Your search keyword '"Bromomethane"' showing total 2,735 results

1. Study on Intelligent Bionic Superhydrophobic Material and its Oil‐Water Separation Mechanism.

Author

Wang, Zuoliang, Qu, Guangfei, Ren, Yuanchuan, Chen, Xiuping, Wang, Jun, and Lu, Ping

Subjects

*PETROLEUM in submerged lands, *OIL spills, *WATER pollution, *CONTACT angle, *BROMOMETHANE, *OIL spill cleanup

Abstract

Marine oil spills and improper disposal of daily oil usage have posed significant threat to ecological environments and human health due to rapid industrial development. In this study, an environmentally friendly, simple process and high‐performance Fe3O4@SiO2@Polymethyl methacrylate (PMMA)‐based smart bionic superhydrophobic oil‐absorbing material was developed for effectively collecting and removing oil pollutants from water. By studying the effects of Fe3O4 particle size, polydimethylsiloxane (PDMS) concentration, and heating time on the superhydrophobicity of the materials, the directional regulation of superhydrophobicity and oil‐water separation performance of Fe3O4@SiO2@PMMA@PDMS materials was realized. The results showed that the material exhibited optimal performance when the Fe3O4 particle size combination was 20/500 nm/1 μm, the mass ratio of PDMS to Fe3O4@SiO2@PMMA was 7 : 1, and it was heated at 350°C for 1 minute. The coating achieved an apparent contact angle (APCA) of 158.7° and a rolling angle as low as 4.9°. This coating not only remained superhydrophobic after a 21 m abrasion test and 288 h immersion in acid, alkali, salt, and high‐temperature solutions, but also efficiently separated oil‐water mixtures and water‐in‐oil emulsions, and the separation efficiency for oil‐water mixtures of trichloromethane, dichloromethane and bromomethane was over 99.78 %, and that for water‐in‐oil emulsions was over 98.34 %. Furthermore, the superhydrophobic magnetic polyurethane (SFPU) sponge prepared using Fe3O4@SiO2@PMMA not only exhibited excellent oil‐absorbing capacity (11–28 g/g), but also realized precise oil absorption at multiple sites by magnetic conduction. In the actual oily wastewater test, the oil‐water separation efficiency of the sponge reached 90.58 % and the oil absorption capacity reached 17.03 g/g. This efficient oil‐water separation performance as well as oil adsorption capacity comes from the fact that the nonpolar molecules (e. g., −CH3) generated by the hydrolysis of PDMS can produce van der Waals adsorption with oil substances, while the excellent micro‐nanostructure of the coating surface greatly increases the contact area between oil droplets and the coating, which can make them adsorb or pass through quickly. This multifunctional coating and sponge had immense application potential in fields like offshore oil spill treatment, organic pollution control in water bodies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Unexplained high and persistent methyl bromide emissions in China.

Author

Hu, Xiaoyi, Yao, Bo, Mühle, Jens, Rhew, Robert C., Fraser, Paul J., O'Doherty, Simon, Prinn, Ronald G., and Fang, Xuekun

Subjects

OZONE layer depletion, VIENNA Convention for the Protection of the Ozone Layer (1985). Protocols, etc., 1987 Sept. 15, OZONE-depleting substances, OZONE layer, MOLE fraction, BROMOMETHANE

Abstract

Methyl bromide (CH3Br) is an important ozone-depleting substance whose use is regulated under the Montreal Protocol. Quantifying emissions on the national scale is required to assess compliance with the Montreal Protocol and thereby ensure the timely recovery of the ozone layer. However, the spatial-temporal patterns of China's national CH3Br emissions remain unclear. Here we estimate the national emissions of CH3Br in China during 2011−2020 using atmospheric observations at 10 sites across China combined with an inversion technique (top-down) and compare those with an updated inventory of identified emission sources (bottom-up). Measured CH3Br mole fractions are enhanced well above the background mole fractions, especially at sites in eastern China. Top-down emission estimates exceed bottom-up estimates by 5.5 ± 1.4 gigagrams per year, with the largest fraction (60%) of observationally derived CH3Br emissions arising from underestimated or unidentified emissions sources. This study shows the potential impacts of the unaccounted emissions on stratospheric ozone depletion, with implications for the Montreal Protocol. Methyl bromide (CH3Br) is an important ozone-depleting substance whose use is regulated under the Montreal Protocol. However, the spatial-temporal patterns of China's national CH3Br emissions remain unclear. Here, the authors find that China's top-down emission estimates exceed bottom-up estimates by 60%. [ABSTRACT FROM AUTHOR]

Published

2024

3. Sorption and residue analysis of phosphine in fruits and vegetables.

Author

Kathpalia, Anisha, Arora, Sumitra, and Sharma, Jai Gopal

Subjects

*BROMOMETHANE, *OZONE layer depletion, *MOMORDICA charantia, *CHROMATOGRAPHIC detectors, *FOOD safety, *MANGO, *FUMIGATION

Abstract

This study investigated the sorption and residues of phosphine in fruits and vegetables relevant for export. Sorption patterns varied among the commodities: mango exhibited a constant sorption range of 10–12%, bitter gourd displayed a distinct pattern with peak sorption of 20% at 8 hours, and chilli demonstrated a higher range of sorption percentage, peaking at 60% at 8 hours. ANOVA (F (4,8) = 0.449, p = 0.771) and regression (F (1,11) = 0.851, p = 0.376) analysis revealed a non-significant relationship between the sorption percentage and exposure period. Residue analysis using Gas Chromatography with FPD detector revealed relatively low levels of phosphine residues in mango (0.009–0.01 µL/L), negligible traces in chilli samples, residues within the maximum residue limit (MRL) range for bitter gourd after 4–6 hours of aeration. Detecting phosphine residues within acceptable limits underscores the significance of post-fumigation protocols to meet stringent food safety standards, thereby safeguarding product integrity for global trade. Therefore, phosphine fumigation could serve as a viable alternative to methyl bromide fumigation for quarantine treatment of perishables as it doesn’t leave detectable toxic residues in produce following aeration and has no role in ozone depletion thus making it a more sustainable solution for international trade in fresh produce. [ABSTRACT FROM AUTHOR]

Published

2024

4. Prevention and Control of Ginger Blast by Two Fumigants and Their Effects on a Soil Bacterial Community and the Metabolic Components of Ginger.

Author

Liao, Liyan, Ge, Liqing, He, Xiahong, Li, Tao, Huang, Bin, Zhao, Hanxi, Li, Chaolian, and Han, Qingli

Subjects

AMINO acid derivatives, CHLOROPICRIN, BLAST effect, BACTERIAL metabolites, SOIL microbiology, BROMOMETHANE

Abstract

A two-year field trial was conducted in order to assess techniques to control ginger blast and explore the effects of fumigants on soil bacterial microorganisms and ginger metabolites. This study examined the effects of dazomet and chloropicrin on the control of ginger blast and their influence on ginger yield in Luoping County, Yunnan Province, China. The results showed that in 2022, the control effectiveness of dazomet and chloropicrin treatments on ginger blast was 84.33% and 94.67%, respectively. The corresponding yields were 50,154.40 kg/hm2 and 50,296.90 kg/hm2. In 2023, the control effectiveness of dazomet and chloropicrin treatments on ginger blast were 86.33% and 93.67%, respectively, and the yields were 65,115.83 kg/hm2 and 65,337.93 kg/hm2. In both years, the incidence of ginger blast in the control group reached nearly 100%, leading to the near extinction of the crop. Additionally, in 2023, 16S rRNA high-throughput sequencing and non-targeted metabolomics techniques were used to analyze the effects of the fumigants on soil bacterial microorganisms and the metabolites in ginger. The results showed that the diversity and richness of soil bacterial communities were lower than those in the control group at 0 and 120 days after treatment with two fumigants, but the relative abundances of beneficial bacteria such as Pseudomonas increased at 60 days, and the relative abundances of Actinobacteria, Gemmatimonadetes, and Bacillus increased at 120 days. The abundance of Firmicutes also increased after 120 days of chloropicrin treatment. The non-targeted metabolic LC–MS results showed that the production of phenols and terpenoids was upregulated after dazomet and chloropicrin treatments. The contents of amino acids and their derivatives were also upregulated. This upregulation of metabolites was beneficial to the flavor quality of ginger and enhanced its anti-inflammatory, anti-tumoral, and antioxidant effects. [ABSTRACT FROM AUTHOR]

Published

2024

5. Transcriptome Analysis for Gaining Insight into Gingerol Biosynthesis and MAPK-Dependent Hormonal Signaling Pathway Involved in Resistance Mechanism in Fusarium Wilt Tolerant Ginger (Zingiber officinale Rosc.) Produced Through In Vitro Mutagenesis and Selection

Author

Sharma, Pooja, Thakur, Manisha, Kamal, Shwet, Chauhan, Anjali, Dev, Happy, and Gupta, Ruchi

Subjects

GINGER, ESSENTIAL oils, REGULATOR genes, FUSARIUM oxysporum, PLANT defenses, BROMOMETHANE

Abstract

Ginger (Zingiber officinale Rosc.) is the most widely used medicinal herb of the ancient "Ayurveda" and "Unani" system of medicine due to bioactive compounds present in its rhizomes, i.e., volatile oils (terpenoids), diarylheptanoids (curcuminoids), and gingerols (phenols), which serve as an important panacea for treating arthritis, heart diseases, cancer, diarrhea, and respiratory disorders. It is a vegetatively propagated crop through underground rhizomes and its production is hampered by various soil-borne pathogens which predominantly include Fusarium oxysporum f.sp. zingiberi. During the preceding research, the technique of in vitro mutagenesis and selection was employed in ginger cv. Himgiri for the development of Fusarium tolerant lines, resulting in mutant Himgiri-17.5, which displayed improved accumulation of gingerol and demonstrated enhanced tolerance to Fusarium wilt. The present study reveals the first-ever transcriptome data of in vitro-raised Himgiri-17.5 to unravel the role of gingerol biosynthesis and MAPK-dependent hormonal signaling pathways in imparting tolerance to Fusarium wilt as compared to conventionally propagated Himgiri. Through transcriptome analysis, a total of 13.84 GB data was generated encoding 57,939 genes, out of which 3745 were differentially expressed genes (DEGs) in both the samples with 351 upregulated and 3394 downregulated. The expression patterns of genes in Himgiri-17.5 linked to antioxidant activity and MAPK-dependent hormonal signaling exhibited notable upregulation suggesting their possible participation in mediating plant defense response. Additionally, the investigation provided insights into volatile oil, diarylheptanoids, and gingerol biosynthetic pathway in ginger governed by crucial regulatory genes, namely DCS, CURS2, and ClPKS10. The examination also revealed the presence of 165 upregulated transcription factors primarily belonging to the ERF, bHLH, MYB, NAC, and bZIP families which exhibited a strong correlation with the biosynthesis of gingerol and MAPK-mediated hormonal signaling pathway, contributing to stress tolerance. The discovery of these DEGs related to antioxidant activity, MAPK-mediated hormonal signaling, and the biosynthetic pathway of gingerol holds a promise for the development of improved varieties of ginger through molecular approaches. [ABSTRACT FROM AUTHOR]

Published

2024

6. Pyrolysed maize feedstock utilization in combination with Trichoderma viride against Macrophomina phaseolina.

Author

Waheed, Zobia, Anwar, Waheed, Anjum, Tehmina, Abbas, Muhammad Taqqi, Akhter, Adnan, Hashem, Abeer, Kumar, Ajay, and Abd-Allah, Elsayed Fathi

Subjects

*MACROPHOMINA phaseolina, *TRICHODERMA viride, *CORN, *SOIL amendments, *BIOLOGICAL pest control agents, *BROMOMETHANE, *POTTING soils, *PLANT physiology

