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16 results on '"CONG-QIANG LIU"'

4. Anthropogenic regulation governs nutrient cycling and biological succession in hydropower reservoirs

Author

Baoli, Wang, Xinyue, Yang, Si-Liang, Li, Xia, Liang, Xiao-Dong, Li, Fushun, Wang, Meiling, Yang, and Cong-Qiang, Liu

Subjects
China, Environmental Engineering, Rivers, Environmental Chemistry, Nutrients, Renewable Energy, Hydrology, Plankton, Pollution, Waste Management and Disposal
Abstract

Hydropower plays an important role in the supply of renewable energy, but it also exerts a great influence on the river continuum. Understanding nutrient cycling and microbial community succession in hydropower reservoirs is key to weighing hydroelectric pros and cons. However, the underlying control mechanisms are still not well known, especially with respect to the impacts of hydrological conditions. Based on a comprehensive survey of hydropower reservoirs along the Wujiang River in SW China and an integration of published data, we found that reservoir physicochemical and biological stratifications and planktonic microbial community assembly were synergistically evolving, and reservoir hydraulic load (i.e., mean water depth per unit retention time) was a key factor controlling the strength of stratifications, CO

Published
2022

5. Year-round observations of stable carbon isotopic composition of carboxylic acids, oxoacids and α-Dicarbonyls in fine aerosols at Tianjin, North China: Implications for origins and aging

Author

Peisen Li, Chandra Mouli Pavuluri, Zhichao Dong, Zhanjie Xu, Pingqing Fu, and Cong-Qiang Liu

Subjects
Aerosols, Air Pollutants, Carbon Isotopes, China, Fossil Fuels, Environmental Engineering, Water, Keto Acids, Pollution, Carbon, Environmental Chemistry, Dicarboxylic Acids, Particulate Matter, Seasons, Waste Management and Disposal, Environmental Monitoring
Abstract

To better understand the origins and photochemical processing (aging) of organic aerosols (OA), we studied fine aerosols (PM

Published
2022

6. Calcium isotopes tracing secondary mineral formation in the high-relief Yalong River Basin, Southeast Tibetan Plateau

Author

Bei-Bei Chen, Si-Liang Li, Philip A.E. Pogge von Strandmann, David J. Wilson, Jun Zhong, Jian Sun, and Cong-Qiang Liu

Subjects
Calcium Isotopes, Carbon Isotopes, Minerals, Environmental Engineering, Carbonates, Tibet, Pollution, Soil, Isotopes, Rivers, Clay, Environmental Chemistry, Calcium, Waste Management and Disposal, Environmental Monitoring
Abstract

Calcium is a critical element in the global carbon cycle due to its role in carbon sequestration via silicate weathering and carbonate formation. Here we apply calcium (δ

Published
2022

7. Carbon biogeochemical cycle is enhanced by damming in a karst river

Author

Baoli Wang, Xiaolong Liu, Qiong Han, Xi Peng, Cong-Qiang Liu, and Fushun Wang

Subjects
Hydrology, Biogeochemical cycle, Environmental Engineering, 010504 meteorology & atmospheric sciences, δ13C, Biogeochemistry, 010501 environmental sciences, Plankton, 01 natural sciences, Pollution, Carbon cycle, chemistry.chemical_compound, chemistry, Aquatic plant, Phytoplankton, Environmental Chemistry, Carbonate, Environmental science, Waste Management and Disposal, 0105 earth and related environmental sciences
Abstract

