Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives ...Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.展开更多
City spirit is the soul of the city.The spread of city spirit not only could establish a civilized specimen for citizens,but also create a good cultural atmosphere for the city.Hefei residents’perception of city spir...City spirit is the soul of the city.The spread of city spirit not only could establish a civilized specimen for citizens,but also create a good cultural atmosphere for the city.Hefei residents’perception of city spirit is extensive,and most of Hefei citizens consider the expression words of city spirit are very appropriate,which is enlightened,open-minded,actual and innovate.Great majority of Hefei citizens willing to support the propaganda and promotion of the city spirit,and they think the promotion of the city spirit plays a key role in the way of city’s development.In addition,significant differences in the perception of urban spirituality emerge among residents with different economic and social characteristics.There are four aspects about how to enhance the public perception of city spirit,which including increasing dissemination channels and means,strengthening guidance according to the difference of residents,encouraging participation of community residents,and building good atmosphere depending on the city’s advantages.展开更多
High-resolution seeing through complex scattering media such as turbid water,biological tissues,and mist is a significant challenge because the strong scattering scrambles the light paths and forms the scattering wall...High-resolution seeing through complex scattering media such as turbid water,biological tissues,and mist is a significant challenge because the strong scattering scrambles the light paths and forms the scattering wall.We propose an active polarized iterative optimization approach for high-resolution imaging through complex scattering media.By acquiring a series of sub-polarized images,we can capture the diverse pattern-illuminated images with various high-frequency component information caused by the Brownian motion of complex scattering materials,which are processed using the common-mode rejection of polarization characteristics to extract target information from scattering medium information.Following that,our computational reconstruction technique employs an iterative optimization algorithm that commences with patternilluminated Fourier ptychography for reconstructing the high-resolution scene.It is extremely important that our approach for high-resolution imaging through complex scattering media is not limited by priori information and optical memory effect.The proposed approach is suitable for not only dynamic but also static scattering media,which may find applications in the biomedicine field,such as skin abnormalities,non-invasive blood flow,and superficial tumors.展开更多
Retrogressive landslides in sensitive clays pose significant risks to nearby infrastructure,as natural toe erosion or localized disturbances can trigger progressive block failures.While prior studies have largely reli...Retrogressive landslides in sensitive clays pose significant risks to nearby infrastructure,as natural toe erosion or localized disturbances can trigger progressive block failures.While prior studies have largely relied on two-dimensional(2D)large-deformation analyses,such models overlook key three-dimensional(3D)failure mechanisms and variability effects.This study develops a 3D probabilistic framework by integrating the Coupled Eulerian–Lagrangian(CEL)method with random field theory to simulate retrogressive landslides in spatially variable clay.Using Monte Carlo simulations,we compare 2D and 3D random large-deformation models to evaluate failure modes,runout distances,sliding velocities,and influence zones.The 3D analyses captured more complex failure modes—such as lateral retrogression and asynchronous block mobilization across slope width.Additionally,the 3D analyses predict longer mean runout distances(13.76 vs.11.92 m),wider mean influence distance(11.35 vs.8.73 m),and higher mean sliding velocities(4.66 vs.3.94 m/s)than their 2D counterparts.Moreover,3D models exhibit lower coefficients of variation(e.g.,0.10 for runout distance)due to spatial averaging across slope width.Probabilistic hazard assessment shows that 2D models significantly underpredict near-field failure probabilities(e.g.,48.8%vs.89.9%at 12 m from the slope toe).These findings highlight the limitations of 2D analyses and the importance of multi-directional spatial variability for robust geohazard assessments.The proposed 3D framework enables more realistic prediction of landslide mobility and supports the design of safer,risk-informed infrastructure.展开更多
