Manadas Creek is an urban tributary of the Rio Grande that flows past a decommissioned antimony smelter and processing plant. This antimony plant is associated with heavy metal contamination in the creek and still pos...Manadas Creek is an urban tributary of the Rio Grande that flows past a decommissioned antimony smelter and processing plant. This antimony plant is associated with heavy metal contamination in the creek and still poses a threat to the surrounding aquatic environment. Corbicula fluminea was used to determine bioaccumulation from the water column and sediments in Manadas Creek. The metals arsenic (As), antimony (Sb) and thallium (Tl) were analyzed in the water, sediments, gills, mantle, foot, digestive (DI) tract, gonads and shell of clams being monitored at eight sites between March and August 2013. Sediment, water, and dissected Corbicula fluminea samples from different sites in the Creek were acid-digested and analyzed by Inductively Coupled Plasma Optical Emission Spectroscopy. High levels of antimony (25.88 ug/L;75.96 mg/kg) and arsenic (8.26 ug/L;6.41 mg/kg) in the water and sediments were observed at the site downstream from the smelter. There were no detectable concentrations of arsenic, antimony, or thallium in the shell of C. fluminea. Arsenic and antimony were detected in the tissues of C. fluminea but thallium was not detected. Based on the results, the organotropism for arsenic is DI tract > gills > gonads > foot > mantle > shell and the organotropism for antimony is gills > DI tract > gonads > mantle > foot > shell. This study shows that the Asiatic clam (Corbicula fluminea) is a useful bio-monitor to provide data on the status of metal pollution in Manadas Creek, Laredo, Texas.展开更多
采用形态学分析(壳长、壳宽和壳高)和分子标记技术(细胞色素氧化酶I基因,COI)对洪泽湖河蚬(Corbicula fluminea)黄色和黑色2个群体的形态和遗传多样性特征进行研究。形态参数统计分析结果显示,2个群体的形态特征之间有显著性差异。经PC...采用形态学分析(壳长、壳宽和壳高)和分子标记技术(细胞色素氧化酶I基因,COI)对洪泽湖河蚬(Corbicula fluminea)黄色和黑色2个群体的形态和遗传多样性特征进行研究。形态参数统计分析结果显示,2个群体的形态特征之间有显著性差异。经PCR扩增和序列测定,获得614 bp COI基因序列,2个群体的COI基因序列的碱基组成高度一致,均表现出A+T的含量(64.8%)明显高于G+C的含量(35.2%)。28个黑色个体发现7种单倍型,单倍型多样性和核苷酸多样性分别为0.794和0.04274;30个黄色个体发现5种单倍型,单倍型多样性和核苷酸多样性分别为0.607和0.02825。单倍型之间的遗传距离在0.002-0.091之间,其NJ和MP系统发生树表明,COI基因单倍型聚为2个明显分支。分子方差分析(AMOVA)结果显示,F_(st)=0.21736(P<0.01),21.74%的变异来自群体间,78.26%的变异来自群体内,2个群体之间有显著的遗传分化。研究表明,应将洪泽湖河蚬黑色和黄色群体分别作为独立单元进行管理和保护。展开更多
Based on a simulative experiment and a comparison analysis, the effect of bivalve Corbiculafluminea activity on sediment-water exchange of dissolved inorganic nitrogen (DIN) is studied. The areas included three inte...Based on a simulative experiment and a comparison analysis, the effect of bivalve Corbiculafluminea activity on sediment-water exchange of dissolved inorganic nitrogen (DIN) is studied. The areas included three intertidal flat sites of the Changjiang (Yangtze) River estuary in China. The interface exchange flux of ammonium, nitrate and nitrite in the short experiment (6 h) was -46.4-40, -74.8-929.1 and 2.5-14.6 μmol/(m^2·h), respectively. It was found that the burrowing activities of C. fluminea increased NH4 and NOi release from sediments to overlying water in the short-term experiment. During long-term incubation, NH4 and NOi released in turn from the sediments. At the beginning of incubation, bioturbation by C. fluminea could accelerate NH2 release from sediments 2-17 times in different sites, resulting in stronger nitrification and increased NOi concentrations in the overlying water. Sediment profile analysis post-incubation shows that organic matter mineralization and sediment-water NH4 exchange had been stimulated by C. fluminea bioturbation and bioirrigation during the experiment. Therefore, C. fluminea activities such as excretion, burrowing, irrigation and turbation can effectively alter nitrogen dynamics and accelerate and stimulate nitrogen exchange and cycling at the sediment-water interface.展开更多
