ChMYB1-ChbHLH42-ChTTG1 module regulates abscisic acidinduced anthocyanin biosynthesis in Cerasus humilis

Cerasus humilis is a kind of economic fruit tree peculiar to China,which is widely used in the food,landscape,and pharmaceutical industries.Anthocyanins are a phenolic metabolite that plays an essential role in fruit coloration.However,the regulatory network of C.humilis in anthocyanin biosynthesis is still unclear.In this study,the R2R3-MYB transcription factor ChMYB1 was isolated from the full genome of the species.Yeast one-hybrid,dual-luciferase assays,and GUS staining showed that ChMYB1 significantly increased anthocyanin contents in C.humilis fruit by promoting the expression of ChCHS and ChUFGT by binding MBS(MYB-binding elements).ChMYB1 interacted with ChbHLH42and ChTTG1 to form the MBW complex and further enhanced the expression of ChUFGT.In addition,abscisic acid(ABA)treatment promoted the expression of ChMYB1 and anthocyanin accumulation in C.humilis fruit.Interestingly,ABA treatment enhanced the interaction between ChMYB1 and ChbHLH42.Furthermore,ChABI5 inhibited the interaction between ChMYB1 and ChbHLH42.Our data elucidated the primary molecular mechanism of anthocyanin biosynthesis in C.humilis fruit,deepening the understanding of the regulatory network affecting anthocyanin metabolism in edible fruit crops.

Creep behavior and permeability evolution of coal pillar dam for underground water reservoir

Using goof as water storage space plays a vital role in the ecological environment and economic development of arid mining areas,while the rock strength and the stability of coal pillars in underground water reservoirs are closely related to creep process.In this work,triaxial creep-seepage tests were conducted for coal samples to develop new insights into the creep behavior and permeability evolution.The results showed that the creep deformation and permeability evolution of coal samples exhibit three stages,namely,the compaction hardening stage before the stress threshold,volumetric compaction stage,and volumetric dilatancy stage.The coal permeability decreases first and then increases with the creep strain and it is well correlated with the variation of volumetric strain.

Surface-functionalized cellulose nanocrystals(CNC)and synergisms with surfactant for enhanced oil recovery in low-permeability reservoirs

Nanocellulose,a natural polymeric nanomaterial,has attracted significant attention in enhanced oil recovery(EOR)applications due to its abundance,nanoscale,high oil-water interfacial adsorption ef-ficiency.In this study,surface-functionalized cellulose nanocrystals(SF-CNCs)were prepared via hy-drochloric acid hydrolysis and chemical modification,with adaptable nanosize and considerable dispersion stability in low-permeability reservoirs.The SF-CNCs were structurally characterized by FT-IR,Cryo-TEM,which have a diameter of 5-10 nm and a length of 100-200 nm.The SF-CNC dispersions possessed higher stability and stronger salt-tolerance than those of corresponding CNC dispersions,due to the strong hydrophilicity of the sulfonic acid group.It was synergistically used with a non-ionic surfactant(APG1214)to formulate a combined flooding system(0.1 wt%SF-CNC+0.2 wt%APG1214).The combined flooding system exhibits strong emulsification stability,low oil-water interfacial tension of o.03 mN/m,and the ability to alter the wettability for oil-wetting rocks.Furthermore,the combined system was_able to provide an optimum EOR efficiency of 20.2%in low-permeability cores with 30.13×10^(-3)μm^(2).Notably.it can enlarge the sweep volume and increase the displacement efficiency simultaneously.Overall,the newly formulated nanocellulose/surfactant combined system exhibits a remarkable EoR performance in low-permeability reservoirs.

复合乳化剂替代部分米糠油对肉鸡生长性能、屠宰性能、器官指数和血清生化指标的影响

为研究复合乳化剂替代部分米糠油对肉鸡生长性能、屠宰性能、器官指数和血清生化指标的影响,试验选用108只1日龄AA肉鸡,随机分成3组,每组3个重复,每个重复12只肉鸡。对照组饲喂基础饲粮,试验A组饲喂降能饲粮(基础饲粮代谢能降低0.23 MJ/kg)+复合乳化剂150 g/t,试验B组饲喂降能饲粮(基础饲粮代谢能降低0.43 MJ/kg)+复合乳化剂150 g/t。试验周期为42 d。结果表明:(1)与对照组相比,试验B组肉鸡1~21 d平均日增重显著提高(P<0.05),提高比例为14.00%。在饲粮代谢能降低的情况下,添加复合乳化剂后肉鸡其他各阶段生长性能、肉鸡屠宰率、腹脂率、肝脏指数、脾脏指数和血清生化指标与对照组无显著差异(P>0.05);(2)在饲粮代谢能降低0.23 MJ/kg和0.43 MJ/kg的情况下,试验A组和试验B组每只肉鸡净利润分别提高0.89元和0.11元,投入产出比分别为1:14.83和1:1.57。综上所述,在肉鸡饲粮代谢能降低的情况下,添加复合乳化剂能够弥补饲粮代谢能的降低,改善肉鸡前期生长性能,提高肉鸡经济效益。

