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1. Insights into the dissolution of cellulose in lithium bromide solution

Author

Zhiqiang Pang, Ning Li, Cuihua Dong, Hairui Ji, Yang Liao, Guihua Yang, and Xuejun Pan

Subjects
Cellulose hydrophilicity, Concentrated salt solution, Hydrogen bond, Ion-dipole coordination, Molten salt hydrate, Biochemistry, QD415-436
Abstract

Lithium bromide molten salt hydrate (∼62 wt% aqueous solution of LiBr) can dissolve cellulose, but the cellulose dissolution mechanisms are not fully understood. This study revisited cellulose dissolution in the LiBr solution and aimed to provide new insights into the dissolution mechanisms. The collected evidence suggested that cellulose dissolution in the LiBr solution is primarily attributed to the disruption of intermolecular H-bonds of cellulose by the ion-dipole coordination between hydrated Li+ and cellulose hydroxy. The coordination between Li+ and cellulose was verified by 7Li NMR and simultaneous DSC-TGA analysis. The observations in this study also suggest that polarizable, large-size, and low-electronegativity Br– plays a synergetic and supplementary role in the dissolution of cellulose. In addition, the dissolution of cellulose in the LiBr solution is greatly dependent on dissolution conditions (LiBr concentration, temperature, pH, and cellulose loading) and cellulose properties (particle size and degree of polymerization).

Published
2024
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2. Aqueous amine enables sustainable monosaccharide, monophenol, and pyridine base coproduction in lignocellulosic biorefineries

Author

Li Xu, Meifang Cao, Jiefeng Zhou, Yuxia Pang, Zhixian Li, Dongjie Yang, Shao-Yuan Leu, Hongming Lou, Xuejun Pan, and Xueqing Qiu

Subjects
Science
Abstract

Abstract Thought-out utilization of entire lignocellulose is of great importance to achieving sustainable and cost-effective biorefineries. However, there is a trade-off between efficient carbohydrate utilization and lignin-to-chemical conversion yield. Here, we fractionate corn stover into a carbohydrate fraction with high enzymatic digestibility and reactive lignin with satisfactory catalytic depolymerization activity using a mild high-solid process with aqueous diethylamine (DEA). During the fractionation, in situ amination of lignin achieves extensive delignification, effective lignin stabilization, and dramatically reduced nonproductive adsorption of cellulase on the substrate. Furthermore, by designing a tandem fractionation-hydrogenolysis strategy, the dissolved lignin is depolymerized and aminated simultaneously to co-produce monophenolics and pyridine bases. The process represents the viable scheme of transforming real lignin into pyridine bases in high yield, resulting from the reactions between cleaved lignin side chains and amines. This work opens a promising approach to the efficient valorization of lignocellulose.

Published
2024
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3. Impact of Chemical Oxygen Demand/Total Nitrogen Ratio on Shifting Autotrophic Partial Nitrification to Heterotrophic Nitrification and Aerobic Denitrification in High-Strength Ammonium Wastewater Treatment

Author

Zhenghua Peng, Yongfei Lei, Yousheng Zhan, Benqin Yang, and Xuejun Pan

Subjects
partial nitrification, high-strength ammonium wastewater, COD/N ratio, bacterial community, heterotrophic nitrification and aerobic denitrification, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Partial nitrification (PN) is an effective process for treating high-strength ammonium wastewater with a low COD/N (chemical oxygen demand/total nitrogen) ratio; this is because the cooperative interaction with denitrification or anammox can result in a reduction in aeration costs of approximately 25% and a reduction in the use of organic sources during biological nitrogen removal of 40%. However, the key functional microorganisms in the partial nitrification (PN) process are ammonia-oxidizing bacteria (AOB), which are autotrophic microorganisms that are influenced by carbon sources. Therefore, the COD/N ratio affects the performance of the PN process when treating high-strength ammonium wastewater. In this study, five sequence batch reactors were constructed and operated for 42 days; they were fed with synthetic high-strength ammonium wastewater (500 mg/L) with various COD/N ratios (at 0, 0.5, 1, 2, and 4). The results suggested that the PN process could be accomplished at COD/N ratios of 0 and 0.5, but its performance decreased significantly when the COD/N ratio increased to 1 due to the occurrence of simultaneous nitrification and denitrification. The AOB could not compete with the heterotrophic bacteria; as the COD/N ratios increased, the abundance of Nitrosomonas (a genus of autotrophic AOB) decreased, and it was not detected at COD/N ratios of 2 and 4. Instead, the heterotrophic nitrification and heterotrophic denitrification (HNAD) bacteria appeared, and their relative abundance increased when the COD/N ratios increased from 1 to 4.

Published
2024
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4. Hormesis in the Assessment of Toxicity Assessment by Luminescent Bacterial Methods

Author

Haoyu Si, Guoquan Zhou, Yu Luo, Zhuoxuan Wang, Xuejun Pan, and Guohua Dao

Subjects
luminescent bacterial, hormesis, toxicity assessment, Chemical technology, TP1-1185
Abstract

The threat posed by water pollutants to aquatic ecosystems and human health cannot be overlooked, and the assessment of the toxicity of these contaminants is paramount to understanding their risks and formulating effective control measures. Luminescent bacteria-based assays, as a vital tool in evaluating contaminant toxicity, encounter a challenge in ensuring accuracy due to the phenomenon of “Hormesis” exhibited by pollutants towards biological entities, which may skew toxicity assessments. This study elucidated the specific effects of pollutants on luminescent bacteria at different concentrations, used modeling to characterize the effects and predict their toxicity trends, and explored the applicable concentration ranges for different pollutants. Research revealed that six typical pollutants, namely PAHs, endocrine disruptors, antibiotics, pesticides, heavy metals, and phytosensory substances, could promote the luminescence intensity of luminescent bacteria at low concentrations, and the promotional effect increased and then decreased. However, when the concentration of the substances reached a certain threshold, the effect changed from promotional to inhibitory, and the rate of inhibition was directly proportional to the concentration. The EC50 values of six types of substances to luminescent bacteria is as follows: endocrine disruptors > pesticides > antibiotics > heavy metals > polycyclic aromatic hydrocarbons > chemosensory agents. The effect curves were further fitted using the model to analyze the maximum point of the promotion of luminescence intensity by different substances, the threshold concentration, and the tolerance of luminescent bacteria to different substances. The maximum promotion of bacterial luminescence intensity was 29% for Bisphenol A at 0.005 mg/L and the minimum threshold concentration of chromium was 0.004 mg/L, and the maximum bacterial tolerance to erythromycin is 6.74. In addition, most of the current environmental concentrations had a positive effect on luminescent bacteria and may still be in the range of concentrations that promote luminescence as the substances continue to accumulate. These findings will enhance the accuracy and comprehensiveness of toxicity assessments, thereby facilitating more informed and effective decision-making in the realms of environmental protection and pollution management.

Published
2024
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5. Changes of phenolics contents, antioxidant activities, and enzyme activities in pellicles of Juglans sigillata Dode during fruits development

Author

Chunxiang Li, Binbin Shi, Xue Li, Wen’e Zhang, and Xuejun Pan

Subjects
Juglans sigillata, pellicle, polyphenol, Antioxidant activity, Polyphenol metabolism related enzyme, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Phenolic compounds are important components that affect the taste and health-care function of walnuts. And phenolic compounds in walnut (Juglans sigillata Dode. cv. ‘Qianhe 7’) pellicles at three developmental stages were explored to identify their role. The results showed that the total phenolic content, total flavonoid content, ferric reducing antioxidant power, 2, 2’-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) and 1, 1-diphenyl-2-picrylhydrazyl free radical scavenging activities in pellicles increased gradually during fruits development, and reached the maximum value at maturation period. Syringic acid, gallic acid, catechin, and rutin contents were highly significantly positively correlated with reducing power or highly significantly negatively correlated with IC50 of free radical scavenging activities. Gallic acid and rutin contents were highly significantly positively correlated with phenylalanine ammonia-lyase (PAL) activity. Total phenolic content, syringic acid, catechins, and rutin contents were highly significantly negatively correlated with cinnamate 4-hydroxylase (C4H) and 4-coumarate CoA ligase (4CL) activities. Ferulic acid content was highly significantly positively correlated with polyphenol oxidase (PPO) activity. Overall, PAL, C4H, 4CL and PPO were key enzymes in the metabolism of polyphenols, and they affected the antioxidant capacity of the pellicles by regulating the content of polyphenol during walnut fruit development.

