Your search keyword '"Huizhi Liu"' showing total 147 results

1. Establishing a 4D-CT lung function related volumetric dose model to reduce radiation pneumonia

Author

Chunmei Liu, Huizhi Liu, Yange Li, Zhiqing Xiao, Yanqiang Wang, Han Guo, and Jianmin Luo

Subjects

Lung cancer, 4D-CT, Functional imaging, Radiation pneumonia, Medicine, Science

Abstract

Abstract In order to study how to use pulmonary functional imaging obtained through 4D-CT fusion for radiotherapy planning, and transform traditional dose volume parameters into functional dose volume parameters, a functional dose volume parameter model that may reduce level 2 and above radiation pneumonia was obtained. 41 pulmonary tumor patients who underwent 4D-CT in our department from 2020 to 2023 were included. MIM Software (MIM 7.0.7; MIM Software Inc., Cleveland, OH, USA) was used to register adjacent phase CT images in the 4D-CT series. The three-dimensional displacement vector of CT pixels was obtained when changing from one respiratory state to another respiratory state, and this three-dimensional vector was quantitatively analyzed. Thus, a color schematic diagram reflecting the degree of changes in lung CT pixels during the breathing process, namely the distribution of ventilation function strength, is obtained. Finally, this diagram is fused with the localization CT image. Select areas with Jacobi > 1.2 as high lung function areas and outline them as fLung. Import the patient's DVH image again, fuse the lung ventilation image with the localization CT image, and obtain the volume of fLung different doses (V60, V55, V50, V45, V40, V35, V30, V25, V20, V15, V10, V5). Analyze the functional dose volume parameters related to the risk of level 2 and above radiation pneumonia using R language and create a predictive model. By using stepwise regression and optimal subset method to screen for independent variables V35, V30, V25, V20, V15, and V10, the prediction formula was obtained as follows: Risk = 0.23656–0.13784 * V35 + 0.37445 * V30-0.38317 * V25 + 0.21341 * V20-0.10209 * V15 + 0.03815 * V10. These six independent variables were analyzed using a column chart, and a calibration curve was drawn using the calibrate function. It was found that the Bias corrected line and the Apparent line were very close to the Ideal line, The consistency between the predicted value and the actual value is very good. By using the ROC function to plot the ROC curve and calculating the area under the curve: 0.8475, 95% CI 0.7237–0.9713, it can also be determined that the accuracy of the model is very high. In addition, we also used Lasso method and random forest method to filter out independent variables with different results, but the calibration curve drawn by the calibration function confirmed poor prediction performance. The function dose volume parameters V35, V30, V25, V20, V15, and V10 obtained through 4D-CT are key factors affecting radiation pneumonia. Establishing a predictive model can provide more accurate lung restriction basis for clinical radiotherapy planning.

Published

2024

2. Cultivation of Fungal Endophytes with Tissue Culture Grapevine Seedlings Reprograms Metabolism by Triggering Defence Responses

Author

Xiaoxia Pan, Huizhi Liu, Yiqian Li, Lirong Guo, Yunuo Zhang, Youyong Zhu, and Mingzhi Yang

Subjects

grapevine, fungal endophytes, Epicoccum layuense R2-21, Alternaria alternata XHYN2, defense response, transcriptomic analysis, Microbiology, QR1-502

Abstract

In this study, the transcriptome profiles of tissue–cultured grapevine (Vitis vinifera L. × Vitis labrusca L.: Rose Honey) seedlings inoculated with fungal endophytes Epicoccum layuense R2-21 (Epi R2-21) and Alternaria alternata XHYN2 (Alt XHYN2), were analyzed at three different time points (6 h, 6 d, and 15 d). A total of 4783 differentially expressed genes (DEGs) was found, of which 1853 (6 h), 3878 (6 d), and 4732 (15 d) were differentially expressed relative to those of the control in endophyte Epi R2-21 treatments, while a total of 5898 DEGs, of which 2726 (6 h), 4610 (6 d), and 3938 (15 d) were differentially expressed in endophyte Alt XHYN2 treatments. DEGs enriched in secondary metabolic pathways, plant–pathogen interaction, and hormone signalling were further analysed. The upregulated DEGs in the Epi R2-21 and Alt XHYN2 treatments, both enriched in the Kyoto Encyclopedia of Genes and Genomes (KEGG), were mainly involved in flavonoid biosynthesis, phenylpropanoid biosynthesis, stilbenoid, diarylheptanoid and gingerol biosynthesis, phenylalanine metabolism, and circadian rhythms–plant and plant–pathogen interactions, similar to the trend observed in our previous study conducted on the cultivar ‘Cabernet Sauvignon’ (Vitis vinifera L.). Taken together with the results obtained from the cultivar ‘Cabernet Sauvignon’, it was found that tissue-cultured seedlings of the cultivar ‘Rose Honey’ induced a stronger defence response to fungal endophyte infection than that of the cultivar ‘Cabernet Sauvignon’, and inoculation with the endophyte Alt XHYN2 triggered a stronger response than inoculation with the endophyte Epi R2-21. In addition, the protein–protein interaction (PPI) network revealed that the genes VIT_16s0100g00910, encoding CHS, and VIT_11s0065g00350, encoding CYP73A, were involved in secondary metabolism and thus mediated in the resistance mechanism of grapevine on both the cultivars. The results showed that inoculation with the endophytes Epi R2-21 and Alt XHYN2 had a great ability to induce defence responses and reprogram the gene expression profiles in different grapevine cultivars, which deepens our knowledge of the interaction between fungal endophytes and grapevine and gives hints for grape quality management in viticulture using candidate fungal endophytes.

Published

2024

3. Physical layer security of MIMO wireless systems with adaptive modulation

Author

Hui LI, Guangqiu LI, Yancui LUO, and Huizhi LIU

Subjects

adaptive modulation, multiple-input multiple-output, transmit antenna selection, spectral efficiency, physical layer security, Telecommunication, TK5101-6720, Technology

Abstract

To solve the problems of low spectral efficiency and poor performance of physical layer security (PLS) in single-input single-output (SISO) wireless systems with adaptive modulation in the presence of an active eavesdropper, multiple-input multiple-output (MIMO) wireless systems with secure adaptive modulation (SAM) were proposed.The design idea was to improve the spectral efficiency of the main channel by antenna diversity technology, which used the transmit antenna selection (TAS) at the transmitter and the maximal ratio combining (MRC) at the legitimate receiver to improve the signal-to-noise ratio.Simultaneously, the PLS of the legitimate receiver was guaranteed by limiting the bit error rate of the active eavesdropper so that it could not demodulate the confidential information from the main channel.With the joint constraints of the average transmission power and PLS, the optimal switching thresholds and the analytical expressions of spectral efficiency and the eavesdropper’s average bit error rate of the SAM-MIMO systems were derived.Numerical and simulation results show that SAM systems using TAS/MRC technology can not only improve the spectral efficiency of the main channel, but also ensure the PLS against the active eavesdropper, compared with the SAM-SISO systems.

Published

2023

4. China Crude Oil Futures Volatility Forecasting Using LSTM Model with Optimal Noise Decomposition

Author

Wei Jiang, Wanqing Tang, Huizhi Liu, Yilin Zhou, and Xiao Liu

Subjects

Mathematics, QA1-939

Abstract

The long short-term memory (LSTM) recurrent neural network algorithm in deep learning has demonstrated significant superiority in predicting the realized volatility (RV) of crude oil prices. However, there is no robust and consistent conclusion regarding the handling of microstructural noise from high-frequency data during the prediction process. Therefore, this study utilizes six commonly used data decomposition methods, as documented in the literature, to address the issue of noise handling and decompose the RV series of Chinese crude oil futures. Subsequently, LSTM is integrated with the decomposed data to model and forecast RV. The empirical findings provide compelling evidence that the LSTM model based on neural networks outperforms traditional econometric models in out-of-sample forecasting. Furthermore, the LSTM model with data noise decomposition consistently exhibits superior out-of-sample prediction performance compared to the model without noise decomposition. Among the various data noise decomposition models examined, this study highlights the significant out-of-sample predictive power of variational mode decomposition (VMD), a nonrecursive signal decomposition method, that outperforms other methods. In the scenario of predicting one step ahead, the VMD-LSTM model demonstrates MAE, MSE, and HMAE values of 7.5×10−2, 1.10×10−4, and 0.423, respectively.