The undeformed chip thickness and grinding force are key parameters for revealing the material removal mechanism in the grinding process.However,they are difficult to be well expressed due to the ununiformed protrusio...The undeformed chip thickness and grinding force are key parameters for revealing the material removal mechanism in the grinding process.However,they are difficult to be well expressed due to the ununiformed protrusion height and random position distribution of abrasive grains on the abrasive wheel surface.This study investigated the distribution of undeformed chip thickness and grinding force considering the non-uniform characteristics of abrasive wheel in the grinding of K4002 nickel-based superalloy.First,a novel grinding force model was established through a kinematic-geometric analysis and a grain-workpiece contact analysis.Then,a series of grinding experiments were conducted for verifying the model.The results indicate that the distribution of undeformed chip thickness is highly consistent with the Gaussian distribution formula.The increase in the grinding depth mainly leads to an increase in the average value of Gaussian distribution.On the contrary,the increase in the workpiece infeed speed or the decrease in the grinding speed mainly increases the standard deviation of Gaussian distribution.The average and maximum errors of the grinding force model are 4.9%and 14.6%respectively,indicating that the model is of high predication accuracy.展开更多
Pre-harvest sprouting(PHS)describes the germination of physiologically mature grains in spikes prior to harvest in cereal crops.PHS could seriously decrease grain yield and quality,which makes it a major constraint to...Pre-harvest sprouting(PHS)describes the germination of physiologically mature grains in spikes prior to harvest in cereal crops.PHS could seriously decrease grain yield and quality,which makes it a major constraint to cereal production worldwide.A number of PHS-associated genes in cereals have been reported;however,the molecular mechanisms underlying PHS remain largely elusive.Here,we report a CRISPRCas9 mutant with severe PHS in a paddy field.The mutated gene OsMFT2 encodes a phosphatidylethanolamine-binding protein(PEBP).Intriguingly,the OsMFT1,in the same PEBP family,had the opposite effect in controlling rice PHS as does OsMFT2.Germination tests of seeds of chimeric protein-expressing plants revealed that the fourth exon conferred the antagonistic activity of OsMFT1 and OsMFT2 in rice PHS.Additionally,two lines of these plants showed elevated grain numbers per panicle,implying that chimeric protein has potential to significantly increase yield.Moreover,transcriptome analysis and genetic studies indicated that OsMFT1 and OsMFT2 performed opposing functions in rice PHS owing to three co-regulated genes that being contrastingly affected by OsMFT1 and OsMFT2.Overall,it seemed that the proper combination of PEBP family members could obtain optimal PHS resistance and high yield.展开更多
ZnO thin films with varying Ta concentrations were fabricated through magnetron sputtering.The crystallinity and surface morphology of the ZnO films are significantly influenced by the incorporation of Ta,as evidenced...ZnO thin films with varying Ta concentrations were fabricated through magnetron sputtering.The crystallinity and surface morphology of the ZnO films are significantly influenced by the incorporation of Ta,as evidenced by the X-ray diffraction and scanning electron microscopy results.The lattice constants,as determined by X-ray diffraction,contradict the disparity in Ta and Zn ion radii,which is attributed to the impact of interstitial defects.This inconsistency introduces variations in carrier concentration in this experiment compared with prior studies.Subsequent exploration of the luminescent characteristics and emission mechanism of defect levels in Ta-doped ZnO films was conducted through photoluminescence.Furthermore,the factors influencing the bandgap are discussed.展开更多
Fluorine(F)-enriched soils,resulting from geogenic processes or superimposed by anthropogenic activities,have raised significant concerns due to their phytotoxicity and potential threats to human health.Soils in centr...Fluorine(F)-enriched soils,resulting from geogenic processes or superimposed by anthropogenic activities,have raised significant concerns due to their phytotoxicity and potential threats to human health.Soils in central Guizhou Province exhibit F enrichment,with a mean F concentration of 1067 mg/kg.However,the associated human health risks and geochemical mechanisms driving F enrichment in these soils remain insufficiently understood.In areas with a natural geological background,the average concentrations of F in rice,vegetables,drinking water,and ambient air are 1.54 mg/kg,0.54 mg/kg,0.16 mg/L,and 0.29μg/m^(3),respectively.In contrast,samples collected near phosphorous chemical plants demonstrate elevated F concentrations:1.78 mg/kg in rice,1.53 mg/kg in vegetables,0.20 mg/L in drinking water,and 11.98μg/m^(3) in ambient air.Fluorine in soils was immobilized by apatite and clay minerals,and hardly transferred into water and crops.The fixation of F-by Ca^(2+)in water and by Fe/Al hydroxides and clay minerals in bottom sediment further reduces F concentrations in water.As a result,hazard quotient(HQ)values below 1.0 indicate negligible fluorine-related health risk in geological background regions.However,ambient air near phosphorous chemical plant exhibited a 41.3-fold increase in F concentration compared to geological background regions.Fluorine-laden emissions can be directly inhaled or deposited on vegetable leaves and orally ingested into human bodies.Improvement of F-rich waste gas disposal and restricted leafy vegetable cultivation are effective measures to reduce F health risks in phosphorous chemical plant regions.展开更多
