic Zr-CuBTC MOF is the most promising for the determination of glyphosate. Morphological and structural studies showed the coordination of Cu2+ with the presence of Zr4+ ions with BTC ligands provided a highly porous framework with active surface area up to 1337 m2 g−1. The pore diameter and pore volume increased to 1.75 nm and 0.687 cm3 g−1, respectively. Under optimal conditions, Zr-CuBTC modified on GCE (Zr-CuBTC/GCE) sensor is able to indirectly detect glyphosate in a water environment at a detection limit as low as 9 × 10−13 M. The developed sensor was employed to determine glyphosate in the surface water samples collected from the Red River, North Vietnam. The results showed good recoveries (94.6–107.1%) which were in agreement with liquid chromatography coupled tandem mass spectrometry (LC-MS/MS) measurements. These results demonstrate the possibility of using this MOF material in sensor applications to determine trace pesticides in the contaminated water. [ABSTRACT FROM AUTHOR]

Published

2024

37. Glyphosate as a direct or indirect activator of pro-inflammatory signaling and cognitive impairment.

Author

Yukitoshi Izumi, O’Dell, Kazuko A., and Zorumski, Charles F.

Published

2024

38. The effects of pre-harvest glyphosate rate and timing on yield and pre-malt quality of malting barley.

Author

O'Donovan, John T., Kubota, Hiroshi, Harker, K. Neil, Turkington, T. Kelly, May, William, Johnson, Eric N., Beres, Brian, Izydorczyk, Marta, Oatway, Lori, de Gooijer, Henry, Mulenga, Alick, Schwinghamer, Timothy, and Tidemann, Breanne D.

Subjects

GLYPHOSATE, ENVIRONMENTAL management, MALTING, CULTIVARS, MALT

Abstract

The production of barley cultivars with malting and brewing quality characteristics is subject to strict grading and technical standards for the end-use market. Environmental and management factors can significantly alter grain quality, and the qualities required for malting. Crop and kernel uniformity are critical factors where variability can exceed the tolerance for meeting malt quality. A practice to address variations in crop maturity is the application of pre-harvest glyphosate. Pre-harvest glyphosate applications can, however, alter malting characteristics in barley, and, if mis-timed, can also reduce yield. A 4-year study at five locations in Alberta and Saskatchewan from 2013 to 2017 was conducted to determine the effects of pre-harvest glyphosate applications on malting barley characteristics. Glyphosate was applied at 900 and 1125 g ae ha−1 on malting barley cultivars 'CDC Meredith' and 'AC Metcalfe' malting barley at soft dough, hard dough, and physiological maturity growth stages. Yield reductions of up to 12% were observed from glyphosate applications at soft dough, and yield was maximized with applications at physiological maturity. Glyphosate application, at two rates, reduced percentage plump kernels, but did not affect kernel weight or protein concentration. The growth stage of barley plants did not provide an accurate indicator of seed moisture levels at the time of application, which motivated our conclusion that glyphosate applications can be mistimed by inaccurate indicators. The results motivate our questioning of the utility of pre-harvest glyphosate applications, given the adverse effects to barley yield and quality observed, even when applied according to the label instructions. [ABSTRACT FROM AUTHOR]

Published

2024

39. Overview of human health effects related to glyphosate exposure.

Author

Galli, Flavia Silvia, Mollari, Marta, Tassinari, Valentina, Alimonti, Cristian, Ubaldi, Alessandro, Cuva, Camilla, and Marcoccia, Daniele

Subjects

SCIENTIFIC literature, GLYPHOSATE, BREAST milk, ENDOCRINE glands, HUMAN reproduction

