Your search keyword '"W. D. GUO"' showing total 8 results

1. Assimilation of Remotely Sensed LAI Into CLM4CN Using DART

Author

X. L. Ling, C. B. Fu, W. D. Guo, and Z.‐L. Yang

Subjects

Community Land Model, leaf area index, Data Assimilation Research Testbed, leaf carbon and leaf nitrogen, Physical geography, GB3-5030, Oceanography, GC1-1581

Abstract

Abstract Plant leaves play an important role in water, carbon, and energy exchanges between terrestrial ecosystems and atmosphere. Assimilating remotely sensed leaf area index (LAI) into land surface models is a promising approach to improve our understanding of those processes. Toward this goal, this study uses the Community Land Model with carbon and nitrogen components (CLM4CN) coupled with the Data Assimilation Research Testbed (DART). Global Land Surface Satellite (GLASS) LAI data are assimilated via the Ensemble Adjustment Kalman Filter. A random 40‐member atmospheric forcing ensemble is used to drive the CLM4CN to provide background error covariance. The results show that assimilating GLASS LAI and updating both LAI and leaf C/N is an effective method to provide a high‐accuracy estimate of LAI. The simulations always systematically overestimate LAI, especially in low‐latitude regions, with the largest bias up to 5 m2/m2, which are effectively corrected in the analyzed LAI, with the bias reduced to ±1 m2/m2. Significantly improved regions are located in central Africa, Amazonia, southern Eurasia, northeastern China, and western Europe, where evergreen/deciduous forests and mixed forests are dominant. Except for the temperate zone in the Southern Hemisphere, the analyzed LAI can well represent seasonal variations. The most pronounced assimilation impact in low‐latitude regions is attributed to large initial forecast error covariance and sufficient background errors. The MOD 16 evapotranspiration estimates and upscaled gross primary production have been used to evaluate the assimilation impact, which highlight neutral to highly positive improvement.

Published

2019

2. Identification of downstream target genes regulated by CX43 in hepatocellular carcinoma

Author

S X Zhan, W D Guo, Z Tan, Lu Zhang, S G Liu, Z H Wu, and Zusen Wang

Subjects

Regulation of gene expression, Cancer Research, Candidate gene, Carcinoma, Hepatocellular, Gene Expression Profiling, Liver Neoplasms, Biology, RALA, Gene expression profiling, Transcriptome, Gene Expression Regulation, Neoplastic, Plasmid, Oncology, Connexin 43, Cancer research, Humans, KEGG, Gene

Abstract

The aim of study was to identify the downstream target genes of CX43 by Human Transcriptome Array. Therefore, a gene microarray was generated which consists of CX43-overexpressed hepatocellular carcinoma (HCC) cells transfected with the constructed plasmid and negative controls to identify candidate genes. Integrated bioinformatic analysis was used to clarify biological functions of the identified genes, including Gene Ontology (GO), Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway, protein-protein interaction network, and survival analysis. The candidate genes were further validated by qRT-PCR in liver cancer tissues and CX43-silenced HCC cells. We have found the mRNA and protein levels of CX43 significantly upregulated in HCC cells transfected with CX43 constructed plasmid. We identified 928 differentially expressed genes including 394 upregulated and 534 downregulated genes, enriched in the cancer related functions and pathways by GO and KEGG pathway analysis. The protein-protein interaction network revealed 9 hub genes in this study. Statistical analysis indicated that upregulation of RALA and SRC was associated with poor prognosis in liver cancer. The differential expression of 2 candidate genes were further validated in HCC cells and tissues. In conclusion, protein-coding genes RALA and SRC could be target genes of CX43 and therapeutic targets for hepatocellular carcinoma.

Published

2018

3. Comparison of land-atmosphere interaction at different surface types in the mid- to lower reaches of Yangzi River Valley

