Mangrove wetlands can reduce heavy metal pollution by trapping heavy metals.In this study,the concentration,transport and bioaccumulation of Cr,Cd,Cu,Zn and Pb in the sediments and different parts of Aegiceras cornicu...Mangrove wetlands can reduce heavy metal pollution by trapping heavy metals.In this study,the concentration,transport and bioaccumulation of Cr,Cd,Cu,Zn and Pb in the sediments and different parts of Aegiceras corniculatum at four different sites in the Qinzhou Bay in southwestern China were investigated.The results showed that although the potential ecological risk of all five heavy metals was slight,the concentration of Cr was at a moderate pollution level due to the emissions of industries and aquaculture waste water.Core sediment records indicated that the concentrations of heavy metals at the depth of 0–20 cm were relatively high,showing an increasing trend of heavy metals over the past 20–30 years.Cr,Cu,Pb and Cd accumulated mainly in the roots of A.corniculatum,while Zn accumulated mainly in the stems.Aegiceras corniculatum showed the strongest transport capacity for Zn and Cu and the strongest bioaccumulation ability for Cd.Compared with other mangrove communities,A.corniculatum can be chosen as a restoration species in tropical and subtropical coastal zones polluted by Zn,Cu and Cd.展开更多
An outdoor experiment was set up to investigate the effects of used lubricating oil (5 L/m^2) on Aegiceras corniculatum Blanco. and Avicennia marina (Forsk) Vierh., two salt-excreting mangroves. A. marina was more...An outdoor experiment was set up to investigate the effects of used lubricating oil (5 L/m^2) on Aegiceras corniculatum Blanco. and Avicennia marina (Forsk) Vierh., two salt-excreting mangroves. A. marina was more sensitive to used lubricating oil than A. corniculatum and canopy-oiling resulted in more direct physical damage and stronger lethal effects than base-oiling. When treated with canopy-oiling, half of A. corniculatum plants survived for the whole treatment time (90 d); but, for A. marina, high mortality (83%) resulted from canopy-oiling within 3 weeks and no plants survived for 80 d. Base-oiling had no lethal effects on A. corniculatum plants even at the termination of this experiment, but 83% of A. marina plants died 80 d after treatment. Forty days after canopyoiling, 93% ofA. corniculatum leaves fell and no live leaves remained on A. marina plants. By the end of the experiment, base-oiling treatment resulted in about 45% ofA. corniculatum leaves falling, while all A. mar/na leaves and buds were burned to die. Lubricating oil resulted in physiological damage to A. corniculatum leaves, including decreases in chlorophyll and carotenoid contents, nitrate reductase, peroxidase and superoxide dismutase activities, and increases in malonaldehyde contents. For both species, oil pollution significantly reduced leaf, root, and total biomass, but did not significantly affect stem biomass. Oil pollution resulted in damage to the xylem vessels of fine roots but not to those of mediate roots.展开更多
Objective:To study the inhibitory effects on colorectal cancer(CRC)and the underlying mechanism of the petroleum ether extract of Aegiceras corniculatum leaves(PACL).Materials and Methods:The effect of PACL on the pro...Objective:To study the inhibitory effects on colorectal cancer(CRC)and the underlying mechanism of the petroleum ether extract of Aegiceras corniculatum leaves(PACL).Materials and Methods:The effect of PACL on the proliferation of CRC cell lines DLD-1,HT-29,and SW480was measured by 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium assay and colony-forming assay.And then,a wound-healing assay was used to measure the migration ability of three CRC cells.The cell cycle and apoptosis of three CRC cells were measured by PI/RNase staining and annexin V-FITC/double staining,respectively,and the intrinsic apoptosis pathway was studied by the Western blot.The anti-CRC effect of PACL in vivo was evaluated by HT-29 xenograft zebrafish embryos.Results:PACL inhibited cell viability and proliferation in DLD-1,HT-29,and SW480 cells in a dose-and time-dependent manner.PACL can inhibit cell migration in DLD-1and SW480 cells but not in the less mobile phenotype cell HT-29.PACL treatment resulted in cell cycle arrest of DLD-1 and HT-29 cells in the G2/M phase.Moreover,PACL can induce apoptosis in all three CRC cells,which may be achieved by regulating the intrinsic apoptosis pathway mediated by mitochondria and the endoplasmic reticulum.Interestingly,the tumor sizes were decreased after treatment with PACL and PACL combined with fluorouracil in HT-29 xenograft zebrafish embryos.Conclusions:These findings suggested that PACL may exert its anti-CRC effect by inducing apoptosis through the intrinsic apoptosis pathway and show a significant anti-CRC effect in vitro and in vivo,so it might be potentially developed as an anti-CRC agent.展开更多
基金The National Basic Research Program(973 Program)of China under contract No.2010CB951203the National Natural Science Foundation of China under contract Nos 41201179,41201525,41907320 and 41901226+1 种基金the foundation of the State Key Laboratory of Estuarine and Coastal Research under contract No.SKLEC-KF-201309the foundations of Guangxi Key Laboratory of Marine Disaster in the Beibu Gulf,Beibu Gulf University under contract Nos 2018TS01 and 2018TS04
文摘Mangrove wetlands can reduce heavy metal pollution by trapping heavy metals.In this study,the concentration,transport and bioaccumulation of Cr,Cd,Cu,Zn and Pb in the sediments and different parts of Aegiceras corniculatum at four different sites in the Qinzhou Bay in southwestern China were investigated.The results showed that although the potential ecological risk of all five heavy metals was slight,the concentration of Cr was at a moderate pollution level due to the emissions of industries and aquaculture waste water.Core sediment records indicated that the concentrations of heavy metals at the depth of 0–20 cm were relatively high,showing an increasing trend of heavy metals over the past 20–30 years.Cr,Cu,Pb and Cd accumulated mainly in the roots of A.corniculatum,while Zn accumulated mainly in the stems.Aegiceras corniculatum showed the strongest transport capacity for Zn and Cu and the strongest bioaccumulation ability for Cd.Compared with other mangrove communities,A.corniculatum can be chosen as a restoration species in tropical and subtropical coastal zones polluted by Zn,Cu and Cd.