Study on Quality Markers of Poria cocos Based on UPLC-Q-TOF-MS and Network Pharmacology Technology

[Objectives]To analyze the main chemical components of traditional Chinese medicine(TCM)Poria cocos by liquid chromatography-mass spectrometry,and explore the active components for P.cocos in the treatment of primary dysmenorrhea(PD)by network pharmacology to predict its quality markers(Q-marker).[Methods]Ultra performance liquid chromatography-quadrupole tandem time-of-flight mass spectrometry(UPLC-Q-TOF-MS)in positive and negative ion mode was used to collect high quality MS and MS/MS data of Poria cocos,and qualitative characterization of the components in Poria cocos was performed using Analyst TF 1.7.1 and PeakView 2.2 software with reference to internal databases and literature.Taking the above identified chemical components as the research object,we used network pharmacology to discover the potential effective components and their key targets of PD,and metabolic pathway enrichment analysis of the core targets was performed to screen the Q-marker of P.cocos based on the five principles of Q-marker of TCM.[Results]UPLC-Q-TOF-MS technique was used to identify 41 chemical components of P.cocos,including 3 amino acids,26 triterpenoids,4 lactones,7 organic acids and 1 adenosine.It was more likely to lose H 2O and CO 2 during cleavage and break at the carbonyl group.The triterpenoids were mainly in the form of[M-H]-peaks in negative ion mode,which was easy to lose some structural fragments such as H 2O,CH 3COOH,CH 4,CO 2,etc.Further network pharmacological analysis showed that 302 targets of chemical components of P.cocos,518 targets of PD,28 common targets of component and disease,and 27 core targets such as PTGS2,ESR1,TNF,IL1B were observed by PPI interactions network analysis.451 biological processes such as hormone response and inflammatory response regulation were obtained by GO enrichment analysis.KEGG enrichment analysis showed that 89 pathways including PI3K/Akt signaling pathway,IL-17 signaling pathway and TNF signaling pathway were obtained.The connectivity value of components was analyzed.The core components with the connectivity value greater than 10,including poricoic acid A,polyporenic acid,polyporenic acid C,and 25-hydroxy-3-epidehydrotumoric acid were selected,while the key targets with the connectivity value greater than 15 included TNF,PTGS2,IL1B and CASP3.Molecular docking between core components and key targets was performed,and most of the docking energy was less than-5 kcal/mol,indicating that the binding between the active components and target proteins of P.cocos was relatively stable,so 23 active components of P.cocos were determined.Following the five principles of Q-marker,four possible Q-markers of P.cocos were predicted,including poricoic acid A,pachymic acid,polyporenic acid C,and 25-hydroxy-3-epidehydrotumoric acid.[Conclusions]P.cocos was mainly composed of triterpenoids,its effect on the treatment of PD may be achieved mainly by poricoic acid A,pachymic acid,polyporenic acid C,and 25-hydroxy-3-epi-dehydrotumoric acid acting on PTGS2,ESR1,TNF,IL1B and other targets to regulate PI3K/Akt signaling pathway,IL-17 signaling pathway,TNF signaling pathway,etc.Based on these active components,poricoic acid A,pachymic acid,polyporenic acid C,and 25-hydroxy-3-epi-dehydrotumoric acid could be taken as Q-markers of P.cocos,which provided a solid basis for further improving the quality standard of P.cocos.

Unraveling the influence of interface defects on antimony trisulfide solar cells

Antimony trisulfide(Sb_(2)S_(3)) solar cells suffer from large open circuit voltage deficits due to their intrinsic defects which limit the power conversion efficiency.Thus,it is important to elucidate these defects’ origin and defects at the interface.Here,we discover that sulfide radical defects have a significant impact on the performance of Sb_(2)S_(3)solar cells.Moreover,it has been illustrated that these defects at the CdS/Sb_(2)S_(3)interface can be reduced by optimizing the deposition process.A trap distribution model is used to quantify the defect density at the CdS/Sb_(2)S_(3)interface.It shows that the interface defects can be reduced by24% by improving the deposition process.This work reveals the importance of interface defects and guides the future optimization of Sb_(2)S_(3)solar cells.