Author

W. D. Guo, X. Q. Wang, J. N. Sun, A. J. Ding, and J. Zou

Abstract

The mid- to lower reaches of Yangzi River Valley is located within the typical East Asia monsoon zone. Rapid urbanization, industrialization, and development of agriculture have led to fast and complicated land use and land cover changes in this region. To investigate land-atmosphere interaction in this region where human activities and monsoon climate are highly interactive with each other, micro-meteorological elements over four different surface types, i.e. urban surface represented by the observational site at Communist Party School in Nanjing (hereafter DX), suburban surface represented by the ground site at Xianling (XL), and grassland and farmland represented by field sites at Lishui County (LS-grass and LS-crop), are analyzed and their differences are revealed. Impacts of different surface parameters applied for different surface types on the radiation budget and surface-atmosphere heat, water, and mass exchanges are investigated. Results indicate that (1) the largest differences in daily average surface air temperature (Ta), surface skin temperature (Ts), and relative humidity (RH), which are found during the dry periods between DX and LS-crop, can be up to 3.21 °C, 7.26 °C, and 22.79 % respectively. During the growing season, the diurnal ranges of the above three elements are the smallest at DX and the largest at LS-grass, XL and LS-crop; (2) differences in radiative fluxes are mainly reflected in upward shortwave radiation (USR) that is related to surface albedo and upward longwave radiation (ULR) that is related to Ts. USR is the smallest and ULR is the largest at DX. During the growing season, the average difference in ULR between the DX site and other sites with vegetation cover can be up to 20 W m−2. The USR variability is the largest at LS-crop, while the diurnal variation of ULR is the same as that of Ts at all the four sites; (3) the differences in daily average sensible heat (H) and latent heat (LE) between DX and LS-crop are larger than 45 and 95 W m−2, respectively. The proportion of latent heat flux in the net radiation (LE/Rn) keeps increasing with the change of season from the spring to summer. XL site demonstrates a distinct forest feature; (4) surface albedo is small while the Bowen ratio is large at DX (an urban site). The urban heat island effect results in higher Ta and Ts at DX site that is 2 °C higher than that at other sites in the nighttime. It is found that surface albedo and roughness length variability both increase at LS-crop during the harvest season and straw burning periods. LE is dominant due to irrigation. Negative H is observed since evaporative cooling leads to low Ts. Daily variability of Ts and Ta is the lowest at LS-crop while RH is the largest. In the summer, the grassland albedo at XL site gradually becomes larger than that at the sites in Lishui. Since the forest-like effects becomes more distinct at XL, LE/Rn increases rapidly. Thereby, although Ts is higher at XL than that at LS-grass , there is no large difference in Ta between the two sites.

Published

2016

4. Characteristics of Hydraulic Shock Waves in an Inclined Chute Contraction - Experiments

Author

C.-D. Jan, C.-J. Chang, J.-S. Lai, and W.-D. Guo

Subjects

Applied Mathematics, Mechanical Engineering, Condensed Matter Physics

Abstract

This paper presents the experimental results of the characteristics of hydraulic shock waves in an inclined chute contraction with consideration of the effects of sidewall deflection angle φ, bottom inclination angle θ and approach Froude number Fr0. Seventeen runs of laboratory experiments were conducted in the range of 27.45° ≤φ ≤ 40.17°, 6.22° ≤ θ ≤ 25.38° and 1.04 ≤ Fr0 ≤ 3.51. Based on the experimental data, three empirical dimensionless relations for the shock angle, maximum shockwave height, and corresponding position of maximum shockwave were obtained by regression analyses, respectively. These empirical relations would be useful for hydraulic engineers in designing chute contraction structures.

Published

2009

5. The impact of urbanization on air temperature across China

Author

Lijuan Hua, Zhuguo Ma, and W. D. Guo

Subjects

Atmospheric Science, education.field_of_study, Meteorology, Population, Spatial distribution, Atmospheric temperature, Chine, Urbanization, Environmental science, Physical geography, Urban heat island, Far East, China, education

Abstract

Based on daily mean air temperature, maximum air temperature and minimum air temperature data from 1961 to 2000, the annual and seasonal evolution as well as the spatial distribution of the warming effect caused by the urbanization in China are investigated. One hundred and ninety one urban meteorological stations were categorized into three classes according to the urban population. A positive correlation between urban population and the rate of urban warming was found. Our results also suggested that the urban-rural difference in term of minimum temperature, with the strongest urban heat island (UHI) effect reaching 0.74 K in winter over large city station pairs, showed good ability to capture the UHI effect. The impact of urbanization on air temperature displayed sharp changes since the innovation and opening of China in 1978. The cities with strong UHI effects were mainly located in regions with rapid industrial and the economic development. Cities in the north of China showed a stronger UHI effect than those in the south. The UHI effects were relatively weaker in coastal cities than in inland ones in spring and summer, with the reverses found for autumn and winter. Furthermore, North China showed greater coastal-inland UHI differences than South China in a given season.