Currently, there is a lack of systematic knowledge concerning carbon (C) biogeochemical cycles in impounded rivers. In this study, we investigated different C species and related environmental factors from July 2007 to June 2008 and from May 2011 to May 2012 in the impounded Wujiang River, SW China to understand the influence of dam construction on the riverine C cycle. The results showed that average concentrations of dissolved CO2, dissolved inorganic C (DIC), dissolved organic C, and particulate organic C (POC) were 81.73 μmol/L, 2283.55 μmol/L, 158.11 μmol/L, and 37.54 μmol/L, respectively. Meanwhile, δ13CDIC ranged from − 10.07‰ to − 4.92‰ with an average of − 8.33‰, while δ13CPOC ranged from − 35.30‰ to − 22.28‰ with an average of − 29.20‰. Thermal and chemical stratifications developed seasonally and exerted a significant influence on the C cycle of the released water. The C species and related δ13C showed remarkable heterogeneity in time and space. Evidence from δ13C demonstrated that the C system in this river was primarily influenced by carbonate weathering, whereas in the reservoir, it was primarily controlled by algal activity. The coefficients of variance for different C species in the reservoir and released water were higher than those in the river. Our study indicated that biological activity became a key controlling factor for the C biogeochemical cycle and accelerated it after damming, especially in the warm seasons. The results of this study have important implications for understanding the C cycle in elongated and deep reservoirs.

Published
2018

8. Differences in the spectroscopic characteristics of wetland dissolved organic matter binding with Fe3+, Cu2+, Cd2+, Cr3+ and Zn2+

Author

Xiaokun Han, Hu Ding, Yunchao Lang, Cong-Qiang Liu, Mingxuan Liu, and Laodong Guo

Subjects
Absorption (pharmacology), geography, Environmental Engineering, geography.geographical_feature_category, Aquatic ecosystem, food and beverages, Wetland, Pollution, Fluorescence, Fluorescence spectroscopy, chemistry.chemical_compound, chemistry, Environmental chemistry, Functional group, Dissolved organic carbon, Environmental Chemistry, Spectroscopy, Waste Management and Disposal
Abstract

Understanding of the binding characteristics of wetland dissolved organic matter (DOM) and different metals is important for the quantitative assessment of the environmental behavior of metals in wetlands. In this study, different types of spectroscopy including ultraviolet-visible absorption, Fourier transform infrared, and fluorescence spectroscopy was used to investigate the binding characteristics of Fe3+, Cu2+, Cr3+, Cd2+, and Zn2+ with DOM from wetland water. Differential absorption spectra identified binding sites for these five metals in this wetland DOM at 210 nm, 280 nm, 335 nm, and > 400 nm regions. The low binding capacity of DOM in this wetland with Cd and Zn indicated that the toxicity and environmental effects of these metals in this wetland warrant further study. The calculated △EEM combined with fluorescence regional integration (FRI) analysis clearly revealed that Fe and Cu preferred to bind with humic-like DOM while Cd and Zn preferred to bind with protein-like DOM in this wetland. △EEM successfully demonstrated the characteristics of DOM complexing with different metals and could be a compelling tool in evaluating metal-DOM interactions. In addition, 2D-FTIR-COS identified the binding sites and the dynamic processes of binding at the functional group level. Metals preferentially bind with the C O, C O functional group, and then binds to the O H functional group. This study revealed that different DOM components will facilitate the migration of different metals in the environment and provided new slights into an improved understanding of migration and transformation of metals in aquatic environments.

Published
2021

9. Terrestrial lipid biomarkers in marine aerosols over the western North Pacific during 1990–1993 and 2006–2009

Author

Cong-Qiang Liu, Wei Hu, Pingqing Fu, Kimitaka Kawamura, Jing Chen, and Qiang Zhang

Subjects
Aerosols, Air Pollutants, Environmental Engineering, Chemistry, Levoglucosan, Tropics, Lipids, Pollution, Southeast asia, chemistry.chemical_compound, Chain length, Abundance (ecology), Environmental chemistry, Preference index, Environmental Chemistry, Particulate Matter, lipids (amino acids, peptides, and proteins), Biomass, Seasons, Lipid biomarkers, Waste Management and Disposal, Relative species abundance, Biomarkers, Environmental Monitoring
Abstract

