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1. Enhanced creep resistance in Mg-Y-Nd alloy via regulating prior thermo-mechanical treatment

Author

Zhirou Zhang, Qinghuan Huo, Yuxiu Zhang, Gantao Zhao, Hiromi Nagaumi, and Xuyue Yang

Subjects
Mg-Y-Nd alloy, Microstructure, Deformation bands, Creep, Precipitation, Dislocation, Mining engineering. Metallurgy, TN1-997
Abstract

In this study, the tensile creep behavior of a hot-rolled Mg-4Y-3.5Nd alloy subjected to different prior thermo-mechanical treatments was investigated at 220 ℃. Five groups of samples were prepared using different combinations of the solid solution (S), aging treatment at 220 ℃ for 30 h (A), and hot compression at 490 ℃ to a true strain of 0.25 (C). The abbreviations for the samples are S, SA, SC, SAC, and SCA. Upon examining the yield strength and creep resistance, it was found that creep resistance could not be directly predicted by the yield strength. The stability of the deformation bands (DBs) induced by prior thermo-mechanical treatment plays an important role in determining the creep resistance. The dislocation of the DBs and demonstrated the best creep resistance in the SAC sample, which were prepared using a solid solution, aging treatment, and subsequent hot compression. However, despite the highest yield strength, frequent dislocation motions destroyed the stability of the DBs and deteriorated the creep resistance of the SCA sample, which were prepared using a solid solution, hot compression, and subsequent aging treatment. Among the thermo-mechanical treatments used in this study, the application of aging treatment was important to obtain the resultant creep resistance. When the aging treatment was performed prior to hot compression, the creep resistance could be further enhanced based only on hot compression. Accordingly, the sequence from the strongest to the weakest creep resistance was SAC > SC > S > SCA > SA.

Published
2024
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2. Artificial intelligence-based assessment of PD-L1 expression in diffuse large B cell lymphoma

Author

Fang Yan, Qian Da, Hongmei Yi, Shijie Deng, Lifeng Zhu, Mu Zhou, Yingting Liu, Ming Feng, Jing Wang, Xuan Wang, Yuxiu Zhang, Wenjing Zhang, Xiaofan Zhang, Jingsheng Lin, Shaoting Zhang, and Chaofu Wang

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Diffuse large B cell lymphoma (DLBCL) is an aggressive blood cancer known for its rapid progression and high incidence. The growing use of immunohistochemistry (IHC) has significantly contributed to the detailed cell characterization, thereby playing a crucial role in guiding treatment strategies for DLBCL. In this study, we developed an AI-based image analysis approach for assessing PD-L1 expression in DLBCL patients. PD-L1 expression represents as a major biomarker for screening patients who can benefit from targeted immunotherapy interventions. In particular, we performed large-scale cell annotations in IHC slides, encompassing over 5101 tissue regions and 146,439 live cells. Extensive experiments in primary and validation cohorts demonstrated the defined quantitative rule helped overcome the difficulty of identifying specific cell types. In assessing data obtained from fine needle biopsies, experiments revealed that there was a higher level of agreement in the quantitative results between Artificial Intelligence (AI) algorithms and pathologists, as well as among pathologists themselves, in comparison to the data obtained from surgical specimens. We highlight that the AI-enabled analytics enhance the objectivity and interpretability of PD-L1 quantification to improve the targeted immunotherapy development in DLBCL patients.

Published
2024
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3. Research progress and application strategies of sugar transport mechanisms in rice

Author

Jun Li, Changcai He, Shihang Liu, Yuting Guo, Yuxiu Zhang, Lanjing Zhang, Xu Zhou, Dongyu Xu, Xu Luo, Hongying Liu, Xiaorong Yang, Yang Wang, Jun Shi, Bin Yang, Jing Wang, Pingrong Wang, Xiaojian Deng, and Changhui Sun

Subjects
rice (Oryza sativa L.), carbohydrates, “source-sink” theory, sugar transporters, regulatory pathway, high-yield, Plant culture, SB1-1110
Abstract

In plants, carbohydrates are central products of photosynthesis. Rice is a staple that contributes to the daily calorie intake for over half of the world’s population. Hence, the primary objective of rice cultivation is to maximize carbohydrate production. The “source-sink” theory is proposed as a valuable principle for guiding crop breeding. However, the “flow” research lag, especially in sugar transport, has hindered high-yield rice breeding progress. This review concentrates on the genetic and molecular foundations of sugar transport and its regulation, enhancing the fundamental understanding of sugar transport processes in plants. We illustrate that the apoplastic pathway is predominant over the symplastic pathway during phloem loading in rice. Sugar transport proteins, such as SUTs and SWEETs, are essential carriers for sugar transportation in the apoplastic pathway. Additionally, we have summarized a regulatory pathway for sugar transport genes in rice, highlighting the roles of transcription factors (OsDOF11, OsNF-YB1, OsNF-YC12, OsbZIP72, Nhd1), OsRRM (RNA Recognition Motif containing protein), and GFD1 (Grain Filling Duration 1). Recognizing that the research shortfall in this area stems from a lack of advanced research methods, we discuss cutting-edge analytical techniques such as Mass Spectrometry Imaging and single-cell RNA sequencing, which could provide profound insights into the dynamics of sugar distribution and the associated regulatory mechanisms. In summary, this comprehensive review serves as a valuable guide, directing researchers toward a deep understanding and future study of the intricate mechanisms governing sugar transport.