Development and validation of a score predicting mortality for older patients with mitral regurgitation

OBJECTIVE To develop and validate a user-friendly risk score for older mitral regurgitation(MR)patients,referred to as the Elder-MR score.METHODS The China Senile Valvular Heart Disease(China-DVD)Cohort Study functioned as the development cohort,while the China Valvular Heart Disease(China-VHD)Study was employed for external validation.We included patients aged 60 years and above receiving medical treatment for moderate or severe MR(2274 patients in the development cohort and 1929 patients in the validation cohort).Candidate predictors were chosen using Cox’s proportional hazards model and stepwise selection with Akaike’s information criterion.RESULTS Eight predictors were identified:age≥75 years,body mass index<20 kg/m^(2),NYHA class Ⅲ/Ⅳ,secondary MR,anemia,estimated glomerular filtration rate<60 mL/min per 1.73 m^(2),albumin<35 g/L,and left ventricular ejection fraction<60%.The model displayed satisfactory performance in predicting one-year mortality in both the development cohort(C-statistic=0.73,95%CI:0.69-0.77,Brier score=0.06)and the validation cohort(C-statistic=0.73,95%CI:0.68-0.78,Brier score=0.06).The Elder-MR score ranges from 0 to 15 points.At a one-year follow-up,each point increase in the Elder-MR score represents a 1.27-fold risk of death(HR=1.27,95%CI:1.21-1.34,P<0.001)in the development cohort and a 1.24-fold risk of death(HR=1.24,95%CI:1.17-1.30,P<0.001)in the validation cohort.Compared to EuroSCORE II,the Elder-MR score demonstrated superior predictive accuracy for one-year mortality in the validation cohort(C-statistic=0.71 vs.0.70,net reclassification improvement=0.320,P<0.01;integrated discrimination improvement=0.029,P<0.01).CONCLUSIONS The Elder-MR score may serve as an effective risk stratification tool to assist clinical decision-making in older MR patients.

Optimal edge-cloud collaboration based strategies for minimizing valid latency of railway environment monitoring system

Response speed is vital for the railway environment monitoring system,especially for the sudden-onset disasters.The edge-cloud collaboration scheme is proved efficient to reduce the latency.However,the data characteristics and communication demand of the tasks in the railway environment monitoring system are all different and changeable,and the latency contribution of each task to the system is discrepant.Hence,two valid latency minimization strategies based on the edge-cloud collaboration scheme is developed in this paper.First,the processing resources are allocated to the tasks based on the priorities,and the tasks are processed parallly with the allocated resources to minimize the system valid latency.Furthermore,considering the differences in the data volume of the tasks,which will induce the waste of the resources for the tasks finished in advance.Thus,the tasks with similar priorities are graded into the same group,and the serial and parallel processing strategies are performed intra-group and inter-group simultaneously.Compared with the other four strategies in four railway monitoring scenarios,the proposed strategies proved latency efficiency to the high-priority tasks,and the system valid latency is reduced synchronously.The performance of the railway environment monitoring system in security and efficiency will be promoted greatly with the proposed scheme and strategies.

包膜氯化胆碱对反刍动物的营养作用及其应用研究进展

胆碱是动物生长发育必不可少的营养素,具有维持细胞膜完整性、参与脂肪代谢、参与乙酰胆碱合成等多种生理功能。饲料中通常是以氯化胆碱的形式添加,但是普通的氯化胆碱具有吸湿性强、易被瘤胃微生物降解、破坏其他营养物质活性等缺陷。通过包膜处理的氯化胆碱克服了普通氯化胆碱的缺陷,广泛应用于反刍动物生产中。本文就氯化胆碱保护的必要性、氯化胆碱保护方法及包膜氯化胆碱对反刍动物的营养作用进行综述,以期为包膜氯化胆碱在反刍动物生产中的应用提供参考。

Relationship Between Postprandial Blood Glucose,Fasting Insulin,and Glycated Hemoglobin Levels and Early Diabetic Nephropathy in Patients with Type 2 Diabetes Mellitus