Xining,a river valley city in China’s arid region,serves as an important industrial hub with a fragile ecological environment.While groundwater heavy metal pollution in this area has drawn increasing concern,the sour...Xining,a river valley city in China’s arid region,serves as an important industrial hub with a fragile ecological environment.While groundwater heavy metal pollution in this area has drawn increasing concern,the sources and associated human health risks remain inadequately understood.This study analyzed 144 shallow groundwater samples from urban Xining for 14 heavy metals(Fe,Al,B,Mn,Ba,Zn,Pb,Cr^(6+),Ni,Cu,Co,Sb,Cd,and As)using the Nemerow comprehensive pollution index,correlation analysis,and the USEPA health risk assessment model.Results identified Fe,Al,B,Mn,Ba,Pb,Cd,and As as the primary pollutants,especially concentrated in river valley plains.These contaminants primarily originate from natural sedimentary conditions and human activities such as industrial and agricultural development.The pollution indices for Al,Pb,Mn,and Fe exceeded clean water thresholds,indicating serious contamination and the need for enhanced regulation.Health risk assessments revealed that children face greater exposure risks than adults,with arsenic and nickel being the main contributors to carcinogenic risk.Sensitivity analysis further showed that As,Fe,and Cd posed the greatest non-carcinogenic and carcinogenic risks,particularly in human-impacted areas such as the Nanchuan and Beichuan valleys and Ganhegou.These findings provide essential insights for groundwater safety management in plateau river valley cities and similar vulnerable regions.展开更多
Primary liver cancer is the sixth most prevalent malignancy worldwide and the third leading cause of cancer-related death.According to the latest data from the National Cancer Center of China,its mortality rate has ri...Primary liver cancer is the sixth most prevalent malignancy worldwide and the third leading cause of cancer-related death.According to the latest data from the National Cancer Center of China,its mortality rate has risen,making it the country’s second-deadliest tumor.Hepatocellular carcinoma(HCC),the predo-minant histological subtype,remains a substantial therapeutic challenge.Hepa-tectomy is the treatment of choice for HCC;however,because of its insidious onset and aggressive progression,the global 5-year survival rate is only 14.1%,and up to 70%of patients experience recurrence within five years after surgery.Consequently,reducing postoperative recurrence and prolonging survival have become critical research priorities.Currently,no consensus or guidelines exist regarding the clinical efficacy or potential synergistic effects of diagnostic and therapeutic strategies to prevent postoperative recurrence.In recent years,interest has grown in systemic therapies and combined local modalities-particularly targeted agents and immune checkpoint inhibitors,as adjuvant treatments.This review synthesizes recent advances in targeted and immunotherapeutic adjuvant therapies for postoperative HCC to inform clinical practice and improve patient outcomes.展开更多
For an improved understanding of gas enrichment mechanism in the eastern Sichuan Basin,South China,twelve natural gas samples were obtained from carbonate reservoirs of the Upper Permian strata to analyze the hydrocar...For an improved understanding of gas enrichment mechanism in the eastern Sichuan Basin,South China,twelve natural gas samples were obtained from carbonate reservoirs of the Upper Permian strata to analyze the hydrocarbon and non-hydrocarbon gas compositions,stable carbon and hydrogen isotopes ratios of hydrocarbons,and noble gas isotope ratios.The gas samples in the Upper Permian reservoirs principally consist of alkane gas with a dryness ratio ranging from 127.9 to 1564.4.The carbon isotope ratio of methane(δ^(13)C_(1))was almost constant at-34.1 to-31.3‰,but the carbon isotope ratio of ethane(δ^(13)C2)varied from-36.6‰to-25.8‰.The hydrogen isotope ratio of methane(δ^2HC_(1))also displayed a wide range from-137‰to-127‰.The large variations in the dryness ratio,δ^(13)C_(2),andδ^2HC_(1)with almost constantδ^(13)C_(1)suggest the mixing of sapropelic and humic origins for hydrocarbon gases in these reservoirs.A high concentration of hydrogen sulfide(H_(2)S)originated from the thermochemical sulfate reduction(TSR),which was positively correlated withδ^(13)C_(1)(orδ^(13)C_(2))in individual gas fields.TSR alteredδ^(13)C_(1)(orδ^(13)C_(2))and resulted in the abnormal character of isotopic reversal in the individual samples.Theδ^(13)C_(1)(orδ^(13)C_(2))in most gas samples,independent of H_(2)S concentration,further displayed reversed carbon isotopes because of the mixture of thermogenic gases with various thermal maturity levels.The measured argon isotope ratio(^(40)Ar/^(36)Ar)varied from 310 to 1225,which suggests that the oldest 320 Ma source rock age corresponds to Permian shales.The analysis of the gas origin and the identification of primary source rock have made a significant contribution to further understanding the resource potential and distribution of natural gas in the Upper Permian,and have great implications for gas exploration in the eastern Sichuan Basin.展开更多