Terrestrial lipid biomarkers are one of the key tracers in the studies of atmospheric aerosols. Here, we investigated such organic compounds in marine aerosols collected at Chichijima Island, the western North Pacific for two 4-year periods: 1990–1993 and 2006–2009. A homologous series of lipid biomarkers including C18–C37 n-alkanes, C9–C34 fatty acids, and C14–C35 fatty alcohols were determined by gas chromatography/mass spectrometry (GC/MS). The atmospheric levels of these tracers increased from 1990–1993 to 2006–2009. Their seasonal trends were clearly characterized by winter–spring maxima and summer–fall minima. The relative abundance of the high-molecular-weight (HMW) n-alkanes (C25–C37) and n-alcohols (C20–C35) in total HMW lipids peaked in winter and winter/fall, respectively, whereas those of HMW fatty acids (C20–C34) peaked in summer. Air-mass backward trajectory analyses suggest that the Asian continent, Southeast Asia including tropical regions, and the Central Pacific are the main source regions. The seasonal shift and distribution of the carbon preference index and average chain length for the HMW lipids were controlled by the changes in climatic factors and source regions. The higher abundance of terrestrial lipids during 2006–2009 than 1990–1993 indicates a higher emission from terrestrial plantation in the 2000s than in the early 1990s in upwind regions of East Asia. Furthermore, HMW lipid compounds exhibited much stronger positive correlations with levoglucosan, a biomass-burning tracer, during 2006–2009 than 1990–1993, suggesting that biomass-burning emissions contributed more significantly in this century.

Published
2021

10. Spatial and seasonal variations of dissolved arsenic in the Yarlung Tsangpo River, southern Tibetan Plateau

Author

Hu Ding, Cong-Qiang Liu, Ya-Ni Yan, Zhi-Qi Zhao, Jun-Wen Zhang, Xiao-Dong Li, Jianyang Guo, Jun-Lun Meng, and Li-Feng Cui

Subjects
Hydrology, geography, Hot spring, Environmental Engineering, geography.geographical_feature_category, Plateau, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, Weathering, 010501 environmental sciences, 01 natural sciences, Pollution, Dilution, Adsorption, chemistry, Tributary, Environmental Chemistry, Environmental science, Waste Management and Disposal, Geothermal gradient, Arsenic, 0105 earth and related environmental sciences
Abstract

High levels of dissolved arsenic (As) have been reported in many rivers running though the Tibetan Plateau (TP), the “Water Tower of Asia”. However, the source, spatiotemporal variations, and geochemical behavior of dissolved As in these rivers remain poorly understood. In this study, hot spring, river water, and suspended particulate material samples collected from the Yarlung Tsangpo River (YTR) (upper reaches of the Brahmaputra River) system in 2017 and 2018 were analyzed. Spatial results shown that the upper reaches of YTR (Zone I) have comparatively high levels of dissolved As ([As]dissolved: mean 31.7 μg/L; 4.7–81.6 μg/L; n = 16), while the tributaries of the lower reaches (Zone II) have relatively low levels (mean 0.54 μg/L; 0.11–1.3 μg/L; n = 7). Seasonal results shown that the high [As]dissolved (6.1–22.4 μg/L) were found in September to June and low [As]dissolved (1.4–3.7 μg/L) were observed in July to August. Geothermal water is suspected as the main source of the elevated As levels in YTR due to the extremely high [As]dissolved in hot springs (1.13–9.76 mg/L) and abundance of geothermal systems throughout TP. However, the seasonal results suggested that weathering of As-containing rocks and minerals is also a key factor affecting the [As]dissolved in the river water in July to August (wet-season). Natural attenuation of As in main channel is dominated by dilution process due to the lower As concentrations in tributaries, but mostly occurred by both dilution and adsorption (or co-precipitation) processes in tributaries. This work highlights that the weathering process may have an important contribution to the dissolved As in the river waters in wet-season, and the geochemical behavior of As is largely transported conservatively in the main channel and relative non-conservatively in the tributaries in YTR system.