Published

2024

5. Physical layer security of full-duplex relay-assisted D2D networks under outdated CSI

Author

Jingjie SHEN, Guangqiu LI, Yancui LUO, and Huizhi LIU

Subjects

D2D network, physical layer security, outdated CSI, full-duplex relay, transmit antenna selection, Telecommunication, TK5101-6720, Technology

Abstract

The relay aided device to device (D2D) network can improve the spectrum efficiency of D2D users and the physical layer security of cellular user (CU) by sharing spectrum with the cellular network.To further improve their performance, transmit antenna selection can be used at the base station and the relay node of the D2D link, and full duplex technology can be used in the relay node.However, due to the feedback delay and mobility, the channel state information (CSI) used for the antenna selection of cellular link and all D2D links may be outdated.For the physical layer security and reliability in the above scenario, security model of a full duplex relay aided D2D network was proposed in the presence of active eavesdropping and outdated CSI, in which the base station and relay nodes both used transmit antenna selection.The closed-expressions for outage probability, ergodic capacity, probability of non-zero secrecy capacity, secure outage probability, asymptotic secure outage probability of relay aided D2D networks were derived.The numerical calculation and simulation results show that the more the number of base station transmit antennas and relay jamming antennas are, the better the CU security performance is.The outdated CSI will deteriorate the outage and security performance of CU.

Published

2023

6. Distance similarity measure based profiling attacks against masked chips

Author

Dejian Li, Yi Hu, Xi Feng, Shunxian Gao, Huizhi Liu, and Xiaobo Hu

Subjects

Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract The attack price of higher order side channel attacks (HOSCA) grows exponentially with the mask order. When the mask order is larger than 3, HOSCA can be inapplicable. In light of this, the distance similarity measure based profiling attack (DSMPA) is proposed. In DSMPA, the leakage property of masks can be characterised in a profiling scenario and the so called templates can be obtained. Then, DSM can be used to recover mask values with templates. With mask values recovered, the effect of masking disappears and one can use first‐order side‐channel attacks to recover the secret key used by a masked chip. The key‐recovery efficiency of DSMPA is evaluated in real scenarios, and the advantage of DSMPA over HOSCA in terms of the key‐recovery efficiency can be obvious under the success rate metric. Overall, the contribution of this work may provide evaluators a powerful tool to evaluate the security of masked chips.

Published

2022

7. Factors controlling the latent and sensible heat fluxes over Erhai Lake under different atmospheric surface layer stability conditions

Author

Xiaoni MENG, Huizhi LIU, Qun DU, Yang LIU, and Lujun XU

Subjects

atmospheric surface layer stability, eddy covariance, erhai lake, latent and sensible heat fluxes, Environmental sciences, GE1-350, Oceanography, GC1-1581

Abstract

The stratification of the atmospheric surface layer (ASL) plays an important role in regulating the water vapor and heat exchange across the lake–air interface. Based on one year of data measured by the eddy covariance technique over Erhai Lake in 2015, the ASL stability ($${\rm{\zeta }}$$) was divided into six ranges, including unstable ($$ - 1 \le {\rm{\zeta }} \lt - 0.1$$), weakly unstable ($$ - 0.1 \le {\rm{\zeta }} \lt - 0.01$$), near-neutral1 ($$ - 0.01 \le {\rm{\zeta }} \lt 0$$), near-neutral2 ($$0 \le {\rm{\zeta }} \lt 0.01$$), weakly stable ($$0.01 \le {\rm{\zeta }} \lt 0.1$$), and stable ($$0.1 \le {\rm{\zeta }} \lt 1$$). The characteristics of ASL stability conditions and factors controlling the latent ($$\rm LE$$) and sensible heat ($$H$$) fluxes under different stability conditions were analyzed in this study. The stability conditions of Erhai Lake have noticeably seasonal and diurnal variation, with the near-neutral and (weakly) stable stratification usually occurring before July, with frequencies of 51.7% and 23.3%, respectively, but most of the (weakly) unstable stratification was observed after July, with a frequency of 59.8%. Large evaporation occurred even in stable atmospheric conditions, due to the coupled effects of the relatively larger lake–air vapor pressure difference and wind speed. The relative controls of $$\rm LE$$ and $$H$$ by different atmospheric variables are largely dependent on the stability conditions. In stable and unstable ranges, $$\rm LE$$ is closely correlated with the vapor pressure difference, whereas in weakly unstable to weakly stable ranges, it is primarily controlled by wind speed. $$H$$ is related to wind speed and the lake–air temperature difference under stable conditions, but shows no obvious relationship under unstable conditions.

Published

2020

8. Interannual Variations of Water and Carbon Dioxide Fluxes over a Semiarid Alpine Steppe on the Tibetan Plateau

Author

Yang Liu, Huizhi Liu, Fengquan Li, Qun Du, Lujun Xu, and Yaohui Li

Subjects

Meteorology. Climatology, QC851-999

Abstract

Water and carbon exchanges between grassland and the atmosphere are important processes for water balance and carbon balance. Based on eddy covariance observations over a semiarid alpine steppe ecosystem in Bange on the Tibetan Plateau during the growing season from 2014 to 2017, the variations in evapotranspiration (ET), net ecosystem exchange (NEE), and their components and the associated driving factors were analyzed. Linear and nonlinear models were applied to investigate the relationships between fluxes and their controlling factors over different timescales. The results show that the average ET for the growing season ranged from 1.1 to 2.4 mm/d with an average of 2.0 mm/d for the four consecutive years. Drought conditions reduced the surface conductance and hence the Priestley–Taylor coefficient. Mean T/ET was low (0.34) due to low vegetation cover. Plant growth increased the T/ET ratio during the growing season, whereas soil water content (SWC) explained most of the variation of ET and E on daily and monthly scales. The Enhanced Vegetation Index (EVI) was the most important controlling factor for temperature. Transpiration increased with SWC in dry conditions. For the growing season in 2014, 2016, and 2017, Bange was a carbon sink, while it was a carbon source in 2015. The largest CO2 flux was higher and the temperature sensitivity coefficient (Q10) was lower for 2015 than for the other three years. SWC affected these photosynthesis and respiration parameters. The ratio of respiration (Re) to gross primary production (GPP) was the highest during the 2015 growing season. Both on daily and monthly scales, Re was positively and linearly correlated with GPP. The most important controlling factor for the CO2 flux was EVI on daily and monthly scales.

Published

2022

9. Diffuse cavernous hemangioma of the skull misdiagnosed as skull metastasis in breast cancer patient: one case report and literature review

Author

Huizhi Liu, Xiaojing Chang, Hua Shang, Feng Li, Huandi Zhou, and Xiaoying Xue

Subjects

Cavernous hemangioma of skull, Metastasis, Misdiagnosis, Breast cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Primary intraosseous cavernous hemangiomas (PICHs) of the skull are extremely rare. To date, diffuse cranial hemangioma of skull has not been reported. In cancer patients, it is often misdiagnosed as metastasis. Case presentation Here, we presented a case of a 50-year-old female patient suffering from slightly headache who received breast cancer modified radical mastectomy in 2004, computed tomography and magnetic resonance imaging findings revealed abnormal lesions of diffuse skull which were misdiagnosed as skull metastasis, and the relevant literatures were also reviewed. Conclusions Diffuse cavernous hemangioma of the skull is exceedingly rare, and imaging data are not typical. The condition is often misdiagnosed, and pathological evaluation is necessary and important. In cases where the mass cannot be completely removed by surgery, radiotherapy could be beneficial.

Published

2019

10. Ultralight Open-Cell Graphene Aerogels with Multiple, Gradient Microstructures for Efficient Microwave Absorption

Author

Qilin Mei, Han Xiao, Guomin Ding, Huizhi Liu, Chenglong Zhao, Rui Wang, and Zhixiong Huang

Subjects

ultralight graphene aerogels, open cell, gradient microstructure, various microwave absorption, Chemistry, QD1-999

Abstract

Development of high-performance graphene-based microwave absorbing materials with low density and strong absorption is of great significance to solve the growing electromagnetic pollution. Herein, a controllable open-cell structure is introduced into graphene aerogels by the graphene oxide (GO) Pickering emulsion. The open-cell graphene aerogel (OCGA) with multiple microstructures shows a significantly enhanced microwave absorption ability without any additions. A high microwave absorption performance with the minimum value of reflection loss (RLmin) of −51.22 dB was achieved, while the material density was only 4.81 mg/cm3. Moreover, by means of centrifugation, the graphene cells were arranged by their diameter, and a gradient, open-cell graphene structure was first fabricated. Based on this unique structure, an amazing microwave absorption value of −62.58 dB was reached on a condition of ultra-low graphene content of 0.53 wt%. In our opinion, such excellent microwave absorption performance results from multiple reflection and well-matched impedance brought by the open-cell and gradient structure, respectively. In addition, the structural strength of the OCGA is greatly improved with a maximum increase of 167% due to the introduction of cell structure. Therefore, the OCGAs with the gradient structure can be an excellent candidate for lightweight, efficient microwave absorption materials.