Published
2022
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6. Real-time robust generalized dynamic inversion based optimization control for coupled twin rotor MIMO system

Author

Nadir Abbas, Xuejun Pan, Abdur Raheem, Rabia Shakoor, Zeeshan Ahmad Arfeen, Muhammad Rashid, Farhana Umer, Nouman Safdar, and Xiaodong Liu

Subjects
Medicine, Science
Abstract

Abstract This work is used to design a novel robust optimization control law augmented with Robust Generalized Dynamic Inversion (RGDI) for continuous varying perturbations in the Twin Rotor MIMO System (TRMS). The perturbations like coupling effect, un-known states, gyroscopic disturbance torque, parametric uncertainties and parametric disturbances are considered as unwanted signal which should be optimized by an efficient controller. The variable structured systems like the TRMS (prototype) have great focus due to its high computational cost with a higher order non-linear behavior. The RGDI based controller designed to remove nonlinear dynamics as well as to avoid singularity issue with the augmentation of stability based mathematical operations (lyapunov stability analysis, controllability and observability matrices ) in the presence of considered perturbations during implementation. In this paper, we develop estimation of state deviation calculation between control angles and desired angles known as Euclidean error norm. The next step was to design RGDI based controller [Sliding Mode Control (SMC) and $${H_\infty }$$ H ∞ optimization] to minimize considered perturbations as well as the computational cost. The sharp (rapid) chattering phenomena in RGDI based SMC reduce the actuators performance that goes towards the failure of actuators. While the RGDI based $${H_\infty }$$ H ∞ optimization overcome the computational cost and minimizes $${H_\infty }$$ H ∞ norm that’s guaranteeing the robust stability as well as robust performance. The robustness of the optimization control technique validated by taking its worst case via MATLAB-Simulation. A real-time implementation applied to evaluate the worth of novel dynamic approach.

Published
2022
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7. Identification and Analysis of Protein Family Associated with RNA Interference Pathway in Juglandaceae

Author

Yuanpeng Fang, Jianming Wei, Xin Huang, Yunzhou Li, and Xuejun Pan

Subjects
walnut, rna interference, argonaute (ago), dicer-like (dcl), rna-dependent rna polymerase (rdr), double-stranded rna-binding (drb), evolution, expression characteristics, Biochemistry, QD415-436, Biology (General), QH301-705.5
Abstract

Background: One of the crucial processes for small RNA synthesis and plant disease resistance is RNA interference (RNAi). Dicer-like (DCL), RNA-dependent RNA polymerase (RDR), double-stranded RNA binding (DRB), and Argonaute are important proteins implicated in RNAi (AGO). Numerous significant woody plants belong to the Juglandaceae; walnut is one of the four groups of woody plants on earth and one of the four groups of dried fruits. Methods: In order to correlate walnuts and their homologues, this work integrated numerous web resources from structural analysis and transcriptome data collected from gene families in order to elucidate the evolution and functional differentiation of RNA-related proteins in the walnut (Juglans rega) genome. Results: 5 DCL genes, 13 RDR genes, 15 DRB genes, and 15 AGO genes are found in the walnut genome and encode conserved protein domains and motifs with similar subcellular distribution.There are three classes and seven subclasses of walnut AGO proteins. RDRS are primarily split into four categories, whereas DRBs can be divided into six. DCLs are separated into four groups. The walnut RDR1 copy number of 9 is the exception, with 7 of those copies being dispersed in clusters on chromosome 16. Proteins are susceptible to various levels of purification selection, but in walnut, purification selection drives gene creation. These findings also indicated some resemblance in other plants belonging to the walnut family. Under various tissues and stresses, many RNA-related genes in walnut produced abundant, selective expression. Conclusions: In this study, the genome of the Juglandaceae’s DCL, RDR, DRB, and AGO gene families were discovered and analysed for the first time. The evolution, structure, and expression characteristics of these families were also preliminary studied, offering a foundation for the development and breeding of the walnut RNAi pathway.

Published
2023
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8. Plant growth, antioxidative enzyme, and cadmium tolerance responses to cadmium stress in Canna orchioides

Author

Wen'e Zhang, Xuejun Pan, Qian Zhao, and Ting Zhao

Subjects
Canna orchioides, Cadmium tolerance, Antioxidant, Phytoremediation translocation, Plant culture, SB1-1110
Abstract

The cadmium tolerance capacity of Canna orchioides was evaluated using glasshouse experiment to lay a theoretical foundation to broad applications of this species in cadmium (Cd) polluted areas. The plant growth, Cd absorption, and antioxidative enzyme activities of canna plants treated with different Cd concentrations (0, 100, and 200 mg · kg−1 per dry soil) for 30 days were investigated. The results indicated that the growth of roots, leaves and stems was restricted following Cd addition. The bio-concentration factor was the highest in the roots, followed by the leaves, rhizomes, and stems. Compared with the control, the translocation factor decreased sharply after 100 mg · kg−1 or 200 mg · kg−1 Cd treatment, whereas the tolerance index decreased significantly under 200 mg · kg−1 Cd exposure. The Cd accumulation rate and total Cd accumulation significantly increased under 200 mg · kg−1 Cd treatment than the control. The malondialdehyde content remained unchanged at different Cd concentrations, while the relative electrical conductivity of the root increased significantly following 200 mg · kg−1 Cd treatment. Cd stress increased significantly the activity of superoxide dismutase (SOD), peroxidase (POD), and ascorbate peroxidase (APX) in the leaves, whereas only SOD was raised in the roots. The catalase (CAT) and POD activity in the roots did not differ significantly at different Cd concentrations. Conversely, APX in the roots decreased significantly under Cd stress, which suggests that the protective mechanisms in the leaves differ from those in the roots. These results indicated that C. orchioides has a high tolerance for Cd. Furthermore, the reactive oxygen species caused by Cd stress could be effectively scavenged by the antioxidative system. The present study proved that C. orchioides constitutes a promising ornamental plant for use in the restoration of areas contaminated with Cd.

Published
2021
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9. A Text-Granulation Clustering Approach With Semantics for E-Commerce Intelligent Storage Allocation

Author

Qi Lang, Xuejun Pan, and Xiaodong Liu

Subjects
Granular computing, EI algebra, text clustering, warehouse management system, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

With the hot rise and increasing popularity of e-commerce and online shopping, exponentially growing orders require to be picked up timely. In the order-based warehouse picking process, more intelligent optimization methods are urgently demanded to meet the maturity of robot technology. Due to the wide variety of SKUs (stock-keeping units) in warehouses, direct analysis based on orders can hardly get strong correlations among SKUs. Since orders and SKUs usually are presented in text form files, this paper proposes a clustering optimization algorithm based on text information granules which makes full use of context information and semantics. Storage assignment is determined by clustering SKUs first and then performing correlation analysis on the clustering results according to orders. The algorithm can give the semantic description of each cluster so that the clustering process is interpretable and transparent. Extensive experiments on a distribution center of a clothing production enterprise indicate 40.5 to 57.9% improvement in the average order picking distance compared with the ABC classification.

Published
2020
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10. Draft Genome and Biological Characteristics of Fusarium solani and Fusarium oxysporum Causing Black Rot in Gastrodia elata

Author

Jinshao Li, Ke He, Qian Zhang, Xiaoyi Wu, Zhong Li, Xuejun Pan, Yong Wang, Cheng Li, and Manman Zhang

Subjects
Gastrodia elata brown rot, Fusarium oxysporum, Fusarium solani, biological characteristics, whole-genome sequencing, comparative genomics, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Gastrodia elata is a valuable traditional Chinese medicinal plant. However, G. elata crops are affected by major diseases, such as brown rot. Previous studies have shown that brown rot is caused by Fusarium oxysporum and F. solani. To further understand the disease, we studied the biological and genome characteristics of these pathogenic fungi. Here, we found that the optimum growth temperature and pH of F. oxysporum (strain QK8) and F. solani (strain SX13) were 28 °C and pH 7, and 30 °C and pH 9, respectively. An indoor virulence test showed that oxime tebuconazole, tebuconazole, and tetramycin had significant bacteriostatic effects on the two Fusarium species. The genomes of QK8 and SX13 were assembled, and it was found that there was a certain gap in the size of the two fungi. The size of strain QK8 was 51,204,719 bp and that of strain SX13 was 55,171,989 bp. Afterwards, through phylogenetic analysis, it was found that strain QK8 was closely related to F. oxysporum, while strain SX13 was closely related to F. solani. Compared with the published whole-genome data for these two Fusarium strains, the genome information obtained here is more complete; the assembly and splicing reach the chromosome level. The biological characteristics and genomic information we provide here lay the foundation for further research on G. elata brown rot.