Published
2021

11. Temporal and spatial variations in stable isotopic compositions of precipitation during the typhoon Lekima (2019), China

Author

Yue Wang, Yunchao Lang, Qingjun Guo, Feili Li, Fushun Wang, Tiejun Wang, Mingxuan Liu, Cong-Qiang Liu, Xiaokun Han, Aizhe Xu, and Si-Liang Li

Subjects
Convection, Environmental Engineering, 010504 meteorology & atmospheric sciences, δ18O, 010501 environmental sciences, Atmospheric sciences, 01 natural sciences, Pollution, Isotopes of oxygen, Rainwater harvesting, Typhoon, Environmental Chemistry, Environmental science, Precipitation, Tropical cyclone, Waste Management and Disposal, Water vapor, 0105 earth and related environmental sciences
Abstract

A clear understanding of factors governing stable isotopic variations in precipitation of tropical cyclones is critical for constraining atmospheric hydrological model simulations. The temporal and spatial variations in stable isotopic compositions of precipitation during the typhoon Lekima (2019) were investigated, based on rainwater samples collected at four sampling sites along its track between August 10 and August 12, 2019. Results showed that the δ18O and δD values of rainwater samples varied from -15.5‰ to -2.9‰ and from -112.4‰ to -17.3‰, respectively. The large ranges of δ18O and δD values in rainwater from the typhoon Lekima were most likely caused by the changes in rainfall intensity and its complex interaction with local water vapor. In addition, it was observed that the δ18O and δD values gradually decreased from the outer rainbands to the inner rainbands, and their values were more depleted of heavy isotopes than those of local rain. We speculated that both the high stratiform precipitation fractions and the deep convection system may be responsible for the isotopic depletion of rainwater related with the typhoon Lekima. It reveals that the rain type fractions and the intensity of convection should be considered in the elucidation of δ18O signals in extreme precipitation events. This study also has important implications for understanding atmospheric moisture cycles in tropical cyclones.

Published
2021

12. Insights into solubility of soil humic substances and their fluorescence characterisation in three characteristic soils

Author

Khan M. G. Mostofa, Nicola Senesi, Cong-Qiang Liu, Rob M. Ellam, Jie Yuan, Si-Liang Li, Xuemei Yang, and Mohammad Mohinuzzaman

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, Chemistry, Extraction (chemistry), Water extraction, 010501 environmental sciences, 01 natural sciences, Pollution, Matrix (chemical analysis), Nutrient, Environmental chemistry, Soil water, Dissolved organic carbon, Environmental Chemistry, Solubility, Waste Management and Disposal, Dissolution, 0105 earth and related environmental sciences
Abstract

Soil humic substances (HS) are involved in almost all biogeochemical processes and functions in soils, thus their extraction from aiming to their characterization is very important. However, many factors that influence HS extraction from soil still need further studies. The aim of this work was to assess and quantify comparatively the solubility of soil HS as a function of extraction time, various extractants, solid to liquid ratio and sequential extraction. In this work three different soils, i.e. a forest, a maize and a paddy soil, were examined to assess the solubility of soil HS based on their fluorescence (excitation-emission matrix, EEM) features and changes in nutrient (NO3−-N, PO43−-P and dissolved Si) contents using multiple extraction approaches (time-dependent, various extractants, solid to liquid ratio, and sequential extraction). Three fluorescent components, i.e. humic acids-like (HA-like), fulvic acids-like (FA-like), and protein-like fluorophores (PLF), were identified by parallel factor (PARAFAC) analysis of EEM spectra of the various soil extracts. The solubility of HS, dissolved organic carbon (DOC) and nutrients were shown to increase with extraction time, except for PLF. The FA-like fraction disappeared completely in KCl extracts of all three soils, suggesting the inefficiency of salt extraction. Conversely, HS and nutrients solubility substantially increased in alkaline extracts, and dissolved Si was correlated significantly with the fluorescent intensities of HA-like and FA-like, thus confirming the well-known typical process of alkaline dissolution of HS bound to phytolith and silicate minerals. The relative solubility of HS and nutrients was higher at lower solid to liquid ratio (1:250–1:100), whereas their maximum yields was achieved at high solid to liquid ratio (1:10) for all three soils. Sequential extraction results showed that the first water extraction step contributed 42–55% of HS, which suggested that a single extraction was insufficient to recover HS. In conclusion, water and alkaline extraction could provide, respectively, the labile and insoluble complexed HS existing in soil.