BACKGROUND Postoperative delirium(POD)is a concerning complication of organ transplantation.With organ transplantation offering hope to patients with end-stage organ disease,understanding the incidence and risk factor...BACKGROUND Postoperative delirium(POD)is a concerning complication of organ transplantation.With organ transplantation offering hope to patients with end-stage organ disease,understanding the incidence and risk factors of POD is crucial,as it can significantly affect patients’prognosis and healthcare costs.AIM To systematically evaluate the incidence and risk factors of POD following organ transplantation to facilitate clinical prevention and optimize patient management and prognosis.METHODS Multiple databases such as PubMed and their reference lists were comprehensively searched using a combination of keywords related to organ transplantation and POD.Relevant observational studies on patients who had undergone solid organ transplantation and randomized controlled trials containing relevant analyses were included.Duplicated,data-deficient,non-English,and non-original data studies were excluded.Data were extracted independently by two researchers and then cross-checked.The Newcastle-Ottawa scale was used to evaluate the quality of the included studies.RevMan 5.3 was employed for data analysis.The pooled incidence of POD was calculated according to the data type,and the fixed or random effect model was employed to analyze risk factors based on heterogeneity.Subsequently,sensitivity analysis and publication bias assessments were performed.RESULTS A total of 39 relevant literatures were included.The overall incidence of POD in the organ transplant group was 20%[95%confidence interval(CI):18%-22%];liver transplant group,22%(95%CI:17%-26%);lung transplant group,34%(95%CI:23%-45%);and kidney transplant group,6%(95%CI:2%-10%).Primary graft dysfunction increased the POD risk,with a pooled odds ratio(OR)(95%CI)of 1.78(1.09-2.91).A history of hepatic encephalopathy increased the POD risk,with a pooled OR(95%CI)of 3.19(2.30-4.43).The higher the Acute Physiology and Chronic Health Evaluation II score,the greater the POD risk,with a pooled OR(95%CI)of 1.52(1.09-2.12).A history of alcohol abuse increased the POD risk,with a pooled OR(95%CI)of 2.84(1.74-4.65).Thus,the higher the model for end-stage liver disease score,the greater the POD risk,with a pooled OR(95%CI)of 2.49(1.14-5.43).POD was more likely to develop in patients with preoperative infections,with a pooled OR(95%CI)of 2.78(1.56-4.97).The use of diuretics increased the POD risk,with a pooled OR(95%CI)of 2.36(1.38-4.04).CONCLUSION In this study,the overall incidence of POD in patients who underwent organ transplantation is 20%.The incidence varies among different types of organ transplantation,and multiple factors can increase the POD risk.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.U2342208)support from NSF/Climate Dynamics Award#2025057。
文摘Predicting monsoon climate is one of the major endeavors in climate science and is becoming increasingly challenging due to global warming. The accuracy of monsoon seasonal predictions significantly impacts the lives of billions who depend on or are affected by monsoons, as it is essential for the water cycle, food security, ecology, disaster prevention, and the economy of monsoon regions. Given the extensive literature on Asian monsoon climate prediction, we limit our focus to reviewing the seasonal prediction and predictability of the Asian Summer Monsoon (ASM). However, much of this review is also relevant to monsoon predictions in other seasons and regions. Over the past two decades, considerable progress has been made in the seasonal forecasting of the ASM, driven by an enhanced understanding of the sources of predictability and the dynamics of seasonal variability, along with advanced development in sophisticated models and technologies. This review centers on advances in understanding the physical foundation for monsoon climate prediction (section 2), significant findings and insights into the primary and regional sources of predictability arising from feedback processes among various climate components (sections 3 and 4), the effects of global warming and external forcings on predictability (section 5), developments in seasonal prediction models and techniques (section 6), the challenges and limitations of monsoon climate prediction (section 7), and emerging research trends with suggestions for future directions (section 8). We hope this review will stimulate creative activities to enhance monsoon climate prediction.