Published
2023
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11. Naringenin and Quercetin Exert Contradictory Cytoprotective and Cytotoxic Effects on Tamoxifen-Induced Apoptosis in HepG2 Cells

Author

Zhixiang Xu, Yue Jia, Jun Liu, Xiaomin Ren, Xiaoxia Yang, Xueshan Xia, and Xuejun Pan

Subjects
hepatotoxicity, double dose-response, tamoxifen, naringenin, quercetin, apoptosis, Nutrition. Foods and food supply, TX341-641
Abstract

Tamoxifen is commonly used to treat estrogen receptor-positive breast cancer and hepatocellular carcinoma. Phytoconstituents are considered candidates for chemopreventive drugs in cancer treatment. However, it remains unknown what would happen if tamoxifen and phytoconstituents were administrated simultaneously. We aimed to observe the synergistic antitumor effects of tamoxifen and naringenin/quercetin on human hepatic carcinoma and to explore the potential underlying molecular mechanisms. The HepG2 cell line was used as an in vitro model. Cell proliferation, invasion, migration, cycle progression and apoptosis were investigated along with reactive oxygen species (ROS) production and mitochondrial membrane potential (ΔΨm) repression. The signaling pathways involved were identified using real-time quantitative polymerase chain reaction analysis. As the results show, tamoxifen in combination with higher concentrations of naringenin or quercetin significantly inhibited cell growth compared to either agent alone. These antiproliferative effects were accompanied by the inhibition of cell migration and invasion but the stimulation of cell apoptosis and loss of ΔΨm, which depended on the ROS-regulated p53 signaling cascades. Conversely, lower concentrations of naringenin and quercetin inhibited the tamoxifen-induced cell antiproliferative effects by regulating cell migration, invasion, cycle and apoptosis. Taken together, our findings revealed that phytoconstituents exerted contradictory cytoprotective and cytotoxic effects induced by tamoxifen in human hepatic cancer.

Published
2022
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12. Genome-Wide Identification, Expression and Interaction Analysis of GmSnRK2 and Type A PP2C Genes in Response to Abscisic Acid Treatment and Drought Stress in Soybean Plant

Author

Xinjie Shen, Hong Nan, Yuzhuang Jiang, Yujia Zhou, and Xuejun Pan

Subjects
soybean, SnRK2, PP2C-A, abscisic acid, drought stress, protein interaction, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

As a typical ancient tetraploid, soybean (Glycine max) is an important oil crop species and plays a crucial role in supplying edible oil, plant protein and animal fodder worldwide. As global warming intensifies, the yield of soybean in the field is often strongly restricted by drought stress. SNF1-related protein kinase 2 (SnRK2) and type A protein phosphatase 2C (PP2C-A) family members are core components of the abscisic acid (ABA) signal transduction pathway in plants and have been suggested to play important roles in increasing plant tolerance to drought stress, but genetic information supporting this idea is still lacking in soybean. Here, we cloned the GmSnRK2s and GmPP2C-A family genes from the reference genome of Williams 82 soybean. The results showed that the expression patterns of GmSnRK2s and GmPP2C-As are spatiotemporally distinct. The expression of GmSnRK2s in response to ABA and drought signals is not strictly the same as that of Arabidopsis SnRK2 homologous genes. Moreover, our results indicated that the duplicate pairs of GmSnRK2s and GmPP2C-As have similar expression patterns, cis-elements and relationships. GmSnRK2.2 may have a distinct function in the drought-mediated ABA signaling pathway. Furthermore, the results of yeast two-hybrid (Y2H) assays between GmSnRK2s and GmPP2C-As revealed that GmSnRK2.17, GmSnRK2.18, GmSnRK2.22, GmPP2C5, GmPP2C7, GmPP2C10 and GmPP2C17 may play central roles in the crosstalk among ABA signals in response to drought stress. Furthermore, GmPP2C-As and GmSnRKs were targeted by miRNA and validated by degradome sequencing, which may play multiple roles in the crosstalk between ABA and drought signals and other stress signals. Taken together, these results indicate that GmSnRK2s and GmPP2C-As may play a variety of roles in the drought-mediated ABA signaling pathway.

Published
2022
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13. Effect of Melatonin on Fruit Quality via Decay Inhibition and Enhancement of Antioxidative Enzyme Activities and Genes Expression of Two Mango Cultivars during Cold Storage

Author

Alagie Njie, Wen’e Zhang, Xiaoqing Dong, Chengyu Lu, Xuejun Pan, and Qingguo Liu

Subjects
mango fruit, melatonin treatment, cold storage, decay, physiological and metabolic processes, Chemical technology, TP1-1185
Abstract

The postharvest deterioration of mango fruits is a critical issue limiting mango storage and preservation due to its climacteric nature. This study evaluated the storage behavior of two mango cultivars and their response to exogenous melatonin (MT, 1000 μmol L−1) treatment in attenuating fruit decay and enhancing fruits’ physiological and metabolic processes and gene relative expression subjected to cold storage. MT treatment in both mango cultivars significantly delayed weight loss, firmness, respiration rate, and decay incidence. However, MT did not influence the TSS, TA, and TSS:TA ratio regardless of the cultivar. Moreover, MT inhibited the decrease in total phenol and flavonoid content and AsA content while delaying the increase in the MDA content of mango during storage in both cultivars. In addition, MT dramatically inhibited the enzyme activity of PPO. In contrast, an increase in the activities of antioxidant enzymes (SOD and APX) and PAL and their genes’ relative expression was noticed in MT-treated fruits versus control in both cultivars. However, MT treatment was cultivar dependent in most parameters under study. These results demonstrated that MT treatment could be an essential postharvest treatment in minimizing decay, maintaining fruit quality, and extending mango fruits’ postharvest shelf life by enhancing the physiological and metabolic processes during cold storage.

Published
2022
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14. Enhancing the Nutritional and Functional Properties of Auricularia auricula through the Exploitation of Walnut Branch Waste

Author

Zhenkun Hao, Wen’e Zhang, Fenghua Tian, Rong Wei, and Xuejun Pan

Subjects
walnut sawdust, black agaric, growth rate, substitute substrate, extracellular enzyme activity, comprehensive evaluation, Chemical technology, TP1-1185
Abstract

As the third most edible fungus in the world, Auricularia auricular needs a lot of sawdust for cultivation; thus, it is a win–win method to develop waste wood sawdust suitable for black agaric cultivation. This study evaluated the growth, agronomic characters and nutritional quality of A. auricula cultured on different ratios of miscellaneous sawdust and walnut waste wood sawdust, and comprehensively analyzed the feasibility of cultivating black agaric with walnut sawdust using principal component method (PCA). The results showed that the macro mineral elements and phenolic substances in walnut sawdust were significantly higher than those of miscellaneous sawdust by 18.32–89.00%. The overall activity of extracellular enzymes reached the highest when the ratio of the substrate was 0:4 (miscellaneous sawdust: walnut sawdust). The mycelia of 1:3 substrates grew well and fast. In addition, the growth cycle for A. auricula was significantly lower for 0:4 (116 d) than for 4:0 (126 d). Then, the single bag yield and biological efficiency (BE) were highest at 1:3. Moreover, the nutrients and mineral elements of A. auricula cultivated in walnut sawdust were significantly higher than that of miscellaneous sawdust, expect for total sugar and protein, and the highest overall value was found at 1:3. Finally, the results of comprehensive evaluation by PCA showed that the D value was the highest when the substrate was 1:3 and the lowest when the substrate was 4:0. Therefore, the substrate ratio of 1:3 was the most suitable for the growth of A. auricula. In this study, the high yield and quality of A. auricula were cultivated by waste walnut sawdust, which provided a new way to utilize walnut sawdust.

Published
2022
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15. Estimation of Chlorophyll-A Concentration with Remotely Sensed Data for the Nine Plateau Lakes in Yunnan Province

Author

Dong Wang, Bo-Hui Tang, Zhitao Fu, Liang Huang, Menghua Li, Guokun Chen, and Xuejun Pan

Subjects
chlorophyll-a, Landsat-8, plateau lakes, Sentinel-2, surface temperature, Science
Abstract

The quantitative retrieval of the chlorophyll-a concentration is an important remote sensing method that is used to monitor the nutritional status of water bodies. The high spatial resolution of the Sentinel-2 MSI and its subdivision in the red-edge band highlight the characteristics of water chlorophyll-a, which is an important detection tool for assessing water quality parameters in plateau lakes. In this study, the Nine Plateau Lakes in the Yunnan-Kweichow Plateau of China were selected as the study area. Using Sentinel-2 MSI transit images and in situ measured chlorophyll-a concentration as the data source, the chlorophyll-a concentrations of plateau lakes (CCAPLs) were investigated, and the surface temperatures of plateau lakes (STPLs) were retrieved to verify the hypothesis that the lake surface temperature could increase the chlorophyll-a concentration. By comparing feature importance using a random forest (RF), the Sentinel-2 MSI surface reflectance and in situ data were linearly fitted using four retrieval spectral indices with high feature importance, and the accuracy of the estimated concentration of chlorophyll-a was evaluated by monitoring station data in the same period. Then, Landsat-8 TIRS Band 10 data were used to retrieve the STPL with a single-channel temperature retrieval algorithm and to verify the correlation between the STPL and the CCAPL. The results showed that the retrievals of the CCAPL and the STPL were consistent with the actual situation. The root-mean-square error (RMSE) of the fifteenth normalized difference chlorophyll-a index (NDCI15) was 0.0249. When the CCAPL was greater than 0.05 mg/L and the STPL was within 28–34 °C, there was a positive linear correlation between the CCAPL and the STPL. These results will provide support for the remote sensing monitoring of eutrophication in plateau lakes and will contribute to the scientific and effective management of plateau lakes.

