Pingping Gao scite author profile

Domestic wastewater was treated by five constructed wetland beds in series. Dissolved organic matter (DOM) collected from influent and effluent samples from the constructed wetland was investigated using fluorescence spectroscopy combined with fluorescence regional integration (FRI), parallel factor (PARAFAC) analysis, and two-dimensional correlation spectroscopy (2D-COS). This study evaluates the capability of these methods in detecting the spectral characteristics of fluorescent DOM fractions and their changes in constructed wetlands. Fluorescence excitation-emission matrix (EEM) combined with FRI analysis showed that protein-like materials displayed a higher removal ratio compared to humic-like substances. The PARAFAC analysis of wastewater DOM indicated that six fluorescent components, i.e., two protein-like substances (C1 and C6), three humic-like substances (C2, C3 and C5), and one non-humic component (C4), could be identified. Tryptophan-like C1 was the dominant component in the influent DOM. The removal ratios of six fluorescent components (C1-C6) were 56.21, 32.05, 49.19, 39.90, 29.60, and 45.87 %, respectively, after the constructed wetland treatment. Furthermore, 2D-COS demonstrated that the sequencing of spectral changes for fluorescent DOM followed the order 298 nm → 403 nm → 283 nm (310-360 nm) in the constructed wetland, suggesting that the peak at 298 nm is associated with preferential tryptophan fluorescence removal. Variation of the fluorescence index (FI) and the ratio of fluorescence components indicated that the constructed wetland treatment resulted in the decrease of fluorescent organic pollutant with increasing the humification and chemical stability of the DOM.

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Microdiversity of phenol hydroxylase genes among phenol-degrading isolates of Alcaligenes sp. from an activated sludge system

Zhang

Gao

Chao

et al. 2004

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Enterobacterial repetitive intergenic consensus (ERIC)‐PCR fingerprinting classified 97 phenol‐degrading isolates with identical amplified ribosomal DNA restriction analysis (ARDRA) patterns into six genotypic groups. The 16S rRNA gene of the representative isolate of each group had higher than 99.47% common identity with each other and higher than 98% identity with the type strain of Alcaligenes faecalis. PCR‐TGGE (temperature gradient gel electrophoresis) analysis of the genes of the largest subunit of the multi‐component phenol hydroxylase (LmPH) in each isolate followed with sequencing showed that isolates within each ERIC‐PCR group had identical LmPH gene sequences. Among the six different ERIC‐PCR groups, two were found to harbor two different LmPH genes encoding low‐ and high‐Ks (affinity constants) phenol hydroxylases, and the low‐Ks type LmPH was identical in sequence with one predominant LmPH of the parental activated sludge. Three ERIC‐PCR groups had only the high‐Ks type and one had no sequence similar to the known LmPHs. Our work suggests that there is no correlation between the phylogenetic groupings of phenol‐degrading bacteria and their LmPH genotypes possibly due to extensive horizontal gene transfer of this functional gene.

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Development of Ti bipolar plates with carbon/PTFE/TiN composites coating for PEMFCs

Gao

Xie

et al. 2018

International Journal of Hydrogen Energy

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Pingping Gao

Surface charge-transfer doping for highly efficient perovskite solar cells

Optimized sequence retrieval from single bands of temperature gradient gel electrophoresis profiles of the amplified 16S rDNA fragments from an activated sludge system

Changes and characteristics of dissolved organic matter in a constructed wetland system using fluorescence spectroscopy

Microdiversity of phenol hydroxylase genes among phenol-degrading isolates of Alcaligenes sp. from an activated sludge system

Development of Ti bipolar plates with carbon/PTFE/TiN composites coating for PEMFCs

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