Objective:To investigate the relationship between postprandial blood glucose(PBG),fasting insulin(FINS),and glycated hemoglobin(HbA1c)levels and early diabetic nephropathy in patients with type 2 diabetes.Methods:96 cases of type 2 diabetes mellitus treated in our hospital from May 2021 to May 2022 were selected as the research subjects.The patients were divided into two groups according to the urinary albumin excretion rate(UAER),with 53 cases in the type 2 diabetes group(UAER<30μg/min)and 43 cases in the early diabetic nephropathy group(30μg/min≤UAER<300μg/min).PBG,FINS,and HbA1c levels were detected in 87 healthy patients.Results:The levels of PBG,FINS,and HbA1c in the early diabetic nephropathy group were higher than those in the control group(P<0.01)and the type 2 diabetes group(P<0.01).Conclusion:PBG,FINS,and HbA1c are factors affecting the occurrence of diabetic nephropathy in patients with type 2 diabetes;thus,controlling the levels of PBG,FINS,and HbA1c can effectively prevent the occurrence of diabetic nephropathy in type 2 diabetes mellitus.

Clinical Analysis of Diabetic Nephropathy Risk Factors and Correlation with Blood Pressure Control

Objective:To explore the risk factors of diabetic nephropathy and its correlation with blood pressure control.Methods:A retrospective analysis of 80 patients with diabetic nephropathy(diabetic nephropathy group)and another 80 patients with diabetes(diabetic group)who were admitted to the Department of Nephrology and Endocrinology at our hospital from October 2021 to October 2022 was conducted.The general data of the two groups were compared,the influencing factors associated with the two groups were analyzed unilaterally,and unconditional dichotomous logistic regression was performed to analyze the influencing factors in patients with diabetic nephropathy.Results:There were no significant differences in high-density lipoprotein,systolic blood pressure,diastolic blood pressure,and creatinine between the two groups(P>0.05);however,compared with the diabetic group,the DN group had significantly elevated glycated hemoglobin,low-density lipoprotein,24-h urine protein,insulin resistance,and diabetes duration≥10 years(P<0.05).Conclusion:The clinical research on the correlation between the incidence of hypertension and the control of blood pressure in patients with diabetic nephropathy should be strengthened in order to formulate reasonable and feasible treatment plans.

小麦茎部镉积累性状全基因组关联分析及优异位点挖掘

小麦镉(Cd)污染日益加重,严重威胁食品安全和人类健康,培育和应用低镉积累品种是降低镉污染小麦风险的最有效途径之一,通过分子标记辅助手段可加快低镉积累特性小麦的筛选和培育。本研究选用175份小麦种质材料,种植于陕西省镉中度污染农田,对灌浆初期小麦茎部镉含量、镉富集系数和转运系数进行聚类分析,筛选出10个低镉积累特性种质。同时利用小麦660K单核苷酸多态性(SNP)芯片,通过3种模型对茎部镉含量、生物富集系数和转运系数进行全基因组关联分析,共鉴定到33个相关遗传位点,其中28个是新的SNP位点。针对茎部镉含量和转运系数3A上的2个主效QTL,开发了KASP标记,并在验证群体中明确了其准确性和实用性。基于基因注释和同源基因比对,预测了10个基因可能直接参与小麦镉积累转运相关生物过程;其中TraesCS3A02G289200基因是一个热休克转录因子,它在水稻中的同源基因(OsHsfA4a)被验证能够提高水稻对镉的耐受性。10个低镉积累特性种质及相关基因可用于小麦耐镉污染育种及有效分子标记开发。

Ultrasensitive Indium Phosphide Nanomembrane Wearable Gas Sensors

Air quality is deteriorating due to continuing urbanization and industrialization.In particular,nitrogen dioxide(NO_(2))is a biologically and environmentally hazardous byproduct from fuel combustion that is ubiquitous in urban life.To address this issue,we report a high-performance flexible indium phosphide nanomembrane NO_(2)sensor for real-time air quality monitoring.An ultralow limit of detection of~200 ppt and a fast response have been achieved with this device by optimizing the film thickness and doping concentration during indium phosphide epitaxy.By varying the film thickness,a dynamic range of values for NO_(2)detection from parts per trillion(ppt)to parts per million(ppm)level have also been demonstrated under low bias voltage and at room temperature without additional light activation.Flexibility measurements show an adequately stable response after repeated bending.On-site testing of the sensor in a residential kitchen shows that NO_(2)concentration from the gas stove emission could exceed the NO_(2)Time Weighted Average limit,i.e.,200 ppb,highlighting the significance of real-time monitoring.Critically,the indium phosphide nanomembrane sensor element cost is estimated at<0.1 US$due to the miniatured size,nanoscale thickness,and ease of fabrication.With these superior performance characteristics,low cost,and real-world applicability,our indium phosphide nanomembrane sensors offer a promising solution for a variety of air quality monitoring applications.

