Your search keyword '"Li, Yunyun"' showing total 34 results

1. Exciton-harvesting enabled efficient charged particle detection in zero-dimensional halides.

Author

Wang, Qian, Wang, Chenger, Shi, Hongliang, Chen, Jie, Yang, Junye, Beitlerova, Alena, Kucerkova, Romana, Zhou, Zhengyang, Li, Yunyun, Nikl, Martin, Sun, Xilei, OuYang, Xiaoping, and Wu, Yuntao

Published

2024

2. Spatiotemporal heterogeneity in meteorological and hydrological drought patterns and propagations influenced by climatic variability, LULC change, and human regulations.

Author

Li, Yunyun, Huang, Yi, Li, Yanchun, Zhang, Hongxue, Fan, Jingjing, Deng, Qian, and Wang, Xuemei

Subjects

*DROUGHT forecasting, *WATER management, *DROUGHTS, *CLIMATIC zones, *ARID regions, *TIME series analysis

Abstract

This study aims to quantify meteorological–hydrological drought propagations and examine the potential impacts by climatic variability, LULC change (LULC), and human regulations. An integrated observation-modeling framework quantifies drought propagation intervals and assesses mechanisms influencing hydrological droughts. Meteorological droughts are characterized using the Standardized Precipitation Evapotranspiration Index (SPEI), and hydrological droughts are assessed through the Standardized Streamflow Index (SSI) across diverse climatic zones. Cross-correlation analysis between SPEI and SSI time series identifies the lag time associated with the highest correlation as the drought propagation interval. Mechanisms are investigated via a coupled empirical-process modeling framework incorporating the Soil and Water Assessment Tool (SWAT). Discrepancies between simulated and observed SSI time series help quantify the extent of human regulation impacts on hydrological drought characteristics and propagation. The Yellow River Basin (YRB), divided into six subzones based on climate characteristics, is selected as the case study. Key findings include: (1) Meteorological droughts were extremely severe across most YRB during the 1990s, while the 2000s showed some mitigation primarily due to precipitation increases. (2) Hydrological droughts and propagation times from meteorology to hydrology demonstrated substantial spatiotemporal variability. In general, summer propagation times were shorter than other seasons. (3) Propagation times were shorter in arid regions with cropland or built-up land cover versus grassland and woodland, while the reverse held for humid regions. (4) Human regulations prolonged propagation times, likely due to reservoir regulations designed to overcome water deficits. While the YRB is the focus of this paper, the methodologies and findings are applicable to other regions worldwide to enhance drought forecasting and water resource management. In various hydrological and climatic contexts worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

3. Elevational characteristics of soil bacterial community and their responses to soil translocation at a mountainside in northwest Sichuan, China.

Author

Wang, Xuemei, Huang, Tianzhi, Li, Yunyun, Zhao, Guang, and Zhao, Jixia

Subjects

BACTERIAL communities, SOILS, SOIL density, SOIL temperature, BACTERIAL diversity

Abstract

How the soil bacterial communities vary with elevation is context-dependent, and the effect of soil translocation between elevations on bacterial community structure and metabolic function was not fully understood yet. Here, the bacterial community composition and diversity at five elevations along a 1600–3000 m elevation gradient on a mountainside in northwest Sichuan were characterized, and the responses of soil bacterial community to simulated climate changes were further studied by soil translocation reciprocally at three elevations for 12 months. Significant differences were found in soil temperature and moisture at different elevations, but there was no observed change in bacterial alpha diversity. The relative abundance of bacterial phyla was significantly different among the five elevations except for Proteobacteria (the dominant bacterial phyla in five elevation), and most bacterial phyla correlated with soil temperature, moisture, pH and soil bulk density. The direct effect of soil properties (pH, soil nutrients and soil bulk density) on soil bacterial community was stronger than the direct effect of temperature and moisture. Soil translocation changed the relative abundance of some bacterial phyla, and taxonomic groups with significant changes were mainly non-dominant phyla rather than the dominant phyla. Metabolism was the primary function of bacterial community at all elevations, which accounted for ~ 80% of relative abundance, and soil translocation had little effect on metabolic function. These findings indicated that soil bacterial dominant taxa and soil bacterial metabolic functions are relatively stable, which contribute to the stability of the ecosystem when response to the climate change in the future. [ABSTRACT FROM AUTHOR]

Published

2023

4. Developmental trajectory of time perception from childhood to adolescence.

Author

Li, Yunyun, Gu, Jingjin, Zhao, Ke, and Fu, Xiaolan

Subjects

TIME perception, ADOLESCENCE, AGE groups, TEENAGERS

Abstract

Time perception is crucial for every human activity. However, it remains unclear how temporal performance changes from childhood to adolescence. Therefore, we examined the continuous development of interval timing perception in children and adolescents. In this study, participants aged from 7 to 17 performed a temporal bisection task. They received the short and the long standard stimulus durations and then judged the similarity of seven comparison durations to the short or the long standard durations. Results of indices of time perception showed that the bisection points did not differ across age groups. In contrast, the time sensitivity reflected by the difference limen and the Weber ratio improved from childhood to adolescence. It was further revealed that the development of time sensitivity consisted of two stages. In the stage of 7 to 11 years old, the time sensitivity increased with age, while in the stage of 12 to 17 years old, the time sensitivity was similar across age groups. Our findings reveal dissociable developmental patterns for different indices of the bisection behavior, mapping the continuous developmental trajectory of time perception throughout childhood and adolescence. [ABSTRACT FROM AUTHOR]

Published

2023

5. Molecular characterization of organic matter transformation mediated by microorganisms under anoxic/hypoxic conditions.