Published

2022

11. Genetic Analysis of a Horizontal Resistance Locus BLMR2 in Brassica napus

Author

Qiang Zhang, Hanna Dandena, Madison McCausland, Huizhi Liu, Zheng Liu, Wen Xu, and Genyi Li

Subjects

Brassica napus, Leptosphaeria maculans, BLMR2, cytochrome p450, fine mapping, Plant culture, SB1-1110

Abstract

Leptosphaeria maculans causes blackleg disease in Brassica napus. The blackleg disease is mainly controlled by resistance genes in B. napus. Previous studies have shown that the blackleg resistant BLMR2 locus that conferred horizontal resistance under field conditions, is located on chromosome A10 of B. napus. The purpose of this study is to fine map this locus and hence identify a candidate gene underlying horizontal resistance. The spectrum of resistance to L. maculans isolates of the resistance locus BLMR2 was analyzed using near isogenic lines, resistant, and susceptible cultivars. The results showed that this locus was horizontally resistant to all isolates tested. Sequence characterized amplified regions (SCAR), simple sequence repeats (SSR), and single nucleotide polymorphism (SNP) markers were developed in the chromosome region of BLMR2 and a fine genetic map was constructed. Two molecular markers narrowed BLMR2 in a 53.37 kb region where six genes were annotated. Among the six annotated genes, BnaA10g11280D/BnaA10g11290D encoding a cytochrome P450 protein were predicted as the candidate of BLMR2. Based on the profiling of pathogen induced transcriptome, three expressed genes in the six annotated genes were identified while only cytochrome P450 showed upregulation. The candidate corresponds to the gene involved in the indole glucosinolate biosynthesis pathway and plant basal defense in Arabidopsis thaliana. The molecular markers identified in this study will allow the quick incorporation of the BLMR2 allele in rapeseed cultivars to enhance blackleg resistance.

Published

2021

12. Effects of Debaryomyces hansenii treatment on intestinal mucosa microecology in mice with antibiotic-associated diarrhea.

Author

Ao Zeng, Maijiao Peng, Huizhi Liu, Zhaohui Guo, Jun Xu, Shengping Wang, Lu He, and Zhoujin Tan

Subjects

Medicine, Science

Abstract

AimTo confirm the effects of Debaryomyces hansenii on intestinal microecology in mice with antibiotic-associated diarrhea (AAD).MethodsThis study took the mucosal microecology as the entry point and an antibiotic mixture was used to induce diarrhea in mice. D. hansenii suspension was used to treat the mice and the bacterial communities of mucosa was analyzed using high-throughput sequencing.ResultsThe Shannon-Wiener index indicated that the sequencing depth is reasonable and reflected the majority of microbial information. The principal coordinate analysis results showed that mice in the treatment group and the normal group had a similar microbial community structure, while differences in microbial community structure were observed between the model group and the treatment group. The inter-group bacterial structures were analyzed at the phylum level and genus level. The results revealed that antibiotic treatment increased the proportion of Proteobacteria and decreased the proportion of Bacteroides, while D. hansenii treatment inhibited the increase in Proteobacteria. Linear discriminant analysis coupled with effect size measurements (LEfSe) suggested d that the beneficial bacteria Candidatus Arthromitus were the only common bacteria in the normal group (PConclusionThe treatment with D.hansenii could contribute to the maintenance of the structure of the mucosal microbiota in comparison with the normal group and inhibit the proliferation of opportunistic bacteria. However, high-dose antibiotic treatment causes mucosal dysbiosis and the proliferation of opportunistic bacteria during the self-recovery period, such as Pseudoalteromonas, Alteromonas, Vibrio.

Published

2019

13. Raindrop Size Distribution Characteristics for Tropical Cyclones and Meiyu-Baiu Fronts Impacting Tokyo, Japan

Author

Yong Chen, Jing Duan, Junling An, and Huizhi Liu

Subjects

Z–R relationship, Joss-Waldvogel disdrometer, micro rain radar, Meteorology. Climatology, QC851-999

Abstract

Tropical cyclones and meiyu-baiu fronts, as the two main synoptic systems over East Asia, bring heavy rain during summers, but their long-term and vertical raindrop size distribution (RSD) features over the midlatitude Japan Islands are limited. Radar-based quantitative precipitation estimation (QPE) techniques require RSD observations. In this study, five-year observations from Tokyo with a ground-based impact Joss-Waldvogel disdrometer (JWD) and a vertically pointing micro rain radar (MRR) with a vertical range of 0.2−6.0 km were used to study the vertical structures of RSD and QPE parameters. The results showed that the convective rain associated with tropical cyclones had a maritime nature, while the rain associated with the meiyu-baiu front had a continental nature. The rain associated with tropical cyclones had a relatively higher concentration of raindrops and a larger average raindrop diameter than the rain associated with the meiyu-baiu front. The Z−R (radar reflectivity-rain rate) relationships (Z = ARb) based on the JWD data for tropical cyclones, the meiyu-baiu front and total summer rainfall in Tokyo were Z = 189 R1.38, Z = 214 R1.35 and Z = 212 R1.33, respectively. When the Z−R relationships obtained in this study were used to replace the operational relationship of Z = 300 R1.4, the standard deviation of the rain rate was reduced from 5.50 mm/h (2.34 mm/h) to 2.34 mm/h (1.32 mm/h) for typhoon (meiyu-baiu front) rainfall, although the change for total summer rainfall was small. In addition, with increasing height below 4 km, the value of A and b decreased.

Published

2019

14. Variance analysis based distinguisher for template attack.

Author

Song Cheng, Hailong Zhang 0001, Xiaobo Hu, Shunxian Gao, and Huizhi Liu

Published

2022

15. Energy Mechanism of Atmospheric Boundary Layer Development Over the Tibetan Plateau

Author

Cailing Zhao, Xianhong Meng, Lin Zhao, Jianping Guo, Yueqing Li, Huizhi Liu, Zhaoguo Li, Bo Han, and Shihua Lyu

Subjects

Atmospheric Science, Geophysics, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous)

Published

2023

16. Effects of precipitation seasonal distribution on net ecosystem CO2 exchange over an alpine meadow in the southeastern Tibetan Plateau

Author

Yingqi Zheng, Huizhi Liu, Qun Du, Yang Liu, Jihua Sun, Huancai Cun, and Leena Järvi

Subjects

Atmospheric Science, Ecology, Health, Toxicology and Mutagenesis

Published

2022

17. Preparation of PEEK-NH2/graphene network structured nanocomposites with high electrical conductivity

Author

Huizhi Liu, Qilin Mei, Guomin Ding, Han Xiao, Shuhui Chen, and Zhixiong Huang

Subjects

Polymers and Plastics, General Chemical Engineering, Physical and Theoretical Chemistry

Abstract

The percolation thresholds of poly ether ether ketone/graphene (PEEK/Gr) composites in most studies are high due to the random distribution of Gr in the matrix. Here, aminated poly-ether-ether-ketone/graphene network (PEEK-NH2/GN) nanocomposites were prepared by electrostatic adsorption of PEEK-NH2 with positive charges and graphene oxide with negative charges, followed by in -situ reduction and hot-pressing. The GN structure of composites was well presented in the images of scanning electron microscope. The PEEK-NH2/GN nanocomposites exhibited excellent electrical conductivity with a maximum conductivity of 0.0634 S·cm−1 and a percolation threshold as low as 0.25 vol%. In addition, the maximum tensile strength of nanocomposites was reached at 93 MPa when the Gr content was 0.5 wt%. We believe that this approach is a new avenue for the production of low filler high conductive polymer composites with potential commercial prospects in various fields.

