Your search keyword '"Wang, Changquan"' showing total 53 results

1. Assembly patterns and key taxa of bacterial communities in the rhizosphere soil of moso bamboo (Phyllostachys pubescens) under different Cd and Pb pollution.

Author

Wu, Yingjie, He, Hua, Ren, Jiayi, Shen, Hongchi, Sahito, Zulfiqar Ali, Li, Bing, Tang, Xiaoyan, Tao, Qi, Huang, Rong, and Wang, Changquan

Subjects

ENVIRONMENTAL soil science, RHIZOSPHERE, MICROBIAL communities, SOIL testing, HOST plants, BACTERIAL communities

Abstract

Moso bamboo is excellent candidate for cadmium (Cd)/lead (Pb) phytoremediation, while rhizosphere microbiome has significant impact on phytoremediation efficiency of host plant. However, little is known about the rhizosphere bacterial communities of moso bamboo in Cd/Pb contaminated soils. Therefore, this study investigated the assembly patterns and key taxa of rhizosphere bacterial communities of moso bamboo in Cd/Pb polluted and unpolluted soils, by field sampling, chemical analysis, and 16S rRNA gene sequencing. The results indicated α-diversity between Cd/Pb polluted and unpolluted soils showed a similar pattern (p > 0.05), while β-diversity was significantly different (p < 0.05). The relative abundance analysis indicated α-proteobacteria (37%) and actinobacteria (31%) were dominant in Cd/Pb polluted soils, while γ-proteobacteria (40%) and α-proteobacteria (22%) were dominant in unpolluted soils. Co-occurrence network analysis indicated microbial networks were less complex and more negative in polluted soils than in unpolluted soils. Mantel analysis indicated soil available phosphorus, organic matter, and available Pb were the most important environmental factors affecting microbial community structure. Correlation analysis showed 11 bacterial genera were significantly positively related to Cd/Pb. Overall, this study identified the bacterial community composition of bamboo rhizosphere in responding to Cd/Pb contamination and provides a theoretical basis for microbe-assistant phytoremediation in the future. Novelty statement: To date, little is known about the bacterial communities in the rhizosphere of moso bamboo under Cd and Pb multiple stresses. This study investigated the assembly patterns and key taxa of rhizospheric bacterial communities of moso bamboo in Cd/Pb polluted and unpolluted soils. It was found that the bacterial community structure in bamboo rhizosphere is easily influenced by soil chemical environment, such as fertilities and heavy metals. The key bacterial taxa identified here could be target microbe in future microbe-assistant phytoremediation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Long-Term Straw Returning Enhances Phosphorus Uptake by Zea mays L. through Mediating Microbial Biomass Phosphorus Turnover and Root Functional Traits.

Author

Tang, Xiaoyan, Zhou, Yuxin, Wu, Runjuan, Wu, Kuilin, Zhao, Hui, Wang, Wanyi, Zhang, Yanyan, Huang, Rong, Wu, Yingjie, Li, Bing, and Wang, Changquan

Subjects

PLANT exudates, CROP yields, SOIL fertility, AGRICULTURAL productivity, CORN

Abstract

The intensive use of chemical fertilizers in China to maintain high crop yields has led to significant environmental degradation and destabilized crop production. Returning straw to soil presents a potential alternative to reduce chemical fertilizer requirements and enhance soil fertility. This study investigates the effects of different nitrogen (N) input levels and straw additions on crop phosphorus (P) uptake and soil P availability based on a long-term N-fertilizer trial. The treatments included no fertilizer input (CK), conventional (NPK), reduced NPK (0.75NPK), and straw-amended (SNPK) treatments. Results indicate that SNPK significantly enhances shoot P uptake and crop yields by 43.7–61.9% and 29.3–39.6%, respectively. The SNPK treatment improved rhizosphere P availability and increased the phosphorus activation coefficient (PAC) by 1.72-fold compared to NPK alone. The enhanced soil P availability under SNPK was primarily attributed to an abundance of functional microbes, leading to higher P storage in the microbial biomass P pool and its turnover. Additionally, SNPK promoted root exudate and phosphate-mobilizing microbes, enhancing P mobilization and uptake. Nitrogen fertilization primarily influenced root functional traits related to P acquisition. These findings provide valuable insights for developing effective fertilizer management strategies in maize–oilseed rape rotation systems, emphasizing the benefits of integrating straw with chemical fertilizers. [ABSTRACT FROM AUTHOR]

Published

2024

3. RcOST1L phosphorylates RcPIF4 for proteasomal degradation to promote flowering in rose.

Author

Sun, Jingjing, Liu, Hongchi, Wang, Weinan, Fan, Chunguo, Yuan, Guozhen, Zhou, Rui, Lu, Jun, Liu, Jinyi, and Wang, Changquan

Subjects

FLOWERING of plants, FLOWERING time, LIGHT intensity, ANGIOSPERMS, VALUE (Economics)

Abstract

Summary: Flowering is a vital agronomic trait that determines the economic value of most ornamental plants. The flowering time of rose (Rosa spp.) is photoperiod insensitive and is thought to be tightly controlled by light intensity, although the detailed molecular mechanism remains unclear.Here, we showed that rose plants flower later under low‐light (LL) intensity than under high‐light (HL) intensity, which is mainly related to the stability of PHYTOCHROME‐INTERACTING FACTORs (RcPIFs) mediated by OPEN STOMATA 1‐Like (RcOST1L) under different light intensity regimes.We determined that HL conditions trigger the rapid phosphorylation of RcPIFs before their degradation. A yeast two‐hybrid screen identified the kinase RcOST1L as interacting with RcPIF4. Moreover, RcOST1L positively regulated rose flowering and directly phosphorylated RcPIF4 on serine 198 to promote its degradation under HL conditions. Additionally, phytochrome B (RcphyB) enhanced RcOST1L‐mediated phosphorylation of RcPIF4 via interacting with the active phyB‐binding motif. RcphyB was activated upon HL and recruited RcOST1L to facilitate its nuclear accumulation, in turn leading to decreased stability of RcPIF4 and flowering acceleration.Our findings illustrate how RcPIF abundance safeguards proper rose flowering under different light intensities, thus uncovering the essential role of RcOST1L in the RcphyB–RcPIF4 module in flowering. [ABSTRACT FROM AUTHOR]

Published

2024

4. Uncertainty-Driven Data Aggregation for Imitation Learning in Autonomous Vehicles.

Author

Wang, Changquan and Wang, Yun

Subjects

AUTONOMOUS vehicles, BAYESIAN analysis, ACQUISITION of data

Abstract

Imitation learning has shown promise for autonomous driving, but suffers from covariate shift, where the policy performs poorly in unseen environments. DAgger is a popular approach that addresses this by leveraging expert demonstrations. However, DAgger's frequent visits to sub-optimal states can lead to several challenges. This paper proposes a novel DAgger framework that integrates Bayesian uncertainty estimation via mean field variational inference (MFVI) to address this issue. MFVI provides better-calibrated uncertainty estimates compared to prior methods. During training, the framework identifies both uncertain and critical states, querying the expert only for these states. This targeted data collection reduces the burden on the expert and improves data efficiency. Evaluations on the CARLA simulator demonstrate that our approach outperforms existing methods, highlighting the effectiveness of Bayesian uncertainty estimation and targeted data aggregation for imitation learning in autonomous driving. [ABSTRACT FROM AUTHOR]

Published

2024

5. Telo boxes within the AGAMOUS second intron recruit histone 3 lysine 27 methylation to increase petal number in rose (Rosa chinensis) in response to low temperatures.

Author

Lu, Jun, Wang, Weinan, Fan, Chunguo, Sun, Jingjing, Yuan, Guozhen, Guo, Yuhan, Yu, Xinyu, Chang, Yufei, Liu, Jinyi, and Wang, Changquan

Subjects

LOW temperatures, LYSINE, GENE expression, MORPHOGENESIS, ROSES, ARABIDOPSIS

Abstract

SUMMARY: The petals of rose (Rosa sp.) flowers determine the ornamental and industrial worth of this species. The number of petals in roses was previously shown to be subject to fluctuations in ambient temperature. However, the mechanisms by which rose detects and responds to temperature changes are not entirely understood. In this study, we identified short interstitial telomere motifs (telo boxes) in the second intron of AGAMOUS (RcAG) from China rose (Rosa chinensis) that play an essential role in precise temperature perception. The second intron of RcAG harbors two telo boxes that recruit telomere repeat binding factors (RcTRBs), which interact with CURLY LEAF (RcCLF) to compose a repressor complex. We show that this complex suppresses RcAG expression when plants are subjected to low temperatures via depositing H3K27me3 marks (trimethylation of lysine 27 on histone H3) over the RcAG gene body. This regulatory mechanism explains the low‐temperature‐dependent decrease in RcAG transcript levels, leading to the production of more petals under these conditions. Our results underscore an interesting intron‐mediated regulatory mechanism governing RcAG expression, enabling rose plants to perceive temperature cues and establish petal numbers. Significance Statement: Our research underscores a new intron‐mediated regulatory mechanism governing RcAG expression, enabling rose plants to perceive temperature cues and establish petal numbers. It might be of great interest to a broad range of readers including environmental response, epigenetic modification, floral organ development, and other researchers in related fields. [ABSTRACT FROM AUTHOR]

Published

2024

6. Safe Autonomous Driving with Latent Dynamics and State-Wise Constraints.

Author

Wang, Changquan and Wang, Yun

Subjects

TRAFFIC safety, REINFORCEMENT learning, AUTONOMOUS vehicles, DYNAMIC models

Abstract

Autonomous driving has the potential to revolutionize transportation, but developing safe and reliable systems remains a significant challenge. Reinforcement learning (RL) has emerged as a promising approach for learning optimal control policies in complex driving environments. However, existing RL-based methods often suffer from low sample efficiency and lack explicit safety constraints, leading to unsafe behaviors. In this paper, we propose a novel framework for safe reinforcement learning in autonomous driving that addresses these limitations. Our approach incorporates a latent dynamic model that learns the underlying dynamics of the environment from bird's-eye view images, enabling efficient learning and reducing the risk of safety violations by generating synthetic data. Furthermore, we introduce state-wise safety constraints through a barrier function, ensuring safety at each state by encoding constraints directly into the learning process. Experimental results in the CARLA simulator demonstrate that our framework significantly outperforms baseline methods in terms of both driving performance and safety. Our work advances the development of safe and efficient autonomous driving systems by leveraging the power of reinforcement learning with explicit safety considerations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Study on the Mechanism of Carbon Dioxide Miscible Fracturing Fluid Huff and Puff in Enhanced Oil Recovery.