The stable isotopic composition of the bivalve shell has been widely used to reconstruct the pa-laeo-climate and palaeo-environment. The climatic and environmental significance of carbon isotopic composition of the bi...The stable isotopic composition of the bivalve shell has been widely used to reconstruct the pa-laeo-climate and palaeo-environment. The climatic and environmental significance of carbon isotopic composition of the bivalve shell is still in dispute, and incorporation of metabolic carbon can obscure carbon isotope records of dis-solved inorganic carbon. This study deals with freshwater bivalve, Corbicula fluminea aragonite shell. The results indicated that the δ13C values of bivalve shells deposited out of equilibrium with the host water and showed an onto-genic decrease, indicating that there are metabolic effects and more metabolic carbon is incorporated into larger shells. The proportion of metabolic carbon of shells varies between 19.8% and 26.8%. However, δ13CS can still be used as qualitative indicators of δ13CDIC and environmental processes that occurred during shell growth.展开更多
A novel floating-bed incorporated with water spinach (Ipomoea aquatica), Asiatic clam (Corbicula fluminea), and carrier media supported biofilm was developed for eutrophic water purification. The contribu- tions o...A novel floating-bed incorporated with water spinach (Ipomoea aquatica), Asiatic clam (Corbicula fluminea), and carrier media supported biofilm was developed for eutrophic water purification. The contribu- tions of each biologic component to the removals of total nitrogen (TN), total phosphorus (TP) and Chl.a were examined. The nutrient removals due to the direct uptake by either water spinach or Asiatic clam were less than 10%, suggesting a negligible role of biologic assimilation and leaving the biofilm as the indispensable biologic compo- nent in the floating-bed. Chl.a was reduced mainly by Asiatic clams via filter-feeding. Meanwhile, the digestion and excretion of Asiatic clams benefited the proliferation of nitrifying and denitrifying bacteria, resulting in the improvement of TN removal. In summary, the synergetic effects of water spinach, Asiatic clams and biofilms would promote the eutrophic water treatment performance of floating-bed in comparison with the conventional floating- bed with vegetation as the single biologic component.展开更多
Corbicula fluminea distillate(CFD),as an industrial sub-product of the steaming process of C.fluminea,is rich in polysaccharides,proteins,and amino acids and has important developmental value.In this study,therefore,t...Corbicula fluminea distillate(CFD),as an industrial sub-product of the steaming process of C.fluminea,is rich in polysaccharides,proteins,and amino acids and has important developmental value.In this study,therefore,three water-soluble polysaccharides(CFDPs:CFDP-D,CFDP-U,and CFDP-T)were extracted and separated from CFD through direct ethanol precipitation,ultrasound-assisted extraction,and three-phase partitioning(TPP),respectively.Results demonstrated that the three extraction methods had important influences on extraction yields,chemical compositions,molecular weights,monosaccharide and amino acid constituents,structural characteristics,and microstructures as well as biological activities of CFDPs.Specifically,CFDP-T had higher yield(60.92%±3.58%),carbohydrate content(91.05%±1.22%),and uronic acid content(8.55%±0.18%)and lower protein content(7.15%±0.15%)than CFDP-D and CFDP-U.The three CFDPs were acidic proteoheteroglycans combined through O-glycosidic bonds and had high molecular weights of 1.93–2.41×10^(7) Da and the same monosaccharide and amino acid compositions but different contents.Compared with CFDP-D and CFDP-U,CFDP-T exhibited more excellent free radical scavenging and stimulating(1.57±0.03μM,500μg/mL)activities on RAW264.7 macrophages in vitro.Therefore,our findings suggested that CFDP-T obtained from CFD by TPP had the potential to be a functional food ingredient in food industry.展开更多