Published
2024
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4. Magnetic Field and Temperature Dual-Parameter Sensor Based on Nonadiabatic Tapered Microfiber Cascaded With FBG

Author

Yuxiu Zhang, Shengli Pu, Yongxi Li, Zijian Hao, Dihui Li, Shaokang Yan, Min Yuan, and Chencheng Zhang

Subjects
Nonadiabatic tapered fiber, FBG, magnetic fluid, magnetic field measurement, temperature measurement, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

A kind of dual-parameter sensor based on magnetic-fluid-coated nonadiabatic tapered microfiber (NTF) cascaded with fiber Bragg grating (FBG) is proposed and experimentally demonstrated. Simultaneous measurement of magnetic field and temperature is realized by monitoring the variation of NTF interference spectrum and FBG characteristic dip. In the magnetic field range of 0–18 mT, the highest magnetic field sensitivity can reach 1.159 nm/mT. The maximum temperature sensitivity is up to −1.737 nm/°C in the temperature range of 25-50 °C. The proposed magnetic-fluid-coated NTF interferometer cascaded with FBG will find extensive application prospect due to its high sensitivity, easy fabrication, compactness, strong robustness, and low cost.

Published
2022
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5. Bifunctional regulators of photoperiodic flowering in short day plant rice

Author

Changhui Sun, Changcai He, Chao Zhong, Shihang Liu, Hongying Liu, Xu Luo, Jun Li, Yuxiu Zhang, Yuting Guo, Bin Yang, Pingrong Wang, and Xiaojian Deng

Subjects
flowering, photoperiod, bifunctional regulators, critical day length, phytochrome, circadian clock, Plant culture, SB1-1110
Abstract

Photoperiod is acknowledged as a crucial environmental factor for plant flowering. According to different responses to photoperiod, plants were divided into short-day plants (SDPs), long-day plants (LDPs), and day-neutral plants (DNPs). The day length measurement system of SDPs is different from LDPs. Many SDPs, such as rice, have a critical threshold for day length (CDL) and can even detect changes of 15 minutes for flowering decisions. Over the last 20 years, molecular mechanisms of flowering time in SDP rice and LDP Arabidopsis have gradually clarified, which offers a chance to elucidate the differences in day length measurement between the two types of plants. In Arabidopsis, CO is a pivotal hub in integrating numerous internal and external signals for inducing photoperiodic flowering. By contrast, Hd1 in rice, the homolog of CO, promotes and prevents flowering under SD and LD, respectively. Subsequently, numerous dual function regulators, such as phytochromes, Ghd7, DHT8, OsPRR37, OsGI, OsLHY, and OsELF3, were gradually identified. This review assesses the relationship among these regulators and a proposed regulatory framework for the reversible mechanism, which will deepen our understanding of the CDL regulation mechanism and the negative response to photoperiod between SDPs and LDPs.

Published
2022
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6. The response of polycyclic aromatic hydrocarbon degradation in coking wastewater treatment after bioaugmentation with biosurfactant-producing bacteria Pseudomonas aeruginosa S5

Author

Tingting Zang, Haizhen Wu, Yuxiu Zhang, and Chaohai Wei

Subjects
bacteria, biosurfactant, degradation, pahs, toxicity, wastewater, Environmental technology. Sanitary engineering, TD1-1066
Abstract

The polycyclic aromatic hydrocarbons (PAHs) that accumulate during the coking wastewater treatment process are hazardous for the surrounding environment. High molecular weight (HMW) PAHs account for more than 85% of the total PAHs in coking wastewater and sludge, respectively. The degradation of total PAHs increased by 18.97% due to the increased bioavailability of PAHs, after the biosurfactant-producing bacteria Pseudomonas aeruginosa S5 was added. The toxicity of total PAHs to humans was reduced by 26.66% after inoculation with S5. The results suggest biosurfactant-producing bacteria Pseudomonas aeruginosa S5 not only increase the biodegradation of PAHs significantly, but also have a better effect on reducing the human toxicity of PAHs. Kinetic analyses show that PAHs biodegradation fits to first-order kinetics. The degradation rate constant (k) value decreases as the number of PAH rings increases, indicating that HMW PAHs are more difficult to be biodegraded than low molecular weight (LMW) PAHs. The results indicate the bioaugmentation with the biosurfactant-producing strain has significant potential and utility in remediation of PAHs-polluted sites.

Published
2021
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7. Genetic relationship and source species identification of 58 Qi-Nan germplasms of Aquilaria species in China that easily form agarwood.

Author

Yong Kang, Peiwei Liu, Feifei Lv, Yuxiu Zhang, Yun Yang, and Jianhe Wei

Subjects
Medicine, Science
Abstract

Recently, Qi-Nan germplasm, the germplasm of Aquilaria species that easily forms agarwood, has been widely cultivated in Guangdong and Hainan Provinces in China. Since the morphological characteristics of Qi-Nan germplasm are similar to those of Aquilaria species and germplasm is bred by grafting, it is difficult to determine the source species of this germplasm by traditional taxonomic characteristics. In this study, we performed a DNA barcoding analysis of 58 major Qi-Nan germplasms as well as Aquilaria sinensis, A. yunnanensis, A. crassna, A. malaccensis and A. hirta with 5 primers (nuclear gene internal transcribed spacer 2 (ITS2) and the chloroplast genes matK, trnH-psbA, rbcL and trnL-trnF). This field survey in the Qi-Nan germplasm plantations in Guangdong and Hainan Provinces aimed to accurately identify the source species of Qi-Nan germplasm. According to the results, ITS2 and matK showed the most variability and the highest divergence at all genetic distances. This ITS2+matK combination, screened for with TaxonDNA analysis, showed the highest success rate in species identification of the Qi-Nan germplasm. Clustering in the phylogenetic trees constructed with Bayesian inference and maximum likelihood indicated that the Qi-Nan germplasm was most closely related to A. sinensis and more distantly related to A. yunnanensis, A. crassna, A. malaccensis and A. hirta. Therefore, this study determined that the source species of the Qi-Nan germplasm is A. sinensis.