Published
2022
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16. Further Stability Analysis of Generalized Neural Networks With Time-Varying Delays Based on a Novel Lyapunov-Krasovskii Functional

Author

Bin Yang, Junjun Cao, Mengnan Hao, and Xuejun Pan

Subjects
Generalized neural networks, Lyapunov-Krasovskii functional, stability, time-varying delays, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

This paper focuses on the stability analysis of generalized neural networks with time-varying delays. First, a novel augmented Lyapunov-Krasovskii functional (LKF) is constructed by introducing a couple of integral vectors. Second, by utilizing the novel augmented LKF and a generalized free-weighting-matrix integral inequality, two further stability criteria are presented in this paper. Third, a less conservative stability condition by refining the allowable delay set is introduced. Finally, the four well-known numerical examples are given to demonstrate the effectiveness and improvements of the proposed methods.

Published
2019
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17. Growth, Gas Exchange, and Boron Distribution Characteristics in Two Grape Species Plants under Boron Deficiency Condition

Author

Rong Wei, Mei Huang, Dong Huang, Jinzhong Zhou, Xuejun Pan, and Wen’e Zhang

Subjects
boron deficiency, Vitis, growth, photosynthesis, tolerance, Plant culture, SB1-1110
Abstract

The boron (B) deficiency tolerance capacity of two grape materials, ‘Xishui-4’ (Vitis flexuosa) and ‘Crystal’ (V. vinifera × V. labrusca), were evaluated using a potted experiment in order to identify the B-use efficiency of grape and screen B-efficient grape resources. The sterile lines of two genotypes of grape were used as test materials, and a large number of test-tube seedlings were obtained through rapid propagation. The test-tube seedlings were acclimatization and transplanted, and the tested seedlings were treated with B stress after survival. In this experiment, the materials were cultured in nutrient solution, which contained 0.00 (B0), 0.25 (B1), and 0.50 (control) mg·L−1 B concentrations, and the two genotypes of grape seedlings were cultured in vitro. The results were counted after 60 days of culture. The results showed that the B deficiency significantly reduced the growth parameters such as plant height, leaf area, total root length, and dry biomass of the two genotypes, and the inhibition of ‘Crystal’ growth parameters was greater than that of ‘Xishui-4’. Moreover, the B deficiency also affected photosynthesis of the two genotypes, such as decreased leaf photosynthetic pigments, net photosynthesis rate, transpiration rate, stomatal conductance, intercellular carbon dioxide concentration, and stomatal density. Interestingly, the decrease ranges of ‘Crystal’ were greater than those of ‘Xishui-4’, indicating that ‘Crystal’ photosynthesis was more susceptible to B deficiency. Under the control condition, the concentration and accumulation of B in ‘Crystal’ were significantly higher than those in ‘Xishui-4’. However, under the condition of B deficiency, the B concentration, accumulation amount, accumulation rate, utilization index, and tolerance index of ‘Xishui-4’ were higher than those of ‘Crystal’, and the B transport capacity of ‘Xishui-4’ was more stable, indicating that ‘Xishui-4’ had a better tolerance against B-deficient stress than ‘Crystal’ did. Therefore, ‘Xishui-4’ is a plant with strong adaptability to B deficiency stress, which can be used as B efficient grape resources and a genetic improvement of B efficient grape.

Published
2022
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18. Removal of toxic metals from aqueous solution by biochars derived from long-root Eichhornia crassipes

Author

Qiang Li, Lizhou Tang, Jiang Hu, Ming Jiang, Xiaodong Shi, Tianxi Zhang, Yuan Li, and Xuejun Pan

Subjects
toxic metal, biochar, long-root eichhornia crassipes, adsorption, Science
Abstract

Biochars were produced from long-root Eichhornia crassipes at four temperatures: 200, 300, 400 and 500°C, referred to as LEC200, LEC300, LEC400 and LEC500, respectively. The sorption ability of lead, zinc, copper and cadmium from aqueous solutions by four kinds of biochars was investigated. All the biochars had lower values of CEC and higher values of pH. LEC500 was the best one to bind toxic metals which can be reflected in the results of SEM, BET and elemental analyser. It was also found that alkyl, carboxyl, phosphate and cyano groups in the biochars can play a role in binding metals. In addition, the sorption processes of four metals by the biochars in different metal concentration were all excellently represented by the pseudo-second-order model with all correlation coefficients R2 > 0.95. And the sorption processes of four metals in different temperatures could be described satisfactorily by the Langmuir isotherms. According to calculated results by the Langmuir equation, the maximum removal capacities of Pb(II), Zn(II), Cu(II) and Cd(II) at 298 K were 39.09 mg g−1, 45.40 mg g−1, 48.20 mg g−1 and 44.04 mg g−1, respectively. The positive value of the ΔH0 confirmed the adsorption process was endothermic and the negative value of ΔG0 confirmed the adsorption process was spontaneous. The sorption capacities were compared with several other lignocellulosic materials which implied the potential of long-root Eichhornia crassipes waste as an economic and excellent biosorbent for eliminating metal ions from contaminated waters.

Published
2018
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19. Distinct Network Interactions in Particle-Associated and Free-Living Bacterial Communities during a Microcystis aeruginosa Bloom in a Plateau Lake

Author

Caiyun Yang, Qi Wang, Paulina N. Simon, Jinyu Liu, Lincong Liu, Xianzhu Dai, Xiaohui Zhang, Jialiang Kuang, Yasuo Igarashi, Xuejun Pan, and Feng Luo

Subjects
bloom, Microcystis aeruginosa, particle-associated bacteria (PAB), free-living bacteria (FLB), microbial interaction network, Microbiology, QR1-502
Abstract

Particle-associated bacteria (PAB) and free-living bacteria (FLB) from aquatic environments during phytoplankton blooms differ in their physical distance from algae. Both the interactions within PAB and FLB community fractions and their relationship with the surrounding environmental properties are largely unknown. Here, by using high-throughput sequencing and network-based analyses, we compared the community and network characteristics of PAB and FLB from a plateau lake during a Microcystis aeruginosa bloom. Results showed that PAB and FLB differed significantly in diversity, structure and microbial connecting network. PAB communities were characterized by highly similar bacterial community structure in different sites, tighter network connections, important topological roles for the bloom-causing M. aeruginosa and Alphaproteobacteria, especially for the potentially nitrogen-fixing (Pleomorphomonas) and algicidal bacteria (Brevundimonas sp.). FLB communities were sensitive to the detected environmental factors and were characterized by significantly higher bacterial diversity, less connectivity, larger network size and marginal role of M. aeruginosa. In both networks, covariation among bacterial taxa was extensive (>88% positive connections), and bacteria potentially affiliated with biogeochemical cycling of nitrogen (i.e., denitrification, nitrogen-fixation and nitrite-oxidization) were important in occupying module hubs, such as Meganema, Pleomorphomonas, and Nitrospira. These findings highlight the importance of considering microbial network interactions for the understanding of blooms.

Published
2017
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20. Occurrence, removal and bioaccumulation of steroid estrogens in Dianchi Lake catchment, China

Author

Bin Huang, Bin Wang, Dong Ren, Wei Jin, Jingliang Liu, Jinhui Peng, and Xuejun Pan

Subjects
Environmental sciences, GE1-350
Abstract

The occurrence, removal and bioaccumulation of steroid estrogens such as the natural estrone (E1), 17β-estradiol (E2) and estriol (E3), as well as the synthetic 17α-ethynylestradiol (EE2) were investigated in Dianchi Lake catchment, China. The results show that traditional secondary treatment processes in eight sewage treatment plants (STPs) of Kunming were not efficient enough to completely remove steroid estrogens, but ultraviolet (UV) photodegradation in advanced treatment displayed more effectively for the removal of the residual compounds. The amount of total steroid estrogens (∑SEs) discharged to Dianchi Lake catchment by the eight STPs was 35.8 g/day, in which STP-3 was the dominant source, accounting for 50.8%. Because of the pollution input from treated and untreated sewages, estrogens were widely detected in surface water and sediment samples collected from 21 inflow rivers of Dianchi Lake, 10 National Surface Water Quality Monitoring Sites of the lake itself and its unique outflow river, with the mean concentration of ∑SEs in the range of 5.3–798.2 ng/L (water) and 3.7–202.4 ng/g (dry weight, sediment), 1.5–39.2 ng/L (water) and 2.7–20.9 ng/g (sediment), and 4.2 ng/L (water) and 6.6 ng/g (sediment), respectively. Due to the continuous input of estrogens to Dianchi Lake from STPs and inflow rivers, present estrogen levels in various tissues of wild fish species sampled from the lake (2013) were higher than the values detected in the previous years (2009 and 2010). The bioaccumulation of steroid estrogens in wild fish species from different sampling sites was in the order of STP-5 > Dianchi Lake (2013) > Dianchi Lake (2010) ≈ Dianchi Lake (2009) ≫ field control > laboratory control, which is mainly affected by exposure concentrations. By employing risk quotient (RQ), it is found that eco-toxicological risk of steroid estrogens in Dianchi Lake catchment was in a sequence of 22 rivers > effluents of eight STPs > Dianchi Lake (2013) > Dianchi Lake (2010), and high RQs were found in EE2, which should be controlled preferentially in this catchment. Keywords: Steroid estrogen, Occurrence, Removal, Bioaccumulation, Environmental implication, Dianchi Lake