Author

Xu, Shijing, Wang, Changquan, Gao, Bin, and Wang, Tiezheng

Subjects

FRACTURING fluids, ENHANCED oil recovery, CARBON dioxide, GRABENS (Geology), PETROLEUM, BIOSURFACTANTS

Abstract

Carbon dioxide (CO2) miscible fracturing huff-and-puff technology now plays a pivotal role in enhancing crude oil recovery rates, particularly in reservoirs with challenging physical properties, strong water sensitivity, high injection pressure, and complex water-injection dynamics. In this study, the oil-increasing mechanism and huff-and-puff effect of CO2 miscible fracturing fluid are investigated through a comprehensive experimental approach. Specifically, experiments on PVT gas injection expansion, minimum miscible pressure, and CO2 miscible fracturing fluid huff and puff are conducted on the G fault block reservoir of the J Oilfield. The experimental findings demonstrate that injecting CO2 into reservoirs leads to an expansion in oil volume, a reduction in viscosity, and an increase in saturation pressure. Crude oil extraction is further enhanced by the addition of solubilizers and viscosity reducers. The use of solubilizers not only increases oil recovery rates but also reduces the minimum miscible pressure required for effective CO2 dispersion. We also found that shut-in times, permeability, and the huff-and-puff method used all have considerable impacts on huff-and-puff recovery rates. This study offers valuable technical insights, supporting the application of CO2 miscible fracturing huff-and-puff technology to enhance oil recovery rates in low-permeability reservoirs. [ABSTRACT FROM AUTHOR]

Published

2024

8. Impact of suburban cropland intensification and afforestation on microbial biodiversity and C sequestration in paddy soils.

Author

Luo, Youlin, Shen, Jie, Dou, Yuehan, Guo, Lingke, Xin, Zhiyuan, Tao, Qi, Li, Qiquan, Li, Bing, Huang, Rong, Xu, Qiang, Li, Huanxiu, and Wang, Changquan

Subjects

FARMS, AFFORESTATION, URBANIZATION, AGRICULTURE, SUBURBS, BACTERIAL diversity, MICROBIAL diversity

Abstract

Rapid urbanization drives changes in suburban cropland and afforestation, but the impact on soil microbes and carbon (C) dynamics remains unclear. Using genetic sequencing (16S rRNA sequence and functional prediction), we assessed the effects of cropland intensification and afforestation on the soil microbial communities and C sequestration potential in a suburban agricultural area. Traditional rotation (rice–wheat) homogenized microbial diversity along soil depth (0–100 cm). Cropland intensification (rice–wheat to rice–vegetables) and afforestation (rice–wheat to forest) decreased fungal diversity below 20 cm, while bacterial diversity and dominant taxa were less affected, due to the advantages of bacterial diversity and dominant taxa distribution. Cropland intensification increased profile C accumulation, mainly due to excessive fertilization (obviously decreased aerobic_chemoheterotrophy below 20 cm in bacterial function), but not C stability (significantly increased permanganate oxidizable C (POXC), and microbial‐dependent C sources tend to from crop litter to soil sources). Afforestation offset C accumulation through no fertilization and inundation, but increased saprophytic function for C sequestration. In addition, pH and C had opposing effects on dominant microbial taxa, mitigating extreme differentiation. Subsoil was more sensitive to changes than topsoil. Altogether, soil C stability decoupled from C accumulation in the suburban agricultural area. Cropland intensification increased C accumulation yet decreased bacterial C sequestration potential and C stability; cropland afforestation facilitated fungi‐derived C accumulation and its C sequestration. Deep soil C sequestration was more vulnerable to suburban agriculture practices, emphasizing the need to consider subsoil C‐cycling in agricultural practices amid urbanization. [ABSTRACT FROM AUTHOR]

Published

2024

9. The Damage Caused by Particle Migration to Low-Permeability Reservoirs and Its Effect on the Seepage Capacity after CO 2 Flooding.

Author

Liu, Yiwen, Fu, Meilong, Wang, Changquan, Xu, Shijing, Meng, Fankun, and Shen, Yanlai

Subjects

ENHANCED oil recovery, CARBON dioxide, METAL clusters, PETROLEUM, ETHANOL, FLOODS

Abstract

CO2 flooding technology is an effective technical means for tertiary oil recovery in high water cut reservoirs. Using an existing well pattern to inject CO2 is an economical and feasible development method under low contemporary oil prices. Although the particle migration caused during the displacement process will block the pore throat of the rock, the injection of CO2 can effectively reduce the CO2 injection pressure, and the dissolution that occurs during the injection process improves the seepage capacity of the fluid as a whole. In this study, assessments of particle migration and plugging after CO2 flooding and evaluations of rock dissolution by CO2-aqueous solution were carried out, and the variation characteristics of the relative permeability curve before and after displacement were evaluated, further explaining the influence of CO2 flooding on reservoir seepage capacity. The results show that, in the process of CO2 injection, the injection pressure decreases under different injection rates. After CO2 flooding under oil conditions, the core permeability loss was 43.8%, and after cleaning with toluene and anhydrous ethanol, the core permeability recovery was 24.3%, indicating that the particles were bound by crude oil during the migration process and accumulated into clusters, resulting in blockages. Although there was a certain degree of blockage, the CO2-aqueous solution mainly reacted with chlorite and released Ca2+, Mg2+, and Fe2+ ions. The concentration of Ca2+ increased by 157.43%, the concentration of Mg2+ decreased by 43.33%, and the concentration of Fe2+ decreased by 50.47%, indicating that, although the generated MgCO3 and Fe2O3 blocked the pore throat of the rock, the overall dissolution effect of CO2 on CaCO3 was stronger, and the overall seepage capacity of the fluid was improved. To a certain extent, this technique can improve the water injection capacity and the effect of subsequent water flooding. [ABSTRACT FROM AUTHOR]

Published

2023

10. Rose long noncoding RNA lncWD83 promotes flowering by modulating ubiquitination of the floral repressor RcMYC2L.

Author

Chen Yeqing, Lu Jun, Wang Weinan, Fan Chunguo, Yuan Guozhen, Sun Jingjing, Liu Jinyi, and Wang Changquan

Published

2023

11. Reciprocal regulation of flower induction by ELF3α and ELF3β generated via alternative promoter usage.

Author

Wang, Peng, Li, Yu, Liu, Zhe, Li, Xuhan, Wang, Yicheng, Liu, Weijuan, Li, Xiao, Hu, Jianjian, Zhu, Wenyi, Wang, Changquan, Li, Shan, Gu, Tingting, Xu, Dongqing, Tang, Chao, Wang, Yingtao, Li, Chao, Zhang, Shaoling, and Wu, Juyou

Published

2023

12. Frameless Robot-Assisted Asleep Centromedian Thalamic Nucleus Deep Brain Stimulation Surgery in Patients with Drug-Resistant Epilepsy: Technical Description and Short-Term Clinical Results.

Author

Wang, Changquan, Hong, Jing, Mao, Ziyu, Chen, Wenze, Chen, Bin, Chen, Wenzhen, Ye, Xiaolai, Zhang, Chencheng, Lu, Yong, Liu, Qiangqiang, and Xu, Jiwen

Subjects

BRAIN stimulation, DEEP brain stimulation, THALAMIC nuclei, BRAIN surgery, PEOPLE with epilepsy, SURGICAL robots

Abstract

Introduction: This purpose of this work is to give a detailed description of a surgical technique for frameless robot-assisted asleep deep brain stimulation (DBS) of the centromedian thalamic nucleus (CMT) in drug-resistant epilepsy (DRE). Methods: Ten consecutively enrolled patients who underwent CMT-DBS were included in the study. The FreeSurfer "Thalamic Kernel Segmentation" module and experience target coordinates were used for locating the CMT, and quantitative susceptibility mapping (QSM) images were used to check the target. The patient's head was secured with a head clip, and electrode implantation was performed with the assistance of the neurosurgical robot Sinovation®. After opening the dura, the burr hole was continuously flushed with physiological saline to stop air from entering the skull. All procedures were performed under general anesthesia without intraoperative microelectrode recording (MER). Results: The mean age of the patients at surgery and onset of seizures was 22 years (range 11–41 years) and 11 years (range 1–21 years), respectively. The median duration of seizures before CMT-DBS surgery was 10 years (2–26 years). CMT was successfully segmented, and its position was verified by experience target coordinates and QSM images in all ten patients. The mean surgical time for bilateral CMT-DBS in this cohort was 165 ± 18 min. The mean pneumocephalus volume was 2 cm3. The median absolute errors in the x-, y-, and z-axes were 0.7 mm, 0.5 mm, and 0.9 mm, respectively. The median Euclidean distance (ED) and radial error (RE) was 1.3 ± 0.5 mm and 1.0 ± 0.3 mm, respectively. No significant difference was found between right- and left-sided electrodes regarding the RE nor the ED. After a mean 12-month follow-up, the average reduction in seizures was 61%, and six patients experienced a ≥ 50% reduction in seizures, including one patient who had no seizures after the operation. All patients tolerated the anesthesia operation, and no permanent or serious complications were reported. Conclusions: Frameless robot-assisted asleep surgery is a precise and safe approach for placing CMT electrodes in patients with DRE, shortening the surgery time. The segmentation of the thalamic nuclei enables the precise location of the CMT, and the flow of physiological saline to seal the burr holes is a good way to reduce the influx of air. CMT-DBS is an effective method to reduce seizures. [ABSTRACT FROM AUTHOR]

Published

2023

13. The accuracy of a novel self‐tapping bone fiducial marker for frameless robot‐assisted stereo‐electro‐encephalography implantation and registration techniques.

Author

Liu, Qiangqiang, Mao, Ziyu, Wang, Junjie, Wang, Changquan, Chen, Wenze, Chen, Wenzhen, Ye, Xiaolai, Zhang, Chencheng, Lu, Yong, and Xu, Jiwen

Published

2023

14. Factors Influencing the CO 2 Corrosion Pattern of Oil–Water Mixed Transmission Pipeline during High Water Content Period.

Author

Yang, Zhonghua, Shi, Lihong, Zou, Minghua, and Wang, Changquan

Subjects

CARBON dioxide, PARTIAL pressure, CARBON steel, PETROLEUM pipelines, OIL fields, TRANSMISSION of sound, STEEL corrosion, PIPELINE corrosion

Abstract

After the oil field enters the high water content period, the oil–water mixed fluid in the mixing system will gradually change into the water-in-oil mixed fluid, while the dissolved CO2 causes the pH value of the mixed fluid to decrease. There is also a certain amount of bacteria in the output fluid, with many factors leading to the intensification in the corrosion of the oil–water mixed system pipeline in the high water content period. To clarify its corrosion law, through the mixed transmission pipeline material, 20# carbon steel, in high water conditions under the action of different single factor dynamic corrosion rate experiments, along with the use of the SPSS method, were used to determine the corrosion of the main control factors. The results show that in the high water content period, the corrosion rate of the mixed pipeline 20# steel gradually increases with the increase in temperature pressure, CO2 partial pressure, SRB content, Ca2+ + Mg2+ content, and Cl− content. The corrosion rate with the CO2 partial pressure and SRB content changes show a strong multiplicative power relationship; with Ca2+ + Mg2+ content, Cl− content changes show a logarithmic relationship, the relationship degree R2 is above 0.98. Through SPSS data analysis software combined with experimental data for correlation degree analysis, it is concluded that the correlation magnitude relationship between each factor and corrosion rate is CO2 partial pressure > SRB content > Cl− content > Ca2+ + Mg2+ content > temperature pressure, which provides a theoretical basis for the corrosion protection of an oil gathering pipeline. [ABSTRACT FROM AUTHOR]

Published

2022

15. Effects of Cadmium Stress on Root and Root Border Cells of Some Vegetable Species with Different Types of Root Meristem.

Author

Feng, Yingming, Li, Huanxiu, Zhang, Xianshi, Li, Xuewen, Zhang, Jie, Shi, Lei, Chen, Xingyun, Nong, Wei, Wang, Changquan, Shabala, Sergey, and Yu, Min

Abstract

Cadmium is one of the most toxic heavy metals and can be easily absorbed by plants, affecting root growth. Root border cells (RBCs), that are located in the periphery of the root cap and originate from the root cap meristem, represent a convenient tool to study the toxic effects of Cd on root performance. In this work, vegetables with contrasting types of root apical meristem (RAM) organizations were used. The open RAM organizations included pea and cucumber, and the closed RAM organizations included tomato, chili, and eggplant. The number of RBCs were significantly higher in the species possessing open RAM organization: pea (11,330 cells per root) > cucumber (8200) > tomato (2480) > eggplant (1830) > chili (1320). The same trend was observed for cell viability: pea (61%) > cucumber (59%) > tomato (49%) > eggplant (44%) > chili (42%). Pea and cucumber had higher relative radicle elongation rates and a lower increase in stress-induced accumulation of malondialdehyde (MDA), making them more resistant to Cd stress than the vegetables with close RAM organization. Under Cd treatment, the number and viability of RBCs in vegetables with both types of RAM organization were significantly decreased. However, the decreasing ratio of the number and viability of RBCs in pea and cucumber was higher than in tomato, chili, and eggplant. Taken together, the plants with the open-type RAM are more tolerant to Cd, and it can be speculated that the cadmium tolerance of the vegetables may be correlated with the number and viability of RBCs in response to cadmium stress. [ABSTRACT FROM AUTHOR]

Published

2022

16. Increases in temperature response to CO2 emissions in biochar-amended vegetable field soil.

Author

Huang, Rong, Wang, Zifang, Xiao, Yi, Yu, Luo, Gao, Xuesong, Wang, Changquan, Li, Bing, Tao, Qi, Xu, Qiang, and Gao, Ming

Subjects

FERTILIZERS, BIOCHAR, SOILS, ACTIVATION energy, VEGETABLES

Abstract

To explore the effects of biochar application on CO2 and CH4 emissions as well as the temperature response of CO2 emissions, a 1-year experiment was conducted with three treatments (control; CF, chemical fertilizer only; BCF, biochar combined with chemical fertilizer) in a vegetable field. The results showed that (1) compared with CF, short-term application of biochar significantly enhanced the cumulative CO2 emissions by 27.5% from a soil–plant system by increasing the soil microbial biomass (e.g., MBC) and C substrates (e.g., SOC); (2) lowest emissions of CH4 were observed in the BCF treatment, and an increase in CH4 consumption and reduced competition with NH4+ may be responsible for the significant reduction in CH4 source strength in biochar-amended soil; and (3) activation energy (Ea) was identified as an important factor influencing the temperature sensitivity (Q10) of CO2 emissions. Fertilization (CF and BCF) reduced the average Q10 and Ea values of CO2 emissions by 9.0–26.7% and 23.5–10.1%, respectively, relative to the control. In addition, the average Ea value in the BCF treatment (51.9 kJ mol−1) was significantly higher than those in the control and CF treatments. The increase in Q10 and Ea values following biochar application possibly contributed to the supplementation of limited labile C and nutrients but highly resistant C following biochar application. Soil pH and crop cultivation may play key roles in influencing the change in Ea. Our study concludes that biochar amendment increased CO2 emissions and temperature response of CO2 emission from the soil–plant system while reducing CH4 emissions. [ABSTRACT FROM AUTHOR]

Published

2022

17. Evolutionary Analysis and Functional Identification of Clock-Associated PSEUDO-RESPONSE REGULATOR (PRRs) Genes in the Flowering Regulation of Roses.

Author

Jalal, Abdul, Sun, Jinrui, Chen, Yeqing, Fan, Chunguo, Liu, Jinyi, and Wang, Changquan

Subjects

GENETIC regulation, ROSES, FUNCTIONAL analysis, ARABIDOPSIS proteins, AMINO acid sequence, GENE regulatory networks

Abstract

Pseudo-response regulators (PRRs) are the important genes for flowering in roses. In this work, clock PRRs were genome-wide identified using Arabidopsis protein sequences as queries, and their evolutionary analyses were deliberated intensively in Rosaceae in correspondence with angiosperms species. To draw a comparative network and flow of clock PRRs in roses, a co-expression network of flowering pathway genes was drawn using a string database, and their functional analysis was studied by silencing using VIGS and protein-to-protein interaction. We revealed that the clock PRRs were significantly expanded in Rosaceae and were divided into three major clades, i.e., PRR5/9 (clade 1), PRR3/7 (clade 2), and TOC1/PRR1 (clade 3), based on their phylogeny. Within the clades, five clock PRRs were identified in Rosa chinensis. Clock PRRs had conserved RR domain and shared similar features, suggesting the duplication occurred during evolution. Divergence analysis indicated the role of duplication events in the expansion of clock PRRs. The diverse cis elements and interaction of clock PRRs with miRNAs suggested their role in plant development. Co-expression network analysis showed that the clock PRRs from Rosa chinensis had a strong association with flowering controlling genes. Further silencing of RcPRR1b and RcPRR5 in Rosa chinensis using VIGS led to earlier flowering, confirming them as negative flowering regulators. The protein-to-protein interactions between RcPRR1a/RcPRR5 and RcCO suggested that RcPRR1a/RcPRR5 may suppress flowering by interfering with the binding of RcCO to the promoter of RcFT. Collectively, these results provided an understanding of the evolutionary profiles as well as the functional role of clock PRRs in controlling flowering in roses. [ABSTRACT FROM AUTHOR]

Published

2022

18. Case Report: Stereoelectroencephalography and Stereoelectroencephalography-Guided Radiofrequency Thermocoagulation in Familial Lateral Temporal Lobe Epilepsy.

Author

Wei, Ziqi, Ye, Xiaolai, Wang, Changquan, Xu, Jiwen, Zhang, Puming, Liu, Qiangqiang, and Zhao, Jun

Subjects

LENNOX-Gastaut syndrome, TEMPORAL lobe epilepsy, TEMPORAL lobe, INSULAR cortex, ELECTROCOAGULATION (Medicine), RADIO frequency, HIGH-frequency ventilation (Therapy)

Abstract

Familial lateral temporal lobe epilepsy (FLTLE) is genetic focal epilepsy usually characterised by auditory symptoms. Most FLTLE cases can be controlled by anti-seizure medications, and to our best knowledge, there are no previous reports about stereoelectroencephalography (SEEG) used for patients with FLTLE. In this report, we present two patients with FLTLE in one family and their SEEG performances, together with 18F-fluorodeoxyglucose (18F-FDG) PET and MRI results. In case 1, fast activities originated from the right superior temporal gyrus and spread rapidly to the right anterior insular lobe and hippocampus. In case 2, there were two seizure patterns: (1) The fast activities or sharp slow waves were identified at the left superior temporal gyrus, then, sharp waves and spike waves spread in the left superior temporal gyrus; (2) There were fast activities and slow-wave oscillation originated in the left superior temporal gyrus, then, the fast activities spread in the left superior temporal gyrus and finally spread to the other sites. An SEEG-guided radiofrequency thermocoagulation was performed for both patients and one of them underwent resection surgery. Seizures are well-controlled and the patients are very satisfied with the therapeutic effects. [ABSTRACT FROM AUTHOR]

Published

2022

19. Biochar Application Increases Labile Carbon and Inorganic Nitrogen Supply in a Continuous Monocropping Soil.

Author

Huang, Rong, Li, Bing, Chen, Yulan, Tao, Qi, Xu, Qiang, Wen, Denghong, Gao, Xuesong, Li, Qiquan, Tang, Xiaoyan, and Wang, Changquan

Subjects

BIOCHAR, SOILS, CARBON in soils, AMMONIUM nitrate, CARBON

Abstract

Biochar is an effective method for increasing soil carbon (C) sequestration and nitrogen (N) supply under continuous monocropping. To investigate the impact of biochar placement methods on soil C and N, a one-year field experiment with five treatments was conducted including control, mineral fertilizers only (F), biochar hole placement (BFH; biochar applied to the soil layer at 5–10 cm) + F, biochar band placement (BFB; biochar applied to the soil layer at 15–20 cm) + F, and biochar band and hole placement + F (BFBH). The results showed that, regardless of the placement method, biochar application increased soil total organic C (TOC) and C pool management index by 6.9–39.7% and 4.1–36.1%, respectively, especially for dissolved organic C (DOC; 6.9–51.3%), readily oxidizable C (ROC; 2.4–46.4%), and microbial biomass C (MBC; 10.4–41.7%). Single biochar placement methods significantly influenced DOC, MBC, and ROC contents of both soil layers in the rank order of BFH ≈ BFBH > BFB at 0–15 cm and BFB ≈ BFBH > BFH at 15–30 cm. Soil TN and microbial biomass N (MBN) mainly accumulated at the site of biochar placement. The increased soil TOC:TN and MBC:N ratios under biochar treatments promoted inorganic N immobilization and reduced the loss of ammonium N and nitrate N (NO3−-N) through leaching at the early stage of tobacco growth. Biochar-adsorbed N was remobilized at a later period (vigorous growth stage and maturity), possibly causing the slow decrease in NO3−-N content. Additionally, soil C and N pools were significantly influenced by the main effects of soil layer and growth stage. Overall, biochar application increased soil C and N pools and inorganic N supply through N remobilization. However, the increased labile organic C content and microbial activity may prevent C sequestration in biochar-amended soils. [ABSTRACT FROM AUTHOR]