Abstract

Glyphosate is a chemical compound derived from glycine, marketed as a broadspectrum herbicide, and represents one of the most widely used pesticides in the world. For a long time, it was assumed that glyphosate was harmless, either due to its selective enzymatic acting method on plants, and because commercial formulations were believed to contain only inert chemicals. Glyphosate is widely spread in the environment, the general population is daily exposed to it via different routes, including the consumption of both plant, and non-plant based foods. Glyphosate has been detected in high amounts in workers' urine, but has been detected likewise in bodily fluids, such as blood and maternal milk, and also in 60%-80% of general population, including children. Considering its massive presence, daily exposure to glyphosate could be considered a health risk for humans. Indeed, in 2015, the IARC (International Agency for Research on Cancer) classified glyphosate and its derivatives in Group 2A, as probable human carcinogens. In 2022, nevertheless, EFSA (European Food Safety Authority) stated that the available data did not provide sufficient evidence to prove the mutagenic/carcinogenic effects of glyphosate. Therefore, the European Commission (EC) decided to renew the approval of glyphosate for another 10 years. The purpose of this review is to examine the scientific literature, focusing on potential risks to human health arising from exposure to glyphosate, its metabolites and its commercial products (e.g., Roundup®), with particular regard to its mutagenic and carcinogenic potential and its effects as endocrine disrupter (ED) especially in the human reproductive system. [ABSTRACT FROM AUTHOR]

Published

2024

40. Exposure Assessment of Glyphosate in Selected Grains Grown in Gombe State, Nigeria and the Potential Health Risk on Consumption.

Author

Zira, S. P., Bwatanglang, I. B., and Audu, Haruna Sympa

Subjects

GLYPHOSATE, HEALTH risk assessment, GAS chromatography

Abstract

Glyphosate widely accepted to be biodegradable and ecofriendly are arguably found to be ambiguous having pinged its footprints in some environmental and health related complications. This herbicide is used widely in Gombe State, Nigeria to mitigate the growth of transgenic plants, and control weeds infestation in farmlands despite being banned in must countries. Thus present a potential risk to the public that still use the formulations as herbicides. Therefore, in this study, we examined the residual level of glyphosate in the rice, beans, maize, millet and sorghum obtained from Gombe, Kaltungo and Funakaye Local Government Areas (LGA) of Gombe State and further conducted the human health risk assessments on consumption. The samples were purified and subjected to extraction and clean-up procedures using water/acetonitile (50/50). The results quantified using Gas chromatography coupled with mass spectrophotometer revealed the average concentrations of glyphosate residues in the samples collected from the three LGA to follow the increasing order; 0.03692>0.01501>0.01413 ppm respectively. However, the concentrations were all observed to be lower than the Minimum Residual Limits (MRLs) set by the WHO/FAO. The non-carcinogenic health risk analysis taken from the data, having values of <1, suggest that the residues do not pose any disenable health risk to the public on consumption but further suggest the exposed children and adults populations are at risk of potential carcinogenic-related complications based on the respective measured Life Time Total Cancer Risk Index (TCRI) of 1.81 x 10-3 and 2.25 x 10-4. The Correlation coefficient established for the samples locations reveals no significant correlation between the pairs of LGAs. From the foregoing results, effective measures and regulations on the use of glyphosate-based herbicides should be instituted. [ABSTRACT FROM AUTHOR]

Published

2024

41. Simultaneous Determination of Glyphosate and 13 Multiclass Pesticides in Agricultural Soil by Direct-Immersion SPME Followed by Solid–Liquid Extraction.

Author

Brinco, João, Guedes, Paula, da Silva, Marco Gomes, Mateus, Eduardo P., and Ribeiro, Alexandra B.