Published

2022

18. Implementation of a Safe and Efficient Point Multiplication for SM2 Algorithm

Author

Meng Li, Na Li, Huizhi Liu, Song Cheng, Xiaobo Hu, and Jianyang Li

Published

2023

19. Supplementary material to 'Simulating heat and CO2 fluxes in Beijing using SUEWS V2020b: Sensitivity to vegetation phenology and maximum conductance'

Author

Yingqi Zheng, Minttu Havu, Huizhi Liu, Xueling Cheng, Yifan Wen, Hei Shing Lee, Joyson Ahongshangbam, and Leena Järvi

Published

2023

20. Simulating heat and CO2 fluxes in Beijing using SUEWS V2020b: Sensitivity to vegetation phenology and maximum conductance

Author

Yingqi Zheng, Minttu Havu, Huizhi Liu, Xueling Cheng, Yifan Wen, Hei Shing Lee, Joyson Ahongshangbam, and Leena Järvi

Abstract

The Surface Urban Energy and Water Balance Scheme (SUEWS) has recently been introduced to include a bottomup approach to modelling carbon dioxide (CO2) emissions and sink in urban areas. In this study, SUEWS is evaluated against radiation flux observations and eddy covariance (EC) measured turbulent fluxes of sensible heat (QH), latent heat (QE), and CO2 (FC) at a densely built neighborhood in Beijing. The model sensitivity to maximum conductance (gmax) and leaf area index (LAI) is examined. Site-specific gmax is obtained from observations over local vegetation species, and LAI parameters by optimization with remotely sensed LAI obtained from a MODIS/Terra data product. For simulation of anthropogenic CO2 components, local traffic and population data are collected. In model evaluation, the mismatch between the measurement source area and simulation domain is also considered. Using the optimized gmax and LAI, the modelling of heat fluxes is noticeably improved, showing higher correlation with observations, lower bias, and more realistic seasonal dynamics of QE and QH. In comparison to heat fluxes, the FC module shows lower sensitivity to the choice of gmax and LAI. This can be explained by the low relative contribution of vegetation to net FC in the modelled area. SUEWS successfully reproduces the average diurnal cycle of FC and annual cumulative sums. Depending on the size of the simulation domain, the modelled annual accumulated FC ranges from 7.2 to 8.5 kg C m−2 yr−1, when compared to 7.5 kg C m−2 yr−1 observed by EC. Traffic is the dominant CO2 source, contributing 63–73 % to the annual total CO2 emissions, followed by human metabolism (14–18 %), respiration released by vegetation and soil (6–11 %) and building heating (6–9 %). Vegetation photosynthesis offsets only 4–8 % of the total CO2 emissions. We highlight the importance of choosing optimal LAI parameters and gmax when SUEWS is used to model surface fluxes. The FC module of SUEWS is a promising tool in quantifying urban CO2 emissions at the local scale, and therefore assisting to mitigate urban CO2 emissions.

Published

2023

21. Multi-modal Graph Attention Network for Video Recommendation

Author

Huizhi Liu, Chen Li, and Lihua Tian

Published

2022

22. Reply on RC2

Author

Huizhi LIU

Published

2022

23. Impact of sky conditions on net ecosystem productivity of a 'floating blanket' wetland in southwest China

Author

Yamei Shao, Huizhi Liu, Qun Du, Yang Liu, Jihua Sun, and Yaohui Li

Abstract

Based on eddy covariance (EC) measurements from 2016 to 2020, the impact of sky conditions on net ecosystem productivity (NEP) over Beihai wetland was examined. Sky conditions were classified into sunny, cloudy and overcast skies. On half-hourly timescale, the daytime NEP responds to the changing total photosynthetically active radiation (PARt) more efficiently under cloudy and overcast conditions than sunny conditions across seasons. Compared with sunny conditions, the apparent quantum yield (α) under overcast (cloudy) conditions increased 342.9 % (271.4 %) in spring, 17.6 % (20.6 %) in summer, 280.0 % (230.0 %) in autumn and 125.0 % (25.0 %) in winter, respectively. Unlike the patterns of half-hourly NEP, the daily NEP was significantly lower under overcast conditions than that under cloudy and sunny conditions. And the daily NEP peaked under cloudy skies when the clearness index (CI) fluctuated around 0.3–0.6. Additionally, the ecosystem light use efficiency (LUE) and water use efficiency (WUE) also changed with the variations in sky conditions. The daily LUE and WUE reached their maximum values under overcast (CI: 0–0.2) and cloudy conditions (CI: 0.2–0.4), respectively. NEP was mainly controlled by the diffuse photosynthetically active radiation (PARd) and air temperature (Ta), and the direct photosynthetically active radiation (PARb) had a secondary effect on NEP from half-hourly to monthly timescales. Path analysis revealed that PARb and Ta were the main controls affecting NEP under sunny conditions. While under cloudy and overcast conditions, PARd was the most responsible for the variations of NEP.

Published

2022

24. Characteristics of Lake Breezes and Their Impacts on Energy and Carbon Fluxes in Mountainous Areas

Author

Yang Liu, Qun Du, Anlun Xu, Jihua Sun, Xiaoni Meng, Huizhi Liu, and Lujun Xu

Subjects

Atmospheric Science, Daytime, 010504 meteorology & atmospheric sciences, Eddy covariance, Type (model theory), Sensible heat, 010502 geochemistry & geophysics, Atmospheric sciences, 01 natural sciences, Carbon cycle, Prevailing winds, Mountain breeze and valley breeze, Latent heat, Environmental science, 0105 earth and related environmental sciences

Abstract

In mountainous lake areas, lake-land and mountain-valley breezes interact with each other, leading to an “extended lake breeze”. These extended lake breezes can regulate and control energy and carbon cycles at different scales. Based on meteorological and turbulent fluxes data from an eddy covariance observation site at Erhai Lake in the Dali Basin, southwest China, characteristics of daytime and nighttime extended lake breezes and their impacts on energy and carbon dioxide exchange in 2015 are investigated. Lake breezes dominate during the daytime while, due to different prevailing circulations at night, there are two types of nighttime breezes. The mountain breeze from the Cangshan Mountain range leads to N1 type nighttime breeze events. When a cyclonic circulation forms and maintains in the southern part of Erhai Lake at night, its northern branch contributes to the formation of N2 type nighttime breeze events. The prevailing wind directions for daytime, N1, and N2 breeze events are southeast, west, and southeast, respectively. Daytime breeze events are more intense than N1 events and weaker than N2 events. During daytime breeze events, the lake breeze decreases the sensible heat flux (Hs) and carbon dioxide flux ( $$\boldsymbol{F}_{\text{CO}_{2}}$$ ) and increases the latent heat flux (LE). During N1 breeze events, the mountain breeze decreases Hs and LE and increases $$\boldsymbol{F}_{\text{CO}_{2}}$$ . For N2 breeze events, the southeast wind from the lake surface increases Hs and LE and decreases $$\boldsymbol{F}_{\text{CO}_{2}}$$ . Results indicate that lakes in mountainous areas promote latent heat mixing but suppress carbon dioxide exchange.

Published

2021

25. Seasonal and Interannual Variations of Evapotranspiration and Energy Exchange over Different Land Surfaces in a Semiarid Area of China

Author

Huizhi, Liu and Jianwu, Feng

Published

2012

26. Effect of acid on glycoalkaloids and acrylamide in French fries

Author

Huizhi Liu, Joy Roasa, Suqin Shao, Honghui Zhu, and Lili Mats

Subjects

inorganic chemicals, Food Handling, 030309 nutrition & dietetics, Health, Toxicology and Mutagenesis, Food Contamination, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, Alkaloids, 0404 agricultural biotechnology, Glycoalkaloid, Food science, Acetic Acid, Solanum tuberosum, Acrylamide, 0303 health sciences, Chemistry, French fries, fungi, technology, industry, and agriculture, Public Health, Environmental and Occupational Health, food and beverages, 04 agricultural and veterinary sciences, General Chemistry, General Medicine, 040401 food science, embryonic structures, Food Analysis, Food Science

Abstract

The effects of acid soaking as a pre-treatment on the glycoalkaloid and acrylamide levels in raw and cooked potatoes (French fries) were examined. Soaking raw potato cuts in 1.0%, 2.5% or 5.0% acetic acid solutions for at least 8 hours resulted in90% reduction of α-solanine and α-chaconine in potato samples. Processing of pre-acid soaked potato cuts into French fries resulted in an additional50% decrease in the glycoalkaloid contents in the samples. Soaking time was found to be a more important factor in reducing glycoalkaloid levels compared to the acid solution concentrations. Over a 95% reduction in acrylamide was also observed in potato cuts pre-soaked in acetic acid before cooking. The reduction in acrylamide formation in the pre-soaked French fry samples was attributed to the lowered pH and the removal of reducing sugars and asparagine in the raw samples prior to cooking. Findings in this study demonstrate that pre-treatment using acid soaking provides a simple and effective way to mitigate glycoalkaloid and acrylamide levels in potatoes.

