Three melting events of the earth's crust occurred during the period of 220-120 Ma in the Shandong Pe-ninsula. Three subcycles of granitoid magma including six rock series were generated in the faulted granitoidma...Three melting events of the earth's crust occurred during the period of 220-120 Ma in the Shandong Pe-ninsula. Three subcycles of granitoid magma including six rock series were generated in the faulted granitoidmagma belt. The parent magma of several rock series formed earliest originated from the lower crust ofgranulite facies; following the increase of geothermal temperature the source magma would migrate into themiddle crust of amphibolite facies. In the diapiric granitoid magma belt, the granitoid magma was formed firstin granitic layer of the upper crust, and then in the middle crust. In each subcycle the generation of magmastarted with the generation of more mafic one and finished with low eutectic one; they were formed in the formof layered melting in a particular position of the crust.展开更多
The morphology and toxicity of Pseudo-nitzschia strain PP0201-01, isolated near the estuary of Changjiang (Yangtze) River in Year 2002 and tentatively identified as Pseudo-nitzschia pungens, were studied. The strain w...The morphology and toxicity of Pseudo-nitzschia strain PP0201-01, isolated near the estuary of Changjiang (Yangtze) River in Year 2002 and tentatively identified as Pseudo-nitzschia pungens, were studied. The strain was identified morphologically as P. pungens using scanning electronic microscope (SEM). The ana- lytical results of LC-PDA (liquid chromatography with photodiode array detector), LC-MS (liquid chromatogra- phy with mass detