期刊,环境科学与工程前沿 2024年卷5期_国家学术搜索

期刊信息/Journal information

环境科学与工程前沿

高等教育出版社，Springer

主办单位：高等教育出版社，Springer

出版周期：季刊

国际刊号：2095-2201

邮政编码：100029

地　　址：北京市朝阳区惠新东街4号富盛大厦15层

环境科学与工程前沿/Journal Frontiers of Environmental Science & EngineeringCSCDEISCI

查看更多>>内容涵盖环境科学与工程学科的各个分支，所录文章包括综述论文、研究论文、政策分析和学术快讯等，特别注重刊登环境科学与工程发展迅速学科及其与其他学科交叉融合的研究成果。

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Single and combined effects of secondary polyethylene microplastic on the growth of Pak choi and the soil microbiome composition

Jiamin HuZhenwen XieJiane Zuo

1-12页

查看更多>>摘要：It has been confirmed that microplastics(MPs)are present in the environment.This study simulated secondary PE-MPs via aging and mechanical processes to evaluate their effects on Pak choi(Brassica rapa L.)over 21 d.Two common pollutants,dichlorodiphenyltrichloroethane(DDT)and naphthalene,were used in the combined toxicity tests.The results indicated that the growth of Pak choi was significantly inhibited after exposure to secondary PE-MPs,and the combined effects were antagonistic,owing to the adsorption capacity of secondary PE-MPs to DDT and naphthalene.Oxidative stress in Pak choi can be markedly affected,leading to oxidative damage to plant cells.The moisture content,soil bulk density,soil density,cation exchange capacity(CEC),and FDA hydrolase in the planted soils increased in the treated groups,and the TOC content changed significantly.We also found that the microbial composition of the soil in the DDT and naphthalene groups showed more significant alterations than that in the other groups.Alpha diversity analysis showed that species diversity increased in the combined groups but indicated a clear downward trend in the single MPs groups.This study suggests that secondary PE-MPs harm the growth of Pak choi and can change soil properties,revealing the harm to the ecosystem of MPs in the soil.

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万方数据
维普

A benchmark-based method for evaluating hyperparameter optimization techniques of neural networks for surface water quality prediction

Xuan WangYan DongJing YangZhipeng Liu...

13-27页

查看更多>>摘要：Neural networks(NNs)have been used extensively in surface water prediction tasks due to computing algorithm improvements and data accumulation.An essential step in developing an NN is the hyperparameter selection.In practice,it is common to manually determine hyperparameters in the studies of NNs in water resources tasks.This may result in considerable randomness and require significant computation time;therefore,hyperparameter optimization(HPO)is essential.This study adopted five representatives of the HPO techniques in thie surface water quality prediction tasks,including the grid sampling(GS),random search(RS),genetic algorithm(GA),Bayesian optimization(BO)based on the Gaussian process(GP),and the tree Parzen estimator(TPE).For the evaluation of these techniques,this study proposed a method:first,the optimal hyperparameter value sets achieved by GS were regarded as the benchmark;then,the other HPO techniques were evaluated and compared with the benchmark in convergence,optimization orientation,and consistency of the optimized values.The results indicated that the TPE-based BO algorithm was recommended because it yielded stable convergence,reasonable optimization orientation,and the highest consistency rates with the benchmark values.The optimization consistency rates via TPE for the hyperparameters hidden layers,hidden dimension,learning rate,and batch size were 86.7％,73.3％,73.3％,and 80.0％,respectively.Unlike the evaluation of HPO techniques directly based on the prediction performance of the optimized NN in a single HPO test,the proposed benchmark-based HPO evaluation approach is feasible and robust.

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万方数据
维普

Machine learning assisted adsorption performance evaluation of biochar on heavy metal

Qiannan DuanPengwei YanYichen FengQianru Wan...

29-42页

查看更多>>摘要：Heavy metals(HMs)represent pervasive and highly toxic environmental pollutants,known for their long latency periods and high toxicity levels,which pose significant challenges for their removal and degradation.Therefore,the removal of heavy metals from the environment is crucial to ensure the water safety.Biochar materials,known for their intricate pore structures and abundant oxygen-containing functional groups,are frequently harnessed for their effectiveness in mitigating heavy metal contamination.However,conventional tests for optimizing biochar synthesis and assessing their heavy metal adsorption capabilities can be both costly and tedious.To address this challenge,this paper proposes a data-driven machine learning(ML)approach to identify the optimal biochar preparation and adsorption reaction conditions,with the ultimate goal of maximizing their adsorption capacity.By utilizing a data set comprising 476 instances of heavy metal absorption by biochar,seven classical integrated models and one stacking model were trained to rapidly predict the efficiency of heavy metal adsorption by biochar.These predictions were based on diverse physicochemical properties of biochar and the specific adsorption reaction conditions.The results demonstrate that the stacking model,which integrates multiple algorithms,allows for training with fewer samples to achieve higher prediction accuracy and improved generalization ability.

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万方数据
维普

Stabilization/solidification mechanisms of tin tailings and fuming slag-based geopolymers for different heavy metals

Xian ZhouZhengfu ZhangHui Yang

43-55页

查看更多>>摘要：Tin mine tailings(TMT)and fuming slag(FS)contain many heavy metals(As,Cr,Cu,Zn and Mn)that cause severe pollution to the environment.Herein,geopolymers were prepared using TMT,FS and flue gas desulfurization gypsum(FGDG)to immobilize heavy metals,and their compressive strength and heavy metal leaching toxicity were investigated.It was first determined that T4F5(TMT∶FS=4∶5)sample exhibited the highest compressive strength(7.83 MPa).T4F5 achieved 95％immobilization efficiency for As and Cr,and nearly 100％for Cu,Zn and Mn,showing good immobilization performance.A series of characterization analyses showed that heavy metal cations can balance the charge in the geopolymer and replace Al in the geopolymer structure to form covalent bonds.In addition,about 2％-20％of heavy metal Fe was immobilized in hydration products,heavy metal hydroxides and non-bridging Si-O and Al-O coordination with silica-aluminate matrices.AsO33-was oxidized into AsO43-,which may form Ca-As or Fe-As precipitates.Cr2O72-was converted to CrO42-under alkaline environment and then combined with OH to form Cr(OH)3 precipitates.Mn2+may react directly with dissolved silicate to form Mn2SiO4 and also form Mn(OH)2 precipitates.The unstable Mn(OH)2 can be further oxidized to MnO2.The heavy metal cations were immobilized in the silicoaluminate lattice,while the anions tended to form insoluble precipitates.These results may benefit the industry and government for better handling of TMT,FS and solid wastes containing the abovementioned five heavy metals.

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万方数据
维普

Comprehensive insight into the occurrence characteristics,influencing factors and risk assessments of antibiotics in the Chaohu Basin

Shuanggang HuHongzhi ZhangYongjie YangKangping Cui...

57-71页

查看更多>>摘要：The pollution of antibiotics in aquatic environments has received extensive attention.Yet,research on antibiotic contamination in river-lake systems,a significant form of modem aquatic environments,still needs to be explored.This study focuses on the Chaohu Basin(China)investigating the occurrence characteristics,influencing factors,and risk assessments of antibiotics in the river-lake system.The total antibiotic concentrations in the water phase and sediment phase were 3.14-1887.49 ng/L and 0.92-1553.75 ng/g,respectively.Clindamycin was the predominant antibiotic in the water phase,whereas tetracycline prevailed in the sediment phase.Notable differences in concentration and structural composition of antibiotics between the tributaries(river system)and Chaohu Lake were observed,indicating the involvement of various geochemical processes in the attenuation of antibiotics during transport to the receiving lake.Spatial analysis suggested that the western river is the primary source of antibiotics in Chaohu Lake.Controlling nutrient influx in heavily polluted areas is crucial to addressing the escalating issue of antibiotic pollution in the river-lake system.The widespread occurrence of clindamycin in the waters is likely due to wastewater treatment plant discharges,and high-intensity human activities continue to exacerbate antibiotic contamination.Risk assessment indicated that sulfamethoxazole,tetracycline,lincomycin,and clindamycin ranked in the top four with the highest risks to the most sensitive aquatic organisms.Nonetheless,the antibiotics presented no risk to consumer health.This study provides valuable insights for controlling antibiotic pollution in river-lake systems.