Published
2022
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8. Extremely high sensitivity magnetic field sensing based on birefringence-induced dispersion turning point characteristics of microfiber coupler

Author

Min Yuan, Shengli Pu, Dihui Li, Yongxi Li, Zijian Hao, Yuxiu Zhang, Chencheng Zhang, and Shaokang Yan

Subjects
Fiber optics, Magnetic field sensor, Birefringence-induced dispersion turning point, Microfiber coupler, Magnetic fluid, Vernier effect, Physics, QC1-999
Abstract

A kind of ultrasensitive magnetic field sensor based on microfiber coupler and magnetic fluid (MF) is proposed and investigated. As the working wavelength is near the birefringence-induced dispersion turning point (B-DTP), the sensitivity has been enhanced considerably and the maximum sensitivity can achieve −97.856 nm/mT. By tracking the B-DTP, the problem of high sensitivity but narrow detection range can be solved. The temperature sensitivity of the structure is 0.816 nm/℃. The proposed sensor has the advantages of extremely high sensitivity, which has the potential applications in high-precision magnetic field measurement.

Published
2021
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9. Sensing properties of graphene-oxide-functionalized single-mode–no-core–single-mode fiber structure

Author

Shaokang Yan, Shengli Pu, Yuxiu Zhang, Min Yuan, and Chencheng Zhang

Subjects
Optical fiber sensor, Graphene oxide, Refractive index, Magnetic field, Physics, QC1-999
Abstract

A series of single-mode–no-core–single-mode (SNS) optical fiber sensing structures with different thicknesses of graphene oxide (GO) coating were fabricated and tested with glycerin and magnetic fluid solutions. Owing to the two-dimensional network structure of GO, the GO coating improved the performance of the sensor for the structure immersed in glycerin solution. The highest refractive-index (RI) sensitivity (in RI units or RIU) of the GO-coated sensor is 496.823 nm/RIU. However, the GO coating reduced the magnetic field sensitivity of the sensor for the structure immersed in magnetic fluid solution. The mechanism of enhanced RI sensitivity and decreased magnetic field sensitivity is clarified.

Published
2021
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10. Transcriptomics and Metabolomics Analyses Reveal Defensive Responses and Flavonoid Biosynthesis of Dracaena cochinchinensis (Lour.) S. C. Chen under Wound Stress in Natural Conditions

Author

Yang Liu, Shixi Gao, Yuxiu Zhang, Zhonglian Zhang, Qiuling Wang, Yanhong Xu, and Jianhe Wei

Subjects
D. cochinchinensis, dragon’s blood, flavonoids, metabolites, plant defense, transcriptome, Organic chemistry, QD241-441
Abstract

Dracaena cochinchinensis has special defensive reactions against wound stress. Under wound stress, D. cochinchinensis generates a resin that is an important medicine known as dragon’s blood. However, the molecular mechanism underlying the defensive reactions is unclear. Metabolomics and transcriptomics analyses were performed on stems of D. cochinchinensis at different timepoints from the short term to the long term after wounding. According to the 378 identified compounds, wound-induced secondary metabolic processes exhibited three-phase characteristics: short term (0–5 days), middle term (10 days–3 months), and long term (6–17 months). The wound-induced transcriptome profile exhibited characteristics of four stages: within 24 h, 1–5 days, 10–30 days, and long term. The metabolic regulation in response to wound stress mainly involved the TCA cycle, glycolysis, starch and sucrose metabolism, phenylalanine biosynthesis, and flavonoid biosynthesis, along with some signal transduction pathways, which were all well connected. Flavonoid biosynthesis and modification were the main reactions against wound stress, mainly comprising 109 flavonoid metabolites and 93 wound-induced genes. A group of 21 genes encoding CHS, CHI, DFR, PPO, OMT, LAR, GST, and MYBs were closely related to loureirin B and loureirin C. Wound-induced responses at the metabolome and transcriptome level exhibited phase characteristics. Complex responses containing primary metabolism and flavonoid biosynthesis are involved in the defense mechanism against wound stress in natural conditions, and flavonoid biosynthesis and modification are the main strategies of D. cochinchinensis in the long-term responses to wound stress.

Published
2022
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11. Magnetic Field Sensing Based on Whispering Gallery Mode with Nanostructured Magnetic Fluid-Infiltrated Photonic Crystal Fiber

Author

Chencheng Zhang, Shengli Pu, Zijian Hao, Boyu Wang, Min Yuan, and Yuxiu Zhang

Subjects
whispering gallery mode, microcavity resonator, magnetic field sensor, magnetic fluid, fiber sensor, Chemistry, QD1-999
Abstract

A kind of novel and compact magnetic field sensor has been proposed and investigated experimentally. The proposed sensor consists of a tapered single mode fiber coupled with a nanostructured magnetic fluid-infiltrated photonic crystal fiber, which is easy to be fabricated. The response of magnetic fluid to magnetic field is used to measure the intensity of magnetic field via whispering gallery mode. The magnetic field-dependent shift in resonance wavelength is observed. The maximum magnetic field intensity sensitivity is 53 pm/mT. The sensor sensitivity is inversely proportional to the thickness of the photonic crystal fiber cladding.

Published
2022
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12. Transcriptome analysis of Curcuma wenyujin from Haikou and Wenzhou, and a comparison of the main constituents and related genes of Rhizoma Curcumae.