Subjects

AGRICULTURE, PESTICIDES, DETECTION limit, STANDARD deviations, SLURRY, GLYPHOSATE, ORGANOPHOSPHORUS pesticides

Abstract

A new method is presented for the simultaneous determination of 13 multiclass pesticides along with glyphosate. The multiclass pesticides were extracted by creating a soil slurry with 2% ethanol in water (v/v), and then, applying direct-immersion solid-phase microextraction (DI-SPME) with a new type of semi-disposable SPME fiber configuration called LC-Tips. The fibers were then retroextracted to ethanol, and aqueous ammonia was added to the slurry to extract glyphosate. Derivatization of the glyphosate extract was accomplished with a mixture of trifluoroacetic anhydride and trifluoroethanol, after which the reaction mixture was dried and resuspended with the SPME ethanol extract. To this, a mixture of analyte protectants was added, and it was analyzed by GC-MS/MS in multiple-reaction-monitoring mode. All analytes showed a coefficient of determination greater than 0.95 in the 0.1–100 µg/kg calibrated range, and the limits of detection were between 0.1 and 1 µg/kg, except for glyphosate, which was 0.01 µg/kg. The method shows relatively high replicate relative standard deviation (as much as 37% for five extractions at 20 µg/kg), but the isotopically labeled internal standard was effective at mitigating this effect for some analytes. [ABSTRACT FROM AUTHOR]

Published

2024

42. Evaluation of the potential role of glutamatergic, cholinergic, and nitrergic systems in the dopamine release induced by the pesticide glyphosate in rat striatum.

Author

Costas‐Ferreira, Carmen, Durán, Rafael, and Faro, Lilian R. F.

Subjects

NITRIC-oxide synthases, METHYL aspartate receptors, CHOLINERGIC receptors, GLUTAMATE receptors, DOPAMINE, MUSCARINIC antagonists, NICOTINIC receptors, DOPAMINE receptors, GLYPHOSATE

Abstract

Glyphosate (GLY) is a pesticide that severely alters nigrostriatal dopaminergic neurotransmission, inducing great increases in dopamine release from rat dorsal striatum. This GLY‐induced striatal dopamine overflow occurs through mechanisms not yet fully understood, hence the interest in evaluating the role of other neurotransmitter systems in such effects. So, the main objective of this mechanistic study was to evaluate the possible mediation of the glutamatergic, cholinergic, and nitrergic systems in the GLY‐induced in vivo dopamine release from rat dorsal striatum. The extracellular dopamine levels were measured by cerebral microdialysis and HPLC with electrochemical detection. Intrastriatal administration of GLY (5 mmol/L) significantly increased the dopamine release (1102%). Pretreatment with MK‐801 (50 or 400 μmol/L), a non‐competitive antagonist of NMDA receptors, significantly decreased the effect of GLY (by 70% and 74%, respectively), whereas AP‐5 (400 μmol/L), a competitive antagonist of NMDA receptors, or CNQX (500 μmol/L), an AMPA/kainate receptor antagonist, had no significant effect. Administration of the nitric oxide synthase inhibitors, L‐nitroarginine (L‐NAME, 100 μmol/L) or 7‐nitroindazole (7‐NI, 100 μmol/L), also did not alter the effect of GLY on dopamine release. Finally, pretreatment of the animals with mecamylamine, an antagonist of nicotinic receptors, decreased the effect of GLY on dopamine release by 49%, whereas atropine, a muscarinic antagonist, had no significant effect. These results indicate that GLY‐induced dopamine release largely depends on the activation of NMDA and nicotinic receptors in rat dorsal striatum. Future research is needed to determine the effects of this pesticide at environmentally relevant concentrations. Glyphosate (GLY) is a pesticide that severely alters nigrostriatal dopaminergic neurotransmission, inducing large increases in striatal dopamine release. In the present study, we confirmed that the intrastriatal administration of GLY increased the in vivo release of dopamine and that local administration of specific antagonists of NMDA and nicotinic receptors significantly decreased the effect of the pesticide. However, this inhibition was only partial, indicating that GLY is a pesticide that alters dopaminergic neurotransmission through several mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

43. Fluorescent Nanocomposites of Cadmium Sulfide Quantum Dots and Polymer Matrices: Synthesis, Characterization, and Sensing Application.