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万方数据
维普

Impacts of electrochemical disinfection on the viability and structure of the microbiome in secondary effluent water

Marvin YeungLan TianYuhong LiuHairong Wang...

73-83页

查看更多>>摘要：Electrochemical disinfection(ECD)is a promising disinfection technique for wastewater reclamation;however,the impacts of ECD on the microbiome in secondary effluent wastewater remain unknown.In this study,Propidium monoazide-qPCR(PMA-qPCR)and the plate count method were used to evaluate the inactivation performance,and the PMA-16S rRNA gene sequences of living cells were targeted to study the microbiome.A discrepancy was found between PMA-qPCR and the plate count method in the evaluation of cell count,with increases of 1.5 to 2.2 orders of magnitude in the disinfection rate after 150 s of disinfection.However,the cell count recovered and occasionally exceeded original levels within 3 d after disinfection.Biodiversity was suppressed after ECD,but the microbiome after 150 s disinfection retained a higher level of evenness and stability in the community with a median Shannon index(＞3.7).Pathogenic bacteria remained high in relative abundance even after 150 s of 25 V disinfection,but the biofilm-forming population was effectively suppressed by ECD.The co-occurrence network revealed a centralized and fragile network as disinfection persisted,demonstrating the destabilizing effects of ECD on the microbiome.Functional pathways for cell membrane synthesis and organic compound degradation were enriched after ECD.The reaction of the microbiome after ECD was similar to other disinfection techniques in terms of community structure.

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万方数据
维普

The variation of DOM during long distance water transport by the China South to North Water Diversion Scheme and impact on drinking water treatment

Hankun YangYujuan LiHongyu LiuNigel J.D.Graham...

85-100页

查看更多>>摘要：In this study,samples were taken from three locations,upstream to downstream,along the central route project of the China South to North Water Diversion(SNWD)scheme in summer and winter.These were used to reveal the variations of dissolved organic matter(DOM)during the water transfer process,and the effects of these variations on drinking water treatment and disinfection by-products formation potential(DBPs-FP).The results showed that polysaccharides accumulate in summer and reduce in winter with flow distance,which has an important effect on the overall properties of DOM,as well as on the performance of coagulation,ultrafiltration,and the formation of DBPs.Humic substances,and their hydrophilic content,also increased in summer and decreased in winter with flow distance.In contrast,the concentration of small organic substances(MW ≤ 1000 Da)increased in both summer and winter with flow distance,which affected both nanofiltration(NF)membrane fouling and DBPs-FP.The results provide a usefill case study of spatial and temporal changes in raw water DOM during long distance water transfer and their impact on the treatment and quality of drinking water from the SNWD.

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万方数据
维普

Appraisal of pollution and health risks associated with coal mine contaminated soil using multimodal statistical and Fuzzy-TOPSIS approaches

Sumit KumarSonali BanerjeeSaibal GhoshSantanu Majumder...

101-115页

查看更多>>摘要：The present study assesses the concentration,probabilistic risk,source classification,and dietary risk arising from heavy metal(HMs)pollution in agricultural soils affected by coal mining in eastern part of India.Analyses of soil and rice plant indicated significantly elevated levels of HMs beyond the permissible limit in the contaminated zones(zone 1∶PbSoil∶108.24±72.97,CuSoil∶57.26±23.91,Cdsoil∶8.44±2.76,CrSoil∶180.05±46.90,Nisoil∶70.79±25.06 mg/kg;PbGram∶0.96±0.8,CuGrain 8.6±5.1,CdGrain∶0.65±0.42,CrGrain∶4.78±1.89,NiGrain∶11.74±4.38 mg/kg.zone 2∶PbSoil∶139.56±69.46,Cusoil∶69.89±19.86,Cdsoil∶8.95±2.57,CrSoil∶245.46±70.66,NiSoil∶95.46±22.89 mg/kg;PbGrain∶1.27±0.84,CuGrain∶7.9±4.57,CdGrain∶0.76±0.43,CrGrain∶8.6±1.58,NiGrain∶11.50±2.46 mg/kg)compared to the uncontaminated zone(zone 3).Carcinogenic and non-carcinogenic health risks were computed based on the HMs concentration in the soil and rice grain,with Pb,Cr,and Ni identified as posing a high risk to human health.Monte Carlo simulation,the solubility-free ion activity model(FIAM),and severity adjusted margin of exposure(SAMOE)were employed to predict health risk.FIAM hazard quotient(HQ)values for Ni,Cr,Cd,and Pb were＞1,indicating a significant non-carcinogenic risk.SAMOE(risk thermometer)results for contaminated zones ranged from low to moderate risk(CrSAMOE∶0.05,and NiSAMOE∶0.03).Fuzzy-TOPSIS and variable importance plots(from random forest)showed that Ni and Cr were mostly responsible for the toxicity in the rice plant,respectively.A self-organizing map for source classification revealed common origin for the studied HMs with zone 2 exhibiting the highest contamination.The positive matrix factorization model for the source apportionment identified coal mining and transportation as the predominant sources of HMs.Spatial distribution analysis indicated higher contamination near mining sites as compared to distant sampling sites.Consequently,this study will aid environmental scientists and policymakers controlling HM pollution in agricultural soils near coal mines.