Published

2022

20. FreeSurfer and 3D Slicer-Assisted SEEG Implantation for Drug-Resistant Epilepsy.

Author

Liu, Qiangqiang, Wang, Junjie, Wang, Changquan, Wei, Fang, Zhang, Chencheng, Wei, Hongjiang, Ye, Xiaolai, and Xu, Jiwen

Subjects

EPILEPSY, INTRACRANIAL hemorrhage, BRAIN damage, PEOPLE with epilepsy, SURGICAL robots, INFORMED consent (Medical law)

Abstract

Objective: Our study aimed to develop an approach to improve the speed and resolution of cerebral-hemisphere and lesion modeling and evaluate the advantages and disadvantages of robot-assisted surgical planning software. Methods: We applied both conventional robot planning software (method 1) and open-source auxiliary software (FreeSurfer and 3D Slicer; method 2) to model the brain and lesions in 19 patients with drug-resistant epilepsy. The patients' mean age at implantation was 21.4 years (range, 6–52 years). Each patient received an average of 12 electrodes (range, 9–16) between May and November 2021. The electrode-implantation plan was designed based on the models established using the two methods. We statistically analyzed and compared the duration of designing the models and planning the implantation using these two methods and performed the surgeries with the implantation plan designed using the auxiliary software. Results: A significantly longer time was needed to reconstruct a cerebral-hemisphere model using method 1 (mean, 206 s) than using method 2 (mean, 20 s) (p < 0.05). Both methods identified a mean of 1.4 lesions (range, 1–5) in each patient. Overall, using method 1 required longer (mean, 130 s; range, 48–436) than using method 2 (mean, 68.1 s; range, 50–104; p < 0.05). In addition, the clarity of the model based on method 1 was lower than that based on method 2. To devise an electrode-implantation plan, it took 9.1–25.5 min (mean, 16) and 6.6–14.8 min (mean, 10.2) based on methods 1 and 2, respectively (p < 0.05). The average target point error of 231 electrodes amounted to 1.90 mm ± 0.37 mm (range, 0.33–3.61 mm). The average entry point error was 0.89 ± 0.26 mm (range, 0.17–1.67 mm). None of the patients presented with intracranial hemorrhage or infection, and no other serious complications were observed. Conclusions: FreeSurfer and 3D Slicer-assisted SEEG implantation is an excellent approach to enhance modeling speed and resolution, shorten the electrode-implantation planning time, and boost the efficiency of clinical work. These well-known, trusted open-source programs do not have explicitly restricted licenses. These tools, therefore, seem well suited for clinical-research applications under the premise of approval by an ethics committee, informed consent of the patient, and clinical judgment of the surgeon. [ABSTRACT FROM AUTHOR]

Published

2022

21. Effect of Integrative Neuromuscular Training for Injury Prevention and Sports Performance of Female Badminton Players.

Author

Zhao, Wei, Wang, Changquan, Bi, Yan, and Chen, Lianxu

Subjects

PREVENTION of injury, CLINICAL trials, RACKET games, NEURODEVELOPMENTAL treatment, PHYSICAL fitness, PRE-tests & post-tests, T-test (Statistics), FUNCTIONAL assessment, BODY movement, ROTATIONAL motion, ATHLETIC ability

Abstract

Objectives. Investigate the effects of integrated neuromuscular training (INT) on injury prevention and the performance of professional female badminton athletes by comparing their preintervention and postintervention tests. The study hypothesized that integrated neuromuscular training can improve the asymmetry and improve the sport performance of female badminton players. Methods. According to pretest value based on functional movement screening, 38 participants were divided into a high-risk group (HG) and a low-risk group (LG) with 22 and 16 people in each group. Two groups of athletes took part in an 8-week INT program consisting of four 90-min sessions each week. The asymmetries in movement, physical fitness, and special abilities were tested before and after the intervention. Independent sample t -test was used for the statistical analysis. Results. This research found indicated that 8 weeks of INT influenced FMS scores in both groups (HG and LG). The change of inline lunge (E S H = 0.42 , E S L = 0.21) and trunk stability push-up (E S H = − 0.58 , E S L = − 0.20) showed significant differences (P < 0.05), and the change of the FMS scores (E S H = 0.81 , E S L = 0.65), deep squat (E S H = 0.6 , E S L = 0.3), and rotation stability (E S H = − 0.65 , E S L = − 0.72) showed very significant differences (P < 0.01). Compared to the pretest, most of the physical fitness parameters improved significantly in the HG and LG groups except strength index, and special abilities of the HG and LG group women badminton athletes showed a substantial increase. Conclusion. Integrated neuromuscular training can effectively improve the asymmetry of female badminton athletes' limbs, prevent sports injury, and improve the athlete's performance ability. However, athletes in different risk groups have certain differences in the degree of improvement in their motor skills. [ABSTRACT FROM AUTHOR]

Published

2021

22. Regulating CH4, N2O, and NO emissions from an alkaline paddy field under rice–wheat rotation with controlled release N fertilizer.

Author

Lan, Ting, Zhang, Heng, Han, Yong, Deng, Ouping, Tang, Xiaoyan, Luo, Ling, Zeng, Jian, Chen, Guangdeng, Wang, Changquan, and Gao, Xuesong

Subjects

CONTROLLED release of fertilizers, PADDY fields, CROP rotation, SODIC soils, ROTATIONAL motion, CROP yields

Abstract

Controlled release fertilizer (CRF) has been shown to increase crop yield and N use efficiency (NUE) compared with traditional chemical fertilizer (TF). However, few studies examined the effects of CRF on CH4, N2O, and NO emissions simultaneously in alkaline paddy fields under rice–wheat rotation. In the present study, we conducted a 2-year field experiment to compare the effects of different CRF application strategies on these gas emissions with those of TF and explored the effects of CRF on global warming potential (GWP), crop yields, and greenhouse gas emission intensity (GHGI). Results showed that CRF can reduce 0.98–14.3%, 13.3–21.1%, and 8.22–16.3% of CH4, N2O, and NO emissions, respectively, in the studied alkaline paddy field. CRF reduce CH4 emission probably by regulating soil NH4+ concentration. CRF reduce N2O and NO emissions probably by regulating inorganic N content in the studied alkaline paddy soil. CRF had the same effect on annual crop yield as TF, especially when CRF was applied twice in each season and had the same N application rate as TF. Annual crop yields and the agronomic efficiency of N (AEN) increased by 8.24% and 21.6%, respectively. On the average of the two rice–wheat rotation cycles, GHGI significantly decreased by up to 14.1% after the application of CRF as relative to that after the application of TF (P < 0.05). These results suggest that CRF is an environment-friendly N fertilization strategy for mitigating GWP and ensuring high crop yield in an alkaline paddy field under rice–wheat rotation. [ABSTRACT FROM AUTHOR]

Published

2021

23. KSN heterozygosity is associated with continuous flowering of Rosa rugosa Purple branch.

Author

Bai, Mengjuan, Liu, Jinyi, Fan, Chunguo, Chen, Yeqing, Chen, Hui, Lu, Jun, Sun, Jingjing, Ning, Guogui, and Wang, Changquan

Subjects

RUGOSA rose, PLANT chromosomes, HISTONE demethylases, DNA methyltransferases, EPIGENETICS

Abstract

Rose (Rosa spp.) plants flower via two contrasting methods: once flowering (OF) and continuous flowering (CF). Purple branch is a rare continuously flowering variety of Rosa rugosa that is extensively cultivated in China. However, the genetic basis of its CF behavior is unknown. We demonstrated that Purple branch is heterozygous for the TFL1 homolog KSN. One KSN allele with a 9 kb Copia insertion was found to be identical to that from continuously flowering Rosa chinensis Old blush. The other allele was found to be a functional wild-type allele. The overall expression of KSN was closely linked to the floral transition, and it was significantly repressed in continuously flowering Purple branch compared with OF Plena. The promoter region of the normal KSN allele was hypermethylated, and histone methylation at H3H4, H3K9, and H3K27 of the KSN gene locus was modified in continuously flowering Purple branch. Silencing of the DNA methyltransferase genes MET1 and CMT3 and the histone methyltransferase gene SUVR5 in Purple branch led to enhanced KSN expression, but silencing of the histone demethylase gene JMJ12 suppressed KSN expression. Therefore, the CF habit of Purple branch may be due to reduced expression of KSN caused by the halved dose and may be associated with epigenetic modifications together with retrotransposon insertions along the chromosome. Our study revealed a novel mechanism underlying the CF behavior of rose plants. [ABSTRACT FROM AUTHOR]

Published

2021

24. Effects of different long-term cropping systems on phoD-harboring bacterial community in red soils.

Author

Gou, Xiaomei, Cai, Yan, Wang, Changquan, Li, Bing, Zhang, Ruiping, Zhang, Yi, Tang, Xiaoyan, Chen, Qiang, Shen, Jie, Deng, Jianrui, and Zhou, Xueyu

Subjects

RED soils, CROPPING systems, BACTERIAL communities, MANGO, PEAS, BIOGEOCHEMICAL cycles, STRUCTURAL equation modeling, SOIL texture