文摘City spirit is the soul of the city.The spread of city spirit not only could establish a civilized specimen for citizens,but also create a good cultural atmosphere for the city.Hefei residents’perception of city spirit is extensive,and most of Hefei citizens consider the expression words of city spirit are very appropriate,which is enlightened,open-minded,actual and innovate.Great majority of Hefei citizens willing to support the propaganda and promotion of the city spirit,and they think the promotion of the city spirit plays a key role in the way of city’s development.In addition,significant differences in the perception of urban spirituality emerge among residents with different economic and social characteristics.There are four aspects about how to enhance the public perception of city spirit,which including increasing dissemination channels and means,strengthening guidance according to the difference of residents,encouraging participation of community residents,and building good atmosphere depending on the city’s advantages.
基金supported by the National Natural Science Foundation of China(Grant Nos.62205259,62075175,62105254,and 62375212)the National Key Laboratory of Infrared Detection Technologies(Grant No.IRDT-23-06)+1 种基金the Fundamental Research Funds for the Central Universities(Grant Nos.XJSJ24028,XJS222202,ZYTS24097,and ZYTS24095)the Open Research Fund of Beijing Key Laboratory of Advanced Optical Remote Sensing Technology.
文摘High-resolution seeing through complex scattering media such as turbid water,biological tissues,and mist is a significant challenge because the strong scattering scrambles the light paths and forms the scattering wall.We propose an active polarized iterative optimization approach for high-resolution imaging through complex scattering media.By acquiring a series of sub-polarized images,we can capture the diverse pattern-illuminated images with various high-frequency component information caused by the Brownian motion of complex scattering materials,which are processed using the common-mode rejection of polarization characteristics to extract target information from scattering medium information.Following that,our computational reconstruction technique employs an iterative optimization algorithm that commences with patternilluminated Fourier ptychography for reconstructing the high-resolution scene.It is extremely important that our approach for high-resolution imaging through complex scattering media is not limited by priori information and optical memory effect.The proposed approach is suitable for not only dynamic but also static scattering media,which may find applications in the biomedicine field,such as skin abnormalities,non-invasive blood flow,and superficial tumors.
基金supported by the National Key Research and Development Program of China(No.2024YFC2815400)the European Commission(Nos.HORIZON MSCA-2024-PF-01 and 101200637)+2 种基金the Opening Fund of the State Key Laboratory of Water Resources Engineering and Management at Wuhan University(No.2024SGG07)the Shandong Provincial Natural Science Foundation(No.ZR2025MS647)the Sand Hazards and Opportunities for Resilience,Energy,and Sustainability(SHORES)Center,funded by Tamkeen under the NYUAD Research Institute Award CG013.
文摘Retrogressive landslides in sensitive clays pose significant risks to nearby infrastructure,as natural toe erosion or localized disturbances can trigger progressive block failures.While prior studies have largely relied on two-dimensional(2D)large-deformation analyses,such models overlook key three-dimensional(3D)failure mechanisms and variability effects.This study develops a 3D probabilistic framework by integrating the Coupled Eulerian–Lagrangian(CEL)method with random field theory to simulate retrogressive landslides in spatially variable clay.Using Monte Carlo simulations,we compare 2D and 3D random large-deformation models to evaluate failure modes,runout distances,sliding velocities,and influence zones.The 3D analyses captured more complex failure modes—such as lateral retrogression and asynchronous block mobilization across slope width.Additionally,the 3D analyses predict longer mean runout distances(13.76 vs.11.92 m),wider mean influence distance(11.35 vs.8.73 m),and higher mean sliding velocities(4.66 vs.3.94 m/s)than their 2D counterparts.Moreover,3D models exhibit lower coefficients of variation(e.g.,0.10 for runout distance)due to spatial averaging across slope width.Probabilistic hazard assessment shows that 2D models significantly underpredict near-field failure probabilities(e.g.,48.8%vs.89.9%at 12 m from the slope toe).These findings highlight the limitations of 2D analyses and the importance of multi-directional spatial variability for robust geohazard assessments.The proposed 3D framework enables more realistic prediction of landslide mobility and supports the design of safer,risk-informed infrastructure.