Individualized management of pregnant women with high hepatitis B virus DNA levels

Hepatitis B is a major health concern in the Asia-Pacific region, and is endemic in China, Southeast Asia, and Africa. Chronic hepatitis B virus (HBV) infection may cause hepatic cirrhosis and liver cancer. It is estimated that there are more than 350 million chronic HBV carriers worldwide, of whom approximately one quarter will die of chronic hepatitis B-related liver diseases. HBV is transmitted horizontally through blood and blood products or by sexual transmission, and vertically from mother to infant. Perinatal infection is the predominant mode of transmission in countries with a high prevalence of hepatitis B surface antigen (HBsAg) carriage, and perinatal transmission leads to high rates of chronic infection. Therefore, it is important to prevent the mother-to-child transmission (MTCT) of HBV. Research has shown that pregnant women with high HBV DNA levels have an increased risk of MTCT. However, most of the obstetrics guidelines do not make a distinction between pregnant women with high HBV DNA levels and those who are HBsAg positive only. This review addresses the management of pregnant women with high levels of HBV viremia, in terms of antiviral therapy, use of hepatitis B immunoglobulin (HBIG), the combined application of hepatitis B vaccine and HBIG, choice of delivery mode and feeding practices. (C) 2014 Baishideng Publishing Group Inc. All rights reserved.

Defect Passivation on Lead-Free CsSnI_(3) Perovskite Nanowires Enables High-Performance Photodetectors with Ultra-High Stability

In recent years,Pb-free CsSnI_(3) perovskite materials with excellent photoelectric properties as well as low toxicity are attracting much atten-tion in photoelectric devices.However,deep level defects in CsSnI_(3),such as high density of tin vacancies,structural deformation of SnI_(6)−octahedra and oxidation of Sn^(2+)states,are the major challenge to achieve high-performance CsSnI_(3)-based photoelectric devices with good stability.In this work,defect passivation method is adopted to solve the above issues,and the ultra-stable and high-performance CsSnI_(3) nanowires(NWs)photodetectors(PDs)are fabricated via incorporating 1-butyl-2,3-dimethylimidazolium chloride salt(BMIMCl)into perovskites.Through materials analysis and theoretical calculations,BMIM+ions can effectively passivate the Sn-related defects and reduce the dark current of CsSnI_(3) NW PDs.To further reduce the dark current of the devices,the polymethyl methacrylate is introduced,and finally,the dual passivated CsSnI_(3) NWPDs show ultra-high performance with an ultra-low dark current of 2×10^(-11) A,a responsivity of up to 0.237 A W^(−1),a high detectivity of 1.18×10^(12) Jones and a linear dynamic range of 180 dB.Furthermore,the unpackaged devices exhibit ultra-high stability in device performance after 60 days of storage in air(25℃,50% humidity),with the device performance remaining above 90%.

Incorporating porphyrin-Pt in light-harvesting metal-organic frameworks for enhanced visible light-driven hydrogen production

Molecular catalysts for H2-evolution are of interest for their integration into light-harvesting complexes for photocatalytic water splitting.Here,we report the meso-tetra(4-carboxyphenyl)porphine[(TCPP)Pt^(Ⅱ)]complex as a molecular H2-evolving photocatalyst using chloranilic acid(CA)as a sacrificial electron donor,the choice of which is critical to the stability of the photocatalyst.When triethanolamine was used,[(TCPP)Pt^(Ⅱ)]decomposed to form Pt nanoparticles.Density functional theory calculations together with evidence from electrochemical and spectroscopic analyses suggested that the catalysis was possibly initiated by a proton-coupled electron transfer(PCET)to form[(TCPP)Pt^(Ⅰ)]-N-H,followed by another electron injection and protonation to form a[(TCPP)Pt^(Ⅱ)-hydride]-N-H intermediate that can release H2.As the whole catalytic cycle involves the injection of multiple electrons,a light-harvesting network should be helpful by providing multiple photo-induced electrons.Thus,we integrated this molecular catalyst into a light-harvesting metal-organic framework to boost its activity by~830 times.This work presents a mechanistic study of the photocatalytic H2 evolution and energy transfer and highlights the importance of a light-harvesting network for multiple electron injections.