Abstract

Maize cultivation is under the growing threat of charcoal rot (Macrophomina phaseolina). Chemical control of diseases imparts serious health hazards to humans and the ecosystem. Biochar as an alternative disease management approach has been under consideration of the researchers for some time now. The biochar utilized in this study was derived from maize stalks and cobs. Crystallographic structure, inorganic minerals content and size of maize biochar were analyzed by powder X-ray diffractometer, while scanning electron microscopy revealed rough, irregular, tubular structure of the biochar surface. EDX spectra revealed that the maize biochar composition was dominated by 'C' followed by 'O'. The current study was designed to determine the synergistic effect of maize biochar (MB), and biocontrol agent (BCA) Trichoderma viride as soil amendments on the suppression of M. phaseolina. In vitro bioassays were conducted to check the efficiency of antagonistic effect of Trichoderma spp., in combination with maize biochar. On the basis of maximum mycelial growth inhibition T. viride was selected for a glasshouse experiment. Maize plants were grown in pots containing a mixture of soil with MB at application at the rate of 3 and 6% (v/v) separately, associated with or without T. viride. Treatments amended with 3% MB inoculated with M. phaseolina significantly reduced the percentage disease severity index by 40%. While in the presence of T. viride, 3% MB showed maximum disease suppression and a minimum percentage severity index i.e. 60 and 20%, respectively. Highest nitrogen contents were 18.4 g kg−1 observed in treatment 6% MB, while highest phosphorus and potassium contents were 3.11 and 15.2 g kg−1, respectively in the treatment with 3% MB. Conclusively, the effect of variable concentrations of maize biochar and T. viride as soil amendment was evident on the development of charcoal rot, growth and physiology of maize plants. According to the available literature, our report is the first on the implementation of biochar in synergism with T. viride to suppress the charcoal rot in maize. [ABSTRACT FROM AUTHOR]

Published

2024

7. The uppermost monoterpenes improving Cinnamomum camphora thermotolerance by serving signaling functions.

Author

Chenyi Xu, Bin Wang, Qingyun Luo, Yuandan Ma, Tiefeng Zheng, Yingying Wang, Yuyan Cai, and Zhaojiang Zuo

Subjects

CARBON fixation, PHOTOSYNTHETIC pigments, REACTIVE oxygen species, GENE expression, TERPENES, MONOTERPENES, BROMOMETHANE

Abstract

Terpenes serve important functions in enhancing plant thermotolerance. Cinnamomum camphora mainly has eucalyptol (EuL), camphor (CmR), linalool (LnL) and borneol (BeL) chemotypes basing on the uppermost monoterpenes. To reveal the thermotolerance mechanisms of these uppermost monoterpenes (eucalyptol, camphor, linalool, and borneol) in C. camphora, we surveyed the ROS metabolism and photosynthesis in the 4 chemotypes fumigated with the corresponding uppermost monoterpene after fosmidomycin (Fos) inhibiting monoterpene synthesis under high temperature at 38°C (Fos+38°C+monoterpene), and investigated the related gene expression in EuL and CmR. Meanwhile, the thermotolerance differences among the 4 uppermost monoterpenes were analyzed. In contrast to normal temperature (28°C), ROS levels and antioxidant enzyme activities in the 4 chemotypes increased under 38°C, and further increased in the treatment with Fos inhibiting monoterpene synthesis at 38°C (Fos+38°C), which may be caused by the alterations in expression of the genes related with nonenzymatic and enzymatic antioxidant formation according to the analyses in EuL and CmR. Compared with Fos+38°C treatment, Fos+38°C+monoterpene treatments lowered ROS levels and antioxidant enzyme activities for the increased non-enzymatic antioxidant gene expression and decreased enzymatic antioxidant gene expression, respectively. High temperature at 38° C reduced the chlorophyll and carotenoid content as well as photosynthetic abilities, which may result from the declined expression of the genes associated with photosynthetic pigment biosynthesis, light reaction, and carbon fixation. Fos+38°C treatment aggravated the reduction. In contrast to Fos+38°C treatment, Fos+38°C+monoterpene treatments increased photosynthetic pigment content and improved photosynthetic abilities by up-regulating related gene expression. Among the 4 uppermost monoterpenes, camphor showed strong abilities in lowering ROS and maintaining photosynthesis, while eucalyptol showed weak abilities. This was consistent with the recovery effects of the gene expression in the treatments with camphor and eucalyptol fumigation. Therefore, the uppermost monoterpenes can enhance C. camphora thermotolerance as signaling molecules, and may have differences in the signaling functions. [ABSTRACT FROM AUTHOR]

Published

2024

8. A combination of plant-based compounds and extracts acts nematicidal and induces resistance against Meloidogyne incognita in tomato.

Author

Degroote, Eva, Schoorens, Chloë, Pockele', Stefaan, Stojilkovic', Boris, Demeestere, Kristof, Mangelinckx, Sven, and Kyndt, Tina

Subjects

NEMATOCIDES, SOUTHERN root-knot nematode, ROOT-knot nematodes, BROMOMETHANE, PLANT products, SOIL fumigation, TOMATOES, ABSCISIC acid

Abstract

Considering the stricter European regulations for chemical pesticides (e.g. abolishment of the use of chemical soil fumigation products, such as methyl bromide), the need for more sustainable plant protection products is strongly increasing. In this research, Product X, an innovative mixture of bio-nematicidal compounds was developed and evaluated for efficacy. Product X showed a direct nematicidal effect against the root-knot nematode Meloidogyne incognita. In pot trials with tomato plants infected with M. incognita, Product X treatment lead to a significant reduction in nematode-induced gall formation. mRNA-sequencing indicated alterations in phytohormone levels and ROSmetabolism in tomato roots upon treatment with Product X, which was subsequently biochemically validated. Increased levels of abscisic acid and peroxidase activity seem to be the main factors in the response of tomato plants to Product X. Long-term administration of Product X did not yield negative effects on tomato growth or yield. In conclusion, Product X provides a new interesting mix of bio-active compounds in the combat against rootknot nematodes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Litchi postharvest physiology and handling.

Author

Huang, Chao Chia, Paull, Robert E., and Wang, Tsu‐Tsuen

Subjects

*BROMOMETHANE, *LITCHI, *CONTROLLED atmosphere packaging, *FUMIGATION, *TROPICAL fruit, *POLYPHENOL oxidase, *PHYSIOLOGY

Abstract

Litchi (Litchi chinensis Sonn.) fruit, with its bright red color and sweet and juicy aril, is an important fruit crop in Asia, Africa, Australia, and South America. A major cause of the postharvest loss of litchi fruit is browning and decay. Chlorophyll breakdown and flavonoid synthesis occur simultaneously during the maturation of this nonclimacteric fruit. However, once litchi fruit is harvested, pericarp desiccation and membrane breakdown occur, which leads to browning with the rate of browning and later microcracking paralleling water loss rate. In addition, chilling injury can contribute to and increase pericarp browning and membrane leakage. Polyphenol oxidase and peroxidase are possibly key enzymes in the early stages of browning. An increase in the leakage of the pericarp membrane also occurs that correlates with browning. Many chemical treatments have been evaluated to retard pericarp browning, such as melatonin, hot water, acidified calcium sulfate (ACS), adenosine triphosphate, and tea seed oil. During long distance transportation, chemical treatments that involve sulfur are used, including SO2 fumigation, acid dip after SO2 fumigation, SO2 fumigation and sulfur sheet package, or SO2 fumigation followed by controlled atmosphere (CA), if approved by the importing country. Other treatments that avoid the use of SO2 include melatonin, ACS, and hot water brushing combined with an acid dip, CA, and modified atmosphere packaging. Anthracnose is a common disease that accelerates browning and decay. Penicillium species as a saprophyte is also common with fruit infection occurring in the field, during harvest, in the packhouse, cold rooms, and shipping containers. Sulfur sheet or CA is used to reduce fruit rot after SO2 fumigation and Sportak (prochloraz) for the control of penicillium. However, a replacement for postharvest SO2 use is still urgently needed. Core Ideas: Litchi (Litchi chinensis Sonn.) in the Sapindaceae is a tropical fruit that is highly prized worldwide.The edible juicy aril is surrounded by a thin leathery pericarp.Major causes of postharvest loss are pericarp browning and decay.The cause and control of pericarp browning is a major focus of research. [ABSTRACT FROM AUTHOR]

Published

2024

10. In vitro and in vivo antimicrobial activity of the fumigant, ethyl formate, against bacteria and fungi of date fruits in postharvest phase.

Author

Abo-El-Saad, Mahmoud M., Badawy, Mohamed E. I., Shawir, Mohamed S., Hegazi, Yasser H., and Mohammed, Youssef M. M.

Subjects

DATES (Fruit), BROMOMETHANE, OZONE layer, MICROBIAL contamination, FUMIGANTS, FUMIGATION

Abstract

The search is on for safer alternatives to fumigants like methyl bromide and phosphine, which harm the ozone layer and pose other risks. Ethyl formate is a promising candidate due to its potential antimicrobial and insecticidal action in stored products like date fruits. The susceptibility of date fruits to microbial spoilage is significantly influenced by factors such as moisture content, storage practices, and environmental conditions. In the present study, the in vitro antimicrobial effect of ethyl formate against three microbial species, namely Aspergillus niger F4, Mucor circinelloides YMM22, and Pseudomonas aeruginosa B1 was tested under laboratory conditions. In addition, two common date fruit varieties, semi-dry El-Wady I and the dry Frehi, were fumigated with ethyl formate alone in a laboratory-scale prototype and with a mixture of ethyl formate and CO2 at a semi-industrial scale prototype. Both varieties had an initial moisture content of around 13.40 and 12.48% for El-Wady I and Frehi, respectively. The fumigation was conducted using the optimal concentration of 70 mg/L air for 24 h incubation period. Fumigation with ethyl formate alone or in combination with CO2 significantly reduced the number of viable bacteria and fungi (CFU/g), but the potential for a combined effect with CO2 was not investigated. The percentages of reduction in the fungal count were 78.18 and 90.76% for Frehi and El-Wady I varieties, respectively in a semi-industrial scale prototype. Moreover, the percentages of reduction in the bacterial count were 53.31 and 65.20%, respectively for Frehi and El-Wady I varieties. Ethyl formate showed promise as a natural alternative to control microbial contamination of stored date fruits. Further research suggests that increasing fumigation duration or concentration could provide comprehensive control of microbial pathogens at all stages of development. [ABSTRACT FROM AUTHOR]

Published

2024

11. Chemo-, regio- and stereoselective access to polysubstituted 1,3-dienes via Nickel-catalyzed four-component reactions.

Author

Chen, Shanglin, Wang, Ya-Nan, Xie, Jinhui, Li, Wangyang, Ye, Mingxing, Ma, Xingxing, Yang, Kai, Li, Shijun, Lan, Yu, and Song, Qiuling

Subjects

SONOGASHIRA reaction, PHARMACEUTICAL chemistry, FLUOROALKYL compounds, ALKYNES, ALKENES, BROMOMETHANE, CHEMOSELECTIVITY

Abstract

1,2-Difunctionalization of alkynes offers a straightforward approach to access polysubstituted alkenes. However, simultaneous multi-component cascade transformations including difunctionalization of two alkynes with both syn- and anti-selectivity in one catalyst system is undeveloped and proves to be a significant challenge. Herein, we report a Nickel-catalyzed four-component reaction to access polysubstituted 1,3-dienes using two terminal alkynes, aryl boroxines, and perfluoroalkyl iodides, wherein the reaction forms three new C-C bonds in a single vessel and serve as a modular strategy to access polysubstituted 1,3-dienes with excellent chemoselectivity, good regioselectivity and exclusive stereoselectivity. Control experiments reveal the plausible reaction mechanism and DFT calculations explain the cause for the formation of this unusual four-component reaction. Furthermore, we successfully incorporate two biologically active units into 1,2,3,4-tetrasubstituted 1,3-dienes, which greatly increases the diversity of molecular scaffolds and brings more potential values to medicinal chemistry, the synthetic utility of our protocol is further demonstrated by the late-stage transformations. Multi-component cascade transformations including difunctionalization of two alkynes with both syn- and anti-selectivity in one catalyst system is challenging. Herein, the authors report a Nickel-catalyzed four-component reaction to access densely substituted 1,3-dienes using two terminal alkynes, aryl boroxines, and perfluoroalkyl iodides. [ABSTRACT FROM AUTHOR]

Published

2024

12. Molecular Markers for Marker-Assisted Breeding for Biotic and Abiotic Stress in Melon (Cucumis melo L.): A Review.

Author

Shahwar, Durre, Khan, Zeba, and Park, Younghoon

Subjects

*ABIOTIC stress, *MUSKMELON, *LOCUS (Genetics), *DROUGHT tolerance, *PHYSIOLOGICAL effects of cold temperatures, *MELONS, *LITERATURE reviews, *NEMATOCIDES, *BROMOMETHANE