Published

2020

27. Impact of Soil Moisture on Afternoon Convection Triggering Over the Tibetan Plateau Based on 1‐D Boundary Layer Model

Author

Cailing Zhao, Xianhong Meng, Yueqing Li, Shihua Lyu, Jianping Guo, and Huizhi Liu

Subjects

Atmospheric Science, Geophysics, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous)

Published

2022

28. Research on Computer Intelligence Information Technology Intelligent Community Interactive System

Author

Huizhi Liu and Rosalam Che Me

Published

2021

29. Simulating heat and CO2 fluxes in Beijing using SUEWS V2020b: Sensitivity to vegetation phenology and maximum conductance.

Author

Yingqi Zheng, Havu, Minttu, Huizhi Liu, Xueling Cheng, Yifan Wen, Hei Shing Lee, Ahongshangbam, Joyson, and Järvi, Leena

Subjects

HEAT flux, LEAF area index, PHENOLOGY, HEATING, EDDY flux, TUNDRAS, PLANT phenology

Abstract

The Surface Urban Energy and Water Balance Scheme (SUEWS) has recently been introduced to include a bottomup approach to modelling carbon dioxide (CO2) emissions and sink in urban areas. In this study, SUEWS is evaluated against radiation flux observations and eddy covariance (EC) measured turbulent fluxes of sensible heat (QH), latent heat (QE), and CO2 (FC) at a densely built neighborhood in Beijing. The model sensitivity to maximum conductance (gmax) and leaf area index (LAI) is examined. Site-specific gmax is obtained from observations over local vegetation species, and LAI parameters by optimization with remotely sensed LAI obtained from a MODIS/Terra data product. For simulation of anthropogenic CO2 components, local traffic and population data are collected. In model evaluation, the mismatch between the measurement source area and simulation domain is also considered. Using the optimized gmax and LAI, the modelling of heat fluxes is noticeably improved, showing higher correlation with observations, lower bias, and more realistic seasonal dynamics of QE and QH. In comparison to heat fluxes, the FC module shows lower sensitivity to the choice of gmax and LAI. This can be explained by the low relative contribution of vegetation to net FC in the modelled area. SUEWS successfully reproduces the average diurnal cycle of FC and annual cumulative sums. Depending on the size of the simulation domain, the modelled annual accumulated FC ranges from 7.2 to 8.5 kg C m-2 yr-1, when compared to 7.5 kg C m-2 yr-1 observed by EC. Traffic is the dominant CO2 source, contributing 63-73% to the annual total CO2 emissions, followed by human metabolism (14-18%), respiration released by vegetation and soil (6-11%) and building heating (6-9%). Vegetation photosynthesis offsets only 4-8% of the total CO2 emissions. We highlight the importance of choosing optimal LAI parameters and gmax when SUEWS is used to model surface fluxes. The FC module of SUEWS is a promising tool in quantifying urban CO2 emissions at the local scale, and therefore assisting to mitigate urban CO2 emissions. [ABSTRACT FROM AUTHOR]

Published

2023

30. AN INTERACTIVE METHOD FOR COMMUNITY ECOLOGICAL ENVIRONMENT BASED ON VIRTUAL REALITY TECHNOLOGY.

Author

Huizhi Liu

Abstract

In order to present a clear and realistic display effect of community ecological environment, an interactive method of community ecological environment adaptation based on virtual reality technology is designed. Through 3DMAX software, a three-dimensional community ecological environment model based on virtual reality technology is designed and the single modeling and scene merging of ecological environment landscapes such as community buildings and vegetation are realized. Texture processing is used to enhance the authenticity of the model, multi-dimensional spatial texture rendering technology is combined with scene database import, multi-dimensional spatial visual data is input to the 3D model of the community ecological environment and the dynamic feature quantity of the multi-vision 3D image of the model is obtained. Combined with the joint sparse feature recognition technology, the Construct multi-vision 3D images, complete model scene rendering and improve realistic effects; the user realizes virtual scene roaming by inputting and modifying the interactive address, direction and angle of view and based on the physical, sensory cognitive and functional affordances, an aging-friendly interactive interface is designed to improve the user's aging-friendly interactive experience. The experimental results show that the three-dimensional community ecological environment display effect of this method is clearer and more realistic. The overall community ecological environment has better lighting and layout and the modeling time is only 5s, the overall error is less than 3%, the fluctuation of the error curve is small and uniform, the stability is good, the scene roaming process is relatively smooth and no stuck pause. [ABSTRACT FROM AUTHOR]

Published

2023

31. Seasonal variation and controlling factors of evapotranspiration over a 'floating blanket' wetland in southwest China

Author

Yamei Shao, Huizhi Liu, Qun Du, Yang Liu, and Jihua Sun

Subjects

Water Science and Technology

Published

2022

32. The Tibetan Plateau Surface-Atmosphere Coupling System and Its Weather and Climate Effects: The Third Tibetan Plateau Atmospheric Science Experiment

Author

Shihao Tang, Yunchang Cao, Ping Zhao, Jian Li, Xiangdong Zheng, Junming Chen, Yaoming Ma, Dabiao Luo, Xing Yu, Yimin Liu, Fang Yuan, Shengjun Zhang, Xiuji Zhou, La Jia, Xiangde Xu, Huizhi Liu, An Xiao, Yanju Liu, Xueliang Guo, Lixin Dong, Yang Pang, Chunxiang Shi, Donghui Chen, Wenming Xiao, Yueqing Li, Yun Chen, Juyang Hu, Zhiqun Hu, and Shuai Han

Subjects

geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Weather and climate, Sensible heat, 010502 geochemistry & geophysics, Atmospheric sciences, 01 natural sciences, Atmosphere, Extreme weather, Depth sounding, Environmental science, Satellite, Water content, 0105 earth and related environmental sciences

Abstract

The Tibetan Plateau (TP) is a key area affecting forecasts of weather and climate in China and occurrences of extreme weather and climate events over the world. The China Meteorological Administration, the National Natural Science Foundation of China, and the Chinese Academy of Sciences jointly initiated the Third Tibetan Plateau Atmospheric Science Experiment (TIPEX-III) in 2013, with an 8–10-yr implementation plan. Since its preliminary field measurements conducted in 2013, routine automatic sounding systems have been deployed at Shiquanhe, Gaize, and Shenzha stations in western TP, where no routine sounding observations were available previously. The observational networks for soil temperature and soil moisture in the central and western TP have also been established. Meanwhile, the plateau-scale and regional-scale boundary layer observations, cloud-precipitation microphysical observations with multiple radars and aircraft campaigns, and tropospheric-stratospheric air composition observations at multiple sites, were performed. The results so far show that the turbulent heat exchange coefficient and sensible heat flux are remarkably lower than the earlier estimations at grassland, meadow, and bare soil surfaces of the central and western TP. Climatologically, cumulus clouds over the main body of the TP might develop locally instead of originating from the cumulus clouds that propagate northward from South Asia. The TIPEX-III observations up to now also reveal diurnal variations, macro- and microphysical characteristics, and water-phase transition mechanisms, of cumulus clouds at Naqu station. Moreover, TIPEX-III related studies have proposed a maintenance mechanism responsible for the Asian “atmospheric water tower” and demonstrated the effects of the TP heating anomalies on African, Asian, and North American climates. Additionally, numerical modeling studies show that the Γ distribution of raindrop size is more suitable for depicting the TP raindrop characteristics compared to the M-P distribution, the overestimation of sensible heat flux can be reduced via modifying the heat transfer parameterization over the TP, and considering climatic signals in some key areas of the TP can improve the skill for rainfall forecast in the central and eastern parts of China. Furthermore, the TIPEX-III has been promoting the technology in processing surface observations, soundings, and radar observations, improving the quality of satellite retrieved soil moisture and atmospheric water vapor content products as well as high-resolution gauge-radar-satellite merged rainfall products, and facilitating the meteorological monitoring, forecasting, and data sharing operations.