基金Project supported by the Program for New Century Excellent Talents in University(NCET)Environment and Conservation Fund of the HKSAR(No.9210007)
文摘An outdoor experiment was set up to investigate the effects of used lubricating oil (5 L/m^2) on Aegiceras corniculatum Blanco. and Avicennia marina (Forsk) Vierh., two salt-excreting mangroves. A. marina was more sensitive to used lubricating oil than A. corniculatum and canopy-oiling resulted in more direct physical damage and stronger lethal effects than base-oiling. When treated with canopy-oiling, half of A. corniculatum plants survived for the whole treatment time (90 d); but, for A. marina, high mortality (83%) resulted from canopy-oiling within 3 weeks and no plants survived for 80 d. Base-oiling had no lethal effects on A. corniculatum plants even at the termination of this experiment, but 83% of A. marina plants died 80 d after treatment. Forty days after canopyoiling, 93% ofA. corniculatum leaves fell and no live leaves remained on A. marina plants. By the end of the experiment, base-oiling treatment resulted in about 45% ofA. corniculatum leaves falling, while all A. mar/na leaves and buds were burned to die. Lubricating oil resulted in physiological damage to A. corniculatum leaves, including decreases in chlorophyll and carotenoid contents, nitrate reductase, peroxidase and superoxide dismutase activities, and increases in malonaldehyde contents. For both species, oil pollution significantly reduced leaf, root, and total biomass, but did not significantly affect stem biomass. Oil pollution resulted in damage to the xylem vessels of fine roots but not to those of mediate roots.
基金the Guangxi Science and Technology Plan Project(No.GKH15104001-11,No.GKAD19110155,No.2018AD09008,19-050-39)the Guangxi Innovation Driven Development Project(No.GUIKEAA18242040)。
文摘Objective:To study the inhibitory effects on colorectal cancer(CRC)and the underlying mechanism of the petroleum ether extract of Aegiceras corniculatum leaves(PACL).Materials and Methods:The effect of PACL on the proliferation of CRC cell lines DLD-1,HT-29,and SW480was measured by 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium assay and colony-forming assay.And then,a wound-healing assay was used to measure the migration ability of three CRC cells.The cell cycle and apoptosis of three CRC cells were measured by PI/RNase staining and annexin V-FITC/double staining,respectively,and the intrinsic apoptosis pathway was studied by the Western blot.The anti-CRC effect of PACL in vivo was evaluated by HT-29 xenograft zebrafish embryos.Results:PACL inhibited cell viability and proliferation in DLD-1,HT-29,and SW480 cells in a dose-and time-dependent manner.PACL can inhibit cell migration in DLD-1and SW480 cells but not in the less mobile phenotype cell HT-29.PACL treatment resulted in cell cycle arrest of DLD-1 and HT-29 cells in the G2/M phase.Moreover,PACL can induce apoptosis in all three CRC cells,which may be achieved by regulating the intrinsic apoptosis pathway mediated by mitochondria and the endoplasmic reticulum.Interestingly,the tumor sizes were decreased after treatment with PACL and PACL combined with fluorouracil in HT-29 xenograft zebrafish embryos.Conclusions:These findings suggested that PACL may exert its anti-CRC effect by inducing apoptosis through the intrinsic apoptosis pathway and show a significant anti-CRC effect in vitro and in vivo,so it might be potentially developed as an anti-CRC agent.