Published
2020

13. Climatic and anthropogenic regulation of carbon transport and transformation in a karst river-reservoir system

Author

Wanfa Wang, Huayun Xiao, Stephen C. Maberly, Fushun Wang, Jun Zhong, Cai Li, Cong-Qiang Liu, and Si-Liang Li

Subjects
Hydrology, geography, Environmental Engineering, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Hydraulic retention time, chemistry.chemical_element, 010501 environmental sciences, Karst, 01 natural sciences, Pollution, Ecology and Environment, Reservoir system, chemistry, Isotopes of carbon, Carbon transport, Dissolved organic carbon, Environmental Chemistry, Environmental science, Ecosystem, Waste Management and Disposal, Carbon, 0105 earth and related environmental sciences
Abstract

The effect of dams on dissolved inorganic carbon (DIC) transport and riverine ecosystems is unclear in karst cascade reservoirs. Here, we analyzed water samples from a karst river system with seven cascade reservoirs along the Wujiang River, southwestern China, during one hydrological year. From upstream to downstream, the average concentration of DIC increased from 2.2 to 2.6 mmol/L and its carbon isotope composition (δ13CDIC) decreased from −8.0 to −10‰. Meanwhile, the air temperature (Ta) increased from 20.3 °C to 26.7 °C and 10 °C to 13.7 °C in the warm and cold seasons, respectively. The results suggest that a cascade of dams has a stronger effect on DIC dynamics and retention than a single dam. The good correlation between Ta/HRT (hydraulic retention time) and Δ[DIC] as well as Δ[δ13CDIC] mean that Ta and HRT affected the magnitude of the damming effect by altering changes in concentration of DIC and δ13CDIC in the reservoir compared to the inflowing water. In particular, daily regulated reservoirs with short retention times acted more like river corridors and had a smaller effect on carbon dynamics, so modulating retention time might be used reduce the effect of dams on the riverine ecosystem.

Published
2020

14. Nitrogen isotope differences between atmospheric nitrate and corresponding nitrogen oxides: A new constraint using oxygen isotopes

Author

Xue-Yan Liu, Yan-Li Wang, Cong-Qiang Liu, Wei Song, Yindong Tong, and Zhipeng Bai

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, Reactive nitrogen, Isotope, Stable isotope ratio, Chemistry, Coal combustion products, 010501 environmental sciences, 01 natural sciences, Pollution, Isotopes of nitrogen, Isotopes of oxygen, Environmental chemistry, Environmental Chemistry, Waste Management and Disposal, NOx, 0105 earth and related environmental sciences, Isotope analysis
Abstract

Tracking of reactive nitrogen (N) sources is important for the effective mitigation of N emissions. By combining the N and oxygen (O) isotopes of atmospheric NO3−, stable isotope mixing models were recently applied to evaluate the relative contributions of major NOx sources. However, it has long been unresolved how to accurately constrain the δ15N differences between NO3− and corresponding NOx (e(NO2→NO3−) values). Here, we first incorporated the HC oxidation (NO2 → NO3−) pathway by using Δ17O values to evaluate the e(NO2→NO3−) values, performed on NO3− in PM2.5 collected during the day and at night from January 4–13, 2015 at an urban site in Beijing. We found that the Δ17O-based e values (e17O-based(NO2→NO3−)) (15.6 ± 7.4‰) differed distinctly from δ18O-based e values (e18O-based(NO2→NO3−)) (33.0 ± 9.5‰) so did not properly incorporate the isotopic effects of the HC oxidation (NO2 → NO3−) pathway. Based on the e(NO2→NO3−) values, δ15N values of NOx from coal combustion (CC), vehicle exhausts (VE), biomass burning (BB), and the microbial N cycle (MC), as well as NO3− in PM2.5, we further quantified the source contributions by using Stable Isotope Analysis in R (the SIAR model). We found that the respective fractional contributions of CC-NOx and MC-NOx were underestimated by 64% and were overestimated by 216% by using e18O-based(NO2→NO3−) values. We concluded that the new e17O-based(NO2→NO3−) values reduced uncertainties in contribution analysis and the evaluation method for atmospheric NO3− sources.