Development and calibration of the Moon-based EUV camera for Chang'e-3

The process of development and calibration for the first Moon-based ex- treme ultraviolet （EUV） camera to observe Earth＇s plasmasphere is introduced and the design, test and calibration results are presented. The EUV camera is composed of a multilayer film mirror, a thin film filter, a photon-counting imaging detector, a mech- anism that can adjust the direction in two dimensions, a protective cover, an electronic unit and a thermal control unit. The center wavelength of the EUV camera is 30.2 nm with a bandwidth of 4.6nm. The field of view is 14.7° with an angular resolution of 0.08°, and the sensitivity of the camera is 0.11 count s-1 Rayleigh-1. The geomet- ric calibration, the absolute photometric calibration and the relative photometric cal- ibration are carried out under different temperatures before launch to obtain a matrix that can correct geometric distortion and a matrix for relative photometric correction, which are used for in-orbit correction of the images to ensure their accuracy.

Research Progress on Material Basis,Pharmacological Effect and Clinical Application of Danggui Shaoyao Powder

The research of modern pharmacology displays that main material basis of Danggui Shaoyao Powder exerting efficacy includes ligustilide,paeoniflorin,poria acid,ferulic acid,ligustrazine and so on,and its efficacy is mainly realized by regulating neural receptor-ligand interaction,cytokine release,and TNF-αinflammatory pathway.Systematic study of metabonomics,serum pharmacochemistry and network pharmacology of Danggui Shaoyao Powder sufficiently clarifies its potential pharmacodynamic mechanism,and it could provide scientific theoretical basis for its clinical application.In this paper,by systemically analyzing material basis of Danggui Shaoyao Powder,and exploring its complex pharmacological mechanism and clinical application in vivo,it could comprehensively understand the clinical value of Danggui Shaoyao Powder,so as to provide beneficial reference for further development of the material basis,quality control and classical prescription of Danggui Shaoyao Powder.

Measurement and correlation study of silymarin solubility in supercritical carbon dioxide with and without a cosolvent using semi-empirical models and back-propagation artificial neural networks

The solubility data of compounds in supercritical fluids and the correlation between the experimental solubility data and predicted solubility data are crucial to the development of supercritical technologies. In the present work, the solubility data of silymarin(SM) in both pure supercritical carbon dioxide(SCCO2) and SCCO2 with added cosolvent was measured at temperatures ranging from 308 to 338 K and pressures from 8 to 22 MPa. The experimental data were fit with three semi-empirical density-based models(Chrastil, Bartle and Mendez-Santiago and Teja models) and a back-propagation artificial neural networks(BPANN) model. Interaction parameters for the models were obtained and the percentage of average absolute relative deviation(AARD%) in each calculation was determined. The correlation results were in good agreement with the experimental data. A comparison among the four models revealed that the experimental solubility data were more fit with the BPANN model with AARDs ranging from 1.14% to 2.15% for silymarin in pure SCCO2 and with added cosolvent. The results provide fundamental data for designing the extraction of SM or the preparation of its particle using SCCO2 techniques.

Study of the reinforced mechanism of fly ash on amphiphilic polymer gel

Amphiphilic polymer gels are widely used in heterogeneous reservoirs for conformance control technology.However,in high temperature and high salinity of calcium and magnesium reservoirs,amphiphilic polymer gels cannot maintain effective performance.In this work,a novel reinforced amphiphilic polymer gel(F-PADC gel)was prepared by physically mixing polymer solution and fly ash(FA),which is an extremely low cost material.The viscoelasticity and stability of the F-PADC gel were studied by rheometry and micro-rheometry.The reinforced mechanism of FA on amphiphilic polymer gels was revealed.The results show that the addition of FA can make the gel more robust with a denser network structure.On the fifth day,the elastic modulus(G’)increases from 5.2 to 7.0 Pa and the viscosity modulus(G")increases from 0.4 to 0.6 Pa at the frequency of 1 Hz,which improves the viscoelasticity of the gel system.More importantly,the F-PADC gel does not degrade after aging at 85℃for 180 d.And its viscoelasticity increases obviously,G′and G"increase to 110.0 Pa and 3.5 Pa,respectively,showing excellent anti-aging stability.Moreover,FA amphiphilic polymer gels have a good injectivity and a perfect plugging rate of 98.86%,which is better than that of sole amphiphilic polymer gels.This novel mixed FA amphiphilic polymer gels can prove to be a better alternative to conventional polymer gels to enhance oil recovery in high temperature and high salinity reservoirs.