Abstract

Melon (Cucumis melo L.) is a globally grown crop renowned for its juice and flavor. Despite growth in production, the melon industry faces several challenges owing to a wide range of biotic and abiotic stresses throughout the growth and development of melon. The aim of the review article is to consolidate current knowledge on the genetic mechanism of both biotic and abiotic stress in melon, facilitating the development of robust, disease-resistant melon varieties. A comprehensive literature review was performed, focusing on recent genetic and molecular advancements related to biotic and abiotic stress responses in melons. The review emphasizes the identification and analysis of quantitative trait loci (QTLs), functional genes, and molecular markers in two sections. The initial section provides a comprehensive summary of the QTLs and major and minor functional genes, and the establishment of molecular markers associated with biotic (viral, bacterial, and fungal pathogens, and nematodes) and abiotic stress (cold/chilling, drought, salt, and toxic compounds). The latter section briefly outlines the molecular markers employed to facilitate marker-assisted backcrossing (MABC) and identify cultivars resistant to biotic and abiotic stressors, emphasizing their relevance in strategic marker-assisted melon breeding. These insights could guide the incorporation of specific traits, culminating in developing novel varieties, equipped to withstand diseases and environmental stresses by targeted breeding, that meet both consumer preferences and the needs of melon breeders. [ABSTRACT FROM AUTHOR]

Published

2024

13. Study on the ability of indoor plants to absorb and purify benzene pollution.

Author

Li, Donghe, Wang, Han, Gao, Qingyu, and Lu, Min

Subjects

*HOUSE plants, *INDOOR air pollution, *BROMOMETHANE, *BENZENE, *PLANT selection, *POLLUTION

Abstract

The ability of indoor plants to purify benzene pollution is the basic basis for the selection of plants for ecological remediation of indoor benzene pollution. In this study, the purification rate and the purification amount per unit leaf area of 13 test plants at three benzene concentrations were determined by indoor fumigation experiments, and the benzene absorption and purification abilityability of indoor plants were comprehensively evaluated. The results showed that (1) there was a significant correlation between benzene concentration and purification rate and purification amount per unit leaf area. (2) At the three concentrations, Spathiphyllum floribundum showed the highest purification rate and Sansevieria trifasciata var. laurentii showed the highest purification per unit leaf area. (3) The combined results showed that Sansevieria trifasciata var. laurentii, Spathiphyllum floribundum and Aloe arborescens were the strongest absorbers and purifiers, while Podocarpus nagi and Anthurium andraeanum 'Pink champin' had the weakest absorption and purification capacity. The results of this study provide a theoretical basis and reference for the selection of plants with strong capacities to adsorb and purify benzene pollution in indoor air. [ABSTRACT FROM AUTHOR]

Published

2024

14. CRISPR/Cas9-induced knockout of an amino acid permease gene (AAP6) reduced Arabidopsis thaliana susceptibility to Meloidogyne incognita.

Author

Dutta, Tushar K., Rupinikrishna, Katakam, Akhil, Voodikala S., Vashisth, Neeraj, Phani, Victor, Pankaj, Sirohi, Anil, and Chinnusamy, Viswanathan

Subjects

*SOUTHERN root-knot nematode, *ARABIDOPSIS thaliana, *AMINO acids, *NEMATODE infections, *GENE expression, *HORTICULTURAL crops, *NEMATOCIDES, *TOMATOES, *BROMOMETHANE

Abstract

Background: Plant-parasitic root-knot nematode (Meloidogyne incognita) causes global yield loss in agri- and horticultural crops. Nematode management options rely on chemical method. However, only a handful of nematicides are commercially available. Resistance breeding efforts are not sustainable because R gene sources are limited and nematodes have developed resistance-breaking populations against the commercially available Mi-1.2 gene-expressing tomatoes. RNAi crops that manage nematode infection are yet to be commercialized because of the regulatory hurdles associated with transgenic crops. The deployment of the CRISPR/Cas9 system to improve nematode tolerance (by knocking out the susceptibility factors) in plants has emerged as a feasible alternative lately. Results: In the present study, a M. incognita-responsive susceptibility (S) gene, amino acid permease (AAP6), was characterized from the model plant Arabidodpsis thaliana by generating the AtAAP6 overexpression line, followed by performing the GUS reporter assay by fusing the promoter of AtAAP6 with the β-glucuronidase (GUS) gene. Upon challenge inoculation with M. incognita, overexpression lines supported greater nematode multiplication, and AtAAP6 expression was inducible to the early stage of nematode infection. Next, using CRISPR/Cas9, AtAAP6 was selectively knocked out without incurring any growth penalty in the host plant. The 'Cas9-free' homozygous T3 line was challenge inoculated with M. incognita, and CRISPR-edited A. thaliana plants exhibited considerably reduced susceptibility to nematode infection compared to the non-edited plants. Additionally, host defense response genes were unaltered between edited and non-edited plants, implicating the direct role of AtAAP6 towards nematode susceptibility. Conclusion: The present findings enrich the existing literature on CRISPR/Cas9 research in plant-nematode interactions, which is quite limited currently while compared with the other plant-pathogen interaction systems. [ABSTRACT FROM AUTHOR]

Published

2024

15. Sulfuryl Fluoride Fumigation as a Quarantine Treatment for the Control of Reticulitermes speratus Kolbe (Blattodea: Rhinotermitidae) in Wood.

Author

Kim, So-Yeon, Choi, Na-Ra, and Park, Min-Goo

Subjects

*WOOD, *BROMOMETHANE, *FUMIGATION, *GLOBAL warming, *FLUORIDES, *QUARANTINE

Abstract

Simple Summary: Sulfuryl fluoride (SF) was introduced as a fumigant in 1957 and widely used against stored product insects and dry wood termites in wood structures in warm climates. We conducted several experiments on the quarantine treatment of Japanese termites (Reticulitermes speratus) with SF. The efficacy against R. speratus in wood, as well as the wood sorption and penetration capacity, of SF were investigated. The LCt50 and LCt99 values of SF were calculated at two different temperatures and the differences between dry and wet wood at several loading ratios were evaluated as insignificant. Complete pest mortality was proven in scale-up trials with a 90% loading ratio of SF. The fumigant concentration decreased below the threshold limit after 30 min of ventilation. Compared with other alternative methyl bromide fumigants, the main advantages of SF were outlined. SF caused 100% termite mortality with a 90% loading ratio in the scale-up trials (500 L). The present study provides a basis for the use of SF as an alternative to MB for the treatment of termites in wood. High-risk termites in wood imported to the Republic of Korea are currently treated with methyl bromide (MB), which has ozone-depleting properties and is highly toxic. This study evaluated the effectiveness of sulfuryl fluoride (SF) as a quarantine treatment against Reticulitermes speratus Kolbe (Blattodea: Rhinotermitidae) in wood, along with its wood sorption and penetration capacity. The LCt50 and LCt99 values for SF were 30.87 and 42.53 mg h/L at 23 °C and 151.62 and 401.9 mg h/L at 5 °C, respectively. The SF Ct values did not significantly differ between dry and wet wood at loading ratios of 10%, 30%, and 50% at both 5 °C and 23 °C (p > 0.05). In a closed wooden cube, the LCt50 and LCt99 for SF for R. speratus were 31.59 and 53.34 mg h/L, respectively, indicating an excellent wood penetration ability. SF caused 100% termite mortality with a 90% loading ratio in the scale-up trials (500 L). The SF concentration during ventilation decreased below the threshold limit value (TLV) of 5 ppm within 30 min, confirming that the working conditions were safe. This study provides a basis for the use of SF as an alternative to MB for the treatment of termites in wood. [ABSTRACT FROM AUTHOR]

Published

2024

16. Impacts of the Ban on the Soil-Applied Fumigant Methyl Bromide.

Author

Rosskopf, Erin, Di Gioia, Francesco, Vincent, Isaac, Hong, Jason, and Xin Zhao

Subjects

*PEST control, *FARMERS, *OZONE layer, *AGRICULTURAL productivity, *AGRICULTURAL pests, *BROMOMETHANE

Abstract

The loss of the soil fumigant methyl bromide (MeBr) and adoption of soil fumigant alternatives has been challenging for farmers, particularly for those crops in which pathogens previously controlled by MeBr have emerged as significant problems, but it has resulted in some unanticipated benefits for the scientific community and the environment. Applauded as one of the most effective environmental agreements to date, the universally accepted Montreal Protocol on Ozone Depleting Substances has had a significant impact on the environment, reducing the release of halogenated compounds from anthropogenic sources enough to mitigate global warming by an estimated 1.1°C by 2021. The funding associated with various MeBr transition programs has increased collaboration across scientific disciplines, commodity groups, industry, and regulatory agencies. Chemical alternatives and improved application strategies, including the development of gas-retentive agricultural films, coupled with sound efficacy data and grower ingenuity have resulted in the sustained production of many of the impacted crops; although there has been some loss of acreage and value, particularly for Florida fumigated crops, for some. value has continued to increase, allowing production to continue. The loss of a single, broad-spectrum tool for pest control has led to a deeper understanding of the specific pest complexes impacting these at-risk crops, as well as the development of new, biologically based management tools for their control while increasing our understanding of the role of the soil microbiome in pest control and crop production. [ABSTRACT FROM AUTHOR]

Published

2024

17. Effects of phosphine (ECO2FUME®) on 'Hass' avocado fruit quality and target pest mortality.

Author

Pidakala, Paul P. B., Esfandi, Kambiz, Afsar, Saeedeh, Baldassarre, Cristian, Ortiz, Guinevere I., Page-Weir, Natalie, Najar-Rodriguez, Adriana, O'Donnell, Kristie, Jamieson, Lisa E., and Woolf, Allan B.

Subjects

*AVOCADO, *FRUIT quality, *BROMOMETHANE, *PEST control, *PHOSPHINE, *PESTS

Abstract

Phosphine (PH3) is a methyl bromide alternative with the potential to control surface pests of New Zealand avocados as a pre-export disinfestation treatment. 'Hass' avocado fruit were treated with PH3 (as ECO2FUME® (2% PH3, 98% CO2 (w/w); Cytec Industries Inc.)). at 500, 750 and 1,500 ppm for 24, 48 and 72 h at 5–6 °C, along with vials containing mould mites (Tyrophagus communis) and greenhouse thrips (Heliothrips haemorrhoidalis). Fruit were then stored at 5 °C for three weeks, external quality assessed, and internal fruit quality assessed after ripening at 20 °C. PH3 treatments had no impact on external fruit quality, nor on skin colouration, and only minor increase in softening compared to control at 24 h, but not 48 or 72 h. Complete (100%) mortality was achieved for thrips at all PH3 concentrations for 48 h. However, only ∼50% mould mite mortality was achieved at the highest PH3 concentration of 1,500 ppm for 72 h; although this treatment did provide a significant reduction in rots and internal disorders. This initial study demonstrates that longer-duration treatments and higher PH3 concentrations improves fruit quality compared with controls, mainly by reducing rots. These treatments fully controlled thrips but provided only partial control of mould mites. [ABSTRACT FROM AUTHOR]

Published

2024

18. Fumigant Toxicity of Methyl Benzoate Loaded onto Different Carrier Materials Against the Rice Weevil, Sitophilus oryzae.

Author

El-Ebiary, Mostafa, Elmadawy, Alzahraa, El-Talpanty, Doaa, and Ismail, Tamer

Subjects

RICE weevil, METHYL benzoate, PEST control, FUMIGANTS, ACTIVATED carbon, BROMOMETHANE, FUMIGATION

Abstract

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

Published

2024

19. A pipeline for rapidly evaluating activity and inferring mechanisms of action of prospective antifungal compounds.

Author

Kraut‐Cohen, Judith, Frenkel, Omer, Covo, Shay, Marcos‐Hadad, Evgeniya, Carmeli, Shmuel, Belausov, Eduard, Minz, Dror, and Cytryn, Eddie

Subjects

GREEN fluorescent protein, PHENYLACETIC acid, HIGH throughput screening (Drug development), FUNGAL growth, REACTIVE oxygen species, ANTIFUNGAL agents, BROMOMETHANE

Abstract

BACKGROUND: Fungal phytopathogens are a significant threat to crops and food security, and there is a constant need to develop safe and effective compounds that antagonize them. In‐planta assays are complex and tedious and are thus not suitable for initial high‐throughput screening of new candidate antifungal compounds. We propose an in vitro screening pipeline that integrates five rapid quantitative and qualitative methods to estimate the efficacy and mode of action of prospective antifungal compounds. RESULTS: The pipeline was evaluated using five documented antifungal compounds (benomyl, catechol, cycloheximide, 2,4‐diacetylphloroglucinol, and phenylacetic acid) that have different modes of action and efficacy, against the model soilborne fungal pathogen Fusarium oxysporum f. sp. radicis cucumerinum. We initially evaluated the five compounds' ability to inhibit fungal growth and metabolic activity using green fluorescent protein (GFP)‐labeled F. oxysporum and PrestoBlue staining, respectively, in multiwell plate assays. We tested the compounds' inhibition of both conidial germination and hyphal elongation. We then employed FUN‐1 and SYTO9/propidium iodide staining, coupled to confocal microscopy, to differentiate between fungal growth inhibition and death at the cellular level. Finally, using a reactive oxygen species (ROS)‐detection assay, we were able to quantify ROS production in response to compound application. CONCLUSIONS: Collectively, the proposed pipeline provides a wide array of quantitative and qualitative data on the tested compounds that can help pinpoint promising novel compounds; these can then be evaluated more vigorously using in planta screening assays. © 2024 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

20. Phytochemical profile and antifungal activity of essential oils obtained from different Mentha longifolia L. accessions growing wild in Iran and Iraq.