Abstract

Purpose: Phosphorus (P) is the main factor limiting crop production in red soils. Examining the bacterial community harboring phoD gene under different long-term cropping systems may supply meaningful insights for improving soil P availability. Here, we analyzed how the cropping systems affect community structure of phoD-harboring bacteria by changing physicochemical properties in red soils. Materials and methods: Twenty-four soil samples from eight cropping systems (abandoned farmland, corn continuous cropping, mango continuous cropping, taro continuous cropping, zucchini–corn rotation, pea–corn rotation, canola–tobacco rotation, and walnut–tobacco intercropping for > 10 years) were collected from 0 to 20 cm depth in Miyi County, Sichuan Province, China. The abundance of phoD gene was determined by quantitative PCR, and phoD-harboring bacterial community structure was analyzed by high-throughput sequencing. Results and discussion: Available P concentration and phoD abundance were the highest in pea-corn rotation soil, while alkaline phosphatase (ALP) activity was the lowest in this soil. Available P showed a significant positive relationship with phoD abundance, while a negative relationship with ALP activity. Moreover, the dominant phyla of phoD-harboring bacterial community were Proteobacteria and Actinobacteria, with Cupriavidus and Bradyrhizobium being the dominant genera. The relative abundances of Streptomyces, Pseudomonas, and Amycolatopsis were positively related to soil P concentration (total and available P) and negatively related to ALP activity, indicating that these genera may be essential in the mineralization of soil organic P. Redundancy analysis (RDA) showed that ALP, soil organic carbon (SOC), and N:P ratio were the remarkable factors affecting the structure of phoD-containing bacterial community across all cropping system soils. Meanwhile, structural equation model (SEM) showed that the effects of total N and available P on soil phoD-harboring bacterial community structure were stronger than that of SOC. Further, soil texture was also one of the main factors affecting the phoD-harboring bacterial community structure, which had a notable up-regulation effect on abundance and diversity of phoD gene and indirectly regulate gene composition by affecting available P. Conclusions: The long-term cropping systems can affect the community structure of phoD-containing bacteria and ALP activity by altering physicochemical properties, and thus contribute to regulation of the biogeochemical cycle of P in red soils. The main factors driving the changes in phoD-harboring bacterial community structure were soil texture, SOC, total N, and available P. [ABSTRACT FROM AUTHOR]

Published

2021

25. Evolution of SHORT VEGETATIVE PHASE (SVP) genes in Rosaceae: Implications of lineage‐specific gene duplication events and function diversifications with respect to their roles in processes other than bud dormancy.

Author

Liu, Jinyi, Ren, Min, Chen, Hui, Wu, Silin, Yan, Huijun, Jalal, Abdul, and Wang, Changquan

Published

2020

26. The influence of the video assistant referee on the Chinese Super League.

Author

Han, Bo, Chen, Qiu, Lago-Peñas, Carlos, Wang, Changquan, and Liu, Tianbiao

Subjects

SOCCER referees, CHINESE people, ASIANS, FOOTBALL, SOCCER, VIDEOS, EYE drops

Abstract

With the development and advancement of technology, various types of high-tech auxiliary equipment have been gradually introduced into football matches to assist referees to officiate the game. The Chinese football Super League (CSL) introduced the video assistant referee (VAR) in the 2018 season. The purpose of this study is to explore the impact of the introduction of VAR on football matches and on referees' performance. This study compared the data of all 240 games without VAR in the season 2017 and all 240 games with VAR in the season 2018 using Generalized Linear Model (GLM) and means comparison. The following match variables were considered: goals, penalties, red cards, yellow cards, fouls, offsides, playing time in the first half, playing time in the second half and total playing time. The study found that: 1) After the introduction of VAR, the number of offsides and fouls in the Chinese Super League dropped significantly (p <.001); 2) the playing time in the first and second half and the total playing time increased significantly(p <.001); 3) after the introduction of VAR, the home team advantage decreased slightly. The research result can help to better understand the impact of VAR on professional football, especially on the Chinese football Super League, it can also help referees to optimize their refereeing strategy. [ABSTRACT FROM AUTHOR]

Published

2020

27. RcMYB84 and RcMYB123 mediate jasmonate‐induced defense responses against Botrytis cinerea in rose (Rosa chinensis).

Author

Ren, Haoran, Bai, Mengjuan, Sun, Jingjing, Liu, Jinyi, Ren, Min, Dong, Yuwei, Wang, Na, Ning, Guogui, and Wang, Changquan

Subjects

JASMONATE, BOTRYTIS cinerea, TREATMENT effectiveness, TRANSCRIPTION factors, ROSES, ALLENE, PLANT hormones

Abstract

SUMMARY: Jasmonates (JAs) are important for pathogen resistance in many plants, but the role of these phytohormones in fungal pathogen resistance in rose is unclear. Here, we determined that exogenous application of methyl jasmonate increased resistance to the important fungal pathogen Botrytis cinerea in Rosa chinensis 'Old blush', whereas silencing the JA biosynthetic pathway gene Allene Oxide Synthase (AOS) and JA co‐receptor gene CORONATINE INSENSITIVE 1 (COI1) suppressed this response. Transcriptome profiling identified various MYB transcription factor genes that responded to both JA and B. cinerea treatment. Silencing Ri‐RcMYB84/Ri‐RcMYB123 increased the susceptibility of rose plants to B. cinerea and inhibited the protective effects of JA treatment, confirming the crucial roles of these genes in JA‐induced responses to B. cinerea. JAZ1, a key repressor of JA signaling, directly interacts with RcMYB84 and RcMYB123 to deplete their free pools. The JAZ1‐RcMYB84 complex binds to the RcMYB123 promoter via the CAACTG motifs to block its transcription. Upon JA treatment, the expression of RcMYB123 is de‐repressed, and free forms of RcMYB84 and RcMYB123 are released due to JAZ1 degradation, thereby activating the defense responses of plants to B. cinerea. These findings shed light on the molecular mechanisms underlying JA‐induced pathogen resistance in roses. Significance Statement: This study provided a molecular link between B. cinerea infections and JA signaling, and shed light on the molecular mechanisms underlying JA‐induced pathogen resistance in rose plants. [ABSTRACT FROM AUTHOR]

Published

2020

28. Alternate expression of CONSTANS-LIKE 4 in short days and CONSTANS in long days facilitates day-neutral response in Rosa chinensis.

Author

Lu, Jun, Sun, Jingjing, Jiang, Anqi, Bai, Mengjuan, Fan, Chunguo, Liu, Jinyi, Ning, Guogui, and Wang, Changquan

Subjects

FLOWERING of plants, FLOWERING time, GENE silencing, ORNAMENTAL plants, ROSES

Abstract

Photoperiodic flowering responses are classified into three major types: long day (LD), short day (SD), and day neutral (DN). The inverse responses to daylength of LD and SD plants have been partly characterized in Arabidopsis and rice; however, the molecular mechanism underlying the DN response is largely unknown. Modern roses are economically important ornamental plants with continuous flowering (CF) features, and are generally regarded as DN plants. Here, RcCO and RcCOL4 were identified as floral activators up-regulated under LD and SD conditions, respectively, in the CF cultivar Rosa chinensis 'Old-Blush'. Diminishing the expression of RcCO or/and RcCOL4 by virus-induced gene silencing (VIGS) delayed flowering time under both SDs and LDs. Interestingly, in contrast to RcCO -silenced plants, the flowering time of RcCOL4 -silenced plants was more delayed under SD than under LD conditions, indicating perturbed plant responses to day neutrality. Further analyses revealed that physical interaction between RcCOL4 and RcCO facilitated binding of RcCO to the CORE motif in the promoter of RcFT and induction of RcFT. Taken together, the complementary expression of RcCO in LDs and of RcCOL4 in SDs guaranteed flowering under favorable growth conditions regardless of the photoperiod. This finding established the molecular foundation of CF in roses and further shed light on the underlying mechanisms of DN responses. [ABSTRACT FROM AUTHOR]

Published

2020

29. Depth‐dependent soil organic carbon dynamics of croplands across the Chengdu Plain of China from the 1980s to the 2010s.

Author

Li, Qiquan, Li, Aiwen, Dai, Tianfei, Fan, Zemeng, Luo, Youlin, Li, Shan, Yuan, Dagang, Zhao, Bin, Tao, Qi, Wang, Changquan, Li, Bing, Gao, Xuesong, Li, Yiding, Li, Huanxiu, and Wilson, John P.

Subjects

CROP rotation, HISTOSOLS, FARMS, CARBON in soils, CLIMATE change, SOIL density

Abstract

Agricultural soils have tremendous potential to sequester soil organic carbon (SOC) and mitigate global climate change. However, agricultural land use has a profound impact on SOC dynamics, and few studies have explored how agricultural land use combined with soil conditions affect SOC changes throughout the soil profile. Based on a paired soil resampling campaign in the 1980s and 2010s, this study investigated the SOC changes of the soil profile caused by agricultural land use and the correlations with parent material and topography across the Chengdu Plain of China. The results showed that the SOC content increased by 3.78 g C/kg in the topsoil (0–20 cm), but decreased in the 20–40 cm and 40–60 cm soil layers by 0.90 and 1.26 g C/kg respectively. SOC increases in topsoil were observed for all types of agricultural land. Afforestation on former agricultural land also caused SOC decreases in the 20–60 cm soil layers, while SOC decreases only occurred in the 40–60 cm soil layer for agricultural land using a traditional crop rotation (i.e. traditional rice–wheat/rapeseed rotation) and with rice–vegetable rotations converted from the traditional rotations. For each agricultural land use, SOC decreases in deep soils only occurred in high relief areas and in soils formed from Q4 (Quaternary Holocene) grey‐brown alluvium and Q4 grey alluvium that had a relatively low soil bulk density and clay content. The results indicated that SOC change caused by agricultural land use was depth dependent and that the effects of agricultural land use on soil profile SOC dynamics varied with soil characteristics and topography. Subsoil SOC decreases were more likely to occur in high relief areas and in soils with low soil bulk density and low clay content. [ABSTRACT FROM AUTHOR]

Published

2020

30. Normalization method of capillary pressure curve based on effective thickness of reservoir.

Author

LI Sihan, WANG Changquan, WU Hua, LIU Tao, and ZHAO Xu

Subjects

RESERVOIRS, ERROR functions, CURVE fitting, INDUSTRIAL capacity, CURVES

Abstract

Aiming at the large error of power function fitting in traditional methods, a weighted normalization method based on effective reservoir thickness is proposed. It takes into account the heterogeneity of sandstone reservoirs and analyses the proportion of various reservoirs in small formations. The effective thickness of a single well is used to normalize the weights of different types of reservoir. The result is representative of the reservoir. Taking block Zhongqu 43 of Jianghan oilfield as an example, three normalization methods are compared. According to curve shape, characteristic parameters and data standard deviation, the new normalization method is reasonable and effective. It has the highest degree of fitting with the original curve. The new nor-malization method can qualitatively evaluate the production capacity of a single well and production potential of the block from the perspective of microscopic pore structure. It can provide guidance for development. [ABSTRACT FROM AUTHOR]

Published

2020

31. Genome-wide identification and functional analysis of JmjC domain-containing genes in flower development of Rosa chinensis.