Published
2013
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21. ETHANOL ORGANOSOLV PRETREATMENT OF BAMBOO FOR EFFICIENT ENZYMATIC SACCHARIFICATION

Author

Zhiqiang Li,, Benhua Fei,, Zehui Jiang,, Xuejun Pan,, Zhiyong Cai,, Xing'e Liu,, and Yan Yu

Subjects
Bamboo, Bioethanol, Ethanol organosolv pretreatment, Dilute acid, Biotechnology, TP248.13-248.65
Abstract

Bamboo is a potential lignocellulosic biomass for the production of bioethanol because of its high cellulose and hemicelluloses content. In this research, ethanol organosolv pretreatment with dilute sulfuric acid as the catalyst was studied in order to enhance enzymatic saccharification of moso bamboo. The addition of 2% (w/w bamboo) dilute sulfuric acid in 75% ethanol had a particularly strong effect on fractionation of bamboo. It yielded a solids fraction containing 83.4% cellulose in the treated substrate. The cellulose conversion to glucose yield reached 77.1 to 83.4% after enzymatic hydrolysis of the solids fraction for 48 h at an enzyme loading of 15 FPU cellulase/g cellulose and 30 IU β-glucosidase/g cellulose. The enzymatic hydrolysis rate was significantly accelerated as the ethanol organosolv pretreatment time increased, reaching the highest enzymatic glucose yield of 83.4% after 48 h at 50 °C. The concentrations of fermentation inhibitors such as HMF (5-hydroxy-2-methyl furfural) and furfural were 0.96 g/L and 4.38 g/L in the spent liquor after the ethanol organosolv pretreatment, which were slightly lower than the concentrations quantified during H2SO4-water treatment. Spent liquor was diluted with water, and more than 87.2% of lignin in raw bamboo was recovered as ethanol organosolv lignin through the filtration process.

Published
2012

22. Preparation and Characterization of Regenerated Cellulose Film from a Solution in Lithium Bromide Molten Salt Hydrate

Author

Xueqin Zhang, Naiyu Xiao, Huihui Wang, Chuanfu Liu, and Xuejun Pan

Subjects
inorganic ionic liquid, kraft pulp, non-derivatizing dissolution, packaging film, Organic chemistry, QD241-441
Abstract

In this study, the molten salt hydrate of lithium bromide (LiBr) was utilized as a non-derivatizing cellulose dissolution solvent to prepare regenerated cellulose films for kraft pulp. The effects of LiBr concentrations (60, 62, and 65 wt %) and dissolving time (from 5 to 40 min with the interval of 5 min) on the structures and the properties of the films were investigated. Fourier transform infrared (FT-IR) and cross-polarization magic-angle spinning carbon-13 nuclear magnetic resonance (CP/MAS 13C NMR) characterizations verified the breakage of inter- and intra-cellulose hydrogen bonds during the regeneration, resulting in the disruption of the crystalline structure of cellulose. X-ray diffraction (XRD) data indicated that the regeneration converted the polymorphism of cellulose from I to II as well as decreased its crystallinity. Ultraviolet-visible spectra (UV-Vis) and scanning electron microscopy (SEM) analyses revealed the excellent optical transparency of the films to visible light due to the complete dissolution of cellulose fibers as well as the sufficient breaking of the inter- and intra-cellulose hydrogen bonds. In terms of tensile testing, tuning LiBr concentrations and dissolving time could increase the elongation at break and tensile strength of the films. The maximum elongation at break of 26% and tensile strength of 67 MPa were achieved when the films prepared in 65 wt % LiBr for 10 and 15 min, respectively. These results indicated the great potential of the cellulose films for packaging use.

Published
2018
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24. Depolymerization of plastics by means of electrified spatiotemporal heating

Author

Qi Dong, Aditya Dilip Lele, Xinpeng Zhao, Shuke Li, Sichao Cheng, Yueqing Wang, Mingjin Cui, Miao Guo, Alexandra H. Brozena, Ying Lin, Tangyuan Li, Lin Xu, Aileen Qi, Ioannis G. Kevrekidis, Jianguo Mei, Xuejun Pan, Dongxia Liu, Yiguang Ju, and Liangbing Hu

Subjects
Multidisciplinary
Published
2023

27. Multiple roles of dissolved organic matter on typical engineered nanomaterials: environmental behaviors, pollutants removal and potential risks

Author

Xianyao Zheng, Zhixiang Xu, Jun Liu, Yu Luo, Lipeng Gu, Dimeng Zhao, Siyuan Hu, and Xuejun Pan

Abstract

With the rapid development of nanotechnology, engineered nanomaterials (ENMs) have been produced and widely used in various fields, especially in environmental protection. ENMs would be released into the environmental media, particularly natural water, and then they exert great risks to ecosystem safety and human health. Dissolved organic matter (DOM) commonly exists in water environments. As a result, the interactions between DOM and ENMs are bound to occur. Herein, the multiple roles of DOM on ENMs are summarized. DOM can often interact with ENMs to positively or negatively influence nanomaterials-mediated pollutant removal through adsorption and catalytic degradation processes. On the other hand, DOM also regulates the potential ecotoxic effects of ENMs on organisms, either mitigation or enhancement. ENMs in turn would alter the physicochemical properties of DOM along with their environmental behaviors and risks. The present review aims to provide insight into DOM's influence on environmental behaviors, environmental applications, and potential risks of ENMs. Graphical Abstract

Published
2022

28. RNA Interference Pathways in Juglandaceae: Based on Gene Diversity, Evolution, and Functional Differentiation

Author

Yuanpeng Fang, Jianming Wei, Xin Huang, Yunzhou Li, and Xuejun Pan

Abstract

RNA interference (RNAi) is one of the main mechanisms for disease resistance and small RNA production in plants. The main proteins involved in RNAi include Dicer-like (DCL), RNA-dependent RNA polymerase (RDR), double-stranded RNA-binding (DRB), and Argonaute (AGO). Juglandaceae contains a variety of important woody plants, and walnuts are one of the four major woody plant groups and one of the four major dried fruits in the world. To clarify the evolution and functional differentiation of RNAi-related proteins in the walnut (Juglans regia) genome, this study integrated various web resources from gene family acquisition to structural analysis and transcriptome data to correlate walnuts and their congeners. The walnut genome has 5 DCL, 13 RDR, 15 DRB and 15 AGO genes, similar genes encoding conserved protein structural domains and conserved motifs with similar subcellular localization. Walnut AGO proteins are classified into three classes and seven subclasses. The DCL is divided into four categories, while RDR is mainly divided into four categories, and DRB can be divided into six categories. The exception is that the copy number of walnut RDR1 is 9, in which seven RDR1 are distributed in clusters on chromosome 16. Purifying selection drove the formation of walnut genes, but protein classes were subjected to varying degrees of purifying selection. Additionally, these results showed some similarity in other plants of the walnut family. Moreover, different RNAi-related genes of walnut produced abundant selective expression in response to different tissues and stresses. In this study, DCL, RDR, DRB and AGO gene families were identified and analysed in the genome of the walnut family for the first time and preliminarily examined the evolution, structure and expression characteristics of these families to provide a preliminary basis for the evolution of the walnut RNAi pathway and breeding research.