Author

Xiao, Shicong, Chen, Jiaxin, Shen, Yuan, Chen, Qi, Wang, Yu, Li, Yunyun, He, Chen, Cai, Ruanhong, Shi, Quan, Jiao, Nianzhi, and Zheng, Qiang

Subjects

ARTIFICIAL seawater, ION cyclotron resonance spectrometry, DISSOLVED organic matter, ORGANIC compounds, TERRITORIAL waters, MICROBIAL metabolism

Abstract

Dissolved organic matter (DOM) in the ocean is one of the largest carbon pools on Earth. Microbial metabolism is an important process that shapes the marine DOM pool. Current studies on the interactions between microorganisms and DOM focus mainly on oxic environments. Few studies have addressed the molecular characteristics of DOM in microbial-mediated transformation under anoxic/hypoxic conditions. As a result of deteriorating water quality due to eutrophication and global warming, anoxia occurs frequently in coastal waters. In this study, we performed an experiment to investigate changes in microbial community responses and the molecular characteristics of DOM in microbial-mediated transformation under hypoxic conditions. We compared microbial-mediated DOM transformation at different dissolved oxygen levels (7, 5, and 2 mg L −1) and in different media (natural and artificial seawater with and without laminarin). We also investigated differences in DOM composition between groups using spectroscopic analysis and ultrahigh-resolution Fourier transform ion cyclotron resonance mass spectrometry. The results showed decreased microbial metabolic activity and delayed community succession at low oxygen (⩽2 mg L −1) in natural seawater supplemented with laminarin. The growth of strictly aerobic bacteria such as Pseudomonadaceae and Sphingomonadaceae was inhibited and the total organic carbon utilization rate was reduced by 36.9–6.7% from 4 to 32 days. Moreover, tyrosine-like and tryptophan-like components were preserved, while DOM humification and modified aromaticity index were significantly reduced under low oxygen conditions. This experiment provides justification for further study of the processes and mechanisms of improved labile DOM preservation in anoxic estuarine and coastal waters. [ABSTRACT FROM AUTHOR]

Published

2023

6. PHB2 promotes colorectal cancer cell proliferation and tumorigenesis through NDUFS1-mediated oxidative phosphorylation.

Author

Ren, Lin, Meng, Li, Gao, Jing, Lu, Mingdian, Guo, Chengyu, Li, Yunyun, Rong, Ziye, and Ye, Yan

Published

2023

7. Assessment of the Bioavailability of Mercury Sulfides in Paddy Soils Using Sodium Thiosulfate Extraction - Results from Microcosm Experiments.

Author

Li, Hong, Li, Yunyun, Tang, Wenli, Zhong, Huan, Zhao, Jiating, Bai, Xu, Sha, Shengnan, Xu, Diandou, Lei, Pei, and Gao, Yuxi

Subjects

MERCURY sulfide, BIOAVAILABILITY, SODIUM, LITHOSPHERE, CHEMICAL speciation

Abstract

Mercury sulfides (HgS), one of the largest Hg sinks in the lithosphere, has long been considered to be highly inert. Recently, several HgS speciation (e.g., nano- or micro-sized HgS particles) in paddy soils have been found to be reactive and bioavailable, increasing the possibility of methylation and bioaccumulation and posing a potential risk to humans. However, a simple and uniform method for investigating HgS bioavailability is still lacking. To address this issue, we extracted dissolved Hg from HgS particles by sodium thiosulfate (Na2S2O3) in paddy soils and analyzed the correlation between extracted Hg and soil methylmercury (MeHg). Results showed that the amounts of Hg extracted by Na2S2O3 had a strong positive correlation with the levels of soil MeHg (R2adj = 0.893, p < 0.05). It is suggested that Na2S2O3 extraction may be a good method of predicting Hg bioavailability in paddy soils. Our results would help to give clues in better predicting Hg risk in natural environments. [ABSTRACT FROM AUTHOR]

Published

2022

8. Correction: Botanic Metallomics of Mercury and Selenium: Current Understanding of Mercury‑Selenium Antagonism in Plant with the Traditional and Advanced Technology.

Author

Bai, Xu, Li, Yunyun, Liang, Xujun, Li, Hong, Zhao, Jiating, Li, Yu-Feng, and Gao, Yuxi

Published

2024

9. Proof of concept for developing novel feeds for cattle from wasted food and crop biomass to enhance agri-food system efficiency.

Author

Dou, Zhengxia, Toth, John D., Pitta, Dipti W., Bender, Joseph S., Hennessy, Meagan L., Vecchiarelli, Bonnie, Indugu, Nagaraju, Chen, Ting, Li, Yunyun, Sherman, Rachel, Deutsch, Jonathan, Hu, Bo, Shurson, Gerald C., Parsons, Brianna, and Baker, Linda D.

Subjects

FOOD waste, CATTLE feeding & feeds, ENERGY crops, FOOD crops, CROP residues, FISH eggs, CORN

Abstract

Modern agri-food systems generate large amounts of crop-based biomass that are unfit for direct human consumption but potentially suitable for livestock feeding in production of meats, milk, and eggs. This study aims to develop novel feeds for cattle from some of those biomass materials through the natural microbial-driven processes of ensiling. Fruit and vegetables resembling supermarket discards were ensiled alone or co-ensiled with corn crop residues, mushroom wastes, etc. via laboratory experiments. Longitudinal sample analyses showed that (co-)ensiling was successful, with pH and fermentation acids changing rapidly into desirable ranges (pH < 4.5, the acids 5–13% DM with lactic acid dominating). The (co-)ensiled products had key nutritional parameters comparable to those of good quality forages commonly used on dairy farms. Additionally, in vitro incubation experiments indicated that the ensiled products could substitute certain conventional feeds while maintaining diet digestibility. Findings from this pilot study provide a proof of principle that quality novel feeds for cattle can be generated by co-ensiling food discards and low-value crop residues. Future research and animal feeding trials to demonstrate the utility of this approach can help societies more effectively utilize untapped biomass resources, strengthening the regenerative capacity of agri-food systems towards a more sustainable food future. [ABSTRACT FROM AUTHOR]

Published

2022

10. Oyster shell amendment reduces cadmium and lead availability and uptake by rice in contaminated paddy soil.

Author

Zeng, Tao, Guo, Jingxia, Li, Yunyun, and Wang, Guo

Subjects

OYSTER shell, SOIL pollution, DISSOLVED organic matter, HEAVY metal toxicology, CADMIUM, PADDY fields, RHIZOSPHERE, HEAVY metals