基金financially supported by the National Natural Science Foundation of China(Nos.92160301,92060203,52175415 and 52205475)the Science Center for Gas Turbine Project(Nos.P2022-AB-Ⅳ-002-001 and P2023-B-Ⅳ-003-001)+3 种基金the Jiangsu Key Laboratory of Precision and Micro-Manufacturing Technology(No.JSKL2223K01)the Natural Science Foundation of Jiangsu Province(No.BK20210295)the Superior Postdoctoral Project of Jiangsu Province(No.2022ZB215)the Henan Science and Technology Public Relations Project(No.212102210445).
文摘The undeformed chip thickness and grinding force are key parameters for revealing the material removal mechanism in the grinding process.However,they are difficult to be well expressed due to the ununiformed protrusion height and random position distribution of abrasive grains on the abrasive wheel surface.This study investigated the distribution of undeformed chip thickness and grinding force considering the non-uniform characteristics of abrasive wheel in the grinding of K4002 nickel-based superalloy.First,a novel grinding force model was established through a kinematic-geometric analysis and a grain-workpiece contact analysis.Then,a series of grinding experiments were conducted for verifying the model.The results indicate that the distribution of undeformed chip thickness is highly consistent with the Gaussian distribution formula.The increase in the grinding depth mainly leads to an increase in the average value of Gaussian distribution.On the contrary,the increase in the workpiece infeed speed or the decrease in the grinding speed mainly increases the standard deviation of Gaussian distribution.The average and maximum errors of the grinding force model are 4.9%and 14.6%respectively,indicating that the model is of high predication accuracy.
基金supported by the National Natural Science Foundation of China(32172059)Fundamental Research Funds for the Central Universities(SWUXDJH202315).
文摘Pre-harvest sprouting(PHS)describes the germination of physiologically mature grains in spikes prior to harvest in cereal crops.PHS could seriously decrease grain yield and quality,which makes it a major constraint to cereal production worldwide.A number of PHS-associated genes in cereals have been reported;however,the molecular mechanisms underlying PHS remain largely elusive.Here,we report a CRISPRCas9 mutant with severe PHS in a paddy field.The mutated gene OsMFT2 encodes a phosphatidylethanolamine-binding protein(PEBP).Intriguingly,the OsMFT1,in the same PEBP family,had the opposite effect in controlling rice PHS as does OsMFT2.Germination tests of seeds of chimeric protein-expressing plants revealed that the fourth exon conferred the antagonistic activity of OsMFT1 and OsMFT2 in rice PHS.Additionally,two lines of these plants showed elevated grain numbers per panicle,implying that chimeric protein has potential to significantly increase yield.Moreover,transcriptome analysis and genetic studies indicated that OsMFT1 and OsMFT2 performed opposing functions in rice PHS owing to three co-regulated genes that being contrastingly affected by OsMFT1 and OsMFT2.Overall,it seemed that the proper combination of PEBP family members could obtain optimal PHS resistance and high yield.
基金supported by the National Natural Science Foundation of China(61774140).
文摘ZnO thin films with varying Ta concentrations were fabricated through magnetron sputtering.The crystallinity and surface morphology of the ZnO films are significantly influenced by the incorporation of Ta,as evidenced by the X-ray diffraction and scanning electron microscopy results.The lattice constants,as determined by X-ray diffraction,contradict the disparity in Ta and Zn ion radii,which is attributed to the impact of interstitial defects.This inconsistency introduces variations in carrier concentration in this experiment compared with prior studies.Subsequent exploration of the luminescent characteristics and emission mechanism of defect levels in Ta-doped ZnO films was conducted through photoluminescence.Furthermore,the factors influencing the bandgap are discussed.
基金supported by the projects of the China Geological Survey(DD20230543,DD20221770).