Published

2007

6. Ecological risk assessment using RAPD and distribution pattern of a rare and endangered species

Author

C. Y. Hao, Yuesuo Yang, P. Liu, and W. D. Guo

Subjects

China, Conservation of Natural Resources, Environmental Engineering, DNA, Plant, Health, Toxicology and Mutagenesis, Population, Rare species, Molecular Sequence Data, Endangered species, Biology, Caprifoliaceae, Risk Assessment, Genetic variation, Environmental Chemistry, Genetic variability, education, education.field_of_study, Genetic diversity, Base Sequence, Ecology, fungi, Public Health, Environmental and Occupational Health, Genetic Variation, General Medicine, General Chemistry, Pollution, RAPD, Random Amplified Polymorphic DNA Technique, Genetic structure, Environmental Monitoring

Abstract

Environmental and ecological risk assessment always provide useful evidence for characterisation and conservation of the rare and endangered species, e.g. seven-son flower (Heptacodium miconioides Rehd.). Seven-son flower is a deciduous arbor species, but endangered, with a restricted distribution in the subtropical forests of China. Genetic risk assessment of 56 samples of the flower from nine main populations in Zhejiang (China) was carried out by using the RAPD analysis. This was to study the ecological characteristics, spatial distribution and genetic features of the seven-son flower communities and establish a feasible conservation plan. Twenty-one primers screened from 50 yielded 119 RAPD bands with 72 polymorphic products and 60.50% of total bands. The genetic variation was found to be partitioned mainly among rather than within populations. Percentages of genetic diversity among populations were quantified by Shannon index and the Nei's gene diversity coefficient. AMOVA also demonstrated that these relict populations were highly differentiated. The high level of population variation observed is in contrast to that expected for a primarily outcrossed woody perennial plant, and suggests that there may be a degree of inbreeding. The dendrogram constructed from genetic distances through UPGMA method based on Nei's coefficients shows two groups among nine population clusters, which is further supported by a principle components analysis (PCA) of RAPD phenotypic data. The analysis showed that the biologic characteristics and habitat fragmentation were the reasons of the great genetic variation among populations. Some strategies of its genetic diversity conservation were proposed in the fragmented habitats based on its genetic structure and its biological characteristics in this study.

Published

2006

7. Risk factors for stomach cancer in sixty-five Chinese counties

Author

R W, Kneller, W D, Guo, A W, Hsing, J S, Chen, W J, Blot, J Y, Li, D, Forman, and J F, Fraumeni

Subjects

Adult, Male, China, Helicobacter pylori, Eggs, Sodium, Dietary, Middle Aged, beta Carotene, Antibodies, Bacterial, Carotenoids, Diet Surveys, Helicobacter Infections, Selenium, Cross-Sectional Studies, Residence Characteristics, Risk Factors, Stomach Neoplasms, Vegetables, Humans, Female, Serum Albumin

Abstract

Stomach cancer mortality data were compared with dietary and biochemical data from 65 Chinese counties to provide clues to reasons for the marked geographic variation of stomach cancer mortality rates in China. Sex-specific correlation and multivariate regression analyses showed significant positive associations with consumption of salted vegetables and eggs, prevalence of antibodies to Helicobacter pylori, and levels of plasma albumin; and significant negative associations with intake of green vegetables and levels of plasma selenium and beta-carotene. Limitations of ecological data preclude causal inferences, but these findings suggest factors that may contribute to making stomach cancer the leading cause of cancer death in China and other countries.

Published

1992

8. Comparison of different sequential assimilation algorithms for satellite-derived leaf area index using the Data Assimilation Research Testbed (version Lanai)

Author

X.-L. Ling, C.-B. Fu, Z.-L. Yang, and W.-D. Guo

Subjects

Geology, QE1-996.5

Abstract

The leaf area index (LAI) is a crucial parameter for understanding the exchanges of mass and energy between terrestrial ecosystems and the atmosphere. In this study, the Data Assimilation Research Testbed (DART) has been successfully coupled to the Community Land Model with explicit carbon and nitrogen components (CLM4CN) by assimilating Global Land Surface Satellite (GLASS) LAI data. Within this framework, four sequential assimilation algorithms, including the kernel filter (KF), the ensemble Kalman filter (EnKF), the ensemble adjust Kalman filter (EAKF), and the particle filter (PF), are thoroughly analyzed and compared. The results show that assimilating GLASS LAI into the CLM4CN is an effective method for improving model performance. In detail, the assimilation accuracies of the EnKF and EAKF algorithms are better than those of the KF and PF algorithm. From the perspective of the average and RMSD, the PF algorithm performs worse than the EAKF and EnKF algorithms because of the gradually reduced acceptance of observations with assimilation steps. In other words, the contribution of the observations to the posterior probability during the assimilation process is reduced. The EAKF algorithm is the best method because the matrix is adjusted at each time step during the assimilation procedure. If all the observations are accepted, the analyzed LAI seem to be better than that when some observations are rejected, especially in low-latitude regions.

Published

2019