Author

Dong, Yuwei, Lu, Jun, Liu, Jinyi, Jalal, Abdul, and Wang, Changquan

Abstract

Key message: We genome-wide identified 28 JmjC domain-containing genes, further spatio-temporal expression profiling and genetic analysis defined them as epigenetic regulators in flowering initiation of Rosa chinensis. The JmjC domain-containing histone demethylases play critical roles in maintaining homeostasis of histone methylations, thus are vital for plant growth and development. Genome-wide identification of the JmjC domain-containing genes have been reported in several species, however, no systematic study has been performed in rose plants. In this paper, we identified 28 JmjC domain-containing genes from the newly published genome database of Rosa chinensis. The JmjC domain-containing proteins in R. chinensis were divided into seven groups, KDM3 was the largest group with 13 members, and JmjC domain-only A and KDM5B were the smallest clades both with only one member. Although all the JmjC domain proteins having a conserved JmjC domain, the gene and protein structure experienced differentiation and specification during the evolution, especially in KDM3 clade, one gene (RcJMJ40) was found carrying site deletions for cofactors Fe (II) and α-KG binding which were crucial for demethylase activities, three genes (RcJMJ41, RcJMJ43 and RcJMJ44) had no intron while two of them had tandem JmjC domains. Spatial expression pattern analysis of these JmjC domain-containing genes in different tissues showed most of them were highly expressed in reproductive tissues such as floral meristem and closed flowers than vegetative tissues, demonstrating their important functions in developmental switch from vegetative to reproductive growth of roses. Temporal expression profiling indicated majority of JmjC domain-containing genes from R. chinensis fluctuated along with floral bud differentiation and development, further proving their essential roles in flower organogenesis. VIGS induced silencing of RcJMJ12 led to delayed flowering time, and decreased the expression levels of flowering integrator such as RcFT, RcSOC1, RcFUL, RcLFY and RcAP1, therefore providing the genetic evidence of RcJMJ12 in flowering initiation. Collectively, spatio-temporal expression profiling and genetic analysis defined the JmjC domain-containing genes as important epigenetic regulators in flower development of R. chinensis. [ABSTRACT FROM AUTHOR]

Published

2020

32. Effects of different long-term cropping systems on phosphorus adsorption and desorption characteristics in red soils.

Author

Gou, Xiaomei, Cai, Yan, Wang, Changquan, Li, Bing, Zhang, Yi, Tang, Xiaoyan, Shen, Jie, and Cai, Zehui

Subjects

RED soils, CROPPING systems, DESORPTION, ADSORPTION (Chemistry), CROPS, CROP rotation, FERTILIZERS, INTERCROPPING

Abstract

Purpose: Phosphorus (P) fertilizer has been applied in regions with red soils to ensure high crop yield. However, the supply of bioavailable P for crop plants is insufficient due to the strong adsorption and fixing behaviors in red soils. In this study, we explored P adsorption and desorption characteristics in red soils under different long-term cropping systems. We also analyzed how the cropping systems affect P adsorption and desorption through changing soil physicochemical properties under the experimental conditions. Materials and methods: Eighteen red soil samples were collected at depths of 0–20 cm from six cropping systems (abandoned farmland, corn continuous cropping, taro continuous cropping, pea–corn rotation, canola–tobacco rotation, and walnut–tobacco intercropping for at least 10 years) in Miyi County, Sichuan Province, China. Soil physicochemical properties, zeta potentials, and P adsorption and desorption characteristics were evaluated. Results and discussion: The P adsorption capacity of soils increased at a decreasing rate with increasing exogenous P concentration, while the P desorption capacity increased constantly; however, the change in the percentage of desorbed P had no clear trend. The soils under pea–corn rotation and taro continuous cropping had lower P adsorption capacities and higher P desorption capacities compared to those under the other cropping systems. The maximum P adsorption capacities (Qm) of pea–corn rotation and taro continuous cropping soils were 16.1% and 32.4% of abandoned farmland soil, while the corresponding desorption coefficients were 6.93 and 1.62 times higher than that of abandoned farmland soil, respectively. Soil available P (AP), cation exchange capacity (CEC), and clay content were positively correlated with a and readily desorbable P (RDP), while they were negatively correlated with Qm (P < 0.05); opposite trends were found in the sand content. In addition, the zeta potential of soil colloids decreased with increasing soil pH. Among the cropping systems, the absolute value of zeta potential was lowest for tobacco–walnut intercropping, while its isoelectric point was the highest, resulting in the highest P adsorption capacity. Conclusions: The long-term cropping systems affect P adsorption and desorption characteristics and P availability in red soils by influencing soil physicochemical properties. The main factors driving the changes in P adsorption behavior were AP, CEC, free Fe oxides, and sand content, while AP, sand, and clay contents were the major factors for the P desorption. [ABSTRACT FROM AUTHOR]

Published

2020

33. Negative effects of urbanization on agricultural soil easily oxidizable organic carbon down the profile of the Chengdu Plain, China.

Author

Luo, Youlin, Li, Qiquan, Wang, Changquan, Li, Bing, Stomph, Tjeerd‐Jan, Yang, Juan, Tao, Qi, Yuan, Shu, Tang, Xiaoyan, Ge, Jinru, Yu, Xuelian, Peng, Yueyue, Xu, Qiang, and Zheng, Gangxun

Subjects

SOCIOECONOMIC factors, SOIL profiles, URBANIZATION, SOILS, DEPTH profiling, GEOGRAPHIC spatial analysis

Abstract

Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased. [ABSTRACT FROM AUTHOR]

Published

2020

34. Stimulation of heterotrophic nitrification and N2O production, inhibition of autotrophic nitrification in soil by adding readily degradable carbon.

Author

Lan, Ting, Liu, Rui, Suter, Helen, Deng, Ouping, Gao, Xuesong, Luo, Ling, Yuan, Shu, Wang, Changquan, and Chen, Deli

Subjects

NITRIFICATION, SOIL moisture, AMMONIA-oxidizing bacteria, NITROUS oxide, SOILS

Abstract

Purpose: This study aimed to test the hypothesis that readily degradable Carbon (C) has contrasting effect on soil N autotrophic and heterotrophic nitrification, can stimulate nitrous oxide (N2O) emission. The knowledge can improve our understanding of the effect of readily degradable C on soil N nitrification and the related N2O emission. Materials and methods: 15N tracing technique along with acetylene inhibition was used to determine the effect of different doses of glucose-C addition on the rates of total nitrification (ntot), autotrophic nitrification (na), heterotrophic nitrification (nh), and N2O production in two soils. Soils were collected from Glenormiston (GN) and Terang (TR), Victoria, Australia and incubated at soil moisture content of 60% water-filled pore space (WFPS) and at 25 °C. Results and discussion: The addition of mixed C and N substrates with wide C/N ratio (> 25) promoted heterotrophic nitrification by 2.84- to 3.33-folds but inhibited autotrophic nitrification by 30.4–54.8%, thereby resulting in high ntot and NO3− accumulation compared with the soil samples under the control treatment. The mechanism of glucose inhibition of na might be caused by increasing the microbial immobilization of NH4+ and not by affecting the gene copy numbers of ammonia-oxidizing archea and ammonia-oxidizing bacteria. The glucose addition stimulated N2O production in soil, which might be caused by promoting heterotrophic nitrification and denitrification. Conclusions: The stimulating effect of degradable C application on the contribution of heterotrophic nitrification to total nitrification, NO3− accumulation, and N2O production should be considered, especially in soils with low pH and high organic C content. [ABSTRACT FROM AUTHOR]

Published

2020

35. RrMYB5‐ and RrMYB10‐regulated flavonoid biosynthesis plays a pivotal role in feedback loop responding to wounding and oxidation in Rosa rugosa.

Author

Shen, Yuxiao, Sun, Tingting, Pan, Qi, Anupol, Nachaisin, Chen, Hai, Shi, Jiewei, Liu, Fang, Deqiang, Duanmu, Wang, Changquan, Zhao, Jian, Yang, Shuhua, Wang, Caiyun, Liu, Jihong, Bao, Manzhu, and Ning, Guogui

Subjects

ABSCISIC acid, FLAVONOIDS, OXIDATION, BIOSYNTHESIS, ROSES, TRANSGENIC plants, OXIDATIVE stress

Abstract

Summary: Flavonoids play critical roles in plant responses to various stresses. Few studies have been reported on what the mechanism of activating flavonoid biosynthesis in plant responses to wounding and oxidation is. In this study, flavonoid metabolites and many MYB transcript factors from Rosa rugosa were verified to be induced by wounding and oxidation. RrMYB5 and RrMYB10, which belong to PA1‐ and TT2‐type MYB TFs, respectively, showed extremely high induction. Overexpression of RrMYB5 and RrMYB10 resulted in an increased accumulation of proanthocyanidins in R. rugosa and tobacco by promoting the expression of flavonoid structural genes. Transcriptomic analysis of the transgenic plants showed that most genes, involved in wounding and oxidation response and ABA signalling modulation, were up‐regulated by the overexpression of RrMYB10, which was very much similar to that observed in RrANR and RrDFR overexpression transgenics. RrMYB5 and RrMYB10 physically interacted and mutually activated each other's expressions. They solely or synergistically activated the different sets of flavonoid pathway genes in a bHLH TF EGL3‐independent manner. Eventually, the accumulation of proanthocyanidins enhanced plant tolerance to wounding and oxidative stresses. Therefore, RrMYB5 and RrMYB10 regulated flavonoid synthesis in feedback loop responding to wounding and oxidation in R. rugosa. Our study provides new insights into the regulatory mechanisms of flavonoid biosynthesis by MYB TFs and their essential physiological functions in plant responses to wounding and oxidative stresses. [ABSTRACT FROM AUTHOR]

Published

2019

36. The B‐box protein BBX19 suppresses seed germination via induction of ABI5.

Author

Bai, Mengjuan, Sun, Jingjing, Liu, Jinyi, Ren, Haoran, Wang, Kang, Wang, Yanling, Wang, Changquan, and Dehesh, Katayoon

Subjects

GERMINATION, RNA interference, TRANSCRIPTION factors, ABSCISIC acid, PROTEINS, FORKHEAD transcription factors, SEEDS

Abstract

Summary: Seed germination is a fundamental process in the plant life cycle and is regulated by functionally opposing internal and external inputs. Here we explored the role of a negative regulator of photomorphogenesis, a B‐box‐containing protein (BBX19), as a molecular link between the inhibitory action of the phytohormone abscisic acid (ABA) and the promoting role of light in germination. We show that seeds of BBX19‐overexpressing lines, in contrast to those of BBX19 RNA interference lines, display ABA hypersensitivity, albeit independently of elongated hypocotyl 5 (HY5). Moreover, we establish that BBX19 functions neither via perturbation of GA signaling, the ABA antagonistic phytohormone, nor through interference with the DELLA protein germination repressors. Rather, BBX19 functions as an inducer of ABA INSENSITIVE5 (ABI5) by binding to the light‐responsive GT1 motifs in the gene promoter. In summary, we identify BBX19 as a regulatory checkpoint, directing diverse developmental processes and tailoring adaptive responses to distinct endogenous and exogenous signals. Significance Statement: BBX19, a transcription factor with two B‐box motifs, is a suppressor of seed germination that functions as a checkpoint node that optimizes and tailors adaptive responses to distinct developmental and environmental inputs. [ABSTRACT FROM AUTHOR]

Published

2019

37. Effects of agricultural land use change on organic carbon and its labile fractions in the soil profile in an urban agricultural area.