文摘Fluorine(F)-enriched soils,resulting from geogenic processes or superimposed by anthropogenic activities,have raised significant concerns due to their phytotoxicity and potential threats to human health.Soils in central Guizhou Province exhibit F enrichment,with a mean F concentration of 1067 mg/kg.However,the associated human health risks and geochemical mechanisms driving F enrichment in these soils remain insufficiently understood.In areas with a natural geological background,the average concentrations of F in rice,vegetables,drinking water,and ambient air are 1.54 mg/kg,0.54 mg/kg,0.16 mg/L,and 0.29μg/m^(3),respectively.In contrast,samples collected near phosphorous chemical plants demonstrate elevated F concentrations:1.78 mg/kg in rice,1.53 mg/kg in vegetables,0.20 mg/L in drinking water,and 11.98μg/m^(3) in ambient air.Fluorine in soils was immobilized by apatite and clay minerals,and hardly transferred into water and crops.The fixation of F-by Ca^(2+)in water and by Fe/Al hydroxides and clay minerals in bottom sediment further reduces F concentrations in water.As a result,hazard quotient(HQ)values below 1.0 indicate negligible fluorine-related health risk in geological background regions.However,ambient air near phosphorous chemical plant exhibited a 41.3-fold increase in F concentration compared to geological background regions.Fluorine-laden emissions can be directly inhaled or deposited on vegetable leaves and orally ingested into human bodies.Improvement of F-rich waste gas disposal and restricted leafy vegetable cultivation are effective measures to reduce F health risks in phosphorous chemical plant regions.
基金supported by the projects of the Geological Survey(DD20240501104,DD20230422).
文摘Xining,a river valley city in China’s arid region,serves as an important industrial hub with a fragile ecological environment.While groundwater heavy metal pollution in this area has drawn increasing concern,the sources and associated human health risks remain inadequately understood.This study analyzed 144 shallow groundwater samples from urban Xining for 14 heavy metals(Fe,Al,B,Mn,Ba,Zn,Pb,Cr^(6+),Ni,Cu,Co,Sb,Cd,and As)using the Nemerow comprehensive pollution index,correlation analysis,and the USEPA health risk assessment model.Results identified Fe,Al,B,Mn,Ba,Pb,Cd,and As as the primary pollutants,especially concentrated in river valley plains.These contaminants primarily originate from natural sedimentary conditions and human activities such as industrial and agricultural development.The pollution indices for Al,Pb,Mn,and Fe exceeded clean water thresholds,indicating serious contamination and the need for enhanced regulation.Health risk assessments revealed that children face greater exposure risks than adults,with arsenic and nickel being the main contributors to carcinogenic risk.Sensitivity analysis further showed that As,Fe,and Cd posed the greatest non-carcinogenic and carcinogenic risks,particularly in human-impacted areas such as the Nanchuan and Beichuan valleys and Ganhegou.These findings provide essential insights for groundwater safety management in plateau river valley cities and similar vulnerable regions.
基金Supported by the Lianyungang Comprehensive Cancer Management and Technology Advancement Project,No.QN202302the First People’s Hospital of Lianyungang Young Talent Development Initiative,No.QN2212Jiangsu Society of Research Hospital Translational Medicine Research Grant,No.2024-GDZXKT-01-07.
文摘Primary liver cancer is the sixth most prevalent malignancy worldwide and the third leading cause of cancer-related death.According to the latest data from the National Cancer Center of China,its mortality rate has risen,making it the country’s second-deadliest tumor.Hepatocellular carcinoma(HCC),the predo-minant histological subtype,remains a substantial therapeutic challenge.Hepa-tectomy is the treatment of choice for HCC;however,because of its insidious onset and aggressive progression,the global 5-year survival rate is only 14.1%,and up to 70%of patients experience recurrence within five years after surgery.Consequently,reducing postoperative recurrence and prolonging survival have become critical research priorities.Currently,no consensus or guidelines exist regarding the clinical efficacy or potential synergistic effects of diagnostic and therapeutic strategies to prevent postoperative recurrence.In recent years,interest has grown in systemic therapies and combined local modalities-particularly targeted agents and immune checkpoint inhibitors,as adjuvant treatments.This review synthesizes recent advances in targeted and immunotherapeutic adjuvant therapies for postoperative HCC to inform clinical practice and improve patient outcomes.
