Polybrominated biphenyl ethers(PBDEs)and polycyclic aromatic hydrocarbons(PAHs)are commonly detected contaminants at e-waste recycling sites.Against the conventional wisdom that PBDEs and PAHs are highly immobile and ...Polybrominated biphenyl ethers(PBDEs)and polycyclic aromatic hydrocarbons(PAHs)are commonly detected contaminants at e-waste recycling sites.Against the conventional wisdom that PBDEs and PAHs are highly immobile and persist primarily in shallowsurface soils,increasing evidence shows that these compounds can leach into the groundwater.Herein,we compare the leachabilities of PBDEs vs.PAHs from contaminated soils collected at an e-waste recycling site in Tianjin,China.Considerable amounts of BDE-209(0.3–2 ng/L)and phenanthrene(42–106 ng/L),the most abundant PBDE and PAH at the site,are detected in the effluents of columns packed with contaminated soils,with the specific concentrations varying with hydrodynamic and solution chemistry conditions.Interestingly,the leaching potential of BDE-209 appears to be closely related to the release of colloidal mineral particles,whereas the leachability of phenanthrene correlates well with the concentration of dissolved organic carbon in the effluent,but showing essentially no correlation with the concentration of mineral particles.The surprisingly different trends of the leachability observed between BDE-209 and phenanthrene is counterintuitive,as PBDEs and PAHs often co-exist at e-waste recycling sites(particularly at the sites wherein incineration is being practiced)and share many similarities in terms of physicochemical properties.One possible explanation is that due to its extremely low solubility,BDE-209 predominantly exists in free-phase(i.e.,as solid(nano)particles),whereas the more soluble phenanthrene is mainly sorbed to soil organic matter.Findings in this study underscore the need to better understand the mobility of highly hydrophobic organic contaminants at contaminated sites for improved risk management.展开更多
The associations of polycyclic aromatic hydrocarbon(PAH)exposure with serum uric acid(SUA)or hyperuricemia have been rarely assessed.We aimed to investigate the relationships between urinary PAH metabolites and SUA or...The associations of polycyclic aromatic hydrocarbon(PAH)exposure with serum uric acid(SUA)or hyperuricemia have been rarely assessed.We aimed to investigate the relationships between urinary PAH metabolites and SUA or hyperuricemia among US adults and to explore the mediating role of systemic inflammation in the associations.A total of 10,307 US adults were conducted to assess the associations of seven urinary hydroxy–PAH with SUA and hyperuricemia and evaluate the role of C-reactive protein(CRP),a biomarker of systemic inflammation,in such associations.Results showed that each 1-unit increase in ln-transformed 2-hydroxynaphthalene(2-OHNa),1-hydroxyphenanthrene(1-OHPh),2&3-hydroxyphenanthrene(2&3-OHPh)and total hydroxyphenanthrene(OHPh)was associated with a 1.68(95%confidence interval(CI):0.19 to 3.17),2.46(0.78 to 4.13),3.34(1.59 to 5.09),and 2.99(1.23 to 4.75)μmol/L increase in SUA,and a 8%(odds ratio(OR):1.08,1.02 to 1.15),9%(OR:1.09,1.02 to 1.18),13%(OR:1.13,1.05 to 1.22),and 12%(OR:1.12,95%CI:1.03,1.21)increase in hyperuricemia,respectively.Co-exposure of seven PAHs was positively associated with SUA and hyperuricemia,with 2&3-OHPh showing the highest weight(components weights:0.83 and 0.78,respectively).The CRP mediated 11.47%and 10.44%of the associations ofΣOHPh and 2&3-OHPh with SUA and mediated 8.60%and 8.62%in associations ofΣOHPh and 2&3-OHPh with hyperuricemia,respectively.In conclusion,internal levels of PAH metabolites were associated with elevated SUA levels and the increased risk of hyperuricemia among US adults,and CRP played a mediating role in the associations.展开更多
This study investigated environmental distribution and human exposure of polycyclic aromatic hydrocarbons(PAHs)and their derivatives in one Chinese petroleum refinery facility.It was found that,following with high con...This study investigated environmental distribution and human exposure of polycyclic aromatic hydrocarbons(PAHs)and their derivatives in one Chinese petroleum refinery facility.It was found that,following with high concentrations of 16 EPA PAHs(∑Parent-PAHs)in smelting subarea of studied petroleum refinery facility,total derivatives of PAHs[named as XPAHs,including nitro PAHs(NPAHs),chlorinated PAHs(Cl-PAHs),and brominated PAHs(Br-PAHs)]in gas(mean=1.57×10^(4)ng/m^(3)),total suspended particulate(TSP)(mean=4.33×10^(3) ng/m^(3))and soil(mean=4.37×10^(3) ng/g)in this subarea had 1.76-6.19 times higher levels than those from other subareas of this facility,surrounding residential areas and reference areas,indicating that petroleum refining processes would lead apparent derivation of PAHs.Especially,compared with those in residential and reference areas,gas samples in the petrochemical areas had higher∑NPAH/∑PAHs(mean=2.18),but lower∑Cl-PAH/∑PAHs(mean=1.43×10^(-1))and∑Br-PAH/∑PAHs ratios(mean=7.49×10^(-2)),indicating the richer nitrification of PAHs than chlorination during petrochemical process.The occupational exposure to PAHs and XPAHs in this petroleum refinery facility were 24-343 times higher than non-occupational exposure,and the ILCR(1.04×10^(-4))for petrochemical workers was considered to be potential high risk.Furthermore,one expanded high-resolution screening through GC Orbitrap/MS was performed for soils from petrochemical area,and another 35 PAHs were found,including alkyl-PAHs,phenyl-PAHs and other species,indicat-ing that profiles and risks of PAHs analogs in petrochemical areas deserve further expanded investigation.展开更多
Polycyclic aromatic hydrocarbons(PAHs)are of great concern because they threaten pri-mary productivity,but their specific effects on ecosystem functioning are scarce,hindering a comprehensive understanding of their ec...Polycyclic aromatic hydrocarbons(PAHs)are of great concern because they threaten pri-mary productivity,but their specific effects on ecosystem functioning are scarce,hindering a comprehensive understanding of their ecological risks,especially in eutrophicwaters.The present study was conducted by adding PAHs to four marine phytoplankton species and showed that naphthalene(Nap)and phenanthrene(Phe)induced both stimulatory and in-hibitory effects(>50%)on urea and NO_(3)−uptake by phytoplankton species.In addition,the apparent stimulative effects(>50%)for NH_(4)^(+)were also observed.Overall,38.9%of the sam-ples exhibited stimulation effects after 24 h exposure,which increased to 61.1%after 96 h exposure.This suggested the existence of a lag period,during which a tolerant cell popula-tion could adapt to PAHs.Significant positive correlations(P<0.01)between low and high concentrations of PAH individuals demonstrated that the mode of action for both pollutants on nitrogen uptake by phytoplankton was the same.Species-specific responses were also observed,with 19.0%of Thalassiosira sp.and 24.0%of Tetraselmis sp.exhibited inhibition effects greater than 50%,while 40.9%of Karlodinium veneficum and 27.3%of Rhodomonas salina demonstrated stimulation effects exceeding 50%,providing a unique perspective for exploring the harmful algal bloom of the mixotrophic K.veneficum,in addition to the original consideration of nutrients.The internal mechanisms may lie in differences in energy consumption between N-forms,exposure time and chemical concentrations,aswell as mor-phological characteristics and biochemical structures of the species,which require further investigation.展开更多
Rhizoremediation has emerged as a burgeoning approach for the removal of petroleum hydrocarbons(PHCs)from soil,with a primary emphasis on terrestrial plant systems.However,the mechanism of how soil microbiomes influen...Rhizoremediation has emerged as a burgeoning approach for the removal of petroleum hydrocarbons(PHCs)from soil,with a primary emphasis on terrestrial plant systems.However,the mechanism of how soil microbiomes influence the dissipation of PHCs within a hygrophyte planting system has yet to be fully elucidated.This work concentrated on the potential evolution of soil microbiomes and their effects on PHC dissipation within the Suaeda salsa(L.)Pall.planting system in a pot experiment.Two representative compounds,polycyclic aromatic hydrocarbons(PAHs)and n-alkanes,were used as target PHCs.The findings revealed a significant efficiency in the dissipation of PHCs in soil with Suaeda salsa cultivation,particularly with respect to n-alkanes.The high dissipation efficiency of PHCs was the synergistic result of root accumulation and microbial biodegradation.The key microbes involved in PHC dissipation were revealed,with the dominant phylum Proteobacteria and genus Salinimicrobium.The alterations in microbial diversity and abundance were closely associated with root exudation and PHC exposure.Significant differences in enzyme activities,an indicator of soil health and fertility,were observed between the rhizospheric and non-rhizospheric soils,which was attributed to root exudation.This study offers novel insights into the phytoremediation potential for Suaeda in PHC-contaminated soils and serves as a valuable scientific reference for the phytoremediation of such soils.展开更多
Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the ...Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the most powerful tools for the construction of various cyclic compounds with the advantages of atom economy,mild reaction conditions and simplicity of operation.Allenolates,Morita−Baylis−Hillman(MBH)alcohols and their derivatives(MBHADs),electron-deficient olefins and alkynes are very efficient substrates in phosphine mediated annulations,which formed many phosphonium species such asβ-phosphonium enolates,β-phosphonium dienolates and vinyl phosphonium ylides as intermediates.This review describes the reactivities of these phosphonium zwitterions and summarizes the synthesis of polycycle compounds through phosphine-mediated intramolecular and intermolecular sequential annulations.Thus,a systematic summary of the research process based on the phosphine-mediated sequential annulations of allenolates,MBH alcohols and MBHADs,electron-deficient olefins and alkynes are presented in Chapters 2-6,respectively.展开更多
Hymoins A–C(1–3),three unusual polycyclic polyprenylated acylphloroglucinols(PPAPs)were isolated from the flowers of Hypericum monogynum.Hymoin A features the first intriguing 6/5/5/5/7 pentacyclic caged PPAP.Hymoin...Hymoins A–C(1–3),three unusual polycyclic polyprenylated acylphloroglucinols(PPAPs)were isolated from the flowers of Hypericum monogynum.Hymoin A features the first intriguing 6/5/5/5/7 pentacyclic caged PPAP.Hymoin B is characterized by an unprecedented rearranged 5/6/8 tricyclic ring system,while hymoin C represents the first rearranged PPAP with a fantastic spirocyclic 5/6/7 ring system.Their structures were established by extensive spectroscopic analysis,X-ray crystallography,and computational methods.The plausible biosynthetic routes for the compounds were also proposed.In oleic acid(OA)-induced HepG2 cells,all compounds exhibited significant lipid-lowering activity at the concentrations of 2–8μmol/L.Further mechanistic study implied that compound 1 exhibited excellent lipid-lowering activity in OA-induced HepG2 cells through inhibiting the proteins of free fatty acids synthesis and improving lipidolysis.展开更多
Size-fractionated particulate matter(PM_(2.5)and PM>_(2.5))was collected at a traffic site in Kanazawa,Japan in a seasonal sampling work in 2020.Nine polycyclic aromatic hydrocarbons(4-to 6-ring PAHs)were determine...Size-fractionated particulate matter(PM_(2.5)and PM>_(2.5))was collected at a traffic site in Kanazawa,Japan in a seasonal sampling work in 2020.Nine polycyclic aromatic hydrocarbons(4-to 6-ring PAHs)were determined in fine and coarse particles.The gas/particle partitioning coefficients(K_(p))of the PAHs were calculated from the supercooled liquid vapour pressure and octanol-air partitioning coefficient based on the relationships obtained in previous traffic pollution-related studies.Gaseous PAHs were estimated by K_(p) and the concentrations of PM and particulate PAHs.The concentrations of total PAHs were 32.5,320.1 and 5646.2 pg/m^(3) in the PM>_(2.5),PM_(2.5) and gas phases,respectively.Significant seasonal trends in PAHs were observed(particle phase:lowest in summer,gas phase:lowest in spring,particle and gas phase:lowest in spring).Compared to 2019,the total PAH concentrations(in particles)decreased in 2020,especially in spring and summer,which might be due to reduced traffic trips during the COVID-19 outbreak.The incremental lifetime cancer risk(ILCR)calculated from the toxic equivalent concentrations relative to benzo[a]pyrene(BaP_(eq))was lower than the acceptable limit issued by the US Environmental Protection Agency,indicating a low cancer risk in long-term exposure to current PAH levels.It is notable that gaseous PAHs considerably contributed to BaP_(eq) and ILCR(over 50%),which highlighted the significance of gaseous PAH monitoring for public health protection.This low-cost estimation method for gaseous PAHs can be expected to reliably and conveniently obtain PAH concentrations as a surrogate for traditional sampling in the future work.展开更多
Understanding microbial responses to polycyclic aromatic hydrocarbon(PAH)pollution is crucial for assessing the current status of PAH contamination in polar regions.In this study,intertidal and marine sediments were e...Understanding microbial responses to polycyclic aromatic hydrocarbon(PAH)pollution is crucial for assessing the current status of PAH contamination in polar regions.In this study,intertidal and marine sediments were enriched with a mixture of PAHs(naphthalene,phenanthrene,fluorene,pyrene,and fluoranthene).Isolation of culturable bacteria,high-throughput sequencing,and functional prediction were combined to systematically analyze bacterial structural and predicted functional responses to PAH exposure.High-throughput sequencing results showed that the relative abundance of Proteobacteria was significantly increased after enrichment,and Pseudomonas and Acinetobacter were identified as dominant genera under PAH exposure.These findings were consistent with the 19 potential PAH-degrading strains(mainly Pseudomonas)that were successfully isolated from enrichment cultures.Distinct bacterial taxa between enriched marine and intertidal sediments indicated the existence of distinct PAH-degrading groups.PICRUSt2-based functional predictions suggested higher predicted abundances of PAH-degradation pathways in polar sediments,likely through the preferential degradation of parent PAH compounds in response to elevated concentrations.This study provides valuable data on microbial responses to PAH pollution in polar regions and offers new insights for evaluating ecological hazards induced by PAHs.展开更多
Previous studies have reported a relationship between exposure to metals and polycyclic aromatic hydrocarbons(PAHs)and blood glucose levels,but whether the mechanisms are mediated by amino acids remains to be elucidat...Previous studies have reported a relationship between exposure to metals and polycyclic aromatic hydrocarbons(PAHs)and blood glucose levels,but whether the mechanisms are mediated by amino acids remains to be elucidated.We conducted a three-wave repeated measurement study involving 201 elderly individuals(aged≥50 years)from five communities in Beijing,China.We simultaneously measured eightmetals in both blood and urine,six monohydroxy PAHs in urine,and 23 amino acids in blood.Linear mixed-effects and sparse partial least squares models were used to evaluate the individual effects,and Bayesian kernel machine regression was employed to mixture effects.Mediation analysis was further used to explore whether amino acids mediators mediate the association.We observed significant associations of selenium and strontium with increased blood glucose.Additionally,blood copper,urinary nickel,as well as urinary 1+9 hydroxyphenanthrene,were associated with irregular blood glucose regulation.Moreover,we found that amino acids such as leucine,proline,and alanine may mediate the associations.This study is the first to investigate the effect of metals and PAHs on blood glucose homeostasis,while also exploring the mediating role of amino acids,offering new insights into the impact of metals and PAHs on blood glucose regulation.展开更多
Objective To investigate the association of various polycyclic aromatic hydrocarbon(PAH)metabolites with diverse subtypes of cardiovascular disease(CVD)risk.Methods A novel predicting risk of cardiovascular disease EV...Objective To investigate the association of various polycyclic aromatic hydrocarbon(PAH)metabolites with diverse subtypes of cardiovascular disease(CVD)risk.Methods A novel predicting risk of cardiovascular disease EVENTs PREVENT equation was used to estimate the 10-year diverse subtypes of CVD risk,and their associations with PAH metabolites were analyzed using multiple logistic regression models,the weighted quantile sum(WQS)model,the quantile g-computation(qgcomp)model,and a stratified analysis of subgroups.Results For this study,six thousand seven hundred and forty-five participants were selected,and significant positive associations were observed between PAHs,naphthalene(NAP),and fluorene(FLU),and the risks of total CVD,atherosclerotic cardiovascular disease(ASCVD),and heart failure(HF).NAP and FLU were the primary contributors to the effects of PAH mixtures,and their associations with total CVD,ASCVD,and HF risk were significant in younger participants(30≤age<50 years);however,the associations of phenanthrene(PHEN)with ASCVD,HF,coronary heart disease(CHD),and stroke were dominant in aging participants(age≥50 years).Notably,pyrene(PYR)was negatively associated with the risk of ASCVD,HF,CHD,and stroke.Similarly,negative associations of PYR with the four CVD subtypes were noticeable in aging participants.Conclusion Different PAHs metabolites had different impacts on each CVD subtype among different age groups.Notably,the protective effects of PYR on ASCVD,HF,CHD,and stroke were noticeable in aging individuals.展开更多
Polycyclic aromatic hydrocarbons(PAHs)could be produced during the preparation of biochar,which may pose potential risks to the environment and human health.Existing research mainly focuses on the removal efficiency o...Polycyclic aromatic hydrocarbons(PAHs)could be produced during the preparation of biochar,which may pose potential risks to the environment and human health.Existing research mainly focuses on the removal efficiency of PAHs in biochar using different methods.Still,there are few reports on the removal mechanism of PAHs and the impact of treated biochar on plant growth.This study prepared biochar by pyrolysis of sewage sludge,pig manure,and distillers grains at 300,500,and 600℃,respectively.The prepared biochar was subjected to thermal treatment,water washing treatment,and hydrothermal treatment to investigate the removal mechanism of PAHs in biochar and evaluate its effect on plant growth.The results showed that the removal rates of PAHs in biochar by hydrothermal treatment,thermal treatment,and water washing were 36.79%-86.09%,80.00%-89.90%,and 19.15%-72.40%,respectively.Compared with thermal treatment and water washing treatments,the hydrothermal treatment is more effective.The removal rate of PAHs in sludge biochar with a pyrolysis temperature of 300℃ by hydrothermal treatment reached 86.09%under 80℃ for 2 h.The removal mechanisms of PAHs include weakening hydrophobic interaction and thermal desorption.The germination results indicate that treated biochar reduces malondialdehyde content in mung bean seedlings and increases superoxide dismutase,peroxidase,and catalase activities.Sludge biochar after hydrothermal treatment is more conducive to the growth of mung beans than pristine biochar.This study provides an effective pathway for the safe utilization of biochar.展开更多
High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combu...High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combustion heat can provide more propulsion energy.To reduce the reliance on petroleum source,it is highly desirable to develop renewable alternatives for the production of strained polycyclic HED fuel,but which remains a big challenge because of the inaccessibility caused by the high strain,We herein demonstrate a three-step catalytic route towards highly strained C_(17)and C_(18)spirofuel with biomass feedstocks.The process includes catalytic aldol condensation of renewable cyclohexanone/cyclopentanone with benzaldehyde,catalytic spiro Diels-Alder(D-A)reaction of aldol adduct with isoprene,and catalytic hydrodeoxygenation.The key spiro D-A reaction is enabled by the catalysis of heterogeneous Lewis acidic ionic liquid.The chloroaluminate IL,formed by benign urea and AICl3,exhibits good catalytic performance and reusability for this step.An eventual hydrodeoxygenation(HDO)over Pd/C and H-Y produces strained tricyclic spirofuel with density>0.93 g/mL,combustion heat>41 MJ/L and freezing point<-40℃,which are better than the properties of tactical fuel RJ-4.Therefore,it is anticipated that the as-prepared renewable fuels have the potential to replace traditional petroleum-derived HED fuels.展开更多
Multiple active components in steel slags can optimize soil texture and catalyze the thermal desorption of refractory organic pollutants,especially polycyclic aromatic hydrocarbons(PAHs).In this study,a safety and ris...Multiple active components in steel slags can optimize soil texture and catalyze the thermal desorption of refractory organic pollutants,especially polycyclic aromatic hydrocarbons(PAHs).In this study,a safety and risk assessment was conducted on toxic metals present in collected steel slags,and the refining slag with a high content of free-CaO from the XG iron and steel plant(XGRS)was selected and used to regulate the plasticity index(PI)of clay soils.For the clay soil with high liquid limit and high plasticity(CH),the PI reduced from 34.3%to 24.8%with steel slags at an addition ratio of 10%(mass percent),and for the clay soil with low liquid limit(CL),the PI decreased from 22.8%to 16.5%,resulting in silt soil with optimal thermal properties.The thermal removal efficiency of PAHs in CH decreased from 81.9%to 74.0%at 350℃ as the soil water content increased from 0 to 150 g kg^(-1),due to the hydration and swelling of clay minerals and the heat loss associated with dehydroxylation and dehydration.The efficiency further decreased to 68.7%using 2%(mass percent)CaO as an additive due to the delayed dehydr(oxyl)ation of clay minerals and enhanced aromatization of soil organic matter.In contrast,addition of 2%high-content titania-bearing slag(HTBS)enhanced the removal efficiency of high-ring PAHs,with the efficiency increasing for 5-ring from 52.6%to 59.7%and for 6-ring from 76.6%to 81.8%.This is due to the presence of amorphous TiO_(2) and crystalline CaTiO_(3) in HTBS,which can degrade water to produce reactive oxygen species.The 2%XGRS addition facilitated the complete removal of PAHs by air-supplemented lattice oxygen,leading to the oxidation of C–C bonds in CH to C–O,C=O,and O–C=O functional groups.This study provides valuable insights into the use of additives to enhance the thermal remediation of PAH-contaminated clay soils via activating oxygen species and oxidizing C–C bonds in organo-mineral complexes within clay soils.展开更多
The oversupply of diesel in China necessitates efficient separation of polycyclic aromatic hydrocarbons from fluidized catalytic cracking diesel for value-added utilization.However,purification is hindered by alkane a...The oversupply of diesel in China necessitates efficient separation of polycyclic aromatic hydrocarbons from fluidized catalytic cracking diesel for value-added utilization.However,purification is hindered by alkane and monocyclic aromatic interference.In this work,we propose a solvent-screening strategy for extractive distillation based on molecular polarity and interaction energy analysis.Quantum chemical calculations identified ethylene glycol(aromatic solubility) and N,N-dimethylformamide(alkane selectivity) as optimal solvents,with weak hydrogen bonds(e.g.,O-H…π,C-H…π) governing aromatic interactions.Two process designs were developed:(1) solvent extraction followed by primary extractive distillation(purity >95.0%(mass)) and(2) direct two-stage extractive distillation(purity>92.0%(mass)).This work provides a flexible framework for polycyclic aromatic hydrocarbon separation tailored to market demands while elucidating solvent-solute interactions at the molecular level.展开更多
Atractylodimers A-D(1-4),sesquiterpenoid dimers(SDs)featuring a unique cage-like structure,were isolated from the rhizomes of Atractylodes macrocephala.The most distinctive characteristic of these isolates was the hig...Atractylodimers A-D(1-4),sesquiterpenoid dimers(SDs)featuring a unique cage-like structure,were isolated from the rhizomes of Atractylodes macrocephala.The most distinctive characteristic of these isolates was the highly twisted“cap”structure based on highly twisted five-membered oxygen heterocyclic rings.Notably,compound 1 contained a furo[2,3b]furan ring,a caged 3,10-oxa-tricyclo[5.2.1.04,9]decane moiety,and 6/6/5/5/5/5/6/6 octocyclic skeleton.Compounds 2-3 exhibited a spiro-tetrahydrofuran ring,while compound 4 incorporated a caged spiro-2,5,9-oxa-tricyclo[5.2.1.0^(4,10)]decane scaffold for unit linkage.Their structures were definitively established through spectroscopic methods and X-ray diffraction experiments.Plausible biosynthetic pathways of compounds 1-4 were proposed.Compounds 1 and 2 demonstrated significant neuroprotective effects against serum deprivationinduced PC12 cell damage.展开更多
Anemia is still prevalent among low and middle-income countries,posing serious family and social burdens.However,scarce studies provided evidence for real-world exposure to polycyclic aromatic hydrocarbons(PAHs)and an...Anemia is still prevalent among low and middle-income countries,posing serious family and social burdens.However,scarce studies provided evidence for real-world exposure to polycyclic aromatic hydrocarbons(PAHs)and anemia among pregnant women,as well as involved biological mechanisms.So,we conducted this study including 1717 late pregnant women fromZunyi Birth Cohort and collected urine samples for PAHs metabolites detection.Logistic regression and restricted cubic spline regression were used to examine exposuredisease risks and dose-response relationships.We conducted Bayesian kernel machine regression,weighted quantile sum regression,and quantile g-computation regression to fit the joint impacts of multiple PAHs in the real-world scenario on hypocalcemia and anemia.Results showed single exposure to 2-OHNap,2-OHFlu,9-OHFlu,1-OHPhe,2-OHPhe,3-OHPhe,and 1-OHPyr(all P-trend<0.05)increased the risks of hypocalcemia and anemia.Moreover,PAHs mixture was significantly related to higher risks of hypocalcemia and anemia,with 3-OHPhe and 1-OHPyr identified as their major drivers,respectively.Importantly,hypocalcemia served as a significant biological mechanism responsible for PAHs and anemia.Our findings suggest that individual and joint exposure to PAHs during late pregnancy elevate the anemia risk,and calcium supplementation might be a low-cost intervention target for reducing the PAHs-related impairment on anemia for pregnant women.展开更多
There have been reports of potential health risks for people from hydrophobic organic pollutants,such as polycyclic aromatic hydrocarbons(PAHs),polychlorinated hydrocarbons(PCHs),and organophosphate flame retardants(O...There have been reports of potential health risks for people from hydrophobic organic pollutants,such as polycyclic aromatic hydrocarbons(PAHs),polychlorinated hydrocarbons(PCHs),and organophosphate flame retardants(OPFRs).When a contaminated site is used for residential housing or public utility and recreation areas,the soil-bound organic pollutantsmight pose a threat to human health.In this study,we investigated the contamination profiles and potential risks to human health of 15 PAHs,6 PCHs,and 12 OPFRs in soils from four contaminated sites in China.We used an in vitro method to determine the oral bioaccessibility of soil pollutants.Total PAHswere found at concentrations ranging from26.4 ng/g to 987 ng/g.PCHs(0.27-14.3 ng/g)and OPFRs(6.30-310 ng/g)were detected,but at low levels compared to earlier reports.The levels of PAHs,PCHs,and OPFRs released from contaminated soils into simulated gastrointestinal fluids ranged from 1.74%to 91.0%,2.51%to 39.6%,and 1.37%to 96.9%,respectively.Based on both spiked and unspiked samples,we found that the oral bioaccessibility of pollutantswas correlated with their logKow andmolecularweight,and the total organic carbon content and pH of soils.PAHs in 13 out of 38 contaminated soil samples posed potential high risks to children.When considering oral bioaccessibility,nine soils still posed potential risks,while the risks in the remaining soils became negligible.The contribution of this paper is that it corrects the health risk of soil-bound organic pollutants by detecting bioaccessibility in actual soils from different contaminated sites.展开更多
Green Analytical Chemistry attempts to develop analytical procedures that reduce the environmental impact of the reagents and processes while also ensuring efficiency and cost-effectiveness.This Green Chemistry philos...Green Analytical Chemistry attempts to develop analytical procedures that reduce the environmental impact of the reagents and processes while also ensuring efficiency and cost-effectiveness.This Green Chemistry philosophy impacts the analysis of contaminants in foodstuffs,a global concern due to their harmful effects on human health.Most contaminant extraction methods are based on organic solvents,which are toxic to humans and hazardous to the environment.Thus,using novel green extraction solvents to replace the current ones is a huge challenge.In this sense,Natural Deep Eutectic Solvents(NADESs)are a great alternative.These solvents have been proven to behave similarly to traditional solvents(i.e.,organic solvents and ionic liquids)in extracting and removing different contaminants from food samples.The synthesis of NADESs is simple and involves low-cost,environmentally friendly,and natural-origin constituents.Moreover,NADES-based extraction methods require fewer steps and reduce the risk for workers as milder experimental procedures are needed.Here,we review a critical gap in the literature:the application of NADESs in the extraction of food chemical contaminants.This review is relevant given the frequent combination of NADESs with organic solvents involved in sample preparation,a practice that confuses future users of this methodology and contradicts the basic principles of green chemistry.Following sustainable development objectives,avoiding these inconsistencies,and highlighting ecological methods to control contaminant residues in food samples are necessary.We believe this review will be a starting point for facilitating the implementation and commercialization of 100%green analytical methodologies applied to the food sector.展开更多
Silica(SiO_(2))nanoparticles(nSiO_(2))have attracted considerable attention in agricultural practices.However,their effects on polycyclic aromatic hydrocarbon(PAH)accumulation in plants remain largely unknown.Thus,thi...Silica(SiO_(2))nanoparticles(nSiO_(2))have attracted considerable attention in agricultural practices.However,their effects on polycyclic aromatic hydrocarbon(PAH)accumulation in plants remain largely unknown.Thus,this issue was tracked here with a 30-d pot experiment with foliar spraying of 30 and 100 nm SiO_(2) particles(100 mg L-1,10 mL)on Amaranthus tricolor L.(amaranth).Compared with foliar spraying of ultrapure water(i.e.,the control),foliar spraying of nSiO_(2) increased phenanthrene(PHE)contents in amaranth leaves by 242%±88.4%and 158%±29.6%,respectively,and the increases were significantly higher than that by foliar spraying of 2μm particles(96.0%±29.2%).Metabolomics analysis indicated that compared to nSiO_(2),2μm SiO_(2) significantly boosted oxidative defense in amaranth leaves,enhanced cell membrane fluidity,and upregulated amino acid metabolism,glycolysis,and gluconeogenesis.In addition,the upregulation of discriminating metabolites was the most significant in the 2μm SiO_(2) treatment,followed by the 100 and 30 nm nSiO_(2) treatments.This is mainly because nSiO_(2) promoted amaranth growth and decreased average PHE content per unit biomass,namely dilute effect.Thus,slighter metabolic disturbances were observed in the 30 and 100 nm SiO_(2) treatments compared with the control and 2μm SiO_(2) treatment.This study revealed the possibility of PAH accumulation enhancement in vegetables with foliar spraying of nSiO_(2).The results of this study provide theoretical guidance regarding particle size selection for the safe agricultural application of SiO_(2) in PAH-contaminated areas.展开更多
基金supported by the National Key Research and Development Program of China(No.2019YFC1804202)the National Natural Science Foundation of China(Nos.22020102004 and 22125603)+1 种基金Tianjin Municipal Science and Technology Bureau(No.21JCZDJC00280)the Fundamental Research Funds for the Central Universities,and the Ministry of Education of China(No.T2017002).
文摘Polybrominated biphenyl ethers(PBDEs)and polycyclic aromatic hydrocarbons(PAHs)are commonly detected contaminants at e-waste recycling sites.Against the conventional wisdom that PBDEs and PAHs are highly immobile and persist primarily in shallowsurface soils,increasing evidence shows that these compounds can leach into the groundwater.Herein,we compare the leachabilities of PBDEs vs.PAHs from contaminated soils collected at an e-waste recycling site in Tianjin,China.Considerable amounts of BDE-209(0.3–2 ng/L)and phenanthrene(42–106 ng/L),the most abundant PBDE and PAH at the site,are detected in the effluents of columns packed with contaminated soils,with the specific concentrations varying with hydrodynamic and solution chemistry conditions.Interestingly,the leaching potential of BDE-209 appears to be closely related to the release of colloidal mineral particles,whereas the leachability of phenanthrene correlates well with the concentration of dissolved organic carbon in the effluent,but showing essentially no correlation with the concentration of mineral particles.The surprisingly different trends of the leachability observed between BDE-209 and phenanthrene is counterintuitive,as PBDEs and PAHs often co-exist at e-waste recycling sites(particularly at the sites wherein incineration is being practiced)and share many similarities in terms of physicochemical properties.One possible explanation is that due to its extremely low solubility,BDE-209 predominantly exists in free-phase(i.e.,as solid(nano)particles),whereas the more soluble phenanthrene is mainly sorbed to soil organic matter.Findings in this study underscore the need to better understand the mobility of highly hydrophobic organic contaminants at contaminated sites for improved risk management.
基金supported by the Key Program of National Natural Science Foundation of China(No.82241088)the Natural Science Foundation of Hubei Province(No.2022CFB813).
文摘The associations of polycyclic aromatic hydrocarbon(PAH)exposure with serum uric acid(SUA)or hyperuricemia have been rarely assessed.We aimed to investigate the relationships between urinary PAH metabolites and SUA or hyperuricemia among US adults and to explore the mediating role of systemic inflammation in the associations.A total of 10,307 US adults were conducted to assess the associations of seven urinary hydroxy–PAH with SUA and hyperuricemia and evaluate the role of C-reactive protein(CRP),a biomarker of systemic inflammation,in such associations.Results showed that each 1-unit increase in ln-transformed 2-hydroxynaphthalene(2-OHNa),1-hydroxyphenanthrene(1-OHPh),2&3-hydroxyphenanthrene(2&3-OHPh)and total hydroxyphenanthrene(OHPh)was associated with a 1.68(95%confidence interval(CI):0.19 to 3.17),2.46(0.78 to 4.13),3.34(1.59 to 5.09),and 2.99(1.23 to 4.75)μmol/L increase in SUA,and a 8%(odds ratio(OR):1.08,1.02 to 1.15),9%(OR:1.09,1.02 to 1.18),13%(OR:1.13,1.05 to 1.22),and 12%(OR:1.12,95%CI:1.03,1.21)increase in hyperuricemia,respectively.Co-exposure of seven PAHs was positively associated with SUA and hyperuricemia,with 2&3-OHPh showing the highest weight(components weights:0.83 and 0.78,respectively).The CRP mediated 11.47%and 10.44%of the associations ofΣOHPh and 2&3-OHPh with SUA and mediated 8.60%and 8.62%in associations ofΣOHPh and 2&3-OHPh with hyperuricemia,respectively.In conclusion,internal levels of PAH metabolites were associated with elevated SUA levels and the increased risk of hyperuricemia among US adults,and CRP played a mediating role in the associations.
基金supported by the National Key Research and Development Program of China(No.2019YFC1804501)the National Natural Science Foundation of China(Nos.22036007 and 22122611)+1 种基金the Natural Science Foundation of Shandong Province(No.ZR2020ME228)the Introduction and Cultivation Plan for Young Innovative Talents of Colleges and Universities.
文摘This study investigated environmental distribution and human exposure of polycyclic aromatic hydrocarbons(PAHs)and their derivatives in one Chinese petroleum refinery facility.It was found that,following with high concentrations of 16 EPA PAHs(∑Parent-PAHs)in smelting subarea of studied petroleum refinery facility,total derivatives of PAHs[named as XPAHs,including nitro PAHs(NPAHs),chlorinated PAHs(Cl-PAHs),and brominated PAHs(Br-PAHs)]in gas(mean=1.57×10^(4)ng/m^(3)),total suspended particulate(TSP)(mean=4.33×10^(3) ng/m^(3))and soil(mean=4.37×10^(3) ng/g)in this subarea had 1.76-6.19 times higher levels than those from other subareas of this facility,surrounding residential areas and reference areas,indicating that petroleum refining processes would lead apparent derivation of PAHs.Especially,compared with those in residential and reference areas,gas samples in the petrochemical areas had higher∑NPAH/∑PAHs(mean=2.18),but lower∑Cl-PAH/∑PAHs(mean=1.43×10^(-1))and∑Br-PAH/∑PAHs ratios(mean=7.49×10^(-2)),indicating the richer nitrification of PAHs than chlorination during petrochemical process.The occupational exposure to PAHs and XPAHs in this petroleum refinery facility were 24-343 times higher than non-occupational exposure,and the ILCR(1.04×10^(-4))for petrochemical workers was considered to be potential high risk.Furthermore,one expanded high-resolution screening through GC Orbitrap/MS was performed for soils from petrochemical area,and another 35 PAHs were found,including alkyl-PAHs,phenyl-PAHs and other species,indicat-ing that profiles and risks of PAHs analogs in petrochemical areas deserve further expanded investigation.
基金supported by the National Natural Science Foundation of China(No.42277404)the State Environmental Protection Key Laboratory of Aquatic Ecosystem Health in the Middle and Lower Reaches of Yangtze River(No.AEHKF2023004)+2 种基金the National Key Research and Development Programof China(No.2022YFC3202703)the International Collaboration Program of Chinese Academy of Sciences(Nos.SAJC202403,067GJHZ2023034MI)the Autonomous Deployment Project of Key Laboratory of Lake andWatershed Science for Water Security(No.NKL2023-KP01).
文摘Polycyclic aromatic hydrocarbons(PAHs)are of great concern because they threaten pri-mary productivity,but their specific effects on ecosystem functioning are scarce,hindering a comprehensive understanding of their ecological risks,especially in eutrophicwaters.The present study was conducted by adding PAHs to four marine phytoplankton species and showed that naphthalene(Nap)and phenanthrene(Phe)induced both stimulatory and in-hibitory effects(>50%)on urea and NO_(3)−uptake by phytoplankton species.In addition,the apparent stimulative effects(>50%)for NH_(4)^(+)were also observed.Overall,38.9%of the sam-ples exhibited stimulation effects after 24 h exposure,which increased to 61.1%after 96 h exposure.This suggested the existence of a lag period,during which a tolerant cell popula-tion could adapt to PAHs.Significant positive correlations(P<0.01)between low and high concentrations of PAH individuals demonstrated that the mode of action for both pollutants on nitrogen uptake by phytoplankton was the same.Species-specific responses were also observed,with 19.0%of Thalassiosira sp.and 24.0%of Tetraselmis sp.exhibited inhibition effects greater than 50%,while 40.9%of Karlodinium veneficum and 27.3%of Rhodomonas salina demonstrated stimulation effects exceeding 50%,providing a unique perspective for exploring the harmful algal bloom of the mixotrophic K.veneficum,in addition to the original consideration of nutrients.The internal mechanisms may lie in differences in energy consumption between N-forms,exposure time and chemical concentrations,aswell as mor-phological characteristics and biochemical structures of the species,which require further investigation.
基金financially supported by the National Natural Science Foundation of China(Nos.22176025 and 22136007)the National Key Research and Development Program of China(No.2022YFC3701404)the Petro China Innovation Foundation(No.D2019-5007-0502)。
文摘Rhizoremediation has emerged as a burgeoning approach for the removal of petroleum hydrocarbons(PHCs)from soil,with a primary emphasis on terrestrial plant systems.However,the mechanism of how soil microbiomes influence the dissipation of PHCs within a hygrophyte planting system has yet to be fully elucidated.This work concentrated on the potential evolution of soil microbiomes and their effects on PHC dissipation within the Suaeda salsa(L.)Pall.planting system in a pot experiment.Two representative compounds,polycyclic aromatic hydrocarbons(PAHs)and n-alkanes,were used as target PHCs.The findings revealed a significant efficiency in the dissipation of PHCs in soil with Suaeda salsa cultivation,particularly with respect to n-alkanes.The high dissipation efficiency of PHCs was the synergistic result of root accumulation and microbial biodegradation.The key microbes involved in PHC dissipation were revealed,with the dominant phylum Proteobacteria and genus Salinimicrobium.The alterations in microbial diversity and abundance were closely associated with root exudation and PHC exposure.Significant differences in enzyme activities,an indicator of soil health and fertility,were observed between the rhizospheric and non-rhizospheric soils,which was attributed to root exudation.This study offers novel insights into the phytoremediation potential for Suaeda in PHC-contaminated soils and serves as a valuable scientific reference for the phytoremediation of such soils.
基金the National Natural Science Foundation of China(Nos.22171147 and 21871148)for the financial support。
文摘Polycyclic compounds are widely found in natural products and drug molecules with important biological activities,which attracted the attention of many chemists.Phosphine-catalyzed nucleophilic addition is one of the most powerful tools for the construction of various cyclic compounds with the advantages of atom economy,mild reaction conditions and simplicity of operation.Allenolates,Morita−Baylis−Hillman(MBH)alcohols and their derivatives(MBHADs),electron-deficient olefins and alkynes are very efficient substrates in phosphine mediated annulations,which formed many phosphonium species such asβ-phosphonium enolates,β-phosphonium dienolates and vinyl phosphonium ylides as intermediates.This review describes the reactivities of these phosphonium zwitterions and summarizes the synthesis of polycycle compounds through phosphine-mediated intramolecular and intermolecular sequential annulations.Thus,a systematic summary of the research process based on the phosphine-mediated sequential annulations of allenolates,MBH alcohols and MBHADs,electron-deficient olefins and alkynes are presented in Chapters 2-6,respectively.
基金financially supported by the National Natural Science Foundation of China(Nos.32270413,82060631,82160808,and 82360035)the Science and Technology Department of Guizhou Province(Nos.QKHJC 2020–1Z076,QKHJC-ZK[2023]YB156,QKHJC-ZK[2021]YB569,and QKHPTRC[2020]5008)+4 种基金Excellent Young Talents Plan of Guizhou Medical University(2023,No.106)the 13thbatch of outstanding young scientific and technological talents in Guizhou Province(No.QKHPTRC[2021]5633)Guizhou Science and Technology Innovation Talent Team(No.QKHPTRC–CXTD[2022]007)High-level Innovative Talents in Guizhou Province(Thousand Levels of Talent for Chunmao Yuan in 2018)the project of State Key Laboratory of Functions and Applications of Medicinal Plants,Guizhou Medical University(Nos.FAMP202102K and QJJ[2023]113)。
文摘Hymoins A–C(1–3),three unusual polycyclic polyprenylated acylphloroglucinols(PPAPs)were isolated from the flowers of Hypericum monogynum.Hymoin A features the first intriguing 6/5/5/5/7 pentacyclic caged PPAP.Hymoin B is characterized by an unprecedented rearranged 5/6/8 tricyclic ring system,while hymoin C represents the first rearranged PPAP with a fantastic spirocyclic 5/6/7 ring system.Their structures were established by extensive spectroscopic analysis,X-ray crystallography,and computational methods.The plausible biosynthetic routes for the compounds were also proposed.In oleic acid(OA)-induced HepG2 cells,all compounds exhibited significant lipid-lowering activity at the concentrations of 2–8μmol/L.Further mechanistic study implied that compound 1 exhibited excellent lipid-lowering activity in OA-induced HepG2 cells through inhibiting the proteins of free fatty acids synthesis and improving lipidolysis.
基金supported by the Bilateral Open Partnership Joint Research Projects of the Japan Society for the Promotion of Science,Japan(No.JPJSBP120219914)the CHOZEN Project of Kanazawa University,Japan(2019)the Cooperative Research Programs of Institute of Nature and Environmental Technology,Kanazawa University,Japan(22002,22013,22007)。
文摘Size-fractionated particulate matter(PM_(2.5)and PM>_(2.5))was collected at a traffic site in Kanazawa,Japan in a seasonal sampling work in 2020.Nine polycyclic aromatic hydrocarbons(4-to 6-ring PAHs)were determined in fine and coarse particles.The gas/particle partitioning coefficients(K_(p))of the PAHs were calculated from the supercooled liquid vapour pressure and octanol-air partitioning coefficient based on the relationships obtained in previous traffic pollution-related studies.Gaseous PAHs were estimated by K_(p) and the concentrations of PM and particulate PAHs.The concentrations of total PAHs were 32.5,320.1 and 5646.2 pg/m^(3) in the PM>_(2.5),PM_(2.5) and gas phases,respectively.Significant seasonal trends in PAHs were observed(particle phase:lowest in summer,gas phase:lowest in spring,particle and gas phase:lowest in spring).Compared to 2019,the total PAH concentrations(in particles)decreased in 2020,especially in spring and summer,which might be due to reduced traffic trips during the COVID-19 outbreak.The incremental lifetime cancer risk(ILCR)calculated from the toxic equivalent concentrations relative to benzo[a]pyrene(BaP_(eq))was lower than the acceptable limit issued by the US Environmental Protection Agency,indicating a low cancer risk in long-term exposure to current PAH levels.It is notable that gaseous PAHs considerably contributed to BaP_(eq) and ILCR(over 50%),which highlighted the significance of gaseous PAH monitoring for public health protection.This low-cost estimation method for gaseous PAHs can be expected to reliably and conveniently obtain PAH concentrations as a surrogate for traditional sampling in the future work.
基金supported by the project from the National Natural Science Foundation of China(Grant no.42230411)the Science&Technology Innovation Project of Laoshan Laboratory(Grant no.LSKJ202203206)。
文摘Understanding microbial responses to polycyclic aromatic hydrocarbon(PAH)pollution is crucial for assessing the current status of PAH contamination in polar regions.In this study,intertidal and marine sediments were enriched with a mixture of PAHs(naphthalene,phenanthrene,fluorene,pyrene,and fluoranthene).Isolation of culturable bacteria,high-throughput sequencing,and functional prediction were combined to systematically analyze bacterial structural and predicted functional responses to PAH exposure.High-throughput sequencing results showed that the relative abundance of Proteobacteria was significantly increased after enrichment,and Pseudomonas and Acinetobacter were identified as dominant genera under PAH exposure.These findings were consistent with the 19 potential PAH-degrading strains(mainly Pseudomonas)that were successfully isolated from enrichment cultures.Distinct bacterial taxa between enriched marine and intertidal sediments indicated the existence of distinct PAH-degrading groups.PICRUSt2-based functional predictions suggested higher predicted abundances of PAH-degradation pathways in polar sediments,likely through the preferential degradation of parent PAH compounds in response to elevated concentrations.This study provides valuable data on microbial responses to PAH pollution in polar regions and offers new insights for evaluating ecological hazards induced by PAHs.
基金supported by the Noncommunicable Chronic Diseases-National Science and Technology Major Project(No.2023ZD0513200)the National Natural Science Foundation of China(Nos.82404278 and 82404365)China Postdoctoral Science Foundation(Nos.2023M730317 and 2023T160066).
文摘Previous studies have reported a relationship between exposure to metals and polycyclic aromatic hydrocarbons(PAHs)and blood glucose levels,but whether the mechanisms are mediated by amino acids remains to be elucidated.We conducted a three-wave repeated measurement study involving 201 elderly individuals(aged≥50 years)from five communities in Beijing,China.We simultaneously measured eightmetals in both blood and urine,six monohydroxy PAHs in urine,and 23 amino acids in blood.Linear mixed-effects and sparse partial least squares models were used to evaluate the individual effects,and Bayesian kernel machine regression was employed to mixture effects.Mediation analysis was further used to explore whether amino acids mediators mediate the association.We observed significant associations of selenium and strontium with increased blood glucose.Additionally,blood copper,urinary nickel,as well as urinary 1+9 hydroxyphenanthrene,were associated with irregular blood glucose regulation.Moreover,we found that amino acids such as leucine,proline,and alanine may mediate the associations.This study is the first to investigate the effect of metals and PAHs on blood glucose homeostasis,while also exploring the mediating role of amino acids,offering new insights into the impact of metals and PAHs on blood glucose regulation.