Abstract

Contamination with cadmium (Cd) and lead (Pb) in rice and paddy soil threatens food safety and human health. This study determined the effects of oyster shell amendment (0, 6, and 12 g kg−1) on the mobility and uptake of Cd and Pb by two rice plants (ZY18, japonica and DL5, indica) in contaminated paddy soil. Oyster shell amendment significantly increased the pH of soil and pore water, and decreased the DTPA-extractable Cd concentration in soil, but not the Cd concentration in pore water. Furthermore, the DTPA-extractable Pb concentration in rhizosphere soil was not significantly influenced by oyster shell addition. Application of oyster shell reduced the Pb concentration in pore water and Pb uptake by both cultivars, but excessive application (12 g kg−1) resulted in Cd accumulation in tissues for ZY18. Furthermore, oyster shell addition significantly increased the dissolved organic carbon, calcium, and magnesium concentrations in soil pore water, and decreased glutathione and phytochelatin levels in roots, all of which alleviated heavy metal toxicity and improved rice growth. These results demonstrate that amendment with the appropriate amount of oyster shell, combined with rice cultivar type, could simultaneously reduce Cd and Pb accumulation in rice grown in heavy metal–contaminated soil. [ABSTRACT FROM AUTHOR]

Published

2022

11. Non-Gaussian normal diffusion in low dimensional systems.

Author

Yin, Qingqing, Li, Yunyun, Marchesoni, Fabio, Nayak, Subhadip, and Ghosh, Pulak K.

Abstract

Brownian particles suspended in disordered crowded environments often exhibit non-Gaussian normal diffusion (NGND), whereby their displacements grow with mean square proportional to the observation time and non-Gaussian statistics. Their distributions appear to decay almost exponentially according to “universal” laws largely insensitive to the observation time. This effect is generically attributed to slow environmental fluctuations, which perturb the local configuration of the suspension medium. To investigate the microscopic mechanisms responsible for the NGND phenomenon, we study Brownian diffusion in low dimensional systems, like the free diffusion of ellipsoidal and active particles, the diffusion of colloidal particles in fluctuating corrugated channels and Brownian motion in arrays of planar convective rolls. NGND appears to be a transient effect related to the time modulation of the instantaneous particle’s diffusivity, which can occur even under equilibrium conditions. Consequently, we propose to generalize the definition of NGND to include transient displacement distributions which vary continuously with the observation time. To this purpose, we provide a heuristic one-parameter function, which fits all time-dependent transient displacement distributions corresponding to the same diffusion constant. Moreover, we reveal the existence of low dimensional systems where the NGND distributions are not leptokurtic (fat exponential tails), as often reported in the literature, but platykurtic (thin sub-Gaussian tails), i.e., with negative excess kurtosis. The actual nature of the NGND transients is related to the specific microscopic dynamics of the diffusing particle. [ABSTRACT FROM AUTHOR]

Published

2021

12. A Xanthene Dye‐based Sensor for Viscosity and Cell Imaging.

Author

Yu, Bo, Zhou, Ying, Dou, Lihua, Li, Yunyun, and Huang, Zhengwen

Subjects

CELL imaging, XANTHENE, VISCOSITY, PROPIONIC acid, XANTHENE dyes

Abstract

A new xanthene dye, namely ImX, has been facilely prepared by reaction of 4-(1H-Imidazol-1-yl)benzaldehyde with N, N-diethyl-3-aminophenol in concentrated propionic acid, and then treated by p-chloranil. ImX presents the maximum absorption and emission band centered at 562 nm and 583 nm in water, respectively. Fluorescent spectra investigations demonstrate that ImX shows viscosity-selective fluorescent response and emission enhancement when the solvent viscosity increases from 1.1 cp. (water) to 1248 cp. (98 % glycerol). In addition, this viscosity-selective fluorescence response covers a wide pH range from 2.5 to 10.0. More significantly, ImX demonstrates low cytotoxicity and can be employed as tracer for the detection of Monensin-triggered viscosity enhancement by cell imaging. [ABSTRACT FROM AUTHOR]

Published

2021

13. Stability and Hopf bifurcation for a delayed predator–prey model with stage structure for prey and Ivlev-type functional response.

Author

Hu, Dongpo, Li, Yunyun, Liu, Ming, and Bai, Yuzhen

Abstract

In this paper, we mainly investigate a delayed predator–prey model with stage structure for prey and Ivlev-type functional response. Four assumptions about this model are made as follows: (1) there are a single predator and a single prey population in the model; (2) the prey is divided by the age into two stage structures, immature and mature; (3) the trophic transfer from prey to predator is incomplete; (4) there are two time delays due to the time of maturation of prey and the time of gestation of predator. Some properties of equilibria for the model without delays are provided. Further, the stability of equilibria and existence of Hopf bifurcation are studied by discussing the different cases of time delays for the model with delays. We observe that delays can cause a stable equilibrium to become unstable one, even occur Hopf bifurcation when delays pass through their corresponding critical values. Meanwhile, we derive explicit formulae to determine the properties of Hopf bifurcation such as the direction of Hopf bifurcation and the stability of periodic solutions. Numerical simulations of all theoretical analyses are given for verifying our theoretical results. In the present work, we demonstrate that the validity and universality of oscillations induced by the time delays both theoretically and numerically. These results of this paper may be helpful for us to further understand the role of the critical values of time delays in stabilizing the predator–prey model. [ABSTRACT FROM AUTHOR]

Published

2020

14. Botanic Metallomics of Mercury and Selenium: Current Understanding of Mercury-Selenium Antagonism in Plant with the Traditional and Advanced Technology.