基金supported by the National Natural Science Foundation of China(Nos.42072184 and 41702157)the Science and Technology Cooperation Project of the CNPC-SWPU Innovation Alliance。
文摘For an improved understanding of gas enrichment mechanism in the eastern Sichuan Basin,South China,twelve natural gas samples were obtained from carbonate reservoirs of the Upper Permian strata to analyze the hydrocarbon and non-hydrocarbon gas compositions,stable carbon and hydrogen isotopes ratios of hydrocarbons,and noble gas isotope ratios.The gas samples in the Upper Permian reservoirs principally consist of alkane gas with a dryness ratio ranging from 127.9 to 1564.4.The carbon isotope ratio of methane(δ^(13)C_(1))was almost constant at-34.1 to-31.3‰,but the carbon isotope ratio of ethane(δ^(13)C2)varied from-36.6‰to-25.8‰.The hydrogen isotope ratio of methane(δ^2HC_(1))also displayed a wide range from-137‰to-127‰.The large variations in the dryness ratio,δ^(13)C_(2),andδ^2HC_(1)with almost constantδ^(13)C_(1)suggest the mixing of sapropelic and humic origins for hydrocarbon gases in these reservoirs.A high concentration of hydrogen sulfide(H_(2)S)originated from the thermochemical sulfate reduction(TSR),which was positively correlated withδ^(13)C_(1)(orδ^(13)C_(2))in individual gas fields.TSR alteredδ^(13)C_(1)(orδ^(13)C_(2))and resulted in the abnormal character of isotopic reversal in the individual samples.Theδ^(13)C_(1)(orδ^(13)C_(2))in most gas samples,independent of H_(2)S concentration,further displayed reversed carbon isotopes because of the mixture of thermogenic gases with various thermal maturity levels.The measured argon isotope ratio(^(40)Ar/^(36)Ar)varied from 310 to 1225,which suggests that the oldest 320 Ma source rock age corresponds to Permian shales.The analysis of the gas origin and the identification of primary source rock have made a significant contribution to further understanding the resource potential and distribution of natural gas in the Upper Permian,and have great implications for gas exploration in the eastern Sichuan Basin.
基金Supported by the Health Commission of Guangxi Zhuang Autonomous Region Self-Funded Research Projects,No.Z20180575 and No.Z-A20231058.
文摘BACKGROUND Postoperative delirium(POD)is a concerning complication of organ transplantation.With organ transplantation offering hope to patients with end-stage organ disease,understanding the incidence and risk factors of POD is crucial,as it can significantly affect patients’prognosis and healthcare costs.AIM To systematically evaluate the incidence and risk factors of POD following organ transplantation to facilitate clinical prevention and optimize patient management and prognosis.METHODS Multiple databases such as PubMed and their reference lists were comprehensively searched using a combination of keywords related to organ transplantation and POD.Relevant observational studies on patients who had undergone solid organ transplantation and randomized controlled trials containing relevant analyses were included.Duplicated,data-deficient,non-English,and non-original data studies were excluded.Data were extracted independently by two researchers and then cross-checked.The Newcastle-Ottawa scale was used to evaluate the quality of the included studies.RevMan 5.3 was employed for data analysis.The pooled incidence of POD was calculated according to the data type,and the fixed or random effect model was employed to analyze risk factors based on heterogeneity.Subsequently,sensitivity analysis and publication bias assessments were performed.RESULTS A total of 39 relevant literatures were included.The overall incidence of POD in the organ transplant group was 20%[95%confidence interval(CI):18%-22%];liver transplant group,22%(95%CI:17%-26%);lung transplant group,34%(95%CI:23%-45%);and kidney transplant group,6%(95%CI:2%-10%).Primary graft dysfunction increased the POD risk,with a pooled odds ratio(OR)(95%CI)of 1.78(1.09-2.91).A history of hepatic encephalopathy increased the POD risk,with a pooled OR(95%CI)of 3.19(2.30-4.43).The higher the Acute Physiology and Chronic Health Evaluation II score,the greater the POD risk,with a pooled OR(95%CI)of 1.52(1.09-2.12).A history of alcohol abuse increased the POD risk,with a pooled OR(95%CI)of 2.84(1.74-4.65).Thus,the higher the model for end-stage liver disease score,the greater the POD risk,with a pooled OR(95%CI)of 2.49(1.14-5.43).POD was more likely to develop in patients with preoperative infections,with a pooled OR(95%CI)of 2.78(1.56-4.97).The use of diuretics increased the POD risk,with a pooled OR(95%CI)of 2.36(1.38-4.04).CONCLUSION In this study,the overall incidence of POD in patients who underwent organ transplantation is 20%.The incidence varies among different types of organ transplantation,and multiple factors can increase the POD risk.