基金the technology projects entrusted by enterprises and institutions(2022KJ000803)the Beijing Natural Science Foundation(No.7242184)the project that Study on the role of ASGR1 in regulating chaperone mediated autophagy involved in methyl tert-butyl ether–induced hepatic lipotoxicity(XSKY2024).
文摘Objective To investigate the association of various polycyclic aromatic hydrocarbon(PAH)metabolites with diverse subtypes of cardiovascular disease(CVD)risk.Methods A novel predicting risk of cardiovascular disease EVENTs PREVENT equation was used to estimate the 10-year diverse subtypes of CVD risk,and their associations with PAH metabolites were analyzed using multiple logistic regression models,the weighted quantile sum(WQS)model,the quantile g-computation(qgcomp)model,and a stratified analysis of subgroups.Results For this study,six thousand seven hundred and forty-five participants were selected,and significant positive associations were observed between PAHs,naphthalene(NAP),and fluorene(FLU),and the risks of total CVD,atherosclerotic cardiovascular disease(ASCVD),and heart failure(HF).NAP and FLU were the primary contributors to the effects of PAH mixtures,and their associations with total CVD,ASCVD,and HF risk were significant in younger participants(30≤age<50 years);however,the associations of phenanthrene(PHEN)with ASCVD,HF,coronary heart disease(CHD),and stroke were dominant in aging participants(age≥50 years).Notably,pyrene(PYR)was negatively associated with the risk of ASCVD,HF,CHD,and stroke.Similarly,negative associations of PYR with the four CVD subtypes were noticeable in aging participants.Conclusion Different PAHs metabolites had different impacts on each CVD subtype among different age groups.Notably,the protective effects of PYR on ASCVD,HF,CHD,and stroke were noticeable in aging individuals.
基金supported by the National Natural Science Foundation of China(No.41977297)the Special Fund for Outstanding Youth Talents of Science and Technology of Guizhou Province(No.YQK[2023]014)+1 种基金the Key Project of Science and Technology Department of Guizhou Province(No.ZK(2022)016)the Foreign Expert Project of the Ministry of Science and Technology(No.Y20240039)。
文摘Polycyclic aromatic hydrocarbons(PAHs)could be produced during the preparation of biochar,which may pose potential risks to the environment and human health.Existing research mainly focuses on the removal efficiency of PAHs in biochar using different methods.Still,there are few reports on the removal mechanism of PAHs and the impact of treated biochar on plant growth.This study prepared biochar by pyrolysis of sewage sludge,pig manure,and distillers grains at 300,500,and 600℃,respectively.The prepared biochar was subjected to thermal treatment,water washing treatment,and hydrothermal treatment to investigate the removal mechanism of PAHs in biochar and evaluate its effect on plant growth.The results showed that the removal rates of PAHs in biochar by hydrothermal treatment,thermal treatment,and water washing were 36.79%-86.09%,80.00%-89.90%,and 19.15%-72.40%,respectively.Compared with thermal treatment and water washing treatments,the hydrothermal treatment is more effective.The removal rate of PAHs in sludge biochar with a pyrolysis temperature of 300℃ by hydrothermal treatment reached 86.09%under 80℃ for 2 h.The removal mechanisms of PAHs include weakening hydrophobic interaction and thermal desorption.The germination results indicate that treated biochar reduces malondialdehyde content in mung bean seedlings and increases superoxide dismutase,peroxidase,and catalase activities.Sludge biochar after hydrothermal treatment is more conducive to the growth of mung beans than pristine biochar.This study provides an effective pathway for the safe utilization of biochar.
基金supported by the Fundamental Research Funds for the Central Universities(2023QN1009)Xuzhou Basic Research Project(KC23018)+1 种基金China University of Mining and Technology(CUMT)Open Sharing Fund for Large-scale Instruments and Equipment(DYGX-2024-34)Priority Academic Program Development of Jiangsu Higher Education Institutions.
文摘High-energy-density(HED)fuel(e.g.widely used JP-10 and RJ-4),featuring compact 3D polycyclic structure with high strain,is of critical importance for volume-limited military aircraft,since their high density and combustion heat can provide more propulsion energy.To reduce the reliance on petroleum source,it is highly desirable to develop renewable alternatives for the production of strained polycyclic HED fuel,but which remains a big challenge because of the inaccessibility caused by the high strain,We herein demonstrate a three-step catalytic route towards highly strained C_(17)and C_(18)spirofuel with biomass feedstocks.The process includes catalytic aldol condensation of renewable cyclohexanone/cyclopentanone with benzaldehyde,catalytic spiro Diels-Alder(D-A)reaction of aldol adduct with isoprene,and catalytic hydrodeoxygenation.The key spiro D-A reaction is enabled by the catalysis of heterogeneous Lewis acidic ionic liquid.The chloroaluminate IL,formed by benign urea and AICl3,exhibits good catalytic performance and reusability for this step.An eventual hydrodeoxygenation(HDO)over Pd/C and H-Y produces strained tricyclic spirofuel with density>0.93 g/mL,combustion heat>41 MJ/L and freezing point<-40℃,which are better than the properties of tactical fuel RJ-4.Therefore,it is anticipated that the as-prepared renewable fuels have the potential to replace traditional petroleum-derived HED fuels.
基金sponsored by the National Key R&D Program of China(No.2018YFC1802101)the National Natural Science Foundation of China(No.52170149)。
文摘Multiple active components in steel slags can optimize soil texture and catalyze the thermal desorption of refractory organic pollutants,especially polycyclic aromatic hydrocarbons(PAHs).In this study,a safety and risk assessment was conducted on toxic metals present in collected steel slags,and the refining slag with a high content of free-CaO from the XG iron and steel plant(XGRS)was selected and used to regulate the plasticity index(PI)of clay soils.For the clay soil with high liquid limit and high plasticity(CH),the PI reduced from 34.3%to 24.8%with steel slags at an addition ratio of 10%(mass percent),and for the clay soil with low liquid limit(CL),the PI decreased from 22.8%to 16.5%,resulting in silt soil with optimal thermal properties.The thermal removal efficiency of PAHs in CH decreased from 81.9%to 74.0%at 350℃ as the soil water content increased from 0 to 150 g kg^(-1),due to the hydration and swelling of clay minerals and the heat loss associated with dehydroxylation and dehydration.The efficiency further decreased to 68.7%using 2%(mass percent)CaO as an additive due to the delayed dehydr(oxyl)ation of clay minerals and enhanced aromatization of soil organic matter.In contrast,addition of 2%high-content titania-bearing slag(HTBS)enhanced the removal efficiency of high-ring PAHs,with the efficiency increasing for 5-ring from 52.6%to 59.7%and for 6-ring from 76.6%to 81.8%.This is due to the presence of amorphous TiO_(2) and crystalline CaTiO_(3) in HTBS,which can degrade water to produce reactive oxygen species.The 2%XGRS addition facilitated the complete removal of PAHs by air-supplemented lattice oxygen,leading to the oxidation of C–C bonds in CH to C–O,C=O,and O–C=O functional groups.This study provides valuable insights into the use of additives to enhance the thermal remediation of PAH-contaminated clay soils via activating oxygen species and oxidizing C–C bonds in organo-mineral complexes within clay soils.
基金supported by the National Natural Science Foundation of China (22021004)。
文摘The oversupply of diesel in China necessitates efficient separation of polycyclic aromatic hydrocarbons from fluidized catalytic cracking diesel for value-added utilization.However,purification is hindered by alkane and monocyclic aromatic interference.In this work,we propose a solvent-screening strategy for extractive distillation based on molecular polarity and interaction energy analysis.Quantum chemical calculations identified ethylene glycol(aromatic solubility) and N,N-dimethylformamide(alkane selectivity) as optimal solvents,with weak hydrogen bonds(e.g.,O-H…π,C-H…π) governing aromatic interactions.Two process designs were developed:(1) solvent extraction followed by primary extractive distillation(purity >95.0%(mass)) and(2) direct two-stage extractive distillation(purity>92.0%(mass)).This work provides a flexible framework for polycyclic aromatic hydrocarbon separation tailored to market demands while elucidating solvent-solute interactions at the molecular level.