Author

Bai, Xu, Li, Yunyun, Liang, Xujun, Li, Hong, Zhao, Jiating, Li, Yu-Feng, and Gao, Yuxi

Subjects

MERCURY, SELENIUM, BIOACCUMULATION in plants, BIOREMEDIATION, METABOLISM

Abstract

The antagonistic effect between mercury (Hg) and selenium (Se) is conclusively established in animals and human beings in the past decades. However, the underlying mechanisms of the interactions between Hg and Se in plants, as well as the metabolism of Hg–Se compounds in crops are still far from being understood. The botanic metallomics of Hg and Se mainly focuses on the translocation, transformation, and metabolism of Hg and Se in the environmental and botanic systems employing metallomics methods. An adequate understanding of the biological behavior of Hg and Se in plant is beneficial for sequestration of Hg and Se in soil–plant systems with high Hg and Se contamination. It can also provide a molecular mechanistic basis for Se supplementation in Se-deficient areas. Here, the key developments in current understanding of Hg and Se interactions in plants are reviewed. The metabolism and antagonism of Hg and Se in various plants, as well as the advanced analytical methods commonly used in this field, are summarized and discussed. As suggested, plant Hg and Se uptake, metabolism, and antagonism can be taken into account for detoxification and remediation strategies for the reduction of Hg and Se in the food chain. [ABSTRACT FROM AUTHOR]

Published

2019

15. Biochar reduced soil extractable Cd but increased its accumulation in rice (Oryza sativa L.) cultivated on contaminated soils.

Author

Li, Honghong, Yu, Yong, Chen, Yanhui, Li, Yunyun, Wang, Mingkuang, and Wang, Guo

Subjects

RICE, BIOCHAR, SOIL pollution

Abstract

Purpose: This study focused on the effects and mechanisms of biochar amendment to Cd-contaminated soil on the uptake and translocation of Cd by rice under flooding conditions.Materials and methods: Pot and batch experiments were conducted using Cd-contaminated soil collected from a field near an ore mining area and a cultivar of Oryza sativa ssp. indica. Biochar derived from rice straw under anaerobic conditions at 500 °C for 2 h was mixed with the soil at the rate of 0, 2.5, and 5%.Results and discussion: The application of 5% biochar reduced CaCl2-extractable soil Cd by 34% but increased Cd concentration in brown rice by 451%. Biochar amendment decreased water-soluble Fe2+ in soils and formation of Fe plaques on roots and weakened the Fe2+-Cd2+ competition at adsorption sites on the root surface. Biochar increased water-soluble Cd in the soil and consequently Cd uptake by rice roots by releasing water-soluble Cl−. Biochar application also reduced the proportion of cell wall-bound Cd in the root, which caused easier Cd translocation from the cortex to the stele in the root and up to the shoot.Conclusions: Rice straw biochar (with high concentration of water-soluble Cl−) reduced CaCl2-extractable soil Cd but increased Cd concentration in rice under flooding condition. [ABSTRACT FROM AUTHOR]

Published

2019

16. Blockade of CTLA-4 and Tim-3 pathways induces fetal loss with altered cytokine profiles by decidual CD4+T cells.

Author

Wang, Songcun, Chen, Chunqin, Li, Mengdie, Qian, Jinfeng, Sun, Fengyun, Li, Yunyun, Yu, Min, Wang, Mingyan, Zang, Xingxing, Zhu, Rui, Li, Dajin, and Du, Meirong

Published

2019

17. Thiosulfate amendment reduces mercury accumulation in rice (Oryza sativa L.).

Author

Li, Yunyun, Li, Hailong, Yu, Yong, Zhao, Jiating, Wang, Yongjie, Hu, Cong, Li, Hong, Wang, Guo, Li, Yufeng, and Gao, Yuxi

Subjects

*THIOSULFATES, *BIOACCUMULATION in plants, *RICE, *MERCURY in soils, *RHIZOSPHERE, *PHYSIOLOGY

Abstract

Background and aims: Thiosulfate addition increases the solubility of mercury (Hg) in soil and Hg uptake by plants under oxic conditions. However, anoxic conditions could dominate the biogeochemical processes of Hg cycling during rice cultivation. The present study aimed to determine whether thiosulfate, a sulfur-containing fertilizer, could be used for Hg immobilization in paddy soil.Methods: A pot experiment was conducted using soil newly spiked with Hg and different doses of thiosulfate. Total Hg concentrations in rice tissues, Hg speciation in roots, and geochemical fraction of Hg in soils were investigated. Hydroponic cultivation was conducted to determine the subcellular distribution of Hg in root tissues.Results: Thiosulfate application significantly reduced Hg concentration in rice plants. It increased the percentage of organic-bound Hg, but decreased the percentage of iron/manganese oxide-bound Hg. Thiosulfate enhanced iron plaque formation and Hg adsorption on the iron plaque. Its application increased the percentage of Hg forms similar to HgS and decreased those similar to Hg-glutathione [Hg(GS)2].Conclusions: Thiosulfate amendments had a remarkable inhibitory effect on Hg accumulation in rice plants in newly Hg-spiked soil. This occurred because thiosulfate reduced Hg mobility in the rhizosphere and root tissues, promoted the formation of iron plaque, and facilitated more Hg adsorption by the iron plaque. Our findings suggest that appropriate thiosulfate treatment could be used as Hg-immobilizing agents in paddy soil. [ABSTRACT FROM AUTHOR]

Published

2018

18. Cadmium phytoextraction potential of king grass (Pennisetum sinese Roxb.) and responses of rhizosphere bacterial communities to a cadmium pollution gradient.

Author

Hu, Li, Wang, Ru, Liu, Xianglin, Xu, Bo, Xie, Tuanhui, Li, Yunyun, Wang, Mingkuang, Wang, Guo, and Chen, Yanhui

Subjects

PHYTOREMEDIATION, HEAVY-metal tolerant plants, CADMIUM, PENNISETUM, RHIZOSPHERE, BACTERIAL communities, SOIL microbiology

Abstract

Screening for tolerant and high biomass producing plants is important for phytoextraction efforts in remediating agricultural soils contaminated by heavy metals. We carried out a greenhouse experiment involving a soil cadmium (Cd) concentration gradient (0.1, 0.5, 1, 2, 4, and 8 mg kg−1) to assess growth and phytoextraction capacity of king grass (Pennisetum sinese Roxb.) in soils contaminated by Cd and to explore changes in diversity and structure of rhizosphere soil bacterial communities in response to long-term Cd pollution. A significant positive relationship was observed between Cd concentrations in P. sinese stems, leaves, and roots and soil Cd concentration. The highest Cd concentrations in shoots and roots were 28.87 and 34.01 mg kg−1, respectively, at 8 mg kg−1of soil Cd supply. Total extraction amounts of Cd in P. sinese were 0.22-1.86 mg plant−1 corresponding to treatment with 0.5-8 mg kg−1 Cd. Most of the Cd was stored in shoots, and the largest accumulation was 1.56 mg plant−1 with 54.02 g dry shoot weight. After phytoextraction, changes in rhizobacterial community composition were found with different levels of Cd application, whereas there were no clear trends in diversity and richness. Results of this study show the feasibility of P. sinese in accumulating Cd and provide support for its application in remediation of soil moderately contaminated by Cd. [ABSTRACT FROM AUTHOR]