Author

Lilan Lu, Peiwei Liu, Yanfang Yang, Yuxiu Zhang, Caixia Wang, Jian Feng, and Jianhe Wei

Subjects
Medicine, Science
Abstract

For more than a thousand years, Rhizoma Curcumae (known as E zhu), a Chinese herbal medicine, has been used to eradicate blood stasis and relieve aches. The plant Curcuma wenyujin, which is grown primarily in Wenzhou, China, is considered the best source of Rhizoma Curcumae. In this study, we sought to ascertain differences in transcript profiles of C. wenyujin grown in traditional (Wenzhou) and recently established (Haikou) production areas based on Illumina and RNA (RNA-seq) sequencing. We also examined differences in the main components of the volatile oil terpene; curcumin, polysaccharide, and starch constituents and related genes in the corresponding pathways, in C. wenyujin cultivated in the two production areas. We accordingly found that the essential oil (2.05%), curcumin (1.46%), and polysaccharide (8.90%) content in Wenzhou rhizomes was higher than that in the rhizomes of plants from Haikou (1.60%, 0.91%, and 6.15%, respectively). In contrast, the starch content of Wenzhou rhizomes (17.0%) was lower than that of Haikou rhizomes (23.8%). Furthermore, we detected significant differences in the oil components of Haikou and Wenzhou rhizomes, with curzerene (32.34%), curdione (21.35%), and germacrene B (9.39%) being the primary components of the essential oil derived from Wenzhou rhizomes, and curzerene (20.13%), curdione (14.73%), and cineole (9.76%) being the main constituents in Haikou rhizomes. Transcriptome and qPCR analyses revealed considerable differences in gene expression between Wenzhou and Haikou rhizomes. The expression of terpene, curcumin, and polysaccharide pathway-related genes in Wenzhou rhizomes was significantly up-regulated, whereas the expression of starch-associated genes was significantly down-regulated, compared with those in Haikou rhizomes. Difference in the content of terpene, curcumin, polysaccharides, and starch in rhizomes from the two production areas could be explained in terms of differences in expression of the related genes.

Published
2020
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13. Comparative Genome Analysis Provides Molecular Evidence for Reclassification of the Photosynthetic Bacterium Rhodobacter sphaeroides EBL0706 as a Strain of Luteovulum azotoformans

Author

Haoyu Wang, Xiaoling Sha, Rui Li, Yijing Li, Himel Nahreen Khaleque, Yuxiu Zhang, Tsing Bohu, Zhihui Bai, and Xuliang Zhuang

Subjects
Rhodobacter sphaeroides, Luteovulum azotoformans, reclassification, genome comparison, phylogenetic, Biology (General), QH301-705.5
Abstract

In this study, we conducted a genome-wide comparative analysis of a former Rhodobacter sphaeroides strain EBL0706, which is now recorded as Luteovulum sphaeroides EBL0706. The genome of EBL0706 was compared with that of Luteovulum azotoformans ATCC 17025, Luteovulum azotoformans KA25, and Luteovulum sphaeroides 2.4.1. The average nucleotide identity (ANI), tetra nucleotide signatures (Tetra), digital DNA–DNA hybridization (dDDH) values, comparative genome, and phylogenetic analysis proposed that EBL0706 is a strain of Luteovulum azotoformans. Functional annotations identified a total of 4034 protein-coding genes in the genome of EBL0706, including a complete photosynthetic gene cluster. This study provides genomic molecular verification for the strain EBL0706 to be reclassified to Luteovulum azotoformans.

Published
2021
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14. Design and evaluation of a novel transdermal patch containing diclofenac and teriflunomide for rheumatoid arthritis therapy

Author

Yuxiu Zhang, Dongmei Cun, Xin Kong, and Liang Fang

Subjects
Diclofenac (DA), Teriflunomide (TEF), Organic amine salts, Patch, Rheumatoid arthritis (RA), Pharmacodynamics, Therapeutics. Pharmacology, RM1-950
Abstract

The aim of this study was to design a compound transdermal patch containing diclofenac (DA) and teriflunomide (TEF) for the treatment of rheumatoid arthritis (RA). The various organic amines salts of DA were prepared and their forming was confirmed using DSC and FTIR. The percutaneous permeation of organic amines salt of DA was investigated in vitro using a two-chamber diffusion cell with excised rabbit skin as transdermal barrier. The formulation of the patch was optimized in terms of the concentration of percutaneous permeation enhancer and the loading dose of drugs. The pharmacokinetic behavior of the optimal formulation was studies in rabbits and the anti-inflammatory and analgesic effects of the optimal patch were evaluated with the adjuvant arthritis model in rats and the pain model in mice, respectively. The result showed that skin penetration of diclofenac-triethylamine (DA-TEtA) salt was better than other organic amine salts. Based on previous study of our laboratory, teriflunomide-triethylamine (TEF-TEtA) significantly enhanced the skin permeation of TEF. 10% of azone (AZ) was the best enhancer for the two drugs. The optimal patch formulation was composed of 2% of TEF-TEtA, 6% of DA-TEtA and 10% of AZ. The cumulative permeated amount of DA-TEtA in vitro was comparable with that of the commercial diclofenac-diethylamine (DA-DEtA) patch. The absolute bioavailability of TEF-TEtA was 42%, which could achieve the therapeutic drug levels. In animal study, the optimized compound patch containing DA-TEtA and TEF-TEtA displayed significant anti-inflammatory and analgesic effect, which indicated the potential of the compound patch.