Author

Mustafa, Kosrat Hama, Khorshidi, Jalal, Vafaee, Yavar, Rastegar, Azad, Morshedloo, Mohammad Reza, and Hossaini, Somaieh

Subjects

*ESSENTIAL oils, *SPEARMINT, *PHYTOCHEMICALS, *FUMIGATION, *BROMOMETHANE, *FUSARIUM solani, *BASE oils, *PHENOLS

Abstract

Background: Mentha longifolia L. is a perennial plant belonging to the Lamiaceae family that has a wide distribution in the world. M. longifolia has many applications in the food and pharmaceutical industries due to its terpenoid and phenolic compounds. The phytochemical profile and biological activity of plants are affected by their genetics and habitat conditions. In the present study, the content, constituents and antifungal activity of the essential oil extracted from 20 accessions of M. longifolia collected from different regions of Iran and Iraq countries were evaluated. Results: The essential oil content of the accessions varied between 1.54 ± 0.09% (in the Divandarreh accession) to 5.49 ± 0.12% (in the Khabat accession). Twenty-seven compounds were identified in the essential oils of the studied accessions, which accounted for 85.5-99.61% of the essential oil. The type and amount of dominant compounds in the essential oil were different depending on the accession. Cluster analysis of accessions based on essential oil compounds grouped them into three clusters. The first cluster included Baziyan, Boukan, Sarouchavah, Taghtagh, Darbandikhan, Isiveh and Harir. The second cluster included Khabat, Kounamasi, Soni and Mahabad, and other accessions were included in the third cluster. Significant correlations were observed between the essential oil content and components with the climatic and soil conditions of the habitats. The M. longifolia essential oil indicated antifungal activity against Fusarium solani in both methods used. In all studied accessions, the fumigation method compared to the contact method was more able to control mycelia growth. In both methods, the inhibition percentage of essential oil on mycelia growth increased with an increase in essential oil concentration. Significant correlations were found between the essential oil components and the inhibition percentage of mycelium growth. Conclusion: The studied M. longifolia accessions showed significant differences in terms of the essential oil content and components. Differences in phytochemical profile of accessions can be due to their genetic or habitat conditions. The distance of the accessions in the cluster was not in accordance with their geographical distance, which indicates the more important role of genetic factors compared to habitat conditions in separating accessions. The antifungal activity of essential oils was strongly influenced by the essential oil quality and concentration, as well as the application method. Determining and introducing the elite accession in this study can be different depending on the breeder's aims, such as essential oil content, desired chemical composition, or antifungal activity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Physiochemical interaction between osmotic stress and a bacterial exometabolite promotes plant disease.

Author

Getzke, Felix, Wang, Lei, Chesneau, Guillaume, Böhringer, Nils, Mesny, Fantin, Denissen, Nienke, Wesseler, Hidde, Adisa, Priscilla Tijesuni, Marner, Michael, Schulze-Lefert, Paul, Schäberle, Till F., and Hacquard, Stéphane

Subjects

HOST plants, PLANT colonization, SALT, BROMOMETHANE, HOMEOSTASIS

Abstract

Various microbes isolated from healthy plants are detrimental under laboratory conditions, indicating the existence of molecular mechanisms preventing disease in nature. Here, we demonstrated that application of sodium chloride (NaCl) in natural and gnotobiotic soil systems is sufficient to induce plant disease caused by an otherwise non-pathogenic root-derived Pseudomonas brassicacearum isolate (R401). Disease caused by combinatorial treatment of NaCl and R401 triggered extensive, root-specific transcriptional reprogramming that did not involve down-regulation of host innate immune genes, nor dampening of ROS-mediated immunity. Instead, we identified and structurally characterized the R401 lipopeptide brassicapeptin A as necessary and sufficient to promote disease on salt-treated plants. Brassicapeptin A production is salt-inducible, promotes root colonization and transitions R401 from being beneficial to being detrimental on salt-treated plants by disturbing host ion homeostasis, thereby bolstering susceptibility to osmolytes. We conclude that the interaction between a global change stressor and a single exometabolite from a member of the root microbiome promotes plant disease in complex soil systems. A single exometabolite produced by an opportunistic bacterial pathogen of the root microbiome enhances host susceptibility to salt stress and promotes plant disease in complex soil systems. [ABSTRACT FROM AUTHOR]

Published

2024

22. Chloropicrin induced ocular injury: Biomarkers, potential mechanisms, and treatments.

Author

Okoyeocha, Ebenezar O.M. and Tewari-Singh, Neera

Subjects

*OCULAR injuries, *CHLOROPICRIN, *CHEMICAL warfare agents, *BROMOMETHANE, *FUMIGANTS, *PESTICIDES, *OCULAR toxicology, *BIOMARKERS

Abstract

Ocular tissue, especially the cornea, is overly sensitive to chemical exposures. The availability and adoption of chemical threat agent chloropicrin (CP) is growing in the United States as a pesticide and fumigant; thereby increasing the risk of its use in warfare, terrorist attacks and non-intentional exposure. Exposure to CP results in immediate ocular, respiratory, and dermal injury; however, we lack knowledge on its mechanism of toxicity as well as of its breakdown products like chlorine and phosgene, and effective therapies are elusive. Herein, we have reviewed the recent findings on exposure route, toxicity and likely mechanisms of CP induced ocular toxicity based on other vesicating chemical warfare agents that cause ocular injury. We have focused on the implication of their toxicity and mechanistic outcomes in the ocular tissue, especially the cornea, which could be useful in the development of broad-spectrum effective therapeutic options. We have discussed on the potential countermeasures, overall hallmarks and challenges involved in studying ocular injuries from chemical threat agent exposures. Finally, we reviewed useful available technologies and methods that can assist in the identification of effective medical countermeasures for chemical threat agents related ocular injuries. [Display omitted] • Chloropicrin, a warfare agent, is used as a pesticide and fumigating agent. • Chloropicrin is a choking chemical threat agent that caused severe ocular injury. • The mechanism of ocular injury from chloropicrin exposure is unknown. • There is currently no available targeted treatment for chloropicrin induced injuries. [ABSTRACT FROM AUTHOR]

Published

2024

23. Pollution characteristics and risk assessment of organophosphate esters (OPEs) in typical industrial parks in Southwest China.

Author

Yin, Hongling, Liu, Liya, Xiong, Yuanming, and Qiao, Yang

Subjects

POLLUTION risk assessment, INDUSTRIAL districts, POISONS, EMERGING contaminants, INDUSTRIAL textiles industry, ECOLOGICAL risk assessment, BROMOMETHANE

Abstract

As alternative substances of PBDEs, organophosphate esters (OPEs), an emerging organic pollutant, were increasingly produced and used in many kinds of industries and consumer products. However, OPEs also have various adverse toxic effects. Information on the pollution levels and exposure to OPEs in related industries is still limited. This study presented data on OPE contamination in the soil, leaf, and river water samples from seven typical industrial parks in Southwest China. Total concentration of seven OPEs (Σ7OPE) including tri-n-butyl phosphate (TnBP), tris-(2-ethylhexyl) phosphate (TEHP), tris-(2-butoxyethyl) phosphate (TBEP), tris-(2-carboxyethyl) phosphine (TCEP), triphenyl phosphate (TPhP), tris-(1,3-dichloro-2-propyl) ester (TDCPP), and tris-(chlorisopropyl) phosphate (TCPP) in the soil samples (36.2 ~ 219.7 ng/g) and the surrounding river water samples (118.9 ~ 287.7 ng/L) were mostly lower than those in other studies, while the Σ7OPE level in the leaves (2053.3 ~ 8152.7 ng/g) was relatively high. There were significant differences in the concentration and distribution of OPEs in the surrounding environment of different industrial parks. TDCPP, TnBP, and TCPP could be used as the characteristic compound in soil samples from auto industrial park, river samples from shoe making industrial park, and leaf samples from logistics park, respectively. The parameter m (the content ratio of chlorinated OPEs to alkyl OPEs) was suggested to distinguish the types of industrial park preliminary. When m ≥ 1, it mainly refers to heavy industries sources such as automobiles, electronics, and machinery, etc. When m<1, it mainly for the light industrial sources such as textile industry, transportation services, and resources processing, etc. For logistics park, furniture park and Wuhou comprehensive industrial park, the volatilization of materials was the main sources of OPEs in the surrounding environment, while more effort was required to strengthen the pollution control and management of the waste water and soil in the pharmacy industrial park, shoe making industrial park and auto industrial park. Risk assessment showed that there was a negligible non-cancer and carcinogenic risk in the soil, while high attention should be paid to the non-cancer risk for children. [ABSTRACT FROM AUTHOR]

Published

2024

24. An eco-friendly and cost-effective HPTLC method for quantification of COVID-19 antiviral drug and co-administered medications in spiked human plasma.

Author

Ghozzy, Ekram A., El-Enany, Nahed M., Tolba, Manar M., and El Abass, Samah Abo

Subjects

*SARS Epidemic, 2002-2003, *COVID-19 pandemic, *BROMOMETHANE, *COVID-19

Abstract

The coronavirus-2 has led to a global pandemic of COVID-19 with an outbreak of severe acute respiratory syndrome leading to worldwide quarantine measures and a rise in death rates. The objective of this study is to propose a green, sensitive, and selective densitometric method to simultaneously quantify remdesivir (REM) in the presence of the co-administered drug linezolid (LNZ) and rivaroxaban (RIV) in spiked human plasma. TLC silica gel aluminum plates 60 F254 were used as the stationary phase, and the mobile phase was composed of dichloromethane (DCM): acetone (8.5:1.5, v/v) with densitometric detection at 254 nm. Well-resolved peaks have been observed with retardation factors (Rf) of 0.23, 0.53, and 0.72 for REM, LNZ, and RIV, respectively. A validation study was conducted according to ICH Q2 (R1) Guidelines. The method was rectilinear over the concentration ranges of 0.2–5.5 μg/band, 0.2–4.5 μg/band and 0.1–3.0 μg/band for REM, LNZ and RIV, respectively. The sensitivities of REM, LIN, and RIV were outstanding, with quantitation limits of 128.8, 50.5, and 55.8 ng/band, respectively. The approach has shown outstanding recoveries ranging from 98.3 to 101.2% when applied to pharmaceutical formulations and spiked human plasma. The method's greenness was assessed using Analytical Eco-scale, GAPI, and AGREE metrics. [ABSTRACT FROM AUTHOR]

Published

2024

25. Deliquescence‐induced release of ethyl formate and chlorine dioxide from their precursors‐loaded sachets for in‐package fumigation of spotted wing drosophila (Drosophila suzukii Matsumura).