Published

2018

19. Bioconversion of lignite humic acid by white-rot fungi and characterization of products.

Author

Xiao, Lei, Li, Yunyun, Liao, Yuansong, Ma, Huirong, Wu, Jianjun, Zhang, Yixin, and Yao, Jinghua

Published

2018

20. MiR-107 suppresses cell proliferation and tube formation of Ewing sarcoma cells partly by targeting HIF-1β.

Author

Chen, Jiajun, Zhou, Xin, Xiao, Qianren, Wang, Tengyu, Shao, Gaohai, Li, Yunyun, and Zhang, Zhongzu

Abstract

MicroRNAs serve a crucial role in the regulation of malignant biological behavior of Ewing's sarcoma (ES). Abnormal expression of miR-107 has been reported in a cohort of cancers, while its exact function in ES remains unclear. Hence, we explored the expression of miR-107 in ES cells and detected its effects on the malignant phenotype of ES cells. Firstly, we perceived the under-expression of miR-107 in human ES cells contrast with the human mesenchymal stem cells. Over-expression of miR-107 restrained cell proliferation and tube formation, arrested cell cycle progression, and facilitated cell apoptosis in SK-ES-1 and RD-ES cell lines. Furthermore, hypoxia inducible factor-1β (HIF-1β) was assumed as a target gene of miR-107. We confirmed the target role of HIF-1β in ES cells. Finally, restoring the expression of HIF-1β could partly abolish miR-107-mediated tumor suppression in ES cells. In conclusion, our results advised that miR-107 suppressed the malignant biological ability of ES cells through targeting HIF-1β. [ABSTRACT FROM AUTHOR]

Published

2018

21. Leakage diffusion of underwater crude oil in wind fields.

Author

Chen, Liqiong, Liu, Qi, Li, Yunyun, Lu, Rui, Wu, Shijuan, Li, Xin, and Hou, Tao

Subjects

PETROLEUM pipeline accidents & the environment, OIL spills & the environment, WATER pollution, SOIL pollution, HYDRODYNAMICS

Abstract

Leakage of underwater crude oil pipes causes severe pollution to soil and water, and results in great economic loss. To predict the diffusion area of spilled oil before it reaches the water's surface and to reduce the time required for emergency response, numerical simulations were conducted on underwater spilled oil diffusion of bare crude oil pipes using FLUENT software. The influences of water-surface wind speed, leakage hole diameter, water velocity, and initial leakage velocity on oil diffusion were analyzed. The results revealed the following: (1) with wind blowing on the surface of the water, the vertical displacement of spilled oil jet-flow was affected by the combined action of water flow and wind, making it difficult for a high-speed jet-flow to form. A horizontal oil flow mostly moved in the direction of the bottom water, and frontier oil droplets dispersed quickly; (2) during the diffusion of spilled oil in water, the maximum horizontal displacement mostly increased linearly, while the maximum vertical displacement initially increased quickly and then slowed; (3) the greater the initial velocity and leakage hole diameter, the higher the oil jet-flow and the wider the diffusion area; the higher the water flow rate and water-surface wind speed, the smaller the vertical displacement of spilled oil. The existence of water-surface wind had no obvious influence on the horizontal displacement of underwater spilled oil. [ABSTRACT FROM AUTHOR]

Published

2016

22. Elevated mercury bound to serum proteins in methylmercury poisoned rats after selenium treatment.

Author

Li, Yunyun, Fan, Yuqin, Zhao, Jiating, Xu, Xiaohan, Jing, Hui, Shang, Lihai, Gao, Yuxi, Li, Bai, and Li, Yu-Feng

Abstract

Methylmercury is a toxic pollutant and is generated by microbial methylation of elemental or inorganic mercury in the environment. Previous study found decreased hepatic MDA levels and urinary mercury levels in methylmercury poisoned rats after sodium selenite treatment. This study further found increased mercury levels in serum samples from methylmercury poisoned rats after selenium treatment. By using size exclusion chromatography coupled to inductively coupled plasma mass spectrometry, three Hg- binding protein fractions and two Se-binding protein fractions were identified with the molecular weight of approximately 21, 40, and 75 kDa and of 40 and 75 kDa, respectively. Elevated mercury level in the 75 kDa protein fraction was found binding with both Hg and Se, which may explain the decreased urinary Hg excretion in MeHg poisoned rats after Se treatment. MALDI-TOF-MS analysis of the serum found that the 75 kDa protein fractions were albumin binding with both Hg and Se and the 21 kDa fraction was Hg- binding metallothionein. [ABSTRACT FROM AUTHOR]

Published

2016

23. Assessment of precipitation and drought variability in the Weihe River Basin, China.

Author

Chang, Jianxia, Li, Yunyun, Ren, Yi, and Wang, Yimin

Abstract

The amount and distribution of precipitation play crucial roles in the occurrence of drought in the Weihe River Basin (WRB), China. Using the precipitation data (1960-2010) of 21 meteorological stations, the spatial and temporal characteristics of short-, medium-, and long-term droughts on 3-, 6-, and 12-month time scales, respectively, were examined using the theory of runs and the Standardized Precipitation Index (SPI). The trends of the drought characteristics were analyzed by a modified Mann-Kendall (MMK) test method. Furthermore, comparative analysis of the SPI at different time scales was conducted. The results showed that (1) the main drought type was moderate drought, which occurred frequently in July and October; (2) the drought intensity and frequency were highest in the 1990s, and the drought severity and drought duration in the northwest was more serious than that in the east; (3) an increasing trend of short droughts appeared mainly in the spring and fall; an increasing trend of medium droughts mainly occurred in the 1990s and that of long-term droughts were mainly presented in the northwest region of the WRB; (4) SPI-3 can better reflect precipitation in the current month, SPI-6 has an advantage in characterizing drought persistence, and SPI-12 performs well in capturing extraordinary droughts; and (5) it was also observed that there is a strong relation between the precipitation distribution and drought zones in the basin, and the drought conditions changed continuously with the seasons depending upon the amount and spatial distribution of precipitation . [ABSTRACT FROM AUTHOR]