Published
2022

31. Plant growth, antioxidative enzyme, and cadmium tolerance responses to cadmium stress in Canna orchioides

Author

Qian Zhao, Wen'e Zhang, Ting Zhao, and Xuejun Pan

Subjects
0106 biological sciences, 0301 basic medicine, Cadmium tolerance, chemistry.chemical_element, Plant Science, Phytoremediation translocation, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), SB1-1110, Superoxide dismutase, 03 medical and health sciences, chemistry.chemical_compound, Canna orchioides, Ecology, Evolution, Behavior and Systematics, chemistry.chemical_classification, Cadmium, Reactive oxygen species, Ecology, biology, Renewable Energy, Sustainability and the Environment, Canna, Plant culture, biology.organism_classification, APX, Malondialdehyde, Rhizome, Horticulture, 030104 developmental biology, chemistry, Catalase, biology.protein, Antioxidant, 010606 plant biology & botany
Abstract

The cadmium tolerance capacity of Canna orchioides was evaluated using glasshouse experiment to lay a theoretical foundation to broad applications of this species in cadmium (Cd) polluted areas. The plant growth, Cd absorption, and antioxidative enzyme activities of canna plants treated with different Cd concentrations (0, 100, and 200 mg · kg−1 per dry soil) for 30 days were investigated. The results indicated that the growth of roots, leaves and stems was restricted following Cd addition. The bio-concentration factor was the highest in the roots, followed by the leaves, rhizomes, and stems. Compared with the control, the translocation factor decreased sharply after 100 mg · kg−1 or 200 mg · kg−1 Cd treatment, whereas the tolerance index decreased significantly under 200 mg · kg−1 Cd exposure. The Cd accumulation rate and total Cd accumulation significantly increased under 200 mg · kg−1 Cd treatment than the control. The malondialdehyde content remained unchanged at different Cd concentrations, while the relative electrical conductivity of the root increased significantly following 200 mg · kg−1 Cd treatment. Cd stress increased significantly the activity of superoxide dismutase (SOD), peroxidase (POD), and ascorbate peroxidase (APX) in the leaves, whereas only SOD was raised in the roots. The catalase (CAT) and POD activity in the roots did not differ significantly at different Cd concentrations. Conversely, APX in the roots decreased significantly under Cd stress, which suggests that the protective mechanisms in the leaves differ from those in the roots. These results indicated that C. orchioides has a high tolerance for Cd. Furthermore, the reactive oxygen species caused by Cd stress could be effectively scavenged by the antioxidative system. The present study proved that C. orchioides constitutes a promising ornamental plant for use in the restoration of areas contaminated with Cd.

Published
2021

34. Cleavage of ethers and demethylation of lignin in acidic concentrated lithium bromide (ACLB) solution

Author

Zheng Li, Thomas V. Goihl, Xuejun Pan, Xiao Zhang, and Eka Sutandar

Subjects
chemistry.chemical_classification, Syringol, Ether, Pollution, chemistry.chemical_compound, chemistry, Enol ether, Environmental Chemistry, SN2 reaction, Organic chemistry, Lignin, Reactivity (chemistry), Phenols, Demethylation
Abstract

The methoxyl group is the most abundant functional group of lignin and affects the properties, reactivity, and application of lignin. Efficient demethylation is always of interest in the area of lignin chemistry and application. This study demonstrated a new method for cleaving ether compounds and demethylating lignin in acidic concentrated lithium bromide (ACLB) solution under mild conditions. It was found that the ACLB system could universally cleave ether compounds except for diaryl ethers. The study on lignin model compounds (creosol, syringol, and 1,2,3-trimethoxybenzene) verified that ACLB could demethylate them to corresponding phenols. Four real lignin samples produced from various sources by different methods were also efficiently demethylated by 69–82% in ACLB. The lignin demethylation resulted in more phenolic hydroxyl groups, which benefits some downstream applications of lignin. This study also provided new insights into the cleavage of the ether bonds in lignin. In addition to the methyl–aryl ether bond, ACLB could cleave other ether bonds of lignin in β-O-4, β-5, and β-β structures except for the 4-O-5 bond in the diphenyl structure. The ether bonds were cleaved via the SN2 substitution except for the β-O-4 bond, which was primarily cleaved via the benzyl cation and enol ether intermediates, leading to Hibbert's ketones. Some of the β-O-4 structures were transformed into benzodioxane (BD) structures, which were stable in the ACLB system.

Published
2020

35. A Text-Granulation Clustering Approach With Semantics for E-Commerce Intelligent Storage Allocation

Author

Xuejun Pan, Qi Lang, and Xiaodong Liu

Subjects
Distribution center, Order picking, General Computer Science, Process (engineering), business.industry, Computer science, EI algebra, General Engineering, Context (language use), E-commerce, Semantics, computer.software_genre, Order (exchange), warehouse management system, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, Data mining, Granular computing, Cluster analysis, business, text clustering, lcsh:TK1-9971, computer
Abstract

With the hot rise and increasing popularity of e-commerce and online shopping, exponentially growing orders require to be picked up timely. In the order-based warehouse picking process, more intelligent optimization methods are urgently demanded to meet the maturity of robot technology. Due to the wide variety of SKUs (stock-keeping units) in warehouses, direct analysis based on orders can hardly get strong correlations among SKUs. Since orders and SKUs usually are presented in text form files, this paper proposes a clustering optimization algorithm based on text information granules which makes full use of context information and semantics. Storage assignment is determined by clustering SKUs first and then performing correlation analysis on the clustering results according to orders. The algorithm can give the semantic description of each cluster so that the clustering process is interpretable and transparent. Extensive experiments on a distribution center of a clothing production enterprise indicate 40.5 to 57.9% improvement in the average order picking distance compared with the ABC classification.

Published
2020

37. The distribution and risk of microplastics discharged from sewage treatment plants in terrestrial and aquatic compartment

Author

Xing Wan, Haiyou Huang, Zhicheng Liao, Huan He, Qingsong Yue, Fenqing Zhao, Huang Huang, Bin Huang, and Xuejun Pan

Subjects
Environmental Engineering, Sewage, Polyethylene, Microplastics, General Medicine, Management, Monitoring, Policy and Law, Wastewater, Waste Management and Disposal, Plastics, Water Pollutants, Chemical, Environmental Monitoring
Abstract

Many microplastics (MPs) were produced in daily life, which would enter sewage treatment plants (STPs) with the wastewater. Although the STPs has a good interception effect on these MPs, there will still be a part of MPs entering the environment with the effluent and sludge treatment, causing a certain ecological risk. This study investigated the abundance, characteristics and retention of MPs in different STPs, as well as the ecological risks caused by MPs entering the environment. The abundance of MPs in influent and effluent was ranged from 2.02 to 2.50 items L

Published
2021

39. The desorption mechanism of dissolved organic matter on pollutants and the change of biodiversity during sediment dredging

Author

Xing Wan, Zhicheng Liao, Huan He, Min Shi, Guoxi Yu, Fenqing Zhao, Chaochao Lai, Yan Wang, Bin Huang, and Xuejun Pan

Subjects
China, Geologic Sediments, Lakes, Lead, Environmental Pollutants, Biodiversity, Dissolved Organic Matter, Biochemistry, Water Pollutants, Chemical, Cadmium, General Environmental Science
Abstract

Sediment dredging is an effective means to control the endogenous pollution of lakes, which could significantly change the concentration and composition of organic matter, especially dissolved organic matter (DOM) in the lake. DOM is particularly important for the release of endogenous pollutants, which will inevitably bring an impact on aquatic biodiversity. Nevertheless, in recent research little attention has been paid to the desorption mechanism of DOM on pollutants and the change of biodiversity during dredging. This study investigated the physicochemical properties of DOM in the sediment by taking a sediment dredging project in Dianchi Lake in China for example. The correlations of DOM properties with the desorption behavior of nitrogen (N), phosphorus (P), cadmium (Cd), lead (Pb) and the biodiversity of aquatic organisms were analyzed. The results show that the aromaticity and humification of DOM were improved after dredging, and the high molecular weight DOM was degraded into low molecular weight substance. The desorption amount of N, P and heavy metals (Cd, Pb) were decreased as the pH values increased. Moreover, NH

Published
2022

40. Ventilation induced evolution pattern of archaea, fungi, bacteria and their potential roles during co-bioevaporation treatment of concentrated landfill leachate and food waste

Author

Yanmei Liu, Qingzuo Wang, Qian Pan, Xiandong Zhou, Zhenghua Peng, Deokjin Jahng, Benqin Yang, and Xuejun Pan

Subjects
Environmental Engineering, Bacteria, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Fungi, General Medicine, General Chemistry, Pollution, Archaea, Refuse Disposal, Waste Disposal Facilities, Bioreactors, Food, Environmental Chemistry, Water Pollutants, Chemical
Abstract

To obtain a favorable aeration type in co-bioevaporation treatment of concentrated landfill leachate and food waste, and to deeply understand the co-bioevaporation mechanisms, the temporal evolution differences of archaea, fungi and bacteria as well as the related microbial metabolism genes and functional enzymes under intermittent ventilation (IV) and continuous ventilation (CV) were investigated. Results through metagenomics analysis showed that the less sufficient oxygen and longer thermophilic phase in IV stimulated the vigorous growth of archaea, while CV was beneficial for fungal growth. Even genes of carbohydrates and lipids metabolism and ATP-associated enzymes (enzyme 2.7.13.3 and 3.6.4.12), as well as peptidoglycan biosynthesis enzyme (enzyme 3.4.16.4), were more abundant in CV, IV hold better DNA repair ability, higher microbial viability, and less dehydrogenase sensitivity to temperatures due to the critical contribution of Pseudomonas (3.1-45.9%). Furthermore, IV consumed a similar amount of heat for water evaporation with nearly half of the ventilation of CV and was a favorable aeration type in the practical application of co-bioevaporation.