文摘Manadas Creek is an urban tributary of the Rio Grande that flows past a decommissioned antimony smelter and processing plant. This antimony plant is associated with heavy metal contamination in the creek and still poses a threat to the surrounding aquatic environment. Corbicula fluminea was used to determine bioaccumulation from the water column and sediments in Manadas Creek. The metals arsenic (As), antimony (Sb) and thallium (Tl) were analyzed in the water, sediments, gills, mantle, foot, digestive (DI) tract, gonads and shell of clams being monitored at eight sites between March and August 2013. Sediment, water, and dissected Corbicula fluminea samples from different sites in the Creek were acid-digested and analyzed by Inductively Coupled Plasma Optical Emission Spectroscopy. High levels of antimony (25.88 ug/L;75.96 mg/kg) and arsenic (8.26 ug/L;6.41 mg/kg) in the water and sediments were observed at the site downstream from the smelter. There were no detectable concentrations of arsenic, antimony, or thallium in the shell of C. fluminea. Arsenic and antimony were detected in the tissues of C. fluminea but thallium was not detected. Based on the results, the organotropism for arsenic is DI tract > gills > gonads > foot > mantle > shell and the organotropism for antimony is gills > DI tract > gonads > mantle > foot > shell. This study shows that the Asiatic clam (Corbicula fluminea) is a useful bio-monitor to provide data on the status of metal pollution in Manadas Creek, Laredo, Texas.
文摘采用形态学分析(壳长、壳宽和壳高)和分子标记技术(细胞色素氧化酶I基因,COI)对洪泽湖河蚬(Corbicula fluminea)黄色和黑色2个群体的形态和遗传多样性特征进行研究。形态参数统计分析结果显示,2个群体的形态特征之间有显著性差异。经PCR扩增和序列测定,获得614 bp COI基因序列,2个群体的COI基因序列的碱基组成高度一致,均表现出A+T的含量(64.8%)明显高于G+C的含量(35.2%)。28个黑色个体发现7种单倍型,单倍型多样性和核苷酸多样性分别为0.794和0.04274;30个黄色个体发现5种单倍型,单倍型多样性和核苷酸多样性分别为0.607和0.02825。单倍型之间的遗传距离在0.002-0.091之间,其NJ和MP系统发生树表明,COI基因单倍型聚为2个明显分支。分子方差分析(AMOVA)结果显示,F_(st)=0.21736(P<0.01),21.74%的变异来自群体间,78.26%的变异来自群体内,2个群体之间有显著的遗传分化。研究表明,应将洪泽湖河蚬黑色和黄色群体分别作为独立单元进行管理和保护。
基金NSFC(No40173030, 40701164)Science and Technology Committee of Shanghai (No 04DZ19301)
文摘Based on a simulative experiment and a comparison analysis, the effect of bivalve Corbiculafluminea activity on sediment-water exchange of dissolved inorganic nitrogen (DIN) is studied. The areas included three intertidal flat sites of the Changjiang (Yangtze) River estuary in China. The interface exchange flux of ammonium, nitrate and nitrite in the short experiment (6 h) was -46.4-40, -74.8-929.1 and 2.5-14.6 μmol/(m^2·h), respectively. It was found that the burrowing activities of C. fluminea increased NH4 and NOi release from sediments to overlying water in the short-term experiment. During long-term incubation, NH4 and NOi released in turn from the sediments. At the beginning of incubation, bioturbation by C. fluminea could accelerate NH2 release from sediments 2-17 times in different sites, resulting in stronger nitrification and increased NOi concentrations in the overlying water. Sediment profile analysis post-incubation shows that organic matter mineralization and sediment-water NH4 exchange had been stimulated by C. fluminea bioturbation and bioirrigation during the experiment. Therefore, C. fluminea activities such as excretion, burrowing, irrigation and turbation can effectively alter nitrogen dynamics and accelerate and stimulate nitrogen exchange and cycling at the sediment-water interface.