Published

2016

24. Dynamic changes of sediment load and water discharge in the Weihe River, China.

Author

Chang, Jianxia, Li, Yunyun, Wei, Jie, Wang, Yimin, and Guo, Aijun

Abstract

The abrupt reduction of the water discharge and sediment load in the Yellow River has attracted much attention during the past several decades. This paper investigates the temporal and spatial changes of annual sediment load and water discharge in the Weihe River basin, the largest tributary of the Yellow River, which contributes 40 % of the sediment and 26 % of the water to the Yellow River. The results suggest that sediment load and water discharge in the Weihe River basin from both mainstream and tributaries show significant decreasing trends (significance level of 0.05). The trends show the following three distinct stages: the fluctuating stage (1956–1969), the slowly decreasing stage (1970–1979) and the accelerated decreasing stage (1980–2010). Additionally, the water discharge decreases more quickly than sediment. Spatially, the greatest reduction in water discharge and sediment load occurs upstream of the river. Additionally, the decrease in water discharge and sediment load in the main stream is greater than in the tributary. The focal years of water discharge and sediment changes are the same for each station except for the Zhuangtou Station, which were approximately 1970 and during the 1990s. Human activities contribute much more to changes in the hydrological series, and the percentage of human activity impacts on the water discharge are much larger than the sediment load for most of the periods. The relationship between the average monthly water discharge and the sediment load shows a clockwise loop curve. The change points for the annual water discharge and the sediment load relationship occurred mainly in 1983 for most stations. The reduction in the water discharge and sediment load is caused mainly by human activities, especially soil and water conservation projects (such as afforestation, terraces, reservoirs and dams). In summary, the results in this study provide further evidence of the need for river basin management. [ABSTRACT FROM AUTHOR]

Published

2016

25. Ice regime variation impacted by reservoir operation in the Ning-Meng reach of the Yellow River.

Author

Chang, Jianxia, Wang, Xuebin, Li, Yunyun, and Wang, Yimin

Subjects

ICE on rivers, lakes, etc., RESERVOIRS, FLOODS, DISASTERS, ANTHROPOGENIC effects on nature

Abstract

The Ning-Meng reach of the Yellow River in China is located in a high-latitude area, and river freezes up and breaks up every year, leading to ice flood and disaster. Since the 1990s, due to the rising winter temperatures, river channel shrinkage and impacts of reservoir operation, the river ice regime of the Ning-Meng reach has changed. This paper investigated reservoir operation effect on river ice regime by eliminating the impact of climatic conditions, and the test method could be applied to other rivers, where similar anthropogenic impacts can be suspected to affect the river ice regime. The results show that compared to the statistics when there were no reservoirs, the duration of ice freezing days reduced 8-33 days, and the ice cover thickness was 16-25 cm thinner than that without reservoirs. The average number of ice flood incidents per year decreased from 11.61 to 3.25, and the number of disasters reduced from 1.69 to 1.41. Moreover, the changes induced by reservoirs joint operation may vastly exceed that by single reservoir operation. The smaller is the distance to the upstream reservoir, the more obvious is the impact from the reservoir. [ABSTRACT FROM AUTHOR]

Published

2016

26. The influence of iron plaque on the absorption, translocation and transformation of mercury in rice ( Oryza sativa L.) seedlings exposed to different mercury species.

Author

Li, Yunyun, Zhao, Jiating, Zhang, Bowen, Liu, Yongjie, Xu, Xiaohan, Li, Yu-Feng, Li, Bai, Gao, Yuxi, and Chai, Zhifang

Subjects

*PLANT translocation, *IRON content of plants, *DEMETHYLATION, *METHYLMERCURY, *BIOACCUMULATION

Abstract

Background and aims: Iron plaque can affect the absorption and accumulation of metal(loid)s in plants. However, it is still unclear whether iron plaque plays different roles in the accumulation of different mercury species in rice plants. The aims of this study are 1) to explore the adsorption of IHg and MeHg onto iron plaque, 2) to investigate the influence of iron plaque on the absorption, translocation of IHg and MeHg in rice plants, 3) to explore whether the process of methylation and demethylation of Hg in vivo occurs in rice plants, and 4) to investigate the effects of iron plaque on the IHg and MeHg transformation in rice. Methods: The seedlings were cultivated in an Fe solution for 24 h to induce the iron plaque and then transferred into a nutrient solution containing 500 μg/L HgCl or MeHgCl for 72 h. The Hg content in the iron plaque and rice seedlings was measured by ICP-MS. The chemical forms of Hg in the rice seedlings were determined with HPLC-ICP-MS and XANES. Results: Both IHg and MeHg, particularly MeHg, could be adsorbed by iron plaque. The IHg content of the root and the MeHg content in both the roots and shoots decreased markedly with the increase in iron plaque. The Hg in the root was mainly in the form of RS-Hg-SR with the exposure to HgCl and in the form of CH-Hg-SR and RS-Hg-SR (4:1) with the exposure to MeHgCl. The iron plaque did not change the chemical forms of Hg in the rice plants. Conclusions: Iron plaque greatly decreased the absorption and translocation of both IHg and MeHg in rice seedlings. The demethylation of MeHg occurred in rice plants (in vivo) regardless the formation of iron plaque. This work sheds some light on the understanding of different pathways between IHg and MeHg in rice plants. [ABSTRACT FROM AUTHOR]

Published

2016

27. The concentration of selenium matters: a field study on mercury accumulation in rice by selenite treatment in qingzhen, Guizhou, China.