Published
2021

41. Rich dynamics in a delayed HTLV-I infection model: Stability switch, multiple stable cycles, and torus

Author

Hongying Shu, Xuejun Pan, and Yuming Chen

Subjects
Hopf bifurcation, Pure mathematics, Applied Mathematics, 010102 general mathematics, Dynamics (mechanics), Torus, 01 natural sciences, Stability (probability), 010101 applied mathematics, symbols.namesake, CTL, symbols, 0101 mathematics, Basic reproduction number, Analysis, Center manifold, Bifurcation, Mathematics
Abstract

In this paper, we investigate the impact of time delay in CTL immune response on a HTLV-I infection model. By defining basic reproduction number for viral infection R 0 and basic reproduction number for CTL response R C T L , we characterize the model dynamics according to whether these two threshold values are greater than one. Especially, we obtain the global dynamics if R 0 ≤ 1 or R C T L ≤ 1 R 0 , as well as infection persistent result when R 0 > 1 . However, the model dynamics become much richer when R C T L 1 . In this case, we use the time delay as a bifurcation parameter to obtain stability switch result on the positive equilibrium and global bifurcation diagrams for the model system. We also conduct higher-order normal form analysis and apply center manifold theory to classify the rich model dynamics near the double Hopf bifurcation points. Our analysis indicates that time delay in CTL immune response can induce not only Hopf bifurcation and double Hopf bifurcation, but also quasi-periodic orbits (torus) and coexistence of multiple stable periodic solutions.

Published
2019

42. Microbially reduced humic acid promotes the anaerobic photodegradation of 17α­-ethinylestradiol

Author

Bin Huang, Zhixiang Xu, Chaochao Lai, Kailin Mu, Xuejun Pan, Lipeng Gu, and Han Dai

Subjects
Microbial fuel cell, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Shewanella putrefaciens, 02 engineering and technology, 010501 environmental sciences, Ethinyl Estradiol, 01 natural sciences, chemistry.chemical_compound, Humans, Humic acid, Photodegradation, Humic Substances, Cell Proliferation, 0105 earth and related environmental sciences, chemistry.chemical_classification, 021110 strategic, defence & security studies, Photolysis, biology, Public Health, Environmental and Occupational Health, General Medicine, Hydrogen-Ion Concentration, Biodegradation, Electron acceptor, biology.organism_classification, Pollution, Anoxic waters, Biodegradation, Environmental, chemistry, Environmental chemistry, MCF-7 Cells, Hydroxyl radical, Oxidation-Reduction, Water Pollutants, Chemical
Abstract

Photolysis and microbial activity are relatively obvious in shallow, eutrophic waters with low dissolved oxygen content. Ubiquitous humic acid (HA) can act as electron acceptor and be reduced by bacterial under such conditions, and the reduced form of humic acid (RHA) plays an important role in the photolysis contaminants. In this study, anaerobic 17α-ethinylestradiol (EE2) photodegradation was performed along with biodegradation by Shewanella putrefaciens mediated by HA. The mechanism of such coupled photolysis and biodegradation of EE2 was thus elucidated. The removal rate in such coupled degradation in the presence of 10 mgC L−1 of HA at pH 8.0 was greater than that of either photolysis or biodegradation alone. HA which had been reduced in a double-chamber microbial fuel cell showed better promotion to EE2 photodegradation than fresh HA. Reactive species scavenging experiments indicated that hydroxyl radical and excited triplet states of HA were primary contributors to EE2 photodegradation in anaerobic conditions. More of them were produced from RHA than from pristine HA. Besides, the degraded EE2 solutions inhibited the proliferation of MCF-7 human cancer Cells. These findings improve our understanding of the environmental transformation of EE2 in the shallow, anoxic waters.

Published
2019

43. A versatile β-cyclodextrin and polyethyleneimine bi-functionalized magnetic nanoadsorbent for simultaneous capture of methyl orange and Pb(II) from complex wastewater

Author

Sijiang Chen, Xuejun Pan, Yang Liu, Fengxia Long, Bo Chen, and Huinan Zhao

Subjects
Environmental Engineering, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, 02 engineering and technology, Wastewater, 010501 environmental sciences, 01 natural sciences, Metal, symbols.namesake, chemistry.chemical_compound, Adsorption, Methyl orange, Polyethyleneimine, Environmental Chemistry, Chelation, Magnetite Nanoparticles, 0105 earth and related environmental sciences, chemistry.chemical_classification, Cyclodextrin, beta-Cyclodextrins, Public Health, Environmental and Occupational Health, Langmuir adsorption model, Sorption, General Medicine, General Chemistry, Pollution, 020801 environmental engineering, Lead, chemistry, visual_art, symbols, visual_art.visual_art_medium, Azo Compounds, Water Pollutants, Chemical, Nuclear chemistry
Abstract

Ascribing to their significant differences in physicochemical properties, it is extremely challenging to treat complex wastewater containing more than one class of pollutants via one-step treatment. Here, we focused on disposal of complex wastewater bearing organic dye and heavy metal by using adsorptive method. Thus, by combining the advantages of polyethyleneimine (PEI), β-cyclodextrin (β-CD) as well as Fe3O4 magnetic nanoparticles, a versatile β-CD and PEI bi-functionalized magnetic nanoadsorbent (Fe3O4-PEI/β-CD) with spatially separated sorption sites was successfully constructed for simultaneous capture of methyl orange (MO) and Pb(II) in complex wastewater. In this setting, β-CD cavities and positively charged N-containing groups of PEI were mainly responsible for removal of MO via host-guest inclusion and electrostatic attraction, respectively, and oxygen-bearing groups on the edge of β-CD as well as the free amino moieties in PEI acted as the active sites for Pb(II) uptake. In their individual mono-pollutant system, the adsorption processes can be better described via applying pseudo-second-order kinetic and Langmuir isotherm models. Interestingly, presence of MO in Pb(II)-MO binary system significantly promoted the uptake of Pb(II). But the coexisting Pb(II) had almost no effects on MO uptake. Such results demonstrated that both MO and Pb(II) could be simultaneously and synergistically removed by Fe3O4-PEI/β-CD through multiple mechanisms (such as electrostatic attraction, host-guest inclusion, chelating, etc.). Particularly, the excellent regeneration and stability make Fe3O4-PEI/β-CD an ideal integrative adsorbent for purification of actual wastewater contaminated by MO and Pb(II). Thus, this study provides some insights into designing a well-performed and easily recyclable adsorbent for simultaneous and synergetic capture of both organic and inorganic contaminants in complex wastewater.

Published
2019

44. A magnetically recyclable chitosan composite adsorbent functionalized with EDTA for simultaneous capture of anionic dye and heavy metals in complex wastewater

Author

Benqin Yang, Fengxia Long, Huinan Zhao, Xuejun Pan, Bin Huang, Bo Chen, and Sijiang Chen

Subjects
Chemistry, General Chemical Engineering, Metal ions in aqueous solution, Methyl blue, Langmuir adsorption model, Sorption, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Metal, symbols.namesake, chemistry.chemical_compound, Adsorption, Wastewater, visual_art, visual_art.visual_art_medium, symbols, Environmental Chemistry, Chelation, 0210 nano-technology, Nuclear chemistry
Abstract

Ascribing to their significant differences in physicochemical properties, it is extremely challenging to treat complex wastewater containing more than one class of pollutants via one-step treatment. Here, we focused on disposal of complex wastewater bearing organic dye and heavy metal by using adsorptive method. Thus, we successfully fabricated a novel and versatile EDTA functionalized magnetic chitosan composite adsorbent (Fe3O4-CS/EDTA) for simultaneous removal of methyl blue(MB) and heavy metal (Pb(II) and Cu(II)) from complex wastewater. In this setting, EDTA chelating groups are mainly responsible for the binding of heavy metals, while the protonated amino groups of CS adsorb anionic dyes through electrostatic interaction, thus enabling the simultaneous capture of these two classes of pollutants. In mono-pollutant system, the resulting material showed prominent uptake ability toward MB, Pb(II), and Cu(II) with uptake characteristics of pseudo-second-order model and Langmuir isotherm equation. The maximum monolayer uptake capacities were determined to be 225.0 mg g−1 of Cu(II), 220.0 mg g−1 of Pb(II), and 459.9 mg g−1 of MB at 303 K, respectively. More interestingly, in metal-MB binary system, uptake of MB was almost not affected by coexisting metal. While the uptake capacity of Cu(II) or Pb(II) was enhanced with increasing of MB concentration. These results demonstrated the synergetic removal performance of as-designed adsorbent toward cationic metal ions and anionic dye. Moreover, as-resulting adsorbent showed no significant adsorption capacity loss even after 8 runs of sorption-desorption cycle, manifesting that it is of great stability and could be regarded as a promising candidate adsorbent for treating complex wastewater. This study provides some insights into the design of highly efficient adsorbents with spatially separated sorption sites for disposing complex wastewater bearing organic and metallic contaminants.