Published
2014
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15. Biochemical Conversion and Microbial Community in Response to Ternary pH Buffer System during Anaerobic Digestion of Swine Manure

Author

Xiaoshan Meng, Yuxiu Zhang, Qianwen Sui, Junya Zhang, Rui Wang, Dawei Yu, Yawei Wang, and Yuansong Wei

Subjects
high solid anaerobic digestion, ternary pH buffer system, ammonia inhibition, VFAs composition, propionate residual, microbial community, Technology
Abstract

The ternary pH buffer system with ammonia-carbonates-volatile fatty acids (VFAs) is essential to anaerobes for bioenergy recovery via anaerobic digestion (AD). However, ammonia and VFAs are recognized as potential inhibitors that depress methanogenesis. In this study, biochemical conversion and the microbial community in batch AD at total solid (TS) from 4% to 14% were investigated to reveal their response to the ternary pH buffer system. The rapid ammonia release, probably promoted by Anaerosphaera and Eubacterium inferred from the concurrent peak of their relative abundance, triggered total ammonia (TAN) inhibition with the accumulation of VFAs in the start-up stage of high solid AD (HSAD, TS ≥ 8%). Along with evolution of the microbial community to resist high TAN and VFAs, methanogenesis recovered with improved degradation of VFAs and reduction of COD. When exposed to 3500 mg·N·L−1 TAN at 8% TS, aceticlastic Methanosarcina became dominant first and then together with hydrogenotrophic Methanoculleus, achieved the optimal biochemical conversion. While in HSAD at 11⁻14% TS, the main pathway of methanogenesis appeared to have shifted from the aceticlastic pathway to the hydrogenotrophic pathway, as inferred by changes in the relative abundance of methanogens, and this could have been induced by the increasing concentration of high free ammonia (FAN, ≥588 mg·N·L−1). Although the anaerobes had acclimatized to high TAN, the propionate-oxidizing bacteria and acetate-oxidizing bacteria might have again been inhibited by high FAN, frustrating the H2 supply for FAN-tolerant Methanoculleus and causing an 8.2⁻11.3% depression of COD reduction (mainly propionate residual).

Published
2018
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27. Effects of Yttrium Content on the Three-Dimensional Compressive Creep Anisotropy of Mg-Y Alloys

Author

Chunyu Wang, Zhirou Zhang, Zhenyu Xiao, Aki Hashimoto, Xuyue Yang, Yuxiu Zhang, and Qinghuan Huo

Subjects
010302 applied physics, Materials science, Metallurgy, Alloy, 0211 other engineering and technologies, Metals and Alloys, 02 engineering and technology, Slip (materials science), engineering.material, Condensed Matter Physics, 01 natural sciences, Precipitation hardening, Creep, Mechanics of Materials, 0103 physical sciences, engineering, Texture (crystalline), Dislocation, Composite material, Crystal twinning, Anisotropy, 021102 mining & metallurgy
Abstract

In this work, the compressive creep behaviors of hot-rolled pure Mg (0Y alloy) and various hot-rolled Mg-Y binary alloys (0.15Y, 1.5Y, 4.5Y, 7.5Y, and 10.5Y alloys) at 523 K were systematically studied under various applied stresses. These alloys all had an average grain size of ~100 μm. The loading directions were parallel to the rolling direction (RD), transverse direction (TD), and normal direction (ND). The creep behaviors were shown to exhibit an obvious dependence on the loading direction in the 0Y, 0.15Y, 1.5Y, and 4.5Y alloys. The creep resistance had a sequence of ND > TD ≥ RD in these alloys. The creep anisotropy of the alloys was caused by 〈a〉 dislocation cross-slipping from the basal plane to the prismatic plane and { $$ 10\bar{1}2 $$ } twinning dominating the creep along the RD and TD, while dislocation climb and pyramidal 〈c + a〉 slip prevailed along the ND. Compared to the 0Y, 0.15Y, and 1.5Y alloys, the more random basal texture in the 4.5Y alloy weakened the cross-slip and twinning along the RD and TD and triggered cross-slip along the ND, resulting in decreased creep anisotropy. For the 7.5Y and 10.5Y alloys, an approximate creep isotropy due to cross-slip and pyramidal 〈c + a〉 slip dominated the creep along all three loading directions. Moreover, compared to the 0Y alloy, the creep resistance was found to be slightly increased in the 0.15Y alloy and significantly increased with increasing the Y content above 1.5 wt pct, which can be attributed to solution strengthening and the promoted pyramidal 〈c + a〉 dislocations collaboratively increasing the creep resistance. The improved hindering effect on twinning also helped to increase the creep resistance along the RD and TD. In addition, dynamic precipitation strengthening assisted the increment of creep resistance in the 10.5Y alloy. Thus, the addition of concentrated Y in Mg alloys is a valid solution to eliminate the compressive creep anisotropy and simultaneously enhance the creep resistance.

Published
2021

28. Vegetation dynamics of coal mining city in an arid desert region of Northwest China from 2000 to 2019

Author

Siyuan Zhou, Yuxiu Zhang, Yufeng Duan, and Jinjin Guo

Subjects
business.industry, fungi, Coal mining, Vegetation, Management, Monitoring, Policy and Law, complex mixtures, Arid, Normalized Difference Vegetation Index, Plant ecology, Period (geology), Environmental science, Physical geography, Precipitation, business, Restoration ecology, Earth-Surface Processes, Water Science and Technology
Abstract

Coal mining has led to serious ecological damages in arid desert region of Northwest China. However, effects of climatic factor and mining activity on vegetation dynamics and plant diversity in this region remain unknown. Wuhai City located in the arid desert region of Northwest China is an industrial city and dominated by coal mining. Based on Landsat data and field investigation in Wuhai City, we analyzed the vegetation dynamics and the relationships with climate factors, coal mining activity and ecological restoration projects from 2000 to 2019. Results showed that vegetation in Wuhai City mostly consisted of desert plants, such as Caragana microphylla, Tetraena mongolica and Achnatherum splendens. And the vegetation fractional coverage (VFC) and greenness rate of change (GRC) showed that vegetation was slightly improved during the study period. Normalized difference vegetation index (NDVI) was positively correlated with annual mean precipitation, relative humidity and annual mean temperature, indicating that these climate factors might play important roles in the improved vegetation. Vegetation coverage and plant diversity around the coal mining area were reduced by coal mining, while the implementation of ecological restoration projects improved the vegetation coverage and plant diversity. Our results suggested that vegetation in the arid desert region was mainly affected by climate factors, and the implementation of ecological restoration projects could mitigate the impacts of coal mining on vegetation and ecological environment.