Author

Li, Yu-Feng, Zhao, Jiating, Li, Yunyun, Li, Hanjun, Zhang, Junfang, Li, Bai, Gao, Yuxi, Chen, Chunying, Luo, Manyi, Huang, Rui, and Li, Jun

Subjects

EFFECT of selenium on plants, EXPERIMENTAL agriculture, RICE, MERCURY in soils

Abstract

Aims: The consumption of rice grain produced in mercury (Hg) contaminated soil was identified as a major route of dietary Hg exposure. The aims were 1) to determine the most suitable concentration of Se that can lead to least Hg accumulation in rice grain in real Hg contaminated paddy field in Qingzhen, and 2) to elucidate the possible mechanism of the protection against the phytotoxicity of Hg in rice by Se. Methods: Rice plants were treated with different concentrations (0, 0.01, 0.1, 0.5, 1 and 5 μg/mL) of sodium selenite in a real paddy field in Qingzhen, Guizhou, China. The concentrations of Hg and Se in soil, stream water, rice tissues, and the seed setting rate (SSR) and thousand seed weight (TSW) were checked. The distribution and chemical forms of Hg and Se in rice root were studied by XRF and XAS. Results: Treating the rice plants with 0.5 μg/mL of sodium selenite achieved the lowest Hg accumulation in rice grain while the highest SSR and TSW. In rice root, XRF found decreased Hg uptake, and XAS found Hg-Se complexes were formed. These findings, together with the formation of biological barriers like iron plaque, could explain the decreased accumulation of Hg in rice grain at Se levels below 0.5 μg/mL. Se concentrations over 0.5 μg/mL led to increased Hg accumulation and decreased SSR and TSW, which were ascribed to the significantly increased Se accumulation in rice grain. Conclusions: This field study suggest that treatment with appropriate level of Se (0.5 μg/mL in this study) is an efficient way to reduce Hg accumulation in rice and increase rice yield and quality, thereafter to protect the health of the rice-dependent populations in Hg-contaminated area. [ABSTRACT FROM AUTHOR]

Published

2015

28. Stat3 promotes invasion of esophageal squamous cell carcinoma through up-regulation of MMP2.

Author

Xuan, Xaioyan, Li, Shanshan, Lou, Xi, Zheng, Xianzhao, Li, Yunyun, Wang, Feng, Gao, Yuan, Zhang, Hongyan, He, Hongliu, and Zeng, Qingru

Abstract

Stat3 alters the expression of its downstream genes and is associated with tumor invasion and metastasis in several human cancers. Its role in esophageal squamous cell carcinoma (ESCC) has not been well characterized. We examined the tumor sections of 100 cases of ESCC by immunohistochemistry and observed significant overexpression of Stat3 in the cytoplasm of 89 % of ESCC cells and of phosphorylated Stat3 (p-Stat3) in the nuclei of 71 % of ESCC when compare with normal esophageal mucosa (72 %, p = 0.02; and 31 %, p = 0.001). Overexpression of Stat3 and p-Stat3 positively correlated with that of matrix metalloproteinase-2 (MMP2), a known regulator for cell migration, in 65 % of ESCC while only 26 % shown in benign esophageal mucosa. To further investigate the association of Stat3 with tumor metastasis in vitro, invasion of EC-1 cells (a human ESCC cell line) were investigated with Boyden chambers. The results showed that transfection of Stat3 not only promoted invasion of EC-1 cells but also significantly induced MMP2 expression in a dose-dependent manner. In contrast, suppressing expression of endogenous Stat3 mRNA and protein by Stat3 siRNA significantly reduced EC-1 cell invasion and MMP2 expression. A high-affinity Stat3-binding element was localized to the positions of 648-641 bp (TTCTCGAA) in the MMP2 promoter with electrophoretic mobility shift assay. Our results suggest that Stat3, p-Stat3, and MMP2 were overexpressed in ESCC and associated with invasion of ESCC; and Stat3 up-regulated expression of MMP2 in ESCC through directly binding to the MMP2 promoter. [ABSTRACT FROM AUTHOR]

Published

2015

29. Simulation Designing Model of Kanban Production System for a Engine Assembly Workshop Based on Witness.

Author

Xiao, Yan, Li, Yunyun, and Zhou, Kangqu

Published

2012

30. A Long-Term Follow-Up and Comprehensive Observation of Risk and Prognosis Factors of Recurrence and Survival After Resection of Hepatocellular Carcinoma.

Author

Hu, Lei, Xue, Feng, Li, Yunyun, Shao, Minhua, Sun, Yanfu, and Wei, Gongtian

Abstract

Although HBV, liver function and tumor characteristics were proven as hepatocellular carcinoma (HCC) prognosis-related, no large-scale and long-term follow-up studies have ever given robust evidence about prognosis predictive effect and contribution to different stage of postoperation. In this study, we evaluated the influence of above index on overall survival (OS) and disease-free survival (DFS) and other clinical data in a rather large population and long-term follow-up. Our study consisted of 1,326 HCC patients who underwent radical resection from 1996 to 2010. Epidemiology, clinical and prognosis data were analyzed. Risk factors of OS and DFS were explored. Cumulative survival comparison between groups was performed with log-rank. Multivariate analysis for independent prognostic factors was determined by Cox proportional hazards model. HBsAg status was a universal factor of HCC recurrence, while preoperational albumin (ALB) and portal vein tumor thrombus (PVTT) affected survival during the whole lifetime. Early stage recurrence was associated with capsule intact [OR (95 %) = 1.54,1.12-2.12, p = 0.009], preoperational alpha-fetoprotein (AFP), TNM and BCLC stages were the most important prognosis factors of recurrence in the early 5 years and PVTT affected the rest time. Survival was mainly associated with tumor characteristic and ALB. Short-time survival was affected with age and AFP, while BCLC was related with the long-time survival. We confirmed that during different periods after resection, factors affecting prognosis did not remain unchanged. Liver function and tumor characteristic affected DFS and OS the whole time, especially the early recurrence. However, HBV infection situation was associated with later recurrence. PVTT showed an opposite effect between early and later recurrence. [ABSTRACT FROM AUTHOR]

Published

2014

31. miR-124 functions as a tumor suppressor in the endometrial carcinoma cell line HEC-1B partly by suppressing STAT3.