基金the National Natural Science Foundation of China(No.40403010)Foundation of Xuchang University(2011A004)
文摘The stable isotopic composition of the bivalve shell has been widely used to reconstruct the pa-laeo-climate and palaeo-environment. The climatic and environmental significance of carbon isotopic composition of the bivalve shell is still in dispute, and incorporation of metabolic carbon can obscure carbon isotope records of dis-solved inorganic carbon. This study deals with freshwater bivalve, Corbicula fluminea aragonite shell. The results indicated that the δ13C values of bivalve shells deposited out of equilibrium with the host water and showed an onto-genic decrease, indicating that there are metabolic effects and more metabolic carbon is incorporated into larger shells. The proportion of metabolic carbon of shells varies between 19.8% and 26.8%. However, δ13CS can still be used as qualitative indicators of δ13CDIC and environmental processes that occurred during shell growth.
文摘A novel floating-bed incorporated with water spinach (Ipomoea aquatica), Asiatic clam (Corbicula fluminea), and carrier media supported biofilm was developed for eutrophic water purification. The contribu- tions of each biologic component to the removals of total nitrogen (TN), total phosphorus (TP) and Chl.a were examined. The nutrient removals due to the direct uptake by either water spinach or Asiatic clam were less than 10%, suggesting a negligible role of biologic assimilation and leaving the biofilm as the indispensable biologic compo- nent in the floating-bed. Chl.a was reduced mainly by Asiatic clams via filter-feeding. Meanwhile, the digestion and excretion of Asiatic clams benefited the proliferation of nitrifying and denitrifying bacteria, resulting in the improvement of TN removal. In summary, the synergetic effects of water spinach, Asiatic clams and biofilms would promote the eutrophic water treatment performance of floating-bed in comparison with the conventional floating- bed with vegetation as the single biologic component.
基金supported financially by the National Natural Science Foundation of China(31671812)the Policy Guidance Projects in Jiangsu Province(Science and Technology Special Project in Northern Jiangsu Province,SZ-SQ2019038)+1 种基金the Foundation for Innovation Team in Higher Education of Guangdong,China(2021KCXTD035)the program from Institute of Science and Technology Innovation,DGUT(KCYCXPT2017007)。
文摘Corbicula fluminea distillate(CFD),as an industrial sub-product of the steaming process of C.fluminea,is rich in polysaccharides,proteins,and amino acids and has important developmental value.In this study,therefore,three water-soluble polysaccharides(CFDPs:CFDP-D,CFDP-U,and CFDP-T)were extracted and separated from CFD through direct ethanol precipitation,ultrasound-assisted extraction,and three-phase partitioning(TPP),respectively.Results demonstrated that the three extraction methods had important influences on extraction yields,chemical compositions,molecular weights,monosaccharide and amino acid constituents,structural characteristics,and microstructures as well as biological activities of CFDPs.Specifically,CFDP-T had higher yield(60.92%±3.58%),carbohydrate content(91.05%±1.22%),and uronic acid content(8.55%±0.18%)and lower protein content(7.15%±0.15%)than CFDP-D and CFDP-U.The three CFDPs were acidic proteoheteroglycans combined through O-glycosidic bonds and had high molecular weights of 1.93–2.41×10^(7) Da and the same monosaccharide and amino acid compositions but different contents.Compared with CFDP-D and CFDP-U,CFDP-T exhibited more excellent free radical scavenging and stimulating(1.57±0.03μM,500μg/mL)activities on RAW264.7 macrophages in vitro.Therefore,our findings suggested that CFDP-T obtained from CFD by TPP had the potential to be a functional food ingredient in food industry.