Author

Méndez, Paula, Ramírez, Karla, Lucero, Alex, Rodríguez, Johny, and López, Betty

Subjects

STABILIZING agents, CADMIUM sulfide, QUANTUM dots, POLYSACCHARIDES, COLOR codes

Abstract

Fluorescent materials for sensing have gained attention for the visual detection of different substances as metals and pesticides for environmental monitoring. This work presents fluorescent nanocomposites in solution, film, and paper obtained without capping and stabilizing agents, coming from quantum dots of cadmium sulfide (CdS QDs) and anionic–cationic polymer matrices. Fluorescent films were formed by casting and fluorescent paper by impregnation from the solutions. The optical properties of CdS QDs in solution showed absorption between 418 and 430 nm and a maximum emission at 460 nm. TEM analysis evidenced particle size between 3 and 6 nm and diffraction patterns characteristic of CdS nanocrystals. Infrared spectra evidenced changes in the wavenumber in the fluorescent films. The band gap values (2.95–2.82 eV) suggested an application for visible transmitting film. Fluorescent solutions by UV-vis and fluorescence evidenced a chemical interaction with glyphosate standard between 1 and 100 µg/mL concentrations. The analysis of red, green, and blue color codes (RGB) evidenced a color response of the fluorescent paper at 10 and 100 µg/mL, but the fluorescent films did not show change. Nanocomposites of chitosan and pectin, in solution and on paper, exhibited a behavior "turn-on" sensor, while carboxymethylcellulose had a "turn-off" sensor. This methodology presents three fluorescent materials with potential applications in visual sensing. [ABSTRACT FROM AUTHOR]

Published

2024

44. Management Strategies for Ulex europaeus L. Control in a Native Plant Community in Tenerife, Canary Islands.

Author

González-Montelongo, Cristina, Padrón-Mederos, Miguel A., Negrín-Pérez, Zaira, González, Maya, and Arévalo, José Ramón

Subjects

RESTORATION ecology, AGRICULTURE, NATIVE species, SPECIES diversity, INVASIVE plants

Abstract

Invasive plant species have been recognized as adversely affecting native ecosystems. Some of these plant species become problematic in disturbed environments such as urbanized, agricultural, and abandoned developed or farmed land. In some cases, they can dominate the invaded ground, preventing a transition back to the native plant community. In Tenerife (Canary Islands), the invasive plant species Ulex europaeus L. has established dense infestations in abandoned agricultural lands. Removing such invasive species in Tenerife through ecological restoration is crucial for restoring ecosystem functionality and promoting biodiversity. This study evaluates various management methods for U. europaeus in abandoned fields, assessing their impact on species richness, diversity, composition, and regeneration. The findings can inform management strategies to combat this invasive species, contributing to biodiversity conservation and ecosystem resilience. The study was conducted in two highly invaded areas, evaluating chemical (C), mechanical (M), mechanical and chemical (MC), and mechanical, chemical, and plantation treatments (MCP), along with a control, to analyze changes in species richness, diversity, and plant community. Results indicate that U. europaeus remains capable of reoccupying treated areas. The different treatments led to differences in species richness and composition. The MCP treatment yielded the best results if the planted native species grew faster than Ulex europaeus, preventing its establishment due to its shade-intolerant nature. However, continual control is required to eliminate U. europaeus regeneration from seeds that can persist for at least 30 years. [ABSTRACT FROM AUTHOR]

Published

2024

45. Glyphosate and a glyphosate-based herbicide dysregulate the epigenetic landscape of Homeobox A10 (Hoxa10) gene during the endometrial receptivity in Wistar rats.