Published
2019

46. Effective degradation of COVID-19 related drugs by biochar-supported red mud catalyst activated persulfate process: Mechanism and pathway

Author

Ziwei Guo, Yue Zhang, Shuchai Gan, Huan He, Nan Cai, Jingwei Xu, Pengran Guo, Bo Chen, and Xuejun Pan

Subjects
Renewable Energy, Sustainability and the Environment, Strategy and Management, Building and Construction, Industrial and Manufacturing Engineering, General Environmental Science
Abstract

With the global spread of the COVID-19 pandemic, the water pollution caused by extensive production and application of COVID-19 related drugs has aroused growing attention. Herein, a novel biochar-supported red mud catalyst (RM-BC) containing abundant free hydroxyl groups was synthesized. The RM-BC activated persulfate process was firstly put forward to degrade COVID-19 related drugs, including arbidol (ARB), chloroquine phosphate, hydroxychloroquine sulfate, and acyclovir. Highly effective removal of these pharmaceuticals was achieved and even 100% of ARB was removed within 12 min at optimum conditions. Mechanism study indicated that SO

Published
2022

47. Cellulose II Aerogel-Based Triboelectric Nanogenerator

Author

Lei Zhang, Zhong Lin Wang, Xuejun Pan, Yang Liao, Steven L. Zhang, Weiqing Yang, and Yi-Cheng Wang

Subjects
Fabrication, Materials science, Composite number, Nanogenerator, Regenerated cellulose, Aerogel, 02 engineering and technology, Full Papers, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Biomaterials, chemistry.chemical_compound, chemistry, Chemical engineering, Electrochemistry, Cellulose, 0210 nano-technology, Porosity, Triboelectric effect
Abstract

Cellulose‐based triboelectric nanogenerators (TENGs) have gained increasing attention. In this study, a novel method is demonstrated to synthesize cellulose‐based aerogels and such aerogels are used to fabricate TENGs that can serve as mechanical energy harvesters and self‐powered sensors. The cellulose II aerogel is fabricated via a dissolution–regeneration process in a green inorganic molten salt hydrate solvent (lithium bromide trihydrate), where. The as‐fabricated cellulose II aerogel exhibits an interconnected open‐pore 3D network structure, higher degree of flexibility, high porosity, and a high surface area of 221.3 m(2) g(−1). Given its architectural merits, the cellulose II aerogel‐based TENG presents an excellent mechanical response sensitivity and high electrical output performance. By blending with other natural polysaccharides, i.e., chitosan and alginic acid, electron‐donating and electron‐withdrawing groups are introduced into the composite cellulose II aerogels, which significantly improves the triboelectric performance of the TENG. The cellulose II aerogel‐based TENG is demonstrated to light up light‐emitting diodes, charge commercial capacitors, power a calculator, and monitor human motions. This study demonstrates the facile fabrication of cellulose II aerogel and its application in TENG, which leads to a high‐performance and eco‐friendly energy harvesting and self‐powered system.

Published
2020

48. Simultaneous changes of exogenous dissolved organic matter treated by ozonation in properties and interaction behavior with sulfonamides

Author

Huayu Xu, Caiwen He, Fengxia Han, Bin Huang, Dionysios D. Dionysiou, Chaochao Lai, and Xuejun Pan

Subjects
010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Bacterial growth, Wastewater, Toxicology, complex mixtures, 01 natural sciences, Water Purification, Ozone, Dissolved organic carbon, medicine, Humic acid, Organic matter, Effluent, Humic Substances, 0105 earth and related environmental sciences, chemistry.chemical_classification, Pollutant, Sulfonamides, Chemistry, Sulfadimidine, General Medicine, Pollution, Environmental chemistry, Water Pollutants, Chemical, medicine.drug
Abstract

Effluent is often treated with ozone before being discharged into a natural water environment. This process will change the interaction between effluent organic matter and pollutants in aquatic environment. The impact of ozonation on complexation between dissolved organic matter in such wastewater and sulfadimidine often found in natural water was studied in laboratory experiments using four types of real wastewater. Ozonation was found to decrease the proportion of organic matter with a molecular weight greater than 5 kDa as well as protein-like, fulvic-like and humic-like components, but except the proportion of hydrophilic components. The aromaticity of the dissolved organic matter was also reduced after ozonation. The complexation of tryptophan and tyrosine with sulfadimidine mainly depends on their hydrophobicity and large molecular weight. Ozonation of fulvic and humic acid tends to produce small and medium molecular weight hydrophilics. The complexation of humic and fulvic acids with sulfadimidine was enhanced by ozonation. Dissolved organic matter, with or without oxidation, were found to weaken sulfadimidine’s inhibition of microbial growth, especially for Aeromonas and Acinetobacter species. This finding will expand our understanding about the impact of advanced treatment processes on the dissolved organic matters’ properties in effluent.

Published
2020

49. Dissolved oxygen inhibits the promotion of chlorothalonil photodegradation mediated by humic acid

Author

Zhiang Xu, Bin Huang, Huan He, Xuejun Pan, Fengxia Han, and Dan Xiong

Subjects
chemistry.chemical_classification, Chlorothalonil, General Chemical Engineering, 0208 environmental biotechnology, Kinetics, General Physics and Astronomy, 02 engineering and technology, General Chemistry, 010501 environmental sciences, 01 natural sciences, 020801 environmental engineering, chemistry.chemical_compound, Reaction rate constant, chemistry, Aquatic environment, Toxicity, Humic acid, Degradation (geology), Photodegradation, 0105 earth and related environmental sciences, Nuclear chemistry
Abstract

Chlorothalonil (CT) is widely used to control fungal diseases, and it is commonly detected in the environment. Phototransformation is an important process which removes CT from aquatic environments. The kinetics and mechanisms of CT photodegradation in solutions with and without humic acid (HA) were investigated, and the influence of dissolved oxygen (DO) on the photodegradation process was also considered. The rate constant observed in pure water was only 0.017 h−1, but it increased to 0.083 h−1 with 5.0 mgC L−1 of HA present. Reactive species generated by HA were shown to play an important role. Moreover, the degradation of CT was promoted at higher HA concentrations. But higher DO concentrations inhibits CT degradation because of the reaction between DO and excited triplet state CT (3CT*) or HA (3HA*). The contributions of the reactive species tested were in the sequence 3HA* > 1O2 > H2O2/O2− ≈ OH in a nitrogen-saturated system, but in an oxygen-saturated system the order was OH ≈1 O2 > H2O2/O2− > 3HA*. 3CT* was confirmed as the active form of CT during degradation, with 4-hydroxy-chlorothalonil and 2,4,5-trichloroisophthalonitrile as the main products. Compared to direct photodegradation, CT photodegradation mediated by HA can decrease the toxicity of an aquatic environment as demonstrated through tests with Scenedesmus obliquus.

Published
2018

50. An uncondensed lignin depolymerized in the solid state and isolated from lignocellulosic biomass: a mechanistic study

Author

Xuejun Pan, Xuliang Lin, John Ralph, Xiaohui Yang, Chang Geun Yoo, Yanding Li, and Ning Li

Subjects
010405 organic chemistry, Chemistry, technology, industry, and agriculture, food and beverages, Biomass, Lignocellulosic biomass, Ether, 010402 general chemistry, Condensation reaction, complex mixtures, 01 natural sciences, Pollution, 0104 chemical sciences, chemistry.chemical_compound, Hydrogenolysis, Environmental Chemistry, Lignin, Organic chemistry, Cellulose, Demethylation
Abstract

This study demonstrated that lignin could be efficiently depolymerized in the solid state with minimal condensation and separated from biomass with high purity by dissolving and hydrolyzing cellulose and hemicelluloses, using an acidic lithium bromide trihydrate (ALBTH) system under mild conditions (with 40 mM HCl at 110 °C). The ALBTH lignins isolated from biomass sources representing the three plant classes (hardwoods, softwoods, and grasses) contained abundant uncondensed moieties (i.e., Hibbert's ketones and benzodioxanes). The benzodioxane structure was identified and confirmed for the first time in an acid-depolymerized lignin. Reactions using lignin model compounds (LMCs, guaiacylglycerol-β-guaiacyl ether and various aromatic monomers) confirmed the formation of the uncondensed moieties and revealed the synergy between LiBr and acid in inducing the crucial intermediate benzyl carbocations, which then led to cleavage of the β-O-4-aryl ether bonds to produce Hibbert's ketones, demethylation to produce benzodioxanes, and condensation reactions. Unlike in the LMC reactions, the condensation of the real lignin in biomass under ALBTH conditions was greatly diminished, possibly due to lignin remaining in the solid state, limiting its mobility and accessibility of the benzyl carbocation to the electron-rich aromatic sites for condensation. Preliminary results indicated that, because of its uncondensed nature, the ALBTH lignin was a good lignin feedstock for hydrogenolysis. This study provided a new approach to effectively isolate depolymerized lignin from lignocellulose in a less condensed form for boosting its downstream valorization.

Published
2018

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