Published
2021

29. The response of polycyclic aromatic hydrocarbon degradation in coking wastewater treatment after bioaugmentation with biosurfactant-producing bacteria Pseudomonas aeruginosa S5

Author

Chaohai Wei, Haizhen Wu, Yuxiu Zhang, and Tingting Zang

Subjects
Bioaugmentation, Environmental Engineering, pahs, Environmental remediation, Polycyclic aromatic hydrocarbon, Portable water purification, 010501 environmental sciences, 01 natural sciences, Environmental technology. Sanitary engineering, Water Purification, polycyclic compounds, Humans, Polycyclic Aromatic Hydrocarbons, bacteria, Coke, wastewater, TD1-1066, 0105 earth and related environmental sciences, Water Science and Technology, degradation, chemistry.chemical_classification, biology, biosurfactant, toxicity, 04 agricultural and veterinary sciences, Biodegradation, biology.organism_classification, Bioavailability, Biodegradation, Environmental, chemistry, Environmental chemistry, Pseudomonas aeruginosa, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Degradation (geology), Bacteria
Abstract

The polycyclic aromatic hydrocarbons (PAHs) that accumulate during the coking wastewater treatment process are hazardous for the surrounding environment. High molecular weight (HMW) PAHs account for more than 85% of the total PAHs in coking wastewater and sludge, respectively. The degradation of total PAHs increased by 18.97% due to the increased bioavailability of PAHs, after the biosurfactant-producing bacteria Pseudomonas aeruginosa S5 was added. The toxicity of total PAHs to humans was reduced by 26.66% after inoculation with S5. The results suggest biosurfactant-producing bacteria Pseudomonas aeruginosa S5 not only increase the biodegradation of PAHs significantly, but also have a better effect on reducing the human toxicity of PAHs. Kinetic analyses show that PAHs biodegradation fits to first-order kinetics. The degradation rate constant (k) value decreases as the number of PAH rings increases, indicating that HMW PAHs are more difficult to be biodegraded than low molecular weight (LMW) PAHs. The results indicate the bioaugmentation with the biosurfactant-producing strain has significant potential and utility in remediation of PAHs-polluted sites.

Published
2021

32. Performance prediction of ZVI-based anaerobic digestion reactor using machine learning algorithms

Author

Hong Liu, Yaobin Zhang, Fei Long, Keaton Larson Lesnik, Dawei Liang, Weichao Xu, He Zhao, Hongbin Cao, Yuxiu Zhang, and Luguang Wang

Subjects
Mean squared error, Iron, 020209 energy, 02 engineering and technology, 010501 environmental sciences, Raw material, Machine learning, computer.software_genre, 01 natural sciences, Machine Learning, 0202 electrical engineering, electronic engineering, information engineering, Performance prediction, Anaerobiosis, Waste Management and Disposal, 0105 earth and related environmental sciences, Mathematics, Zerovalent iron, business.industry, Random forest, Anaerobic digestion, Mean absolute percentage error, Artificial intelligence, Particle size, business, Methane, computer, Algorithm, Algorithms
Abstract

The use of zero-valent iron (ZVI) to enhance anaerobic digestion (AD) systems is widely advocated as it improves methane production and system stability. Accurate modeling of ZVI-based AD reactor is conducive to predicting methane production potential, optimizing operational strategy, and gathering reference information for industrial design in place of time-consuming and laborious tests. In this study, three machine learning (ML) algorithms, namely random forest (RF), extreme gradient boosting (XGBoost), and deep learning (DL), were evaluated for their feasibility of predicting the performance of ZVI-based AD reactors based on the operating parameters collected in 9 published articles. XGBoost demonstrated the highest accuracy in predicting total methane production, with a root mean squared error (RMSE) of 21.09, compared to 26.03 and 27.35 of RF and DL, respectively. The accuracy represented by mean absolute percentage error also showed the same trend, with 14.26%, 15.14% and 17.82% for XGBoost, RF and DL, respectively. Through the feature importance generated by XGBoost, the parameters of total solid of feedstock (TSf), sCOD, ZVI dosage and particle size were identified as the dominant parameters that affect the methane production, with feature importance weights of 0.339, 0.238, 0.158, and 0.116, respectively. The digestion time was further introduced into the above-established model to predict the cumulative methane production. With the expansion of training dataset, DL outperformed XGBoost and RF to show the lowest RMSEs of 11.83 and 5.82 in the control and ZVI-added reactors, respectively. This study demonstrates the potential of using ML algorithms to model ZVI-based AD reactors.