Published
2020

15. Dissolved silicate retention and transport in cascade reservoirs in Karst area, Southwest China

Author

Jin Guan, Cong-Qiang Liu, Yuchun Wang, Yuanxiu Yu, Fushun Wang, Baoli Wang, and Hangyuan Mei

Subjects
Hydrology, China, geography, Environmental Engineering, geography.geographical_feature_category, Silicates, Temperature, Stratification (water), Fluvial, Hydrogen-Ion Concentration, Karst, Pollution, Sink (geography), Water column, Epilimnion, Environmental Chemistry, Hypolimnion, Eutrophication, Waste Management and Disposal, Geology, Environmental Monitoring
Abstract

Presently, the fluvial fluxes of Dissolved silicate (DSi) by many famous rivers in the world have been reported significantly decreased in the past several decades. DSi retention by river damming hence becomes a great concern. In this study, the impact on DSi retention and transport by cascade reservoirs in the Karst area were investigated. Based on the monitoring data for four seasons, budget of DSi in these reservoirs were calculated. Results showed that, only the downstream eutrophic Wujiangdu reservoir (WJD) was the sink for DSi, with a value of ca. 3.5 kT DSi trapped annually. The new Hongjiadu reservoir (HJD) in the headwater area revealed to be an important source for DSi. Both Dongfeng (DF) and Suofengyin (SFY) reservoirs also released more DSi to the downstream than entering them. The great discrepancy of DSi source and sink effects among these reservoirs indicates that, (i) DSi was obviously taken up in summer and spring, and the concentration of DSi could be dropped down to below 30 mu M; (ii) during the period of thermal stratification, the concentration stratification of DSi is also developed along the water column. Possibly DSi releasing from inundation soil and bottom sediment was the important compensation for the silicon depletion in the epilimnion. In the newly constructed reservoirs (e.g. HJD and SFY), the releasing flux of DSi can significantly exceed the assimilating flux by diatom; and (iii) due to the hypolimnion introducing for hydropower operation, water leaving the dam generally had high DSi content, and then masked the DSi taking up in the epilimnion. This process also decreased the ratio of DIN to DSi, mitigating the silicon limiting situation in the downstream. (C) 2010 Elsevier B.V. All rights reserved.

Published
2010

16. The spatial distribution and emission of nitrous oxide (N2O) in a large eutrophic lake in eastern China: Anthropogenic effects

Author

Jun Li, Kevin M. Yeager, Guojiang Wan, Cong-Qiang Liu, Chengxin Fan, Shilu Wang, Faxiang Tao, Fang Liu, and Yingchun Lǚ

Subjects
Hydrology, China, geography, Environmental Engineering, geography.geographical_feature_category, Eastern china, Nitrous Oxide, Drainage basin, Fresh Water, Nitrous oxide, Eutrophication, Spatial distribution, Pollution, chemistry.chemical_compound, Solubility, chemistry, Fresh water, Air Pollution, River network, Environmental Chemistry, Environmental science, Waste Management and Disposal, Water Pollutants, Chemical, Environmental Monitoring
Abstract

The emission of N(2)O from China is globally significant, but relatively few direct observations have been made in many of the fresh water environments most likely to be important sites of N(2)O production. In this paper, N(2)O saturations were examined in the ecologically heterogeneous, eutrophied, Lake Taihu, as well as in surrounding rivers in eastern China. The emissions of N(2)O were estimated and compared with those from other landscapes within the Lake Taihu drainage basin. We found that anthropogenically-enhanced inorganic N inputs act as a limited primary control on the spatial distribution of N(2)O saturations in heavily eutrophied parts of the lake only and that overall, lake N(2)O production and emission are not raised as significantly as expected due to high N inputs. In comparison, the heavily eutrophied river network is an important fraction of the local N(2)O budget, and when considered together with emissions of N(2)O from the lake, constitute a major (10-50% depending on season) fraction of total N(2)O emissions from the Lake Taihu drainage basin.

Published
2009

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