Author

Li, Yunyun, Zhang, Zhongzu, Liu, Xiuxia, Huang, Tingting, He, Wenfeng, Shen, Yang, Liu, Xin, Hong, Kui, and Cao, Qing

Abstract

MicroRNAs (miRNAs) play an important role in the development and progression of endometrial carcinoma (EC). Recently, several studies have shown that microRNA-124 (miR-124) is downregulated in various cancers, which can affect tumor initiation and maintenance. However, the effects of miR-124 on EC are largely unknown. In this study, we identified the under-expression of miR-124 in 35 paired EC tissues and adjacent normal tissues. Further, functional experiments found that ectopic expression of miR-124 markedly suppressed cell proliferation, migration, and invasion of EC cells. It also induced cell apoptosis and G1-phase cell cycle arrest. Moreover, we identified signal transducer and activator of transcription 3 (STAT3) as a direct target of miR-124, and over expression of miR-124 not only induced changes in STAT3 expression but also altered expression of its target genes, cyclin D2 and matrix metalloproteinase 2, in the human endometrial carcinoma cell line HEC-1B. In addition to targeting STAT3 directly, we found that miR-124 suppresses phosphorylation of STAT3 through targeting IL-6R indirectly. Restored STAT3 expression through treatment with IL-6 cytokine partly abolished miR-124-mediated cell cycle arrest and apoptosis induction. These results combined with the tumorigenetic role of STAT3 in HEC-1B cells suggest that the antitumor effects of miR-124 are achieved, at least partly, through down regulation of STAT3 mRNA and its downstream target genes. Therefore, inhibition of constitutively activated STAT3 by ectopic expression of miR-124 in EC may provide a novel therapeutic strategy for the treatment of EC. [ABSTRACT FROM AUTHOR]

Published

2014

32. The resilience research of the plant and soil optimization design base on the habitat-site design in semiarid green space.

Author

Wang, Jingmao, Liu, Hui, Chen, Chundi, Zhang, Shun, Guo, Feng, and Li, Yunyun

Subjects

SUSTAINABLE design, PLANT-soil relationships, BIOTIC communities, LANDSCAPE design, PLANT communities, BEARING capacity of soils

Abstract

As the northwest region's advancement in urbanization has improved, the contradiction between urbanization and the fragile ecological environment has been gradually resolved. Facing the constraint of regional fragile ecological pressures, northwestern cities must create new ecological processes by using resilient designs. It is necessary to promote an organic ease construction mode, which is proper for the ecological matrix space in ecological construction of the northwestern landscape. In this research, which aims to solve problems and conflicts between the plant landscape design and site habitat conditions, we used the experimental method for plant landscape construction and soil optimization based on the previous theory and foundation of habitat-site design. We established the research framework as "natural plant community investigation experimental base simulation database construction." First, based on natural plant community research, the ecological prototype of the near natural plant community was quantized and evaluated, and the database was established; second, the plant community fabric was constructed, and the soil optimization technique was tested by using a "habitat island," the purpose of which was to create a stably structured, low-maintenance, drought-adaptive, water-resistant, and beautiful plant community model to screen the suitable soil medium ratio and mulching type for plant growth. Finally, following the "artificial intervention, natural formation" design idea, the practice of habitat unit construction and established database of the plant community structure model was carried out to provide theoretical and technical support for the plant landscape construction and soil optimization of habitat construction in the northwestern green space. [ABSTRACT FROM AUTHOR]

Published

2019

33. Stability and Hopf bifurcation for a stage-structured predator-prey model incorporating refuge for prey and additional food for predator.

Author

Bai, Yuzhen and Li, Yunyun

Subjects

*PREDATION, *FOOD, *HOPF bifurcations, *TIME delay systems, *COMPUTER simulation

Abstract

In this paper, we study a stage-structured predator-prey model incorporating refuge for prey and additional food for predator. By analyzing the corresponding characteristic equations, we investigate the local stability of equilibria and the existence of Hopf bifurcation at the positive equilibrium taking the time delay as a bifurcation parameter. Furthermore, we obtain the direction of the Hopf bifurcation and the stability of bifurcating periodic solutions applying the center manifold theorem and normal form theory. Numerical simulations are illustrated to verify our main results. [ABSTRACT FROM AUTHOR]

Published

2019

34. NDVI dynamic changes and their relationship with meteorological factors and soil moisture.

Author

Zhang, Hongxue, Chang, Jianxia, Zhang, Lianpeng, Wang, Yimin, Li, Yunyun, and Wang, Xiaoyu

Subjects

NORMALIZED difference vegetation index, SOIL moisture, BOTANY methodology, WATERSHEDS, GROUND vegetation cover

Abstract

Normalized difference vegetation index (NDVI) is an important indicator for measuring vegetation coverage, which is of great significance for evaluating vegetation dynamics and vegetation restoration. It can clearly analyze the suitable growth condition of vegetation by studying the relationship between meteorological factors, soil moisture and NDVI. Based on MODIS/NDVI data, the spatio-temporal characteristics of vegetation coverage in the Weihe River Basin (WRB) were analyzed by the trend analysis method. The relationship of NDVI with meteorological factors and NDVI with soil moisture simulated by the soil and water assessment tool (SWAT) model was analyzed in this paper. The results show that NDVI values gradually change with an increase from north to south in the WRB. The maximum of the average monthly NDVI is 0.702 (August) and the minimum is 0.288 in February from 2000 to 2015. The results of the seven grades of NDVI trend line slope indicate that the improvement area of vegetation coverage accounts for 30.93% of the total basin, and the degradation area and basically unchanged area account for 23% and 42.9%, respectively. The annual mean soil moisture is 19.37% in the WRB. There was a strong correlation between NDVI and precipitation, temperature, evaporation and soil moisture, and the correlation coefficients were 0.78, 0.89, 0.71 and 0.65, respectively. The ranges of the most suitable growth conditions for vegetation are 80-145 mm (precipitation), 13-23 °C (temperature), 94-144 mm (evaporation) and 25-33% (soil moisture), respectively. [ABSTRACT FROM AUTHOR]

Published

2018