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万方数据
维普

Toward a rapid and convenient nanoplastic quantification method in laboratory-scale study based on fluorescence intensity

Ruiqi YanSen LinQian DingLei Zhang...

117-126页

查看更多>>摘要：The thorough investigation of nanoplastics(NPs)in aqueous environments requires efficient and expeditious quantitative analytical methods that are sensitive to environmentally relevant NP concentrations and convenient to employ.Optical analysis-based quantitative methods have been acknowledged as effective and rapid approaches for quantifying NP concentrations in laboratory-scale studies.Herein,we compared three commonly used optical response indicators,namely fluorescence intensity(FI),ultraviolet absorbance,and turbidity,to assess their performance in quantifying NPs.Furthermore,orthogonal experiments were conducted to evaluate the influence of various water quality parameters on the preferred indicator-based quantification method.The results revealed that FI exhibits the highest correlation coefficient(＞0.99)with NP concentration.Notably,the limit of quantification(LOQ)for various types of NPs is exceptionally low,ranging from 0.0089 to 0.0584 mg/L in ultrapure water,well below environmentally relevant concentrations.Despite variations in water quality parameters such as pH,salinity,suspended solids(SS),and humic acid,a robust relationship between detectable FI and NP concentration was identified.However,an increased matrix,especially SS in water samples,results in an enhanced LOQ for NPs.Nevertheless,the quantitative method remains applicable in real water bodies,especially in drinking water,with NP LOQ as low as 0.0157-0.0711 mg/L.This exceeds the previously reported detectable concentration for 100 nm NPs at 40 μg/mL using surface-enhanced Raman spectroscopy.This study confirms the potential of FI as a reliable indicator for the rapid quantification of NPs in aqueous environments,offering substantial advantages in terms of both convenience and cost-effectiveness.

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万方数据
维普

Highly active copper-intercalated weakly crystallizedδ-Mn02 for low-temperature oxidation of CO in dry and humid air

Hao ZhangHuinan LiPengyi ZhangTingxia Hu...

127-136页

查看更多>>摘要：Copper intercalated bimessite MnO2(δ-MnO2)with weak crystallinity and high specific surface area(421 m2/g)was synthesized by a one-pot redox method and investigated for low-temperature CO oxidation.The molar ratio of Cu/Mn was as high as 0.37,which greatly weakened the Mn-O bond and created a lot of low-temperature active oxygen species.In situ DRIFTS revealed strong bonding of copper ions with CO.As-synthesized MnO2-150Cu achieved 100％conversion of 250 ppm CO in normal air(3.1 ppm H2O)even at-10 ℃ under the weight-hourly space velocity(WHSV)of 150 L/(g·h).In addition,it showed high oxygen storage capacity to oxidize CO in inert atmosphere.Though the concurrent moisture in air significantly inhibited CO adsorption and its conversion at ambient temperature,MnO2-150Cu could stably convert CO in 1.3％moisture air at 70 ℃ owing to its great low-temperature activity and reduced competitive adsorption of water with increased temperature.This study discovers the excellent low-temperature activity of weakly crystallizedδ-MnO2 induced by high content intercalated copper ions.

原文链接:

万方数据