Author

Zaitoon, Amr, Jabeen, Ayesha, Singh, Singam Suranjoy, Scott‐Dupree, Cynthia, and Lim, Loong‐Tak

Subjects

BROMOMETHANE, CHLORINE dioxide, FUMIGATION, DROSOPHILA suzukii, DELIQUESCENCE, PEST control, FUMIGANTS

Abstract

The toxicity and environmental concerns of methyl bromide (MB) have been a significant impetus for research into environmentally benign fumigant alternatives. Ethyl formate (EF) and chlorine dioxide (ClO2) are FDA‐approved agents with potential as alternatives to MB. However, both are chemically unstable and pose considerable end‐use challenges. In this study, we developed moisture‐activated sachets for EF and ClO2 to facilitate their end‐use deployment for in‐package fumigation. The sachets were loaded with EF or ClO2 metastable precursors, citric acid (CA), and a deliquescent salt carrier (e.g., CaCl2 or NaCl). When placed in an elevated relative humidity environment, these combinations activate the release of EF or ClO2 gases, separately. The deliquescence lowering phenomenon and its effect on fumigants release rate were investigated when mixing CA with CaCl2 or NaCl. The mutual deliquescence relative humidity for CA–CaCl2 and CA–NaCl mixtures were 40% and 63%, respectively. CaCl2 enhanced the release rate of fumigants from their sachets, whereas NaCl resulted in a slower release rate. EF and ClO2 sachets were evaluated for fumigation of different life stages of spotted wing drosophila (SWD). Complete control of SWD adults was achieved after exposure to 10.1 mg·h/L EF, while eggs, larval, and pupal stages were more tolerant toward EF vapour and required 110.2 mg·h/L EF to achieve control. ClO2 at low concentrations was more effective than EF against all SWD life stages, excluding pupae. Complete mortality was achieved after fumigating SWD adults, eggs, and larvae with 0.73, 2.39, and 1.21 mg·h/L ClO2, respectively. These results indicated that both EF and ClO2 sachets could be employed safely for EF and ClO2 in‐packaging fumigation to control produce pests. [ABSTRACT FROM AUTHOR]

Published

2024

26. Development and Metabolomic Profiles of Bactrocera dorsalis (Diptera: Tephritidae) Larvae Exposed to Phytosanitary Irradiation Dose in Hypoxic Environment Using DI-SPME-GC/MS.

Author

Shan, Changyao, Li, Baishu, Li, Li, Liu, Qun, Zou, Hang, and Liu, Tao

Subjects

*ORIENTAL fruit fly, *BROMOMETHANE, *RADIATION tolerance, *TEPHRITIDAE, *PHYSIOLOGICAL effects of radiation, *DIPTERA, *GAS chromatography/Mass spectrometry (GC-MS)

Abstract

Simple Summary: The Oriental fruit fly, Bactrocera dorsalis (Hendel), significantly impacts agriculture in Southeast Asia and some Pacific islands as a major pest. Its widespread distribution, robust invasive ability, and detrimental effects on market access categorize it as a significant threat to numerous countries. Irradiation treatment is recognized as an effective and promising approach, considered as a potential alternative to the traditional phytosanitary treatment method, methyl bromide fumigation. However, the low-oxygen environment can influence the efficacy of irradiation treatment. The aim of this study is to investigate the impact of low-oxygen levels on the phytosanitary irradiation effects against larvae of B. dorsalis. The effects of normoxic (21% O2), hypoxic (5% O2), and super-hypoxic (0.5% O2) conditions on the development and metabolic profile of third-instar larvae of B. dorsalis were evaluated and compared at phytosanitary irradiation dose. Our research emphasizes the importance of lipid metabolism pathways and their associated metabolites in the irradiation tolerance of insects; moreover, neither hypoxic nor super-hypoxic conditions have increased the emergence rate of the evaluated fruit fly species under the current phytosanitary irradiation dose. These findings provide new insights into the mechanisms of radioprotection in insects under low-oxygen environments and advocate for international organizations and regulatory agencies to update guidelines on the application of phytosanitary irradiation under hypoxic conditions. X-ray irradiation and modified atmospheres (MAs) provide eco-friendly, chemical-free methods for pest management. Although a low-oxygen atmospheric treatment improves the performance of some irradiated insects, its influence on the irradiation of quarantine insects and its impacts on pest control efficacy have yet to be investigated. Based on bioassay results, this study employed direct immersion solid-phase microextraction (DI-SPME) combined with gas chromatography-mass spectrometry (GC-MS) to determine metabolic profiles of late third-instar B. dorsalis larvae under normoxia (CON, Air), hypoxia (95% N2 + 5% O2, HY), super-hypoxia (99.5% N2 + 0.5% O2, Sup-HY), irradiation-alone (116 Gy, IR-alone), hypoxia + irradiation (HY + IR) and super-hypoxia + irradiation (Sup-HY + IR). Our findings reveal that, compared to the IR-alone group, the IR treatment under HY and Sup-HY (HY + IR and Sup-HY + IR) increases the larval pupation of B. dorsalis, and weakens the delaying effect of IR on the larval developmental stage. However, these 3 groups further hinder adult emergence under the phytosanitary IR dose of 116 Gy. Moreover, all IR-treated groups, including IR-alone, HY + IR, and Sup-HY + IR, lead to insect death as a coarctate larvae or pupae. Pathway analysis identified changed metabolic pathways across treatment groups. Specifically, changes in lipid metabolism-related pathways were observed: 3 in HY vs. CON, 2 in Sup-HY vs. CON, and 5 each in IR-alone vs. CON, HY + IR vs. CON, and Sup-HY + IR vs. CON. The treatments of IR-alone, HY + IR, and Sup-HY + IR induce comparable modifications in metabolic pathways. However, in the HY + IR, and Sup-HY + IR groups, the third-instar larvae of B. dorsalis demonstrate significantly fewer changes. Our research suggests that a low-oxygen environment (HY and Sup-HY) might enhance the radiation tolerance in B. dorsalis larvae by stabilizing lipid metabolism pathways at biologically feasible levels. Additionally, our findings indicate that the current phytosanitary IR dose contributes to the effective management of B. dorsalis, without being influenced by radioprotective effects. These results hold significant importance for understanding the biological effects of radiation on B. dorsalis and for developing IR-specific regulatory guidelines under MA environments. [ABSTRACT FROM AUTHOR]

Published

2024

27. Effect of Aged Cherry Orchard Soil on the Potted Seedling Growth of Malus hupehensis (Pamp.) Rehd.

Author

Qin, Lei, Li, Xiaoxuan, Jiang, Weitao, Liu, Yusong, Yin, Chengmiao, and Mao, Zhiquan

Subjects

APPLE orchards, ORCHARDS, BROMOMETHANE, ALLELOPATHIC agents, SOIL fumigation, SEEDLINGS, SOILS, CHERRIES, APPLES

Abstract

Due to the aging of trees, aged apple and cherry orchards need to be rebuilt urgently. However, due to the limitation of land resources, it is inevitable to rebuild the apple orchard by taking the aged cherry orchard as a replacement, which will lead to replant disease and seriously affect the sustainable development of the horticulture industry. This study investigated the effect of aged cherry orchard soil on the growth of M. hupehensis seedlings grown in pots, and it was further verified that allelochemicals in soil were one of the reasons for this effect. Three treatments were implemented: aged apple orchard soil (ppl), aged cherry orchard soil (pyl), and aged cherry orchard soil after fumigation with methyl bromide (pyz). Compared with pyz, pyl treatment significantly decreased the biomass, root growth, and antioxidant enzyme activity of M. hupehensis seedlings, and increased the content of MDA. Compared with ppl, pyl contains a smaller number of fungi and bacteria, but the abundance of the four disease-causing Fusarium remained high. In addition, the levels of allelochemicals found in the soil of aged cherry orchards can inhibit the normal growth and development of M. hupehensis seedlings. Amygdalin most strongly inhibited these seedlings. In summary, directly planting M. hupehensis seedlings in the soil of the aged cherry orchards still inhibits their normal growth and development, although the seedlings grow better than in aged apple orchard soil. Therefore, it is not feasible to directly plant M. hupehensis seedlings in the soil of aged cherry orchards, and measures should be taken to eliminate allelochemicals such as amygdalin and harmful microorganisms. [ABSTRACT FROM AUTHOR]

Published

2024

28. Uses and commercialization of food grade and effectiveness of coated ham nets to combat Tyrophagus putrescentiae : a review.

Author

White, Sadie, Smith, Sawyer Wyatt, Zhang, Xue, Campbell, Yan, Phillips, Thomas, Freeman, Charles, and Schilling, M Wes

Subjects

BROMOMETHANE, EDIBLE coatings, MITE control, HAM, MITE infestations, PORK products

Abstract

Since the 1930s, the dry-cured ham industry has used methyl bromide fumigation to control Tyrophagus putrescentiae (ham mite) infestations. However, due to methyl bromide being a class I ozone depleting substance and no longer being manufactured, alternatives to methyl bromide have been studied extensively. Direct contact food-grade coatings and coated ham nets of various materials have shown efficacy in controlling ham mite growth and reproduction. These coated nets, often including propylene glycol, can be dried to ease application and reduce shipping cost, but chemical and thermal treatments on fabrics may cause the fabrics to become more brittle, which negatively impacts stretchability and bursting strength, and ultimately the effectiveness of the net. Scanning electron microscopy can provide precise visual inspection of fabric surface morphology, allowing for a detection of potential damage to the fibers. This purpose of this review is to summarize the application of food-grade coatings on nets used in the dry-cured ham industry to control mite infestations. More importantly, the review provides comprehensive information on coated nets, covering various aspects such as the selection of netting materials, evaluation of fabric properties, techniques for coating nets, net drying method, all in relation to their efficacy for mite control. This review contributes to the broad area of this applied technology by highlighting efficacious treatments to control mites, ineffective treatments, a discussion of processes to evaluate their properties, and future prospectives regarding this area of study. [ABSTRACT FROM AUTHOR]

Published

2024

29. Multi-stimuli responsive behavior of two Zn(II) complexes based on a Schiff base with high contrast.

Author

Xia, Zhong-Gang, Shi, Yong-Sheng, Xiao, Tong, and Zheng, Xiang-Jun

Subjects

*COORDINATION compounds, *SCHIFF bases, *LUMINESCENCE, *VAPORS, *BROMOMETHANE

Abstract

A novel fluorescent material that can change its emission properties in response to different external stimuli holds significant importance for the development of sensors, information storage, and encryption materials. In this work, we designed and synthesized two zinc(II) coordination compounds, [Zn(HL)I2]·CH3OH (1) and [Zn(HL)Br2]·CH3OH (2), which exhibit remarkable changes in their emission properties under three different external stimuli. The two compounds were prepared using a simple one-pot method by reacting zinc(II) salts with 4-(N,N-diphenylamino)benzaldehyde and 3-amino-2-pyridinone. Under the stimulation of NH3 vapor, both compounds underwent decomposition, leading to a transformation of their fluorescence from yellow to blue, exhibiting a significant blue-shift of more than 170 nm. After exposure to HCl vapor, the fluorescence color of the two original compounds changed from yellow to red, and the color change could be easily distinguished by the naked eye under UV light irradiation. Then after fumigation with NH3 vapor, the color of both samples changed from red to blue. Based on the high-contrast NH3-responsive properties and HCl-responsive properties, we designed and developed test papers capable of detecting HCl vapor and NH3 vapor. Furthermore, due to the transformation from the crystalline state to the amorphous state during grinding, the two compounds also demonstrated high-contrast mechanochromic luminescence properties. After grinding, the color of the two compounds changes significantly from yellow to orange. [ABSTRACT FROM AUTHOR]

Published

2024

30. Enantiospecific Synthesis of 1,3‐Disubstituted Allenes from Propargylic Carbonates through a Borylation‐1,2‐Elimination Process.

Author

Jarava‐Barrera, Carlos, Parra, Alejandro, Quesada, Sergio, Orgaz‐Gordillo, Sergio, Fernández de la Pradilla, Roberto, Viso, Alma, Teresa, Javier, Alonso, Inés, and Tortosa, Mariola

Subjects

*ALLENE, *HYDROBORATION, *MOIETIES (Chemistry), *BROMOMETHANE

Abstract

An array of enantioenriched vinyl boronates bearing an allylic carbonate moiety have been prepared through selective hydroboration of propargyl carbonates. Treatment of these vinyl boronates with TBAF in THF affords enantioenriched 1,3‐disubstituted allenes through a novel 1,2‐anti elimination in good yields and high enantiospecificities. [ABSTRACT FROM AUTHOR]

Published

2024

31. Economic framework to assess the impact of banning pesticides, with application to sulfuryl fluoride for drywood termites (Blattodea: Kalotermitidae) in California.

Author

Zilberman, David and Lewis, Vernard R.

Subjects

PESTICIDES, BROMOMETHANE, TERMITES, ECONOMIC models, EXTERNALITIES, ENVIRONMENTAL justice

Abstract

Sulfuryl fluoride (SF) is a fumigant used to eliminate drywood termites (DWT: Kalotermitidae; Froggatt) and other structural pests. Because of its global warming potential, it has been suggested that SF be restricted as a greenhouse gas (GHG). We present an economic model to assess the net social cost of restricting SF. We consider 3 approaches to address DWT control- no treatment, allowing SF fumigation and localized treatments, and only local treatment. Each approach generates private and public benefits and costs. We estimate that the annual damage and home equity loss by DWT in California is US$4.5–16.8 billion without treatment. If fumigation is used on 20% of the houses and local treatments on the others, the combined social cost of treatment, damage, and GHG emissions are between US$1–US$2 billion annually.The annual cost of local treatments only would be between US$3.2 and US$4.9 billion. If the application of SF is severely restricted or banned, the social costs will increase between US$1.43 and US$4.31 billion annually. The implied cost per ton of CO2 eliminated is between US$624 and US$1,465, much above the price range of CO2 in other applications. The restriction/ban has significant equity and environmental effects, impacting low-income individuals living in rented properties and replacing damaged wood in housing will increase GHG emissions. We further recommend the continued use of SF until a comparable whole-structure alternative is developed that fits the parameters of our model. [ABSTRACT FROM AUTHOR]

Published

2024

32. Pd(II)-Catalyzed tandem selective dehydrogenative [4+2] annulation of 2-methyl-1,3-cycloalkanediones with olefins.

Author

Zhang, Xu, Wang, Di, Chang, Mengfan, Xu, Xuefeng, Li, Wenguang, and Wang, Wanya

Subjects

*ALKENES, *ANNULATION, *OXIDATION, *BROMOMETHANE

Abstract

A practical and effective palladium-catalyzed selective dehydrogenative [4+2] annulation of 2-methyl-1,3-cycloalkanediones with olefins was reported. The active 2-methylene-1,3-cycloalkanedione was in situ generated via Pd-catalyzed enolate oxidation processes, and it subsequently reacted with a wide variety of olefins to afford various polysubstituted dihydropyran derivatives in good to excellent yields. [ABSTRACT FROM AUTHOR]

Published

2024

33. Ethyl Formate Fumigation against Pineapple Mealybug, Dysmicoccus brevipes , a Quarantine Insect Pest of Pineapples.

Author

Kwon, Tae Hyung, Kim, Dong-Bin, Kim, Bongsu, Bloese, Joanna, Lee, Byung-Ho, and Cha, Dong H.

Subjects

*BROMOMETHANE, *FUMIGATION, *INSECT pests, *PINEAPPLE, *MEALYBUGS, *OZONE layer, *TRADE regulation

Abstract

Simple Summary: Pineapple mealybug, Dysmicoccus brevipes, is a major pest of pineapple production and trade barrier. Methyl bromide fumigation (MB) has generally been used to disinfest imported pineapples. However, its use has been phased out due to its impact on the ozone layer and human health. As a first step to developing MB alternative treatment for imported pineapples, we evaluated whether ethyl formate (EF) fumigation could be an effective disinfestation treatment for pineapple mealybug. In a scaled up trial, EF fumigation with 70 g/m3 EF for 4 h at 8 °C with 20% pineapple loading ratio (w/v) resulted in complete control of pineapple mealybugs treated with no apparent negative impact on pineapple quality. Our results suggest that EF fumigation is a potential disinfestation treatment for pineapple mealybug in imported pineapples. Pineapple mealybug, Dysmicoccus brevipes (Hemiptera: Pseudococcidae), is a significant pest in pineapple production and a key trade barrier. We explored the potential use of ethyl formate (EF) as a methyl bromide alternative for the postharvest fumigation of D. brevipes in imported pineapples. When treated at 8 °C for 4 h, EF fumigation was effective against D. brevipes with LCt99, the lethal concentration × time product of EF necessary to achieve 99% mortality of D. brevipes nymphs and adults at 64.2 and 134.8 g h/m3, respectively. Sorption trials conducted with 70 g/m3 EF for 4 h at 8 °C using 7.5, 15 and 30% pineapple loading ratios (w/v) indicated that loading ratio lower than 30% is necessary to achieve the LCt99 values required to control D. brevipes. In a scaled up trial using 1 m3 chamber, EF fumigation with 70 g/m3 for 4 h at 8 °C with 20% pineapple loading ratio (w/v) resulted in a complete control of D. brevipes treated. There were no significant differences in hue values, sugar contents, firmness, and weight loss between EF-treated and untreated pineapples. Our results suggest that EF is a promising alternative to methyl bromide fumigation for the postharvest phytosanitary disinfection of D. brevipes in pineapples. [ABSTRACT FROM AUTHOR]

Published

2024

34. The efficacy of some synthetic monoterpenes and Yucca extract for controlling Tribolium castaneum (Herbst) in wheat grain.

Author

Derbalah, Aly, Keratum, Attiah, Darwesh, Mohamed, Omar, Ahmed Fayez, Salama, Ahmed, and Hegazy, Fatma

Subjects

RED flour beetle, MONOTERPENES, WHEAT, ALKALINE phosphatase, BROMOMETHANE, MALATHION, BASIL

Abstract

The study's objective was to assess the efficacy and to identify the toxic mechanisms of action of some plant-derived monoterpenes and yucca extract as alternatives to chemical insecticides against the red flour beetle, Tribolium castaneum. Carvone, 1,8-cineole, cuminaldehyde, and linalool, as well as Yucca schidgera extract, were the control agents whose efficacy against the red flour beetle was tested in the laboratory and compared to malathion. The criteria for evaluating efficacy were the effects of the tested compounds on adult mortality and red flour beetle progeny. Furthermore, the effects of the control agents on some enzymes (Acetylcholinesterase,-amylase, and alkaline phosphatase) in T. castaneum were investigated. Moreover, the effect of the tested control measures on weight loss of treated wheat grain was studied. The tested substances showed a high ability to control T. castaneum with regard to adult mortality and offspring production, especially when used as fumigants. For adult mortality, malathion showed the highest potential against T. castaneum as a fumigant, followed by carvone, yucca extract, cuminaldehyde, linalool, and 1,8-cineole with LC50 values of 0.05, 331.5, 365.1, 372.2, 460, and 467.5 mg · 1000 cm-2 after 72 hours, respectively. The highest reduction in progeny was for malathion followed by carvone, linalool, cineole, yucca extract, and cuminaldehyde with reduction percentages of 100, 90, 89.3,79.4 and 65.8%, respectively. The tested compounds significantly affected acetylcholinesterase activity, alpha-amylase activity, and alkaline phosphatase in the red flour beetle. There was no significant reduction in the weight of wheat grains treated with the tested materials compared to the untreated healthy grains. Finally, the tested compounds as fumigants, especially 1,8-cineole, can be considered as effective alternatives to control the red flour beetle. [ABSTRACT FROM AUTHOR]

Published

2024

35. Synergistic Effect of Additional Gas on the Toxicity of Phosphine to Sitophilus oryzae and Sitophilus zeamais (Coleoptera: Dryophthoridae).

Author

Wen-Bin Feng, Chi-Yang Lee, Tai-Chuan Wang, and Me-Chi Yao

Subjects

RICE weevil, CORN weevil, BROMOMETHANE, PHOSPHINE, BEETLES, BROWN rice

Abstract

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

Published

2024

36. Biocontrol potential of Pseudomonas protegens ML15 against Botrytis cinerea causing gray mold on postharvest tomato (Solanum lycopersicum var. cerasiforme).

Author

Ajijah, Nur, Fiodor, Angelika, Dziurzynski, Mikolaj, Stasiuk, Robert, Pawlowska, Julia, Dziewit, Lukasz, and Pranaw, Kumar

Subjects

BOTRYTIS cinerea, TOMATOES, SUSTAINABLE agriculture, MOLD control, SUSTAINABILITY, PSEUDOMONAS, BROMOMETHANE

Abstract

Gray mold, caused by Botrytis cinerea is a major cause of post-harvest rot of fresh fruits and vegetables. The utilization of selected microorganisms as biocontrol agents is a promising alternative to effectively control gray mold on tomatoes. The current study was conducted to explore potential biocontrol mechanisms of the Pseudomonas strain to control infections on post-harvest tomatoes. Among the 8 tested bacterial isolates, Pseudomonas protegens ML15 demonstrated antagonistic activity to Botrytis cinerea. Moreover, P. protegens ML15 exhibited the production of siderophores, hydrogen cyanide, ammonia, exopolysaccharides, lipase, biosurfactant, 2,4-diacetylphloroglucinol, and several other antifungal compounds, such as 1-tetradecanol, cyclododecane, 2,4-di-tert-butylphenol, and 2-methyl-1-hexadecanol. A comprehensive genomic analysis of P. protegens ML15 unravels 18 distinct genetic regions with the potential for biosynthesizing secondary metabolites, known for their pivotal role in biocontrol responses against plant pathogens. In vivo, experiments showed that both culture suspension and cell-free supernatant of P. protegens ML15 significantly reduced fungal growth (53.0 ± 0.63%) and mitigated disease development (52.8 ± 1.5%) in cherry tomatoes at four days post-B. cinerea inoculation. During the infection, the application of P. protegens ML15 resulted in the augmentation of total antioxidant, phenolic content, and ascorbic acids content. Thus, our results suggested that P. protegens ML15's role as a biocontrol agent against B. cinerea-induced postharvest tomato decay achieved through the secretion of antifungal substances, induction of tomato defense responses, and inhibition of mycelial growth of B. cinerea. These findings provide a significant contribution to the ongoing search for alternative, eco-friendly methods of controlling gray mold in fresh products. The utilization of P. protegens ML15 as a biocontrol agent could help to reduce the reliance on chemical fungicides and promote sustainable agriculture practices. [ABSTRACT FROM AUTHOR]

Published

2023

37. Assessment of the chemical and genetic variability among accessions of Cicerbita alpina (L.) Wallr., an alpine plant with anthelmintic properties.

Author

Martinidou, Eftychia, Palmieri, Luisa, Sordo, Maddalena, Masuero, Domenico, Ourda, Maria, Delucchi, Luca, Fusani, Pietro, Tremml, Veronika, Poulopoulou, Ioanna, Gauly, Matthias, Horgan, Mark J., Siewert, Bianka, Stuppner, Hermann, and Martens, Stefan

Subjects

MOUNTAIN plants, GENETIC variation, MICROSATELLITE repeats, AGRICULTURE, ACID derivatives, BROMOMETHANE, CHLOROGENIC acid

Abstract

Cicerbita alpina (L.) Wallr, is a perennial alpine plant and a member of the Asteraceae family, typically found at altitudes above 1000 meters in the Italian Alps. Although previously utilized primarily as a local delicacy, recent studies have revealed strong antiparasitic activity through in vitro experiments. In Europe, numerous chemical drugs employed to combat nematodes — helminths that infest the digestive tract of livestock — are banned due to their environmental harm or show only reduced efficiency because of the development of resistance. Consequently, there is a growing demand for new alternative anthelmintic treatments in agricultural practices. Specialized metabolites found in the extracts of C. alpina could offer a sustainable and biological alternative to chemical drugs, specifically for nematode control. For this purpose, a unique germplasm collection originating from eight distinct natural populations in the Italian Alps was analyzed for its chemical diversity using state-of-the-art targeted LC-MS/MS spectrometry, including quantification based on multiple reaction monitoring. The predominant metabolites identified from the species were the caffeic acid derivatives chicoric acid, chlorogenic acid, and 3. 5-dicaffeoylquinic acid, the sesquiterpene lactone derivative 8-O-acetyl-15-ß-D-glucopyranosyl lactucin and the flavone glycosides, apigenin-7-O-glucoside and luteolin-7-Oglucoside, alongside their precursors apigenin and luteolin, respectively. Additionally, the genetic diversity of eighty individual plants within the germplasm collection was evaluated using ten DNA molecular markers (Simple Sequence Repeats), successfully transferred from two closely related species (Cichorium intybus and Tanacetum parthenium). This investigation unveiled a significant range of genetic diversity within the examined populations, resulting in the establishment of three distinct genetic groups. The findings were further correlated with the original ecological environment and local climate conditions spanning a biennial period, indicating substantial variations among the different accessions and the intricate interplay between genetic background and environmental factors. These results could serve as a basis for future domestication of the species through plant breeding programs ensuring product quality, but also facilitating the cultivation of C. alpina in more diverse geographic regions. [ABSTRACT FROM AUTHOR]

Published

2023

38. Egg Morphology and Chorionic Ultrastructure of Spotted Lanternfly, Lycorma delicatula (White) (Hemiptera: Fulgoridae).

Author

Powell, Jonathan M., Nixon, Laura J., Lourie, Austin P., Leskey, Tracy C., and Walse, Spencer S.

Subjects

SPOTTED lanternfly, INSECT morphology, HEMIPTERA, INSECT pest control, BROMOMETHANE, FUMIGATION, EGGS, MORPHOLOGY

Abstract

Knowledge regarding egg morphology can aid the selection of postharvest fumigants for insect control. Accordingly, scanning electron microscopy (SEM) was used to examine eggs of spotted lanternfly (SLF), Lycorma delicatula (White) (Hemiptera: Fulgoridae), a pest recently invasive to the mid-Atlantic region of the United States. As the overwintering life stage of SLF, eggs are deposited on a variety of refugia, including many forestry products that can be distributed geographically via travel, commerce, and/or trade. For fumigation to control SLF, and potentially translate into a viable strategy for limiting the spread of SLF by subject pathways, the fumigant must permeate the chorion to react with biomolecules and/or disrupt cellular processes. SLF chorion was characterized by a porous network of aeropyles localized around the operculum, in cranial and caudal relation to the developing nymph, as well as an interstice between the operculum edge and the opercular rim. The confirmation of chorionic ultrastructure that allows for ready gas exchange warrants further investigation of fumigation efficacy, even for those "non-reactive" fumigants, such as phosphine and hydrogen cyanide, which must overcome the suppression of cellular processes coincident with overwintering. [ABSTRACT FROM AUTHOR]

Published

2023

39. Frictitious commodities: Virtuality, virtue and value in the carbon economy of repair.

Author

Huff, Amber

Subjects

CARBON offsetting, CARBON, VIRTUE, BROMOMETHANE, INDUSTRIAL expansion, VIRTUES

Abstract

What 'nature' is being commodified in carbon markets, and why does it matter? How are carbon commodities and ecologies of repair co-produced through carbon forestry? Are the Polanyian notions of 'fictitious commodification' and 'embeddedness' appropriate for thinking about carbon forestry and voluntary carbon market (VCM) offsets? This article addresses these questions and extends the critical understanding of conservation in the 'repair mode' through an analysis that delves deeply into the black box of value production in the VCM. Focusing on the interplay of 'virtuality' and 'virtue' in the production of one variety of so-called 'boutique' blue forest carbon offset, this analysis demonstrates the technical abstractions needed isolate 'carbon' and force it into the commodity form create slippages between concrete socio-natures and geographies of offsetting and the imagined natures and geographies of a market environmentalist model of the world. This politics facilitates a dual pathway of accumulation via the material extraction of nature to feed the expansion of industrial growth (the subject of Polanyi's critique) and, in parallel, through feeding new growth markets for nature-based commodities such as the VCM. These markets promise to repair the damage caused by industrial growth, but can only 'work' in the abstract, virtual realm despite entanglement with underlying concrete ecologies of repair. Based on this analysis, this article argues that the widespread view of carbon offsets as 'embedded' Polanyian fictitious commodities is incomplete, based on an ontological fallacy that conflates the ways in which concrete and abstracted, virtual 'natures' are used to produce value in the contemporary restoration economy. This fallacy implicitly reifies the central fictions and contradictions of carbon markets and the market environmentalist model more broadly. Considering VCM carbon forestry in terms of 'scale-making' and 'world-making' projects, the article presents an alternative conceptualisation of VCM carbon offsets as intangible 'frictitious' commodities that inhabit a complicated and only provisionally stabilised commodity form. [ABSTRACT FROM AUTHOR]

Published

2023

40. Comparison of fumigation efficacy of methyl bromide alone and phosphine applied either alone or simultaneously or sequentially against Bactrocera correcta in Selenicereus undatus (red pitaya) fruit.

Author

Shan, Changyao, Li, Baishu, Li, Li, Du, Xin, Ren, Yonglin, McKirdy, Simon J., and Liu, Tao

Subjects

BROMOMETHANE, BACTROCERA, FUMIGATION, PROBIT analysis, PHOSPHINE, FRUIT quality

Abstract

BACKGROUND: Bactrocera correcta (Bezzi) is a significant pest of the red pitaya fruit (Selenicereus undatus). This study investigated the insecticidal effects of methyl bromide (MB) alone, phosphine (PH3) alone, both applied simultaneously (PH3 + MB), and PH3 application followed sequentially by MB (PH3 → MB) against B. correcta in red pitaya fruits. RESULTS: The 3rd instar larvae of B. correcta were the most tolerant to MB alone and the combined treatments, whereas eggs were the most susceptible stage. Both the PH3 + MB and PH3 → MB treatments resulted in higher mortality at all stages than MB alone, demonstrating a synergistic effect between MB and PH3. The toxicity of the combined treatments increased with increasing PH3 concentrations, with the optimal concentration recorded being 1.42 to 2.84 g m−3. Further probit analysis revealed that compared to the MB treatment alone, the median lethal dose values of MB in PH3 + MB and PH3 → MB treatment, were reduced to 63.73% and 66.82%, respectively. Fruit quality was not adversely affected by either of the combined treatments. CONCLUSION: This work provides robust evidence that combining MB and PH3 to control B. correcta is highly effective, especially the PH3 → MB treatment. This combination decreased the amount of MB required for effective control at all life stages, while protecting fruit quality against MB phytotoxicity to a greater extent than conventional MB fumigation alone. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

41. Bacillus velezensis BVE7 as a promising agent for biocontrol of soybean root rot caused by Fusarium oxysporum.

Author

Lei Sun, Wei Wang, Xue Zhang, Zhongchao Gao, Shanshan Cai, Shuang Wang, and Yonggang Li

Subjects

ROOT rots, FUSARIUM oxysporum, PHENYLALANINE ammonia lyase, SOYBEAN, BACILLUS (Bacteria), BIOLOGICAL pest control agents, FUNGICIDES, BROMOMETHANE, BIOLOGICAL weed control

Abstract

Introduction: Soybean root rot (SRR), caused by Fusarium oxysporum, is a severe soil-borne disease in soybean production worldwide, which adversely impacts the yield and quality of soybean. The most effective method for managing crop soil-borne diseases and decreasing reliance on chemical fungicides, such as Bacillus spp., is via microbial biocontrol agents. Methods and Results: In this study, a soil-isolated strain BVE7 was identified as B. velezensis, exhibiting broad-spectrum activity against various pathogens causing soybean root rot. BVE7 sterile filtrate, at a concentration of 10%, demonstrated significant antifungal activity by inhibiting the conidial germination, production, and mycelial growth of F. oxysporum by 61.11%, 73.44%, and 85.42%, respectively, causing hyphal malformations. The antifungal compound produced by BVE7 demonstrated adaptability to a standard environment. The pot experiment showed that BVE7 suspension could effectively control soybean root rot, with the highest control efficiency of 75.13%. Furthermore, it considerably enhanced the activity of catalase, phenylalanine ammonia lyase, superoxide dismutase, and peroxidase in soybean roots, while also preventing an increase in malondialdehyde activity. By improving the host resistance towards pathogens, the damage caused by fungi and the severity of soybean root rot have been reduced. Discussion: This study presents the innovative utilization of B. velezensis, isolated from soybean roots in cold conditions, for effectively controlling soybean root rot caused by F. oxysporum. The findings highlight the remarkable regional and adaptive characteristics of this strain, making it an excellent candidate for combating soybean root rot in diverse environments. In conclusion, B. velezensis BVE7 demonstrated potential in effectively reducing SRR incidence and can be considered as a viable option for SRR management. [ABSTRACT FROM AUTHOR]

Published

2023

42. Tithonia diversifolia Improves In Vitro Rumen Microbial Synthesis of Sheep Diets without Changes in Total Gas and Methane Production.

Author

Pérez-Márquez, Simón, Ovani, Vagner S., Lima, Paulo de Mello Tavares, Lana, Ângela Maria Quintão, Louvandini, Helder, Abdalla, Adibe Luiz, and Maurício, Rogério Martins

Subjects

*MICROBIOLOGICAL synthesis, *TITHONIA diversifolia, *CORN meal, *DIET, *SOYBEAN meal, *BROMOMETHANE

Abstract

Among the alternatives identified as capable of making livestock farming a more efficient activity and reducing its environmental impact, the use of feeds with high digestibility and the use of non-conventional fodder species can be highlighted. Tithonia diversifolia (Hemsl.) A. Gray (TD) has already gained attention as a feed for ruminants. Nonetheless, there has been little discussion about the impacts of this plant on the rumen dynamics that lead to better animal performance. The aim of this study was to assess how increasing levels of TD could affect ruminal microbial biomass synthesis, degradability, and in vitro gas production (IVGP) of diets. Four diets were evaluated: a control diet (TD0: 400 g kg−1 soybean meal and maize grain, and 600 g kg−1 Tifton 85 hay (Cynodon spp.)) and three increasing levels of TD (TD9: 90, TD27: 270, and TD45: 450 g kg−1–dry matter basis) as a replacement for dietary roughage. A 96 h IVGP assay was carried out and five incubation times (2, 4, 10, 24, and 96 h) were used for degradability determination. Gas produced, methane (CH4), degradability of organic matter (IVDOM), short-chained fatty acid (SCFA) production, partitioning factor (PF), and microbial biomass (MB) were evaluated among treatments. There was no significant effect (p > 0.05) between TD inclusion and IVGP at most incubation times; only at 6 h of incubation did gas production increase linearly with TD inclusion (R2 = 0.19; p < 0.05). TD inclusion had no effects on CH4. IVDOM increased linearly with TD inclusion at 6 and 10 h, with TD45 being more degradable than the control diet at 6 h only. There was a positive linear relationship (R2 = 0.20; p < 0.05) between TD inclusion and PF. TD45 had significantly higher PF values than the control. MB also increased linearly (R2 = 0.30; p < 0.05) with TD inclusion, and all diets with TD had significantly more MB than the control diet. The inclusion of TD at the levels used in this work was revealed to have a positive impact on microbial protein synthesis, which could be related to the higher microbial efficiency of increased substrate quality. [ABSTRACT FROM AUTHOR]

Published

2023

43. Effects of Tebuconazole on the Earthworm Dendrobaena veneta : Full Life Cycle Approach.

Author

Kovačević, Marija, Stjepanović, Nikolina, Zelić, Luca, and Lončarić, Željka

Subjects

LIFE cycles (Biology), TEBUCONAZOLE, EARTHWORMS, TOXICITY testing, POISONS, BROMOMETHANE

Abstract

Tebuconazole (TEB), a widely used triazole fungicide, is effective against soil-borne and foliar fungal pathogens. Toxicants can exhibit varying effects depending on the life stage of organisms, although standard toxicity tests typically focus on adult individuals. This study aimed to assess TEB's potential adverse effects on the earthworm Dendrobaena veneta throughout its life cycle. Effects were evaluated by exposing cocoons to varying TEB concentrations, monitoring hatching, newly hatched juvenile mass, and growth to adulthood. A reproduction test assessed impacts on adults, offering insights into how these results compared with cocoon exposure findings. Results revealed that TEB delayed hatching at concentrations of 25, 50, and 100 mg/kg by 6, 8, and 15.5 days, respectively. Newly hatched juveniles exhibited a 15.96% (50 mg/kg) and 27.37% (100 mg/kg) reduction in body mass compared to controls, with no subsequent compensation during growth. Results from the reproduction tests showed no adverse effects on adult survival, but the effects are observed on juveniles, indicating a higher sensitivity of this developmental stage. While several adverse effects were observed, it is important to note that these occurred at concentrations exceeding recommended application rates. TEB appears safe for earthworms when used correctly, but the presence of multiple contaminants and stressors warrants consideration. [ABSTRACT FROM AUTHOR]

Published

2023

44. Ethyl Formate as a New Sanitary Treatment for Disinfesting the Hitchhiking Insect Pest Halyomorpha halys on Imported Nonfood Agricultural Machinery.