Published

2019

33. Genetic Analysis of a Horizontal Resistance Locus BLMR2 in Brassica napus

Author

Hanna B. Dandena, Genyi Li, Zheng Liu, Qiang Zhang, Madison McCausland, Wen Xu, and Huizhi Liu

Subjects

Genetics, Leptosphaeria maculans, Candidate gene, Brassica napus, Blackleg, food and beverages, Plant culture, BLMR2, Horizontal resistance, Locus (genetics), Single-nucleotide polymorphism, Plant Science, Biology, biology.organism_classification, Genetic analysis, SB1-1110, cytochrome p450, fine mapping, Gene

Abstract

Leptosphaeria maculans causes blackleg disease in Brassica napus. The blackleg disease is mainly controlled by resistance genes in B. napus. Previous studies have shown that the blackleg resistant BLMR2 locus that conferred horizontal resistance under field conditions, is located on chromosome A10 of B. napus. The purpose of this study is to fine map this locus and hence identify a candidate gene underlying horizontal resistance. The spectrum of resistance to L. maculans isolates of the resistance locus BLMR2 was analyzed using near isogenic lines, resistant, and susceptible cultivars. The results showed that this locus was horizontally resistant to all isolates tested. Sequence characterized amplified regions (SCAR), simple sequence repeats (SSR), and single nucleotide polymorphism (SNP) markers were developed in the chromosome region of BLMR2 and a fine genetic map was constructed. Two molecular markers narrowed BLMR2 in a 53.37 kb region where six genes were annotated. Among the six annotated genes, BnaA10g11280D/BnaA10g11290D encoding a cytochrome P450 protein were predicted as the candidate of BLMR2. Based on the profiling of pathogen induced transcriptome, three expressed genes in the six annotated genes were identified while only cytochrome P450 showed upregulation. The candidate corresponds to the gene involved in the indole glucosinolate biosynthesis pathway and plant basal defense in Arabidopsis thaliana. The molecular markers identified in this study will allow the quick incorporation of the BLMR2 allele in rapeseed cultivars to enhance blackleg resistance.

Published

2021

34. The Comparison of turbulent fluxes between a marsh wetland and a lake ecosystem

Author

Yang Liu, Huizhi Liu, Lujun Xu, and Qun Du

Subjects

Hydrology, geography, geography.geographical_feature_category, Marsh, Lake ecosystem, Environmental science, Wetland, Turbulent flux

Abstract

Wetlands are “hot spot” area of global climate change, which are obviously sensitive to climate change. Under climate change, the carbon sequestration potential and carbon balance over wetland ecosystems are greatly altered, and large uncertainties are still existed in carbon budgets over these areas. Tengchong Beihai wetland is the only highland “floating blanket” lake wetland which is located in Southwest of China. As this land surface is composed by both water and terrestrial land surface, it’s doubted whether this type of wetland behaves more like lake or the latter one. Based on one year continuous observation measured with eddy covariance technique over Beihai wetland and Erhai Lake in 2016, the patterns of CO2 flux and energy fluxes over Tengchong wetland and Erhai lake are analyzed. The results show the diurnal variation of H and LE are both similar to Rn, which is different with Erhai lake. Erhai lake has a higher evaporation rate even in nighttime, which is much larger than Beihai wetland, due to the “floating blanket” vegetation could obviously reduce the evaporation rate. Beihai wetland acts as CO2 sink for the most time of the year, with an annual CO2 flux of -202.2 g C m-2, while Erhai Lake acted as CO2 source with an annual CO2 flux of 143.7 g C m-2. The results indicate the carbon and water exchange process in Beihai wetland behaves more like vegetated land surface.

Published

2020

35. Efficient Exploitation of Noise Leakage for Template Attack

Author

Song Cheng, Hailong Zhang, Xiaobo Hu, Shunxian Gao, and Huizhi Liu

Subjects

General Computer Science, Control and Systems Engineering

Published

2022

36. Factors controlling evaporation and the CO2flux over an open water lake in southwest of China on multiple temporal scales

Author

Lei Wang, Yang Liu, Huizhi Liu, Ji Hua Sun, An Lun Xu, Lu Jun Xu, and Qun Du

Subjects

Atmospheric Science, Open water, 010504 meteorology & atmospheric sciences, Climatology, Latent heat, Co2 flux, Evaporation, Environmental science, 010501 environmental sciences, Sensible heat, Temporal scales, 01 natural sciences, 0105 earth and related environmental sciences

Published

2018

37. Differences of atmospheric boundary layer characteristics between pre-monsoon and monsoon period over the Erhai Lake

Author

Liu Yang, Qun Du, Huizhi Liu, Jihua Sun, Lei Wang, and Lujun Xu

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Planetary boundary layer, 0207 environmental engineering, Humidity, 02 engineering and technology, Atmospheric sciences, Monsoon, 01 natural sciences, Boundary layer, Roughness length, Mountain breeze and valley breeze, Sea breeze, Weather Research and Forecasting Model, Environmental science, 020701 environmental engineering, 0105 earth and related environmental sciences

Abstract

The differences in planetary boundary layer characteristics, in particular atmospheric boundary layer height (ABLH), humidity, and local circulations in pre-monsoon and monsoon period over the Erhai Lake, were simulated by the lake-atmosphere coupled model WRF v3.7.1. No lake simulations were also conducted to investigate lake effects over complex topography. During pre-monsoon period, local circulation was fully developed under weak synoptic system. The ABLH ran up to 2300 m or so. During monsoon period, temperature difference between land and lake became smaller, resulting in weaker local circulations. The height of circulation reduced by 500 m, and ABLH ran up to 1100 m during the day. Enhanced soil moisture and low surface temperature due to monsoon rainfalls in July could be the main reason for the slightly lower ABLH over the Erhai Lake area. Specific humidity of the boundary layer increased 8.8 g kg−1 or so during monsoon period. The Erhai Lake enlarged thermal contrast between valley and mountain slope in the Dali Basin. The lake reduced air temperature by 2~3 °C during daytime and increased air temperature by nearly 2 °C in the evening. Due to its small roughness length and large thermal capacity, the Erhai Lake enlarged lake-land temperature difference and local wind speed. A cyclonic circulation was maintained by the combination of mountain breeze and land breeze in the south of the lake. The lake decreased air temperature, increased specific humidity, and reduced ABLH during daytime, whereas the opposite effect is presented at night.

Published

2018

38. Using a Modified Soil-Plant-Atmosphere Scheme (MSPAS) to study the sensitivity of land surface and boundary layer processes to soil and vegetation conditions

Author

Shuhua, Liu, Xu, Yue, Huizhi, Liu, and Fei, Hu

Published

2004

39. A Laboratory model for the flow in urban street canyons induced by bottom heating

Author

Huizhi, Liu, Bin, Liang, Fengrong, Zhu, Boyin, Zhang, and Jianguo, Sang

Published

2003

40. Influences of structures on urban ventilation: A numerical experiment

Author

Huizhi, Liu, Jianguo, Sang, Boyin, Zhang, Chan, Johnny C. L., Cheng, Andrew Y. S., and Heping, Liu

Published

2002

41. Characteristics of micrometeorology in the surface layer in the Tibetan Plateau

Author

Huizhi, Liu, Hongsheng, Zhang, Lin’gen, Bian, Jiayi, Chen, Mingyu, Zhou, Xiangde, Xu, Shiming, Li, and Yijun, Zhao

Published

2002

42. Multi-level CO2 fluxes over Beijing megacity with the eddy covariance method

Author

Lujun Xu, Qun Du, Yang Liu, and Huizhi Liu

Subjects

Atmospheric Science, Megacity, 010504 meteorology & atmospheric sciences, Beijing, Eddy covariance, Environmental science, 010502 geochemistry & geophysics, Oceanography, Atmospheric sciences, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

Based on five years of eddy covariance measurements at multiple levels (47, 140, and 280 m) of Beijing's 325-m meteorological tower, the exchange process of CO2 fluxes between the atmosphere and urban surface were investigated. As a result of the total vehicle control policy from 2011 in Beijing, the growth rate of annual total CO2 flux at 140 m is 7.8% from 2008–2010 but 2.3% from 2010–2012. With the minimum vegetation cover and largest population density, the 5-yr average annual total CO2 flux at 140 m is largest (6.41 kg C m−2 yr−1), compared with that at 47 m (5.78 kg C m−2 yr−1) and 280 m (3.99 kg C m−2 yr−1). With regards to annual total CO2 fluxes in Beijing, vehicle numbers and population are the main controlling factors. The measured CO2 fluxes were highly dependent on land cover/use in the prevailing wind direction. The CO2 fluxes at three layers all correlated positively with road fraction, with the R2 values being 0.69, 0.57, and 0.54 (P 摘要 本文基于北京325米气象塔在47, 140, 和280米三层高度的5年涡动相关观测资料, 研究了城市下垫面与大气间的CO2交换过程.由于北京市2011年开始实行工作日汽车尾号限行, 140米高度CO2通量的年增长率由2008–2010年的7.8%降低到2010–2012年的2.3%.140米高度通量源区内植被比例最小且人口密度最大, 因此140米高度的5年平均CO2通量年总量)6.41 kg C m−2 yr−1(大于47米)5.78 kg C m−2 yr−1(和280米)3.99 kg C m−2 yr−1(.在年尺度上, 北京汽车总保有量和总人口是最重要的CO2通量控制因子.CO2通量随风向的变化主要与风向对应的通量源区内下垫面土地利用方式有关.三层高度的夏季CO2通量均与道路的比例呈正相关关系.47, 140, 和280米的决定系数分别为0.69, 0.57, 和0.54 (P