Author

Lorenz, Virginia, Doná, Florencia, Cadaviz, Dalma B., Milesi, María M., and Varayoud, Jorgelina

Subjects

DNA methyltransferases, GENE expression, POST-translational modification, DNA methylation, LABORATORY rats

Abstract

We observed that gestational plus lactational exposure to glyphosate (Gly), as active ingredient, or a glyphosate-based herbicide (GBH) lead to preimplantation losses in F1 female Wistar rats. Here, we investigated whether GBH and/or Gly exposure could impair Hoxa10 gene transcription by inducing epigenetic changes during the receptive stage in rats, as a possible herbicide mechanism implicated in implantation failures. F0 dams were treated with Gly or a GBH through a food dose of 2 mg Gly/kg bw/day from gestational day (GD) 9 up to lactational day 21. F1 female rats were bred, and uterine tissues were analyzed on GD5 (preimplantation period). Transcripts levels of Hoxa10, DNA methyltransferases (Dnmt1, Dnmt3a and Dnmt3b), histone deacetylases (Hdac-1 and Hdac-3) and histone methyltransferase (EZH2) were assessed by quantitative polymerase chain reaction (qPCR). Four CpG islands containing sites targeted by BstUI methylation-sensitive restriction enzyme and predicted transcription factors (TFs) were identified in Hoxa10 gene. qPCR-based methods were used to evaluate DNA methylation and histone post-translational modifications (hPTMs) in four regulatory regions (RRs) along the gene by performing methylation-sensitive restriction enzymes and chromatin immunoprecipitation assays, respectively. GBH and Gly downregulated Hoxa10 mRNA. GBH and Gly increased DNA methylation levels and Gly also induced higher levels than GBH in all the RRs analyzed. Both GBH and Gly enriched histone H3 and H4 acetylation in most of the RRs. While GBH caused higher H3 acetylation, Gly caused higher H4 acetylation in all RRs. Finally, GBH and Gly enhanced histone H3 lysine 27 trimethylation (H3K27me3) marker at 3 out of 4 RRs studied which was correlated with increased EZH2 levels. In conclusion, exposure to GBH and Gly during both gestational plus lactational phases induces epigenetic modifications in regulatory regions of uterine Hoxa10 gene. We show for the first time that Gly and a GBH cause comparable gene expression and epigenetic changes. Our results might contribute to delineate the mechanisms involved in the implantation failures previously reported. Finally, we propose that epigenetic information might be a valuable tool for risk assessment in the near future, although more research is needed to establish a cause-effect relationship. [ABSTRACT FROM AUTHOR]

Published

2024

46. Chemical Sensors for Toxic Chemical Detection.

Author

Buzuk, Marijo

Subjects

*CHEMICAL detectors, *HAZARDOUS substances, *POISONS, *ARTIFICIAL neural networks, *CARCINOGENS, *HYDROQUINONE, *GLYPHOSATE

Published

2024

47. Three-Dimensional Analysis of the Impact of Different Concentrations of Glyphosate on the Growth of Cocoa (Theobroma cacao).

Author

Valenzuela-Cobos, Juan Diego, Guevara-Viejó, Fabricio, Galindo-Villardón, Purificación, and Vicente-Galindo, Purificación

Subjects

CACAO, QUANTUM efficiency, CROP development, PLANT development, WEED control, CACAO beans

Abstract

Ecuadorian cocoa possesses important organoleptic characteristics such as aroma and flavor, called fine and aromatic cocoa. The objective of this study was to evaluate the initial growth responses of young cocoa seedlings to glyphosate in a dose progression in 45 cocoa plants (5 months old), which were transplanted into pots with substrate adjusted to pH 6.0–6.5. Glyphosate doses (0 to 904 g e.e. ha−1) were applied every two weeks, evaluating the impact at 30 and 60 days post-application. Data on shikimate accumulation parameters, chlorophyll content and PSII quantum efficiency were subjected to multivariate analysis using a three-dimensional scatter plot. The results indicated that high concentrations of glyphosate contributed to higher shikimate concentration and lower PSII quantum efficiency. The findings for the variables crop damage, stem height and stem diameter were evaluated by ANOVA. Similarities were reported between the results of the variables height and diameter, and significant differences (p < 0.05) in the variable crop damage for all treatments were also reported. In terms of phytotoxic reaction and growth parameters, the most efficient treatment was DO4, since the seedlings with this dosage showed a low percentage of damage (10%) and the best indices in terms of height and diameter. The least efficient treatment was D15. The control plants (DO1) showed a crop damage of >50% because the absence of control favored weed proliferation. These indications highlight the need to adjust glyphosate doses according to the specific needs of each crop and the development stage of the plant in order to reduce negative effects and maximize potential benefits. [ABSTRACT FROM AUTHOR]