Published
2021

35. Papillary renal neoplasm with reverse polarity with a favorable prognosis should be separated from papillary renal cell carcinoma

Author

Yang Liu, Huizhi Zhang, Xiangyun Li, Suying Wang, Yuxiu Zhang, Xuemin Zhang, Teng Xu, Yihan Dong, Lei Dong, Luting Zhou, Xiaoqun Yang, and Chaofu Wang

Subjects
Chromosome Aberrations, Humans, Prognosis, Carcinoma, Renal Cell, Nephrectomy, Carcinoma, Papillary, Kidney Neoplasms, Pathology and Forensic Medicine
Abstract

Papillary renal neoplasm with reverse polarity (PRNRP) is a newly documented renal entity with an easily recognizable morphology, distinct immunohistochemical profiles, and frequent KRAS mutations. The latest practice guidelines regard PRNRP as a subtype of papillary renal cell carcinoma due to the documented chromosomal alterations of 7, 17, and Y. This study included 20 patients with PRNRP and 30 patients with PRCC. Statistically significant differences were observed in size, WHO/ISUP grade, macrophages in the papillae, reverse polarity, CK7, basolateral positivity for Claudin7, GATA3 expression, KRAS mutation, and chromosomal alterations. No adverse events such as perinephric invasion, lymphovascular invasion, sarcomatoid of rhabdoid differentiation, metastasis, or recurrence were found in PRNRP. However, PRCC can cause these adverse events. Basolateral positivity for Claudin7 together with GATA3 expression indicated distal tubule derivation of PRNRP. KRAS mutations were detected in 89% (16/18) of PRNRP. No KRAS mutations were detected in PRCC. Six patients with PRNRP had one chromosomal alteration and the other 12 had no chromosomal alterations. However, only four patients with PRCC showed no chromosomal alterations. Eighteen patients had two or three chromosomal alterations. PRCC can metastasize, recur, and even cause death, whereas PRNRP has a favorable prognosis. We recommend that PRNRP should be separated from PRCC and partial nephrectomy is more suitable for PRNRP.

Published
2022

36. Temporal Variation of Nitrogen and Sulfur Species of Food Waste and Sludge during Anaerobic Co-Digestion

Author

Pengzhou Kang, Yuxiu Zhang, Xiaopeng Ge, and Zhi Qian

Subjects
inorganic chemicals, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, food waste, sewage sludge, anaerobic co-digestion, nitrogen, sulfur, Management, Monitoring, Policy and Law
Abstract

Anaerobic co-digestion (AcoD) has been a widely accepted method to treat food waste (FW) and sewage sludge (SS). However, there is a knowledge gap regarding the key speciation transformation of nitrogen and sulfur in AcoD. Here, we explored the changes of nitrogen (N) and sulfur (S) compounds in liquid digestion and biogas, as well as the composition of microbial community structure and related metabolic functions. The results showed that H2S in the biogas was the main form of S in the early stage, and then, it was converted into SO42− and SO32−, while NH3 and NH4+ were the main forms of N during the AcoD. In addition, bacterial diversity was associated with N and S compounds; Syntrophomonas and Aminobacterium were positively correlated to H2S, NH3, NH4+ and SO32−, and Saccharibacteria_genera_incertae_sedis, Candidatus_Cloacamonas and Thermomonas were positively correlated to SO42− and NO2−. Additionally, the FAPROTAX prediction showed that the functional composition related to N and S metabolism was different from SS and inoculum after the AcoD. This study provides detailed information of conversion of N and S of the AcoD, which could lay a foundation for the subsequent regulation of the mechanism of nitrogen and sulfur compounds in the methanogenic process.

Published
2022
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37. Programmed cell death might involve in progress of wounding induced agarwood formation in stems of Aquilaria sinensis

Author

Peiwei Liu, Yuxiu Zhang, Yun Yang, Feifei Lv, and Jianhe Wei

Subjects
Medical Laboratory Technology, Histology, Thymelaeaceae, Apoptosis, Anatomy, Instrumentation, Wood, Resins, Plant
Abstract

Agarwood, a non-timber fragrant wood, is derived from wounded Aquilaria trees (Thymelaeaceae) and is widely used in traditional medicine, incense and perfume. Agarwood-like substances and programmed cell death (PCD) can be induced by wounding signals in the suspension cells and aerial roots of Aquilaria sinensis. In this study, the dynamic process of wound-induced agarwood formation in stems of A. sinensis was observed, and the occurrence of PCD was synchronously detected using techniques such as 4',6-diamidino-2-phenylindole and dUTP nick-end labeling staining. The results showed that the wounding was a induce signal for agarwood resin formation, meanwhile might induce PCD. Interxylary phloem and xylem ray were the main sites of agarwood resin formation and PCD occurrence. There might be a relationship between the spatiotemporal pattern of PCD and agarwood resin formation: more severe PCD corresponded to a higher rate of resin formation but a shorter resin formation time; conversely, slower PCD progression corresponded to a lower rate of resin formation but a longer resin formation time. Our findings are the first to demonstrate that PCD might occur in the process of wound-induced agarwood formation at the tree level, and the spatiotemporal pattern is closely related to the formation of agarwood resin. This study provides valuable insight for further studies on the relationship between PCD and agarwood formation. HIGHLIGHTS: Programmed cell death (PCD) might occur in the process of wound-induced agarwood formation at the tree level. Interxylary phloem and xylem ray were the main sites of agarwood resin formation and PCD occurrence. Spatiotemporal pattern of PCD might have a strong impact on agarwood resin formation.

Published
2022

38. Understanding the Implications of Predicted Function for Assessment of Rapid Bioremediation in a Farmland-Oilfield Mixed Area

Author

Haoyu Wang, Shanghua Wu, Yuxiu Zhang, Tsing Bohu, Zhihui Bai, and Xuliang Zhuang

Subjects
bioremediation, farmland-oilfield mixed areas, functional diversity, microbial community, pollution, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Management, Monitoring, Policy and Law, complex mixtures
Abstract

Farmland-oilfield mixed areas are fragile ecosystems that require dynamic remediation to counteract the undesirable impact of energy development. Practicable assessment methods are pivotal to a fast and accurate evaluation of the in situ bioremediation process. Petroleum pollutants impose component-dependent effects on autochthonous microbiota before and after remediation. Here, the predicted functional response of soil microbiomes to petroleum pollutants was analyzed in a historically polluted farmland-oilfield mixed area from the perspective of developing a set of feasible biomarkers for immediate post-bioremediation evaluation. An array of microbial, genetic, systematic, and phenotypic biomarkers was proposed. Our results showed that the biomarkers could proxy the stage of the bioremediation multidimensionally. We argue that functional diversity should be considered together with microbial community dynamic to evaluate the restoration status of the microbial communities in petroleum-contaminated farmland-oilfield mixed environments.