Published

2021

43. Satellite estimates and subpixel variability of rainfall in a semi-arid grassland

Author

Franz H. Berger, Jing Duan, Junling An, Ulrich Görsdorf, Huizhi Liu, and Yong Chen

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Subpixel rendering, Arid, Grassland, Climatology, Environmental science, Satellite, 0105 earth and related environmental sciences

Abstract

Uncertainties in satellite rainfall estimation may derive from both the local rainfall characteristics and its subpixel variability. To study this issue, Micro Rain Radars and a rain gauge network were deployed within a 9-km satellite pixel in the semi-arid Xilingol grassland of China in summer 2009. The authors characterized the subpixel variability with the coefficient of variation (CV) and evaluated the satellite rainfall estimation for this semi-arid area. The results showed that rainfall events with a high CV were mostly convective with a small amount of rainfall. Spatially inhomogeneous rainfall was most likely to occur at the edges of small clouds producing rain. The performance of the TRMM (Tropical Rainfall Measuring Mission) 3B42V7 product for daily rainfall was better than that of the CMORPH (Climate Prediction Center morphing technique) and PERSIANN (Precipitation Estimation from Remotely Sensed Information Using Artificial Neural Networks) products, although the TRMM product tended to overestimate rainfall in a lake area of the semi-arid grassland. 摘要 卫星估雨精度的不确定性受到当地降雨类型和像元内降雨非均匀性影响, 而结合这两个关键因素开展半干旱草原卫星估雨的研究有限. 2009年夏, 我们在中国锡林郭勒半干旱草原用多部微雨雷达和雨量计构建了9 km卫星像元降雨观测网, 观测了像元内降雨非均匀性(空间变异系数CV), 并评估了卫星估雨精度. 结果表明: (1) CV值受像元内平均降雨量, 降雨类型, 降雨云面积及移向等影响, 如高CV值的降雨过程大多为平均降雨量小, 对流性降雨过程, 降雨云边缘像元CV值较高; (2) TRMM 3B42V7 卫星估雨产品适用性较好, CMORPH和PERSIANN次之, 但TRMM 3B42V7易在半干旱草原湖泊处高估降雨.

Published

2021

44. The vertical distribution characteristics of integral turbulence statistics in the atmospheric boundary layer over an urban area in Beijing

Author

Huizhi Liu, Lei Wang, and Yang Liu

Subjects

Physics, Natural convection, 010504 meteorology & atmospheric sciences, Correlation coefficient, Meteorology, Turbulence, Planetary boundary layer, Humidity, Stratification (water), 010502 geochemistry & geophysics, Atmospheric sciences, 01 natural sciences, Standard deviation, General Earth and Planetary Sciences, Water vapor, 0105 earth and related environmental sciences

Abstract

Turbulence data (2008–2012) from a 325 m meteorological tower in Beijing, which consisted of three layers (47, 140, and 280 m), was used to analyze the vertical distribution characteristics of turbulent transfer over Beijing city according to similarity theory. The conclusions were as follows. (1) Normalized standard deviations of wind speeds σ i / u * were plotted as a function only of a local stability parameter. The values under near-neutral conditions were 2.15, 1.61, and 1.19 at 47 m, 2.39, 1.75, and 1.21 at 140 m, and 2.51, 1.77, and 1.30 at 280 m, showing a clear increase with height. The normalized standard deviation of wind components fitted the 1/3 law under unstable stratification conditions and decreased with height under both stable and unstable conditions. (2) The normalized standard deviation of temperature fitted the ‒1/3 law in the free convection limit, but was quite scattered with different characteristics under near-neutral conditions. The normalized standard deviations of humidity and the CO2 concentration fitted the ‒1/3 law under unstable conditions, and remained constant under near-neutral and stable stratification. The normalized standard deviation of scalars, i.e., temperature, humidity, and CO2 concentration, all increased with height. (3) Compared with momentum, and the water vapor and CO2 concentrations, the turbulence correlation coefficient for heat was smaller under near-neutral conditions, but larger under both stable and unstable conditions. A dissimilarity between heat, and the water vapor and CO2 concentrations was observed in urban areas. The relative correlation coefficients between heat and each of momentum, humidity, and CO2 concentration (| r wT / r uw |, | r wT / r wc | and | r wT / r uq |) in the lower layers were always larger than in higher layers, except for the relative correlation coefficient between heat and humidity in an unstable stratification. Therefore, the ratio between heat and each of momentum, humidity, and CO2 concentration decreased with height.

Published

2017

45. Raindrop Size Distribution Characteristics for Tropical Cyclones and Meiyu-Baiu Fronts Impacting Tokyo, Japan

Author

Junling An, Jing Duan, Yong Chen, and Huizhi Liu

Subjects

Atmospheric Science, Quantitative precipitation estimation, 010504 meteorology & atmospheric sciences, Front (oceanography), Z–R relationship, Environmental Science (miscellaneous), lcsh:QC851-999, 010502 geochemistry & geophysics, Atmospheric sciences, Joss-Waldvogel disdrometer, 01 natural sciences, Standard deviation, law.invention, Disdrometer, law, Typhoon, Middle latitudes, Environmental science, lcsh:Meteorology. Climatology, micro rain radar, Tropical cyclone, Radar, 0105 earth and related environmental sciences

Abstract

Tropical cyclones and meiyu-baiu fronts, as the two main synoptic systems over East Asia, bring heavy rain during summers, but their long-term and vertical raindrop size distribution (RSD) features over the midlatitude Japan Islands are limited. Radar-based quantitative precipitation estimation (QPE) techniques require RSD observations. In this study, five-year observations from Tokyo with a ground-based impact Joss-Waldvogel disdrometer (JWD) and a vertically pointing micro rain radar (MRR) with a vertical range of 0.2&ndash, 6.0 km were used to study the vertical structures of RSD and QPE parameters. The results showed that the convective rain associated with tropical cyclones had a maritime nature, while the rain associated with the meiyu-baiu front had a continental nature. The rain associated with tropical cyclones had a relatively higher concentration of raindrops and a larger average raindrop diameter than the rain associated with the meiyu-baiu front. The Z&ndash, R (radar reflectivity-rain rate) relationships (Z = ARb) based on the JWD data for tropical cyclones, the meiyu-baiu front and total summer rainfall in Tokyo were Z = 189 R1.38, Z = 214 R1.35 and Z = 212 R1.33, respectively. When the Z&ndash, R relationships obtained in this study were used to replace the operational relationship of Z = 300 R1.4, the standard deviation of the rain rate was reduced from 5.50 mm/h (2.34 mm/h) to 2.34 mm/h (1.32 mm/h) for typhoon (meiyu-baiu front) rainfall, although the change for total summer rainfall was small. In addition, with increasing height below 4 km, the value of A and b decreased.

Published

2019

46. Simulation of the radiative effect of haze on urban hydrological cycle using reanalysis data in Beijing

Author

Tom V. Kokkonen, Susan B. Grimmond, Sonja Murto, Huizhi Liu, Anu-Maija Sundström, and Leena Järvi

Abstract

Although, air pollution modifies local air temperatures and boundary layer structure in urban areas, little is known about its effects on the urban hydrological cycle. To explore this, changes in the urban surface water balance during different haze levels are modelled in Beijing using the Surface Urban Energy and Water Balance Scheme (SUEWS), forced by reanalysis data. The pollution levels are classified using aerosol optical depth observations. We show how the reanalysis radiation data do not include the attenuating effect of haze and develop a haze correction for the incoming solar radiation. With this haze correction the SUEWS model simulates the eddy covariance measured latent heat flux well. Both surface runoff and drainage increase with severe haze levels particularly with low precipitation rates: runoff from 0.06 to 0.18 mm day−1 and drainage from 0.43 to 0.62 mm day−1 during fairly clean and extremely polluted conditions, respectively. When all precipitation events are taken into account, runoff is higher during the extremely polluted conditions than with cleaner conditions except during the cleanest conditions when the high precipitation rates induces largest runoff. Thus, haze is not likely impacting on the likelihood of flash floods. However, the low runoff rates commonly transport pollutants to soil and water and therefore their changes are important to understanding detailed deterioration of urban soil and aquatic environments.