Author

Luo, Youlin, Li, Qiquan, Shen, Jie, Wang, Changquan, Li, Bing, Yuan, Shu, Zhao, Bin, Li, Huanxiu, Zhao, Junwen, Guo, Lingke, Li, Shan, and He, Yuting

Subjects

LAND use, CARBON sequestration, FERTILIZERS, SOIL profiles, URBAN agriculture

Abstract

The properties of soil organic carbon (SOC) required for carbon sequestration and nutrient availability are contradictory, and the changes in SOC caused by agricultural land use changes remain elusive. Data on the total soil organic carbon (TOC) and labile organic carbon, including easily oxidizable organic carbon (EOC), dissolved organic carbon (DOC), and microbial biomass carbon (MBC), of the soil profile were analysed for four typical agricultural land use scenarios in the Chengdu Plain, China. The impacts of agricultural land use changes on sequestration and nutrient availability of SOC were assessed in this urban agricultural area using the space‐for‐time substitution method. Conversion of land use from a traditional agricultural rotation (rice‐wheat/rapeseed rotation) to afforestation increased the MBC content and decreased the contents of EOC, DOC, and TOC due to the lower input of organic matter, improved aeration of the soil profile, and growth of aboveground biomass. Conversion of a traditional rotation to a rice–garlic rotation resulted in a significant increase in topsoil TOC, slight but insignificant decreases in subsoil TOC, and clear increases in labile organic carbon because of rice planting, rice straw mulch, and reasonable application of chemical fertilizers. In contrast, the conversion of a traditional rotation to a rice–leafy vegetable rotation decreased MBC due to the excessive use of chemical fertilizers that consequently increased EOC, DOC, and TOC. We conclude that afforestation on paddy soil has negative consequences for soil carbon sequestration and a rice–leafy vegetable rotation contributes to carbon sequestration but is detrimental to soil fertility. In addition, the MBC ratio in soil could be the optimal indicator for assessing SOC stability and soil fertility, and more attention should be paid to subsoil carbon changes. [ABSTRACT FROM AUTHOR]

Published

2019

38. Vertical dynamics of soil organic carbon and its influence on Chengdu Plain paddy soils from the 1980s to the 2010s.

Author

Li, Shan, Xiao, Yi, Li, Qiquan, Wang, Changquan, Li, Bing, Yuan, Dagang, Tao, Qi, Gao, Xuesong, Zhao, Bin, and Li, Yiding

Subjects

SOIL dynamics, HISTOSOLS, CARBON in soils, SOILS, EXPONENTIAL functions

Abstract

The vertical dynamics of paddy soil organic carbon (SOC) play an important role in soil quality and carbon cycling. In this study, we used an exponential decay function to estimate the vertical dynamics of SOC content and determined its influencing factors in a typical paddy soil area of the Chengdu Plain from the 1980s to the 2010s. Our results show an overall increase in SOC stocks at 0–100 cm from 11.8 Tg in the 1980s to 13.7 Tg in the 2010s. SOC content increased at depths of 0–40 cm and declined at depths of 40–100 cm over the past three decades. The exponential decay function parameters C0 and k significantly increased by 31.4% and 18.2% respectively, which suggests the vertical pattern of SOC distribution changed. The increase in nugget effects of C0 and k and the decrease in the relative contributions of the parent material, subgroup and distance-to-river indicate that extrinsic factors played increasing roles in the vertical variation of SOC content. Our study concludes that rice planting has led to vertical variations of SOC content and decreased the effects of intrinsic factors on the vertical variation of SOC content of Chengdu Plain paddy soils over the past three decades. [ABSTRACT FROM AUTHOR]

Published

2019

39. Abscisic acid‐mediated modifications of radial apoplastic transport pathway play a key role in cadmium uptake in hyperaccumulator Sedum alfredii.

Author

Tao, Qi, Jupa, Radek, Liu, Yuankun, Luo, Jipeng, Li, Jinxing, Kováč, Ján, Li, Bing, Li, Qiquan, Wu, Keren, Liang, Yongchao, Lux, Alexander, Wang, Changquan, and Li, Tingqiang

Subjects

ABSCISIC acid, SEDUM, CADMIUM, HEAVY metals, METAL ions, POISONOUS plants

Abstract

Abscisic acid (ABA) is a key phytohormone underlying plant resistance to toxic metals. However, regulatory effects of ABA on apoplastic transport in roots and consequences for uptake of metal ions are poorly understood. Here, we demonstrate how ABA regulates development of apoplastic barriers in roots of two ecotypes of Sedum alfredii and assess effects on cadmium (Cd) uptake. Under Cd treatment, increased endogenous ABA level was detected in roots of nonhyperaccumulating ecotype (NHE) due to up‐regulated expressions of ABA biosynthesis genes (SaABA2, SaNCED), but no change was observed in hyperaccumulating ecotype (HE). Simultaneously, endodermal Casparian strips (CSs) and suberin lamellae (SL) were deposited closer to root tips of NHE compared with HE. Interestingly, the vessel‐to‐CSs overlap was identified as an ABA‐driven anatomical trait. Results of correlation analyses and exogenous applications of ABA/Abamine indicate that ABA regulates development of both types of apoplastic barriers through promoting activities of phenylalanine ammonialyase, peroxidase, and expressions of suberin‐related genes (SaCYP86A1, SaGPAT5, and SaKCS20). Using scanning ion‐selected electrode technique and PTS tracer confirmed that ABA‐promoted deposition of CSs and SL significantly reduced Cd entrance into root stele. Therefore, maintenance of low ABA levels in HE minimized deposition of apoplastic barriers and allowed maximization of Cd uptake via apoplastic pathway. Abscisic acid regulated the development of endodermal Casparian strips (CSs) and suberin lamellae (SL) in roots of S. alfredii exposed to Cd. Maintenance of low ABA levels in hyperaccumulating ecotype minimized deposition of CSs/SL and allowed maximization of Cd uptake via apoplastic pathway. [ABSTRACT FROM AUTHOR]

Published

2019

40. Genome-Wide Association Study Reveals Novel Genomic Regions Associated With High Grain Protein Content in Wheat Lines Derived From Wild Emmer Wheat.

Author

Liu, Jia, Huang, Lin, Wang, Changquan, Liu, Yaxi, Yan, Zehong, Wang, Zhenzhen, Xiang, Lan, Zhong, Xiaoying, Gong, Fangyi, Zheng, Youliang, Liu, Dengcai, and Wu, Bihua

Subjects

EMMER wheat, GRAIN proteins, WHEAT breeding, WHEAT proteins, GERMPLASM, WHEAT

Abstract

Grain protein content (GPC) and yield are of two important traits in wheat, but their negative correlation has hampered their simultaneous improvement in conventional breeding. Wild emmer wheat (Triticum turgidum ssp. dicoccoides) is an important genetic resource for wheat quality improvement. In this study, we report a genome-wide association study (GWAS) using 13116 DArT-seq markers to characterize GPC in 161 wheat lines derived from wild emmer. Using a general linear model, we identified 141 markers that were significantly associated with GPC, and grouped into 48 QTL regions. Using both general linear model and mixed linear model, we identified four significant markers that were grouped into two novel QTL regions on chromosomes 2BS (QGpc.cd1-2B.1) and 7BL (QGpc.cd1-7B.2). The two QTLs have no negative effects on thousand kernel weight (TKW) and should be useful for simultaneous improvement of GPC and TKW in wheat breeding. Searches of public databases revealed 61 putative candidate/flanking genes related to GPC. The putative proteins of interest were grouped in four main categories: enzymes, kinase proteins, metal transport-related proteins, and disease resistance proteins. The linked markers and associated candidate genes provide essential information for cloning genes related to high GPC and performing marker-assisted breeding in wheat. [ABSTRACT FROM AUTHOR]

Published

2019

41. Knockout of ush2a gene in zebrafish causes hearing impairment and late onset rod-cone dystrophy.

Author

Han, Shanshan, Liu, Xiliang, Xie, Shanglun, Gao, Meng, Liu, Fei, Yu, Shanshan, Sun, Peng, Wang, Changquan, Archacki, Stephen, Lu, Zhaojing, Hu, Xuebin, Qin, Yayun, Qu, Zhen, Huang, Yuwen, Lv, Yuexia, Tu, Jiayi, Li, Jingzhen, Yimer, Tinsae Assefa, Jiang, Tao, and Tang, Zhaohui

Subjects

USHER'S syndrome, ZEBRA danio, GENE expression, TECHNOLOGICAL innovations, ELECTRORETINOGRAPHY

Abstract

Most cases of Usher syndrome type II (USH2) are due to mutations in the USH2A gene. There are no effective treatments or ideal animal models for this disease, and the pathological mechanisms of USH2 caused by USH2A mutations are still unknown. Here, we constructed a ush2a knockout (ush2a−/−) zebrafish model using TALEN technology to investigate the molecular pathology of USH2. An early onset auditory disorder and abnormal morphology of inner ear stereocilia were identified in the ush2a−/− zebrafish. Consequently, the disruption of Ush2a in zebrafish led to a hearing impairment, like that in mammals. Electroretinography (ERG) test indicated that deletion of Ush2a affected visual function at an early stage, and histological analysis revealed that the photoreceptors progressively degenerated. Rod degeneration occurred prior to cone degeneration in ush2a−/− zebrafish, which is consistent with the classical description of the progression of retinitis pigmentosa (RP). Destruction of the outer segments (OSs) of rods led to the down-regulation of phototransduction cascade proteins at late stage. The expression of Ush1b and Ush1c was up-regulated when Ush2a was null. We also found that disruption of fibronectin assembly at the retinal basement membrane weakened cell adhesion in ush2a−/− mutants. In summary, for the first time, we generated a ush2a knockout zebrafish line with auditory disorder and retinal degeneration which mimicked the symptoms of patients, and revealed that disruption of fibronectin assembly may be one of the factors underlying RP. This model may help us to better understand the pathogenic mechanism and find treatment for USH2 in the future. [ABSTRACT FROM AUTHOR]