Published
2022
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45. Extremely high sensitivity magnetic field sensing based on birefringence-induced dispersion turning point characteristics of microfiber coupler

Author

Yongxi Li, Shengli Pu, Dihui Li, Min Yuan, Shaokang Yan, Zijian Hao, Yuxiu Zhang, and Chencheng Zhang

Subjects
Magnetic fluid, Range (particle radiation), Birefringence, business.product_category, Materials science, business.industry, Physics, QC1-999, General Physics and Astronomy, Fiber optics, Birefringence-induced dispersion turning point, Tracking (particle physics), Magnetic field, Wavelength, Magnetic field sensor, Optics, Microfiber, Dispersion (optics), Vernier effect, Sensitivity (control systems), business, Microfiber coupler
Abstract

A kind of ultrasensitive magnetic field sensor based on microfiber coupler and magnetic fluid (MF) is proposed and investigated. As the working wavelength is near the birefringence-induced dispersion turning point (B-DTP), the sensitivity has been enhanced considerably and the maximum sensitivity can achieve −97.856 nm/mT. By tracking the B-DTP, the problem of high sensitivity but narrow detection range can be solved. The temperature sensitivity of the structure is 0.816 nm/℃. The proposed sensor has the advantages of extremely high sensitivity, which has the potential applications in high-precision magnetic field measurement.

Published
2021

49. Influence of pre-straining on creep behaviors of Mg–2Y alloy sheets

Author

Qinghuan Huo, Yuxiu Zhang, Weiying Huang, Zhirou Zhang, Lu Luo, Zhenyu Xiao, Aki Hashimoto, and Xuyue Yang

Subjects
Pre straining, Materials science, Mechanical Engineering, Alloy, Metals and Alloys, 02 engineering and technology, Strain rate, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Creep strain, Creep, Mechanics of Materials, Materials Chemistry, engineering, Texture (crystalline), Dislocation, Composite material, 0210 nano-technology
Abstract

A compressive pre-straining of 0.05 was applied to two Mg–2Y alloy sheets with different initial textures along their normal directions. Creep behaviors of these sheets before and after the pre-straining were investigated at 493 K under stresses ranging from 20 to 100 MPa. The influence of pre-straining on creep behaviors was then discussed. The results show that the effects of pre-straining on creep behaviors of the two sheets are quite different. A profound strengthening effect of this pre-straining is observed on the creep resistance of the extruded sheet with creep strain decreased by half and steady strain rate reduced by 75% at most. By contrast, for the rolled sheet, the improvement of creep resistance by the pre-straining is negligible. The difference lies in the number of anomalous twins introduced by the pre-straining. After the pre-straining, considerable {10–12} anomalous twins have been introduced in the extruded sheet with a random initial texture, compared to the rolled one. Dislocation movements during the creep can be impeded by the large amounts of twins in the pre-strained extruded sheets, resulting in the obvious improved creep resistance. Meanwhile, different predominant dislocation mechanisms are found along different creep directions. Since a more excellent impeding effect of the twins is obtained on cross-slip, better improvement of the creep resistance can be achieved along the TD than along the ED of the pre-strained extruded sheet.

Published
2019

50. A novel phenol and ammonia recovery process for coal gasification wastewater altering the bacterial community and increasing pollutants removal in anaerobic/anoxic/aerobic system

Author

Xuefei Gui, Weichao Xu, Yuxiu Zhang, Hongbin Cao, Yuxing Sheng, Yuping Li, and Pengge Ning

Subjects
Environmental Engineering, Thauera, 010504 meteorology & atmospheric sciences, ved/biology.organism_classification_rank.species, Aerobic treatment system, Wastewater, 010501 environmental sciences, Waste Disposal, Fluid, 01 natural sciences, Thiobacillus, Industrial wastewater treatment, Bioreactors, Ammonia, Environmental Chemistry, Anaerobiosis, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Bacteria, Phenol, biology, ved/biology, Chemistry, Microbiota, biology.organism_classification, Pulp and paper industry, Pollution, Anoxic waters, Aerobiosis, Coal, Alcaligenes, Water Pollutants, Chemical
Abstract

Coal gasification wastewater (CGWW) is a typical toxic and refractory industrial wastewater. Here, a novel phenol and ammonia recovery process (IPE) was employed for CGWW pretreatment, and the coupled system assemble by the IPE process with A2/O system (IPE-A2/O) were operated to enhance the treatment performance of CGWW. The results showed that the IPE pre-treated effluent had a higher BOD5/COD ratio and lower refractory compounds compared to a typical process (MIBK). Subsequent A2/O biological treatment indicated that the A2/O-p system (A2/O system followed IPE process) obtained a higher average COD removal of 92% compared to 87.7% of the control (A2/O-m, A2/O system followed MIBK). The GC-MS analysis suggested that the content of alkanes in the IPE-A2/O effluent was lower than that of the MIBK-A2/O. The high-throughput sequencing revealed Levilinea, Alcaligenes, Acinetobacter, Thauera and Thiobacillus were the core genera in A2/O system. The genera Alcaligenes, Acinetobacter, Thauera and Thiobacillus in the degrading consortium were enriched in the A2/O-p system, leading to increased removals of organic pollutants and TN. These results suggested that the IPE process was a feasible pretreatment method, and the coupled IPE-A2/O system was an alternative technique for treating CGWW.

Published
2019

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