Published

2024

48. Effects of Low Concentration of Glyphosate‐Based Herbicide on Genotoxic, Oxidative, Inflammatory, and Behavioral Meters in Danio rerio (Teleostei and Cyprinidae).

Author

Bortolon Ribas, Eduardo, Colombo Dal-Pont, Gustavo, Centa, Ariana, Bueno, Marcos Otávio, Cervini, Ricardo, Silva Ogoshi, Rosana Claudio, Locatelli, Claudriana, and Da Silva, Luis C. N.

Subjects

*ZEBRA danio, *GLYPHOSATE, *OSTEICHTHYES, *CYPRINIDAE, *GENETIC toxicology, *GLUTATHIONE transferase, *HERBICIDES

Abstract

The glyphosate herbicide is a pesticide widely used in the world and can contaminate soil, air, and water. The objective of this work was to evaluate the toxicity of a glyphosate‐based herbicide (GBH) in zebrafish (Danio rerio). Fish were exposed to different concentrations of GBH (0, 50, 250, and 500 µg/L) for 96 hours. Brain, liver, and blood were collected for biochemical and genotoxicity analyses, and behavioral tests were performed. The results showed that there was a reduction in the activity of the antioxidant enzymes of catalase (CAT) and glutathione‐S‐transferase (GST) in the liver at all concentrations and at the highest concentration in the brain. There was also a reduction in lipid peroxidation in the liver at all concentrations of glyphosate. There was an increase in micronuclei in the blood at the 500 µg/L concentration. However, the count of nuclear abnormalities showed no differences from the control. Interleukin‐1beta (IL‐1β) generation was inhibited at all concentrations in the liver and at the highest concentration in the brain. No significant differences were found in the behavioral test compared to the control. The results showed that acute exposure to GBH promoted an inflammatory event, which reduced the efficiency of antioxidants, thus producing a disturbance in tissues, mainly in the liver, causing immunosuppression and generating genotoxicity. [ABSTRACT FROM AUTHOR]

Published

2024

49. 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

50. Selective Detection of Paraquat in Adulterated and Complex Environmental Samples Using Raman Spectroelectrochemistry.

Author

Kavazoi, Henry S., Miyazaki, Celina M., Constantino, Carlos J.L., Martin, Cibely S., and Alessio, Priscila

Subjects

*AGRICULTURAL safety, *PARAQUAT, *COMPLEX matrices, *RAMAN spectroscopy, *DRINKING water

Abstract

Growing demand for pesticides has created an environment prone to deceptive activities, where counterfeit or adulterated pesticide products infiltrate the market, often escaping rapid detection. This situation presents a significant challenge for sensor technology, crucial in identifying authentic pesticides and ensuring agricultural safety practices. Raman spectroscopy emerges as a powerful technique for detecting adulterants. Coupling the electrochemical techniques allows a more specific and selective detection and compound identification. In this study, we evaluate the efficacy of spectroelectrochemical measurements by coupling a potentiostat and Raman spectrograph to identify paraquat, a nonselective herbicide banned in several countries. Our findings demonstrate that applying −0.70 V during measurements yields highly selective Raman spectra, highlighting the primary vibrational bands of paraquat. Moreover, the selective Raman signal of paraquat was discernible in complex samples, including tap water, apple, and green cabbage, even in the presence of other pesticides such as diquat, acephate, and glyphosate. These results underscore the potential of this technique for reliable pesticide detection in diverse and complex matrices. [ABSTRACT FROM AUTHOR]

Published

2024