Published

2018

42. CO2 flooding predominant channel identification based on gas tracing method.

Author

MA Li, OUYANG Chuanxiang, WANG Changquan, SONG Yan, and LIN Fei

Abstract

For the development of CO2 flooding in low-permeability oil fields, due to the strong heterogeneity and viscous fingering, it is easy to form the actual situation of the dominant air channel. To understand the heterogeneity of the reservoir in advance, and to obtain the information of the underground fluid distribution status in time, through the indoor evaluating the experimental study, the two gas-phase tracers QT-1 and QT-5 were optimally evaluated in terms of storage time, temperature, and static adsorption, and the cross-valve gas tracer monitoring was performed on the transferred 29-33 well group. The production dynamics of the test wells in the CO2 drive field was Tracked and evaluated. According to the seeing conditions, migration speed and direction of the gas tracer, and the results of the reservoir connectivity, a comprehensive analysis of the advantages of the gas drive was carried out. The results show that under the condition of reservoir, the gaseous tracers QT-1 and QT-5 coexist and move with gas phase and light hydrocarbon mixed phase with CO2 in the oil reservoir. The migration speed of the tracer in the first-line well is relatively slow, and the velocity of the second and third line wells faster, indicating that the fracture is not developed. The No. 2 small-layer injection and production well of the Qingyi I sands group has good connectivity and there is intra-layer heterogeneity. The production concentration is parallel to the southwest direction of the sand body, indicating that the there are gas-fed advantages in the direction. Different tracer output curve shapes correspond to different reservoir characteristics. A single set of thick sand reservoirs shows "single peak", long time for seepage, and long duration of output peak; multiple sets of thin sand reservoirs show "Multiple peaks," short reagents, output peak duration, and other features. [ABSTRACT FROM AUTHOR]

Published

2018

43. Cadmium adsorption, chelation and compartmentalization limit root-to-shoot translocation of cadmium in rice ( Oryza sativa L.).

Author

Xu, Qiang, Wang, Changquan, Li, Shigui, Li, Bing, Li, Qiquan, Chen, Guangdeng, Chen, Weilan, and Wang, Feng

Subjects

PHYSIOLOGICAL effects of cadmium, CHELATION, RICE genetics, ADSORPTION (Chemistry), BIOACCUMULATION in plants, PLANT translocation, PLANT shoots

Abstract

Strategies to reduce cadmium (Cd) in rice grain, below concentrations that represent serious human health concerns, require that the mechanisms of Cd distribution and accumulation within rice plants be established. Here, a comprehensive hydroponic experiment was performed to investigate the differences in the Cd uptake, chelation and compartmentalization between high (D83B) and low (D62B) Cd-accumulation cultivars contrasting in Cd accumulation in order to establish the roles of these processes in limiting Cd translocation from root to shoot. D83B showed 3-fold higher Cd accumulation in the shoots than the cultivar D62B. However, a short-term Cd uptake experiment showed more Cd uptake by D62B than by D83B. The distribution of Cd in roots and shoots differed significantly. D83B translocated 38% of total Cd taken up to the shoots, whereas D62B retained most of the Cd in the roots. D62B had higher amounts of non-protein thiols (NPTs) and glutathione (GSH) than D83B. The NPT and Cd distribution ratio (CDR) in the anionic form in the roots of D62B increased gradually as Cd concentration increased. In D83B, in contrast, levels of CDR in the cationic form increased significantly from 22.10 to 43.37%, while NPT only increased slightly. Furthermore, the percentage of Cd ions retained in thiol-rich peptides, especially in the HMW complexes, was significantly higher in D62B compared with D83B. However, D83B possessed a greater proportion of potentially mobile (cationic) Cd in the roots and showed superior Cd translocation from root to shoot. Taken as a whole, the results presented in this study revealed that Cd chelation, compartmentalization and adsorption contribute to the Cd retention in roots. [ABSTRACT FROM AUTHOR]

Published

2017

44. Evaluation of the Hair Cell Regeneration in Zebrafish Larvae by Measuring and Quantifying the Startle Responses.

Author

Wang, Changquan, Zhong, Zhenmin, Sun, Peng, Zhong, Hanbing, Li, Hongzhe, and Chen, Fangyi

Subjects

HAIR cell regeneration, FISH larvae, STARTLE reaction, ANIMAL models in research, HAIR cells, EFFECT of drugs on cells, PHYSIOLOGY

Abstract

The zebrafish has become an established model organism for the study of hearing and balance systems in the past two decades. The classical approach to examine hair cells is to use dye to conduct selective staining, which shows the number and morphology of hair cells but does not reveal their function. Startle response is a behavior closely related to the auditory function of hair cells; therefore it can be used to measure the function of hair cells. In this study, we developed a device to measure the startle response of zebrafish larvae. By applying various levels of stimulus, it showed that the system can discern a 10 dB difference. The hair cell in zebrafish can regenerate after damage due to noise exposure or drug treatment. With this device, we measured the startle response of zebrafish larvae during and after drug treatment. The results show a similar trend to the classical hair cell staining method. The startle response was reduced with drug treatment and recovered after removal of the drug. Together it demonstrated the capability of this behavioral assay in evaluating the hair cell functions of fish larvae and its potential as a high-throughput screening tool for auditory-related gene and drug discovery. [ABSTRACT FROM AUTHOR]

Published

2017

45. Spatial distribution of soil cadmium and its influencing factors in peri-urban farmland: a case study in the Jingyang District, Sichuan, China.

Author

Li, Bing, Xiao, Rui, Wang, Changquan, Cao, Linhai, Zhang, Yi, Zheng, Shunqiang, Yang, Lan, and Guo, Yong

Subjects

CADMIUM, SOIL composition, AGRICULTURAL ecology, SOIL pollution, ENVIRONMENTAL management

Abstract

Semi-agricultural ecosystems in peri-urban areas are susceptible to contamination. The spatial distribution and influencing factors of such pollution are unclear and poorly constrained in many areas worldwide. Therefore, studying the problems of soil pollution in peri-urban areas is critical for environmental management and agricultural production. In this paper, with cadmium (Cd) as the target pollutant, the spatiotemporal variations of soil cadmium pollution and the relative importance of the affecting factors were analyzed at a peri-urban area from the Jingyang District, Sichuan, China. Statistical results showed that the farmland in the study area could be considered moderately soil Cd-polluted, under the dual influence of natural factors and human activity. In particular, the soil Cd concentration in Tianyuan and Bajiaojing exceeded 0.5 mg kg, for intensive industrial enterprises are distributed in these areas. Correspondingly, the geoaccumulation index also showed that the contamination of Cd in this area was moderately polluted. Moreover, the ecological risk index was 80% in the study area, indicating that the soil Cd pollution potential risk was moderate to high. High geological background values (soil Cd = 0.29 mg kg), river migration, industrial enterprises, and traffic significantly influenced soil Cd pollution, with natural geological factors playing greater roles. The significant horizontal-spatial effective distances away from Shiting River, Deyang-Aba Highway, and chemical plants were 200, 400, and 100 m, respectively. These results will be useful in guiding farmland cultivation and pollution remediation effectively in the peri-urban areas. [ABSTRACT FROM AUTHOR]

Published

2017

46. Eco-economic resilience of Chengdu City.

Author

Wang, Lei, Yang, Juan, Wang, Changquan, and Li, Bing

Published

2011

47. Development of a distributed agricultural drought prediction model based on TOPMODEL and GIS.

Author

Xu, Jingwen, Zhang, Wanchang, Wang, Changquan, Zhu, Xuemei, and Chen, Jiongfeng

Published

2009

48. Development of a soil moisture prediction model based on Xinanjiang model and GIS.

Author

Xu, Jingwen, Zhang, Wanchang, Wang, Changquan, Zheng, Ziyan, and Chen, Jiongfeng

Published

2009

49. The role of root border cells in aluminum resistance of pea (Pisum sativum) grown in mist culture.

Author

Yu, Min, Shen, Renfang, Liu, Jiayou, Chen, Rongfu, Xu, Miaomiao, Yang, Yong, Xiao, Hongdong, Wang, Huizhen, Wang, Huoyan, and Wang, Changquan

Published

2009

50. Using the UPLC–ESI–Q‐TOF–MSE method and intestinal bacteria for metabolite identification in the nonpolysaccharide fraction from Bletilla striata.

Author

Yang, Chang, Xia, Tao, Wang, Changquan, Sun, Huiyuan, Li, Yongjun, Gong, Zipeng, Li, Yueting, Zheng, Lin, and Huang, Yong

Abstract

Bletilla striata (Thunb.) Reichb. f. (Orchidaceae), also known as Bai‐ji, is a traditional Chinese herb that is widely used in Asia to treat hematemesis, hemoptysis, traumatic bleeding and other similar disorders. Most studies have focused on the pharmacological activities of polysaccharide extracts from B. striata. Our previous studies found that the nonpolysaccharide fraction from B. striata extract also has a hemostatic effect; however, the active constituents responsible for this pharmacological action are unclear. Thus, the metabolic profiles of the nonpolysaccharide fraction were investigated in Sprague–Dawley rats and intestinal bacteria models using ultra‐performance liquid chromatography coupled with quadrupole time‐of‐flight tandem mass spectrometry. Mass data were acquired by the MSE method. Eight components including five prototypes and three metabolites were identified in rat biofluids after oral administration of the nonpolysaccharide fraction. The parent compounds underwent various metabolic processes, including hydrolysis, deglucosylation, glycosylation and sulfate conjugation. The results not only reveal the possible metabolic pathway, but also indicate the potential pharmacological components. Further mechanistic studies using nonpolysaccharide compounds of the B. striata extract are required to obtain potential candidate compounds. [ABSTRACT FROM AUTHOR]

Published

2019