Published

2019

47. Effects of Debaryomyces hansenii treatment on intestinal mucosa microecology in mice with antibiotic-associated diarrhea

Author

Huizhi Liu, Wang Shengping, Zhao-Hui Guo, Lu He, Zhoujin Tan, Jun Xu, Maijiao Peng, and Ao Zeng

Subjects

0301 basic medicine, Debaryomyces, Antibiotics, Candidatus Arthromitus, Pathology and Laboratory Medicine, Mice, 0302 clinical medicine, Intestinal mucosa, Debaryomyces hansenii, Medicine and Health Sciences, DNA extraction, Multidisciplinary, Ecology, biology, Antimicrobials, Drugs, Genomics, Microecology, Anti-Bacterial Agents, Shannon Index, Community Ecology, Medical Microbiology, Medicine, 030211 gastroenterology & hepatology, Anatomy, Antibiotic-associated diarrhea, Proteobacteria, Research Article, Diarrhea, Ecological Metrics, medicine.drug_class, Science, Microbial Genomics, Gastroenterology and Hepatology, Microbiology, 03 medical and health sciences, Signs and Symptoms, Extraction techniques, Diagnostic Medicine, Microbial Control, Genetics, medicine, Animals, Community Structure, Pharmacology, Bacteria, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Species Diversity, biology.organism_classification, Gastrointestinal Microbiome, Gastrointestinal Tract, Research and analysis methods, 030104 developmental biology, Dysbiosis, Microbiome, Bacteroides, Digestive System

Abstract

AimTo confirm the effects of Debaryomyces hansenii on intestinal microecology in mice with antibiotic-associated diarrhea (AAD).MethodsThis study took the mucosal microecology as the entry point and an antibiotic mixture was used to induce diarrhea in mice. D. hansenii suspension was used to treat the mice and the bacterial communities of mucosa was analyzed using high-throughput sequencing.ResultsThe Shannon-Wiener index indicated that the sequencing depth is reasonable and reflected the majority of microbial information. The principal coordinate analysis results showed that mice in the treatment group and the normal group had a similar microbial community structure, while differences in microbial community structure were observed between the model group and the treatment group. The inter-group bacterial structures were analyzed at the phylum level and genus level. The results revealed that antibiotic treatment increased the proportion of Proteobacteria and decreased the proportion of Bacteroides, while D. hansenii treatment inhibited the increase in Proteobacteria. Linear discriminant analysis coupled with effect size measurements (LEfSe) suggested d that the beneficial bacteria Candidatus Arthromitus were the only common bacteria in the normal group (PConclusionThe treatment with D.hansenii could contribute to the maintenance of the structure of the mucosal microbiota in comparison with the normal group and inhibit the proliferation of opportunistic bacteria. However, high-dose antibiotic treatment causes mucosal dysbiosis and the proliferation of opportunistic bacteria during the self-recovery period, such as Pseudoalteromonas, Alteromonas, Vibrio.

Published

2019

48. Evaluation of the Performance of Different Methods for Estimating Evaporation over a Highland Open Freshwater Lake in Mountainous Area

Author

Lujun Xu, Yang Liu, Huizhi Liu, Qun Du, and Xiaoni Meng

Subjects

lcsh:TD201-500, geography, lcsh:Hydraulic engineering, geography.geographical_feature_category, Geography, Planning and Development, Eddy covariance, Evaporation, Drainage basin, Climate change, Aquatic Science, a highland lake, Energy budget, Atmospheric sciences, Biochemistry, evaporation, Water balance, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Mass transfer, Dalton-based methods, Environmental science, solar radiation-based methods, Water cycle, combination methods, Water Science and Technology

Abstract

Lake evaporation is an important link connecting the water cycle and the surface energy cycle and remains one of the most uncertain terms in the local catchment&rsquo, s water balance. Quantifying lake evaporation and its variability is crucial to improve water resource management and understand the response of the lake system towards climate change. In this study, we evaluated the performances of nine evaporation methods at different timescales and calibrated them by using the continuous eddy covariance (EC) observation data during 2015&ndash, 2018 over Erhai Lake, a highland open freshwater lake situated in the Dali valley, China. The nine evaporation methods could be classified into combination methods (Bowen-ratio energy budget, Penman, Priestley&ndash, Taylor, DeBruin&ndash, Keijman and Brutsaert&ndash, Stricker), solar radiation-based methods (Jensen&ndash, Haise and Makkink) and Dalton-based method (mass transfer and Ryan&ndash, Harleman) based on their parameterization schemes. The Dalton-based Ryan&ndash, Harleman method is most suitable for estimating evaporation at daily to weekly scales, while the combination methods and solar radiation-based method had good estimates at monthly timescale. After calibration, the biases of the Jensen&ndash, Haise and Ryan&ndash, Harleman method were slightly reduced, while the biases of the Makkink and mass transfer methods were reduced substantially. The calibrated Jensen&ndash, Haise method with small annual bias (&minus, 2.2~2.8%) and simple input variables was applied to estimate the long-term trend of evaporation during 1981&ndash, 2018. The annual total evaporation showed an insignificant increasing trend of 0.30 mm yr&minus, 1, mainly caused by the significant rising air temperature. This study showed the performance of evaporation methods over water bodies had large discrepancies on different time scales, which indicated the importance of the choice of evaporation methods and provided instruction for water resource management of this region under climate change.

Published

2020

49. Water and CO2 fluxes over semiarid alpine steppe and humid alpine meadow ecosystems on the Tibetan Plateau

Author

Yang Liu, Yaping Shao, Lei Wang, Huizhi Liu, and Jihua Sun

Subjects

Hydrology, Wet season, Atmospheric Science, 010504 meteorology & atmospheric sciences, Alpine-steppe, 0208 environmental biotechnology, Eddy covariance, 02 engineering and technology, Atmospheric sciences, 01 natural sciences, Normalized Difference Vegetation Index, 020801 environmental engineering, Soil water, Dry season, Environmental science, Ecosystem, Ecosystem respiration, 0105 earth and related environmental sciences

Abstract

Based on eddy covariance flux data from July 15, 2014, to December 31, 2015, the water and CO2 fluxes were compared over a semiarid alpine steppe (Bange, Tibetan Plateau) and a humid alpine meadow (Lijiang, Yunnan) on the Tibetan Plateau and its surrounding region. During the wet season, the evaporative fraction (EF) was strongly and linearly correlated with the soil water content (SWC) at Bange because of its sparse green grass cover. In contrast, the correlation between the EF at Lijiang and the SWC and the normalized difference vegetation index (NDVI) was very low because the atmosphere was close to saturation and the EF was relatively constant. In the dry season, the EF at both sites decreased with the SWC. The net ecosystem exchange (NEE) at Bange was largely depressed at noon, while this phenomenon did not occur at Lijiang. The saturated NEE at Bange was 24% of that at Lijiang. The temperature sensitivity coefficient of ecosystem respiration at Bange (1.7) was also much lower than that at Lijiang (3.4). The annual total NEE in 2015 was 21.8 and −230.0 g C m−2 yr−1 at Bange and Lijiang, respectively, and the NEE was tightly controlled by the NDVI at the two sites. The distinct differences in the water and CO2 fluxes at Bange and Lijiang are attributed to the large SWC difference and its effect on vegetation growth.

Published

2016

50. Evaluating of simulated carbon flux phenology over a cropland ecosystem in a semiarid area of China with SiBcrop

Author

Qun Du, Lujun Xu, and Huizhi Liu

Subjects

Crops, Agricultural, 0106 biological sciences, China, Atmospheric Science, 010504 meteorology & atmospheric sciences, Climate Change, Health, Toxicology and Mutagenesis, Climate change, chemistry.chemical_element, Growing season, Atmospheric sciences, Zea mays, 010603 evolutionary biology, 01 natural sciences, Carbon Cycle, Ecosystem, 0105 earth and related environmental sciences, Carbon flux, Ecology, Dormant season, Phenology, Water, Primary production, Models, Theoretical, chemistry, Climatology, Environmental science, Seasons, Carbon

Abstract

The cropland ecosystem in semiarid areas is sensitive to climate change. The accurate representation of crop phenology is important for predicting the carbon and water exchange process. The performance of a newly developed phenological model (SiBcrop) for simulations of carbon flux phenology in a semiarid area ecosystem was evaluated. The results showed that the SiBcrop improved the prediction for daily maximum gross primary production (GPP), and the days GPP reached the maximum value were closer to the observation, compared to SiB3. SiBcrop had a better prediction for both monthly total net ecosystem exchange (NEE) in the growing season than in the dormant season in semiarid areas. The day when the cumulative NEE predicted with SiBcrop became positive was closer to the observation. The observed start date of carbon uptake (CUstart) had a larger annual variation than did the end date of carbon uptake (CUend). SiBcrop had a better prediction for CUstart but poor for CUend, compared to SiB3. There was a longer carbon uptake period (CUP) predicted with SiBcrop than the observed results.

Published

2016