Author

Kim, Kyeongnam, Kim, Dongbin, Lee, Byung-Ho, Roh, Gwang Hyun, Kim, Kyung Won, Jeon, Hwan-Young, and Lee, Sung-Eun

Subjects

BROMOMETHANE, BROWN marmorated stink bug, INSECT pests, PEST control, OZONE layer, ELECTRONIC equipment, POSITIVE pressure ventilation, AGRICULTURAL equipment

Abstract

Featured Application: New sanitary treatment using ethyl formate fumigation on importing/exporting agricultural machinery as an alternative to methyl bromide. With an increase in the international trade of agricultural and non-agricultural products, there is an increase in the possibility of introducing hitchhiking insect pests such as Halyomorpha halys, which has been detected on imported vehicles and agricultural machinery. Although methyl bromide (MB) is provisionally used to control invasive pests, it is classified as a restricted chemical owing to its potential to deplete the ozone layer and pose health risks to humans in cases of inadequate ventilation, as well as concerns regarding consumer safety. Therefore, this study investigated ethyl formate's (EF's) efficacy against H. halys and its efficacy and sorption, as an alternative to MB, on main electronic components, including alternators, ignition coils, and motors. Fumigation with 35 and 70 g/m3 EF for 4 h at 15 °C had no damage on the main electronic components as evaluated using various operation tests. In a commercial trial, H. halys infestation was effectively controlled with 35 g/m3 EF fumigated for 4 h at 23 °C using a 30 m3 polyvinyl chloride tarpaulin fumigation chamber. After ventilation, the EF concentration decreased below the safety level within 10 min and reached the zero level within 40 min for worker safety. This novel sanitary treatment using EF fumigation on imported agricultural machinery could be an effective method without causing mechanical damage. [ABSTRACT FROM AUTHOR]

Published

2023

45. An Intelligent Wristband for Simultaneous Multiparameter Measurement during Fumigation and Washing Therapy of Traditional Chinese Medicine.

Author

Li, Yuanfang, Tang, Hao, Qiao, Yancong, Liu, Haidong, Deng, Zhikang, Xia, Hong-qi, and Zhou, Jianhua

Subjects

CHINESE medicine, SKIN temperature, FUMIGATION, BROMOMETHANE, CARBON nanotubes, ELECTRIC conductivity, PHOTOPLETHYSMOGRAPHY, ARTIFICIAL intelligence, WEARABLE technology

Abstract

Traditional Chinese medicine (TCM) is one of the oldest healing systems, which plays an essential role in daily health management. However, TCM is frequently controversial due to its subjectivity and lack of scientific quantification. Modern sensing technologies, enabling the detection of various physiological signals, have the remarkable performance of multifunctionality, superintegration, and ultraminiaturization. Combining with modern sensing technology is a good opportunity for the modernization, objectification, and scientization of TCM. This article proposes an intelligent wristband for simultaneous multiparameter measurement of pulse, skin temperature, and perspiration, essential physiological signals in TCM. As a significant functional material, a carbon nanotube/poly(dimethylsiloxane) nanocomposite with 3D interpenetrating network structures exhibits great electrical conductivity, stress effect, and thermoresistive effect, ensuring intelligent wristband's high accuracy, high sensitivity, and good stability for pulse and temperature measurements. Furthermore, the perspiration sensing unit is also integrated. The as‐prepared intelligent wristband is applied during fumigation and washing therapy, and artificial intelligence is introduced to judge whether the user is during fumigation and washing therapy or in the resting state by classifying the user's physiological state, with an accuracy of up to 100%. This work offers a unique strategy for TCM and wearable sensing technology with an important practical significance. [ABSTRACT FROM AUTHOR]

Published

2023

46. Efficacy of five nematicides against root‐knot nematode when applied via single and double drip tapes in a Florida sandy soil.

Author

Bui, Hung X. and Desaeger, Johan A.

Subjects

SANDY soils, ROOT-knot, NEMATODE infections, BROMOMETHANE, CHEMICAL industry, NEMATOCIDES, JAVANESE root-knot nematode

Abstract

Background: The efficacy of drip‐applied nematicides depends on adequate product distribution, which can be difficult in sandy soils. Three new non‐fumigant nematicides (fluazaindolizine, fluensulfone, fluopyram), together with two old nematicides, oxamyl and metam potassium, were evaluated when applied via single and double drip tapes to control root‐knot nematode in cucumber and squash in Florida between February 2020 and December 2022. Results: Nematicide applications via double drip tapes resulted in lower root gall infection (and tend to have higher yield) as compared to a single tape for fluopyram, but no difference was noted between single and double tapes for oxamyl and fluazaindolizine. Fluensulfone response was somewhere in between and metam potassium had higher squash yield when applied with double tapes. Root‐knot infection was higher in cucumber than in squash, and metam potassium had the highest yields and lowest nematode infection compared to other nematicide treatments. Conclusion: The benefit of double versus single drip tapes depended on the type of nematicide that was applied and was evident for nematicides that have poor water solubility like fluopyram. Some benefit was noted for metam potassium, but no or limited benefit was noted for oxamyl, fluazaindolizine and fluensulfone. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

47. Efficacy of Liquid Smoke to Mitigate Infestations of the Storage Mite, Tyrophagus putrescentiae , in a Model Semi-Moist Pet Food.

Author

Deliephan, Aiswariya, Phillips, Thomas W., Subramanyam, Bhadriraju, Aldrich, Charles G., Maille, Jacqueline, and Manu, Naomi

Subjects

*BROMOMETHANE, *PET food, *MITE infestations, *INTEGRATED pest control, *SMOKE, *LIQUIDS

Abstract

Simple Summary: Pests such as mites have been contaminating food products, including pet food, over the years. Mite-infested pet food, apart from causing allergies in pet animals and degrading food quality, can also cause illnesses like asthma in humans as they are often handled by pet owners and children at home. In this study, we evaluated liquid smoke as a natural and clean label additive in semi-moist pet food to protect against mite infestation. Our results indicated that while liquid smoke did not kill or inhibit the mite growth, some liquid smoke fractions provided a repellency effect to retard mite infestation in semi-moist pet food. The storage mite Tyrophagus putrescentiae infests a wide range of food products including pet food. Control of this mite depends on chemical methods such as fumigation and spraying with insecticides. Methyl bromide was used as a fumigant for high-value stored products, especially to control mite infestation in dry-cured hams and cheeses, but it is now banned for most uses in many countries because of its atmospheric ozone-depleting effects. Effective alternatives to methyl bromide are needed to develop integrated pest management programs for this pest. Liquid smoke is a naturally derived flavoring and preservative with known antimicrobial properties. The objective of this study was to investigate the efficacy of liquid smoke preparations, with varying phenol and carbonyl concentrations and pH, on the survivability and orientation behavior of T. putrescentiae in a model semi-moist pet food. The mite survivability assays using liquid smoke-treated and untreated semi-moist pet food samples indicated that there was no difference among treatments (p > 0.05) for mite infestation and survival. Two-choice behavioral assays using semi-moist pet food cubes dipped in varying concentrations (0%, 0.3%, 1%, 5%, 10%, 25%, 50%, or 100% v/v) of liquid smoke preparations found that some of the liquid smoke preparations containing medium to high carbonyl content repelled the mites. In conclusion, liquid smoke did not kill or inhibit the mite population growth in semi-moist pet food. However, some liquid smoke fractions containing medium to high carbonyl content were repellent to mites and may retard mite infestation in stored semi-moist foods. [ABSTRACT FROM AUTHOR]

Published

2023

48. Assessing the insecticidal effect of Citrus aurantium and Nerium oleander extracts and basalt "Farina di Basalto® “ as biological alternatives to control Aphis punicae and Planococcus citri in an organic pomegranate orchard.

Author

Elimem, Mohamed, Jaouadi, Rym, Bouslema, Thameur, Kalboussi, Maha, Lahfef, Chaima, Rouz, Slim, Kharroubi, Hassan, Boulila, Abdennacer, Kouki, Sofien, Ragnoni, Giuliano, Pizzuti, Gianluca, Primavera, Fabio, and Riccini, Alessandro

Subjects

*OLEANDER, *POMEGRANATE, *BASALT, *ORCHARDS, *POISONS, *INTEGRATED pest control, *CITRUS, *HESPERIDIN, *BROMOMETHANE

Abstract

This study aims to evaluate the efficiency of basalt with two botanical aqueous extracts of Citrus aurantium and Nerium oleander (50g/L) against Aphis punicae and Planococcus citri in an organic pomegranate orchard. Basalt was applied as a foliar spray with two doses (1.5% and 3%), in the ground as a fertiliser (1.5%), and as a combined application (1.5%). Phenolic compounds of both plants were identified by HPLC-PDA/ESI-MS analysis. Seven and six flavonoids were detected in C. aurantium and N. oleander extracts, respectively. Hesperidin was more abundant in C. aurantium extracts; however, N. oleander extracts contained more quercetin rutinoside. A. punicae populations were significantly higher in control trees compared to the treated ones. A. punicae mortality rates reached high values above 90% for basalt and plants extracts and efficacy rates exceeded 80%. P. citri mortality rates reached 88% and 77%, and efficacy rates exceeded 75% and 66% for basalt and plant extracts, respectively. These findings may help to plan Integrated pest management strategies in organic orchards to avoid toxic chemical pesticides. [ABSTRACT FROM AUTHOR]

Published

2023

49. Molecular mechanism of Enterococcus faecalis-induced phosphine sensitivity in Tribolium castaneum (Coleoptera: Tenebrionidae).

Author

Wang, Zhengyan, Hu, Haisheng, Chang, Zhenzhen, Zhang, Shan, and Lu, Yujie

Subjects

RED flour beetle, TENEBRIONIDAE, PESTICIDE resistance, PHOSPHINE, ENTEROCOCCUS, BROMOMETHANE

Abstract

Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) has developed extensive resistance to the fumigant phosphine. Knowledge of the resistance mechanisms offers insight into resistance management. Although several studies have highlighted the positive or negative impacts of symbiotic microbiota on host pesticide resistance, little is known about the association between gut symbionts and host phosphine resistance. To reveal the effect of the gut bacterium, Enterococcus faecalis (Andrewes & Horder) (Lactobacillales: Enterococcaceae), on host phosphine resistance and its underlying mechanism, we investigated mortality, fitness, redox responses, and immune responses of adult T. castaneum when challenged with E. faecalis inoculation and/or phosphine exposure. When T. castaneum was exposed to phosphine, E. faecalis inoculation decreased its survival and female fecundity and aggravated its oxidative stress. Furthermore, E. faecalis inoculation suppressed the expression and activity of superoxide dismutase, catalase, and peroxidase in phosphine-exposed T. castaneum. Enterococcus faecalis inoculation also triggered excessive host immune responses, including the immune deficiency signaling pathway and the dual oxidase-reactive oxygen species system. These findings suggest that E. faecalis likely modulates host phosphine resistance by interfering with the redox system. This provides information for examining the symbiotic function in the insect-microorganism relationship and new avenues for pesticide resistance management. [ABSTRACT FROM AUTHOR]

Published

2023

50. Metal confined in metal‐organic framework‐based mixed matrix membranes for efficient butadiene recognition separation.

Author

Cen, Xixi, Sun, Yuxiu, Yu, Caijiao, Qiao, Zhihua, and Zhong, Chongli

Subjects

BUTADIENE, METALLIC composites, METALS, COPPER, MEMBRANE separation, METAL-organic frameworks, BROMOMETHANE

Abstract

The efficient separation of butadiene (1,3‐C4H6) from C4 hydrocarbons is a critical step in petrochemical processes. However, the traditional cryogenic distillation suffers from energy‐intensity and serious environmental stress, necessitating the development of alternative technologies for efficient 1,3‐C4H6 separation. Herein, a 1,3‐C4H6 recognition mixed matrix membrane is reported via incorporating metal copper encapsulated a metal‐organic framework (CuBTC@Cu) into elastic poly(dimethylsiloxane) (PDMS). The resulting CuBTC@Cu/PDMS membrane can efficient separate 1,3‐C4H6 from various C4 hydrocarbons including 1,3‐C4H6/n‐C4H8, 1,3‐C4H6/iso‐C4H8, 1,3‐C4H6/n‐C4H10 and 1,3‐C4H6/iso‐C4H10, yielding superior selectivity of 5.11, 6.35, 4.78, and 10.30, respectively, with 1,3‐C4H6 permeability of 53240 Barrer. Notably, the appropriate π‐complexation interaction between butadiene molecules and CuBTC@Cu as well as suitable transmission channel size enable the membrane only permeable to 1,3‐C4H6 and block the permeation of other C4 hydrocarbons, showing a unique 1,3‐C4H6 recognition behavior in membrane separation. The concept of affinity‐relying separation combining molecular sieving would open a new direction for designing gas membranes for efficient light hydrocarbon separations. [ABSTRACT FROM AUTHOR]

Published

2023