基金supported by the CAMS Innovation Fund for Medical Science(No.2023-I2M-006)the National Key R&D Program of China(No.2019YFC1711000)。
文摘Atractylodimers A-D(1-4),sesquiterpenoid dimers(SDs)featuring a unique cage-like structure,were isolated from the rhizomes of Atractylodes macrocephala.The most distinctive characteristic of these isolates was the highly twisted“cap”structure based on highly twisted five-membered oxygen heterocyclic rings.Notably,compound 1 contained a furo[2,3b]furan ring,a caged 3,10-oxa-tricyclo[5.2.1.04,9]decane moiety,and 6/6/5/5/5/5/6/6 octocyclic skeleton.Compounds 2-3 exhibited a spiro-tetrahydrofuran ring,while compound 4 incorporated a caged spiro-2,5,9-oxa-tricyclo[5.2.1.0^(4,10)]decane scaffold for unit linkage.Their structures were definitively established through spectroscopic methods and X-ray diffraction experiments.Plausible biosynthetic pathways of compounds 1-4 were proposed.Compounds 1 and 2 demonstrated significant neuroprotective effects against serum deprivationinduced PC12 cell damage.
基金supported by the Science&Technology Program of Guizhou Province(Nos.QKHPTRC-GCC[2022]039-1,QKHPTRC-CXTD[2022]014,and QKHHBZ[2020]3002)the Scientific Research Programof Guizhou Provincial Department of Education(No.QJJ[2023]019).
文摘Anemia is still prevalent among low and middle-income countries,posing serious family and social burdens.However,scarce studies provided evidence for real-world exposure to polycyclic aromatic hydrocarbons(PAHs)and anemia among pregnant women,as well as involved biological mechanisms.So,we conducted this study including 1717 late pregnant women fromZunyi Birth Cohort and collected urine samples for PAHs metabolites detection.Logistic regression and restricted cubic spline regression were used to examine exposuredisease risks and dose-response relationships.We conducted Bayesian kernel machine regression,weighted quantile sum regression,and quantile g-computation regression to fit the joint impacts of multiple PAHs in the real-world scenario on hypocalcemia and anemia.Results showed single exposure to 2-OHNap,2-OHFlu,9-OHFlu,1-OHPhe,2-OHPhe,3-OHPhe,and 1-OHPyr(all P-trend<0.05)increased the risks of hypocalcemia and anemia.Moreover,PAHs mixture was significantly related to higher risks of hypocalcemia and anemia,with 3-OHPhe and 1-OHPyr identified as their major drivers,respectively.Importantly,hypocalcemia served as a significant biological mechanism responsible for PAHs and anemia.Our findings suggest that individual and joint exposure to PAHs during late pregnancy elevate the anemia risk,and calcium supplementation might be a low-cost intervention target for reducing the PAHs-related impairment on anemia for pregnant women.
基金supported by the National Key Research and Development Program of China(No.2019YFC1804604)Basic and Applied Basic Research Foundation of Guangdong Province(No.2021A1515010018).
文摘There have been reports of potential health risks for people from hydrophobic organic pollutants,such as polycyclic aromatic hydrocarbons(PAHs),polychlorinated hydrocarbons(PCHs),and organophosphate flame retardants(OPFRs).When a contaminated site is used for residential housing or public utility and recreation areas,the soil-bound organic pollutantsmight pose a threat to human health.In this study,we investigated the contamination profiles and potential risks to human health of 15 PAHs,6 PCHs,and 12 OPFRs in soils from four contaminated sites in China.We used an in vitro method to determine the oral bioaccessibility of soil pollutants.Total PAHswere found at concentrations ranging from26.4 ng/g to 987 ng/g.PCHs(0.27-14.3 ng/g)and OPFRs(6.30-310 ng/g)were detected,but at low levels compared to earlier reports.The levels of PAHs,PCHs,and OPFRs released from contaminated soils into simulated gastrointestinal fluids ranged from 1.74%to 91.0%,2.51%to 39.6%,and 1.37%to 96.9%,respectively.Based on both spiked and unspiked samples,we found that the oral bioaccessibility of pollutantswas correlated with their logKow andmolecularweight,and the total organic carbon content and pH of soils.PAHs in 13 out of 38 contaminated soil samples posed potential high risks to children.When considering oral bioaccessibility,nine soils still posed potential risks,while the risks in the remaining soils became negligible.The contribution of this paper is that it corrects the health risk of soil-bound organic pollutants by detecting bioaccessibility in actual soils from different contaminated sites.
基金funded by the Spanish Ministry of Science and Innovation(MICIN,ref.PID2021-127457OB-C21/22)。
文摘Green Analytical Chemistry attempts to develop analytical procedures that reduce the environmental impact of the reagents and processes while also ensuring efficiency and cost-effectiveness.This Green Chemistry philosophy impacts the analysis of contaminants in foodstuffs,a global concern due to their harmful effects on human health.Most contaminant extraction methods are based on organic solvents,which are toxic to humans and hazardous to the environment.Thus,using novel green extraction solvents to replace the current ones is a huge challenge.In this sense,Natural Deep Eutectic Solvents(NADESs)are a great alternative.These solvents have been proven to behave similarly to traditional solvents(i.e.,organic solvents and ionic liquids)in extracting and removing different contaminants from food samples.The synthesis of NADESs is simple and involves low-cost,environmentally friendly,and natural-origin constituents.Moreover,NADES-based extraction methods require fewer steps and reduce the risk for workers as milder experimental procedures are needed.Here,we review a critical gap in the literature:the application of NADESs in the extraction of food chemical contaminants.This review is relevant given the frequent combination of NADESs with organic solvents involved in sample preparation,a practice that confuses future users of this methodology and contradicts the basic principles of green chemistry.Following sustainable development objectives,avoiding these inconsistencies,and highlighting ecological methods to control contaminant residues in food samples are necessary.We believe this review will be a starting point for facilitating the implementation and commercialization of 100%green analytical methodologies applied to the food sector.
基金supported by the StrategicPriority Research Program of the Chinese Academy of Sciences(No.XDA28010501)the National Natural Science Foundation of China(Nos.22176193 and U21A20293)the Science Foundation of the Chinese Academy of Sciences(No.ISSAS2422).
文摘Silica(SiO_(2))nanoparticles(nSiO_(2))have attracted considerable attention in agricultural practices.However,their effects on polycyclic aromatic hydrocarbon(PAH)accumulation in plants remain largely unknown.Thus,this issue was tracked here with a 30-d pot experiment with foliar spraying of 30 and 100 nm SiO_(2) particles(100 mg L-1,10 mL)on Amaranthus tricolor L.(amaranth).Compared with foliar spraying of ultrapure water(i.e.,the control),foliar spraying of nSiO_(2) increased phenanthrene(PHE)contents in amaranth leaves by 242%±88.4%and 158%±29.6%,respectively,and the increases were significantly higher than that by foliar spraying of 2μm particles(96.0%±29.2%).Metabolomics analysis indicated that compared to nSiO_(2),2μm SiO_(2) significantly boosted oxidative defense in amaranth leaves,enhanced cell membrane fluidity,and upregulated amino acid metabolism,glycolysis,and gluconeogenesis.In addition,the upregulation of discriminating metabolites was the most significant in the 2μm SiO_(2) treatment,followed by the 100 and 30 nm nSiO_(2) treatments.This is mainly because nSiO_(2) promoted amaranth growth and decreased average PHE content per unit biomass,namely dilute effect.Thus,slighter metabolic disturbances were observed in the 30 and 100 nm SiO_(2) treatments compared with the control and 2μm SiO_(2) treatment.This study revealed the possibility of PAH accumulation enhancement in vegetables with foliar spraying of nSiO_(2).The results of this study provide theoretical guidance regarding particle size selection for the safe agricultural application of SiO_(2) in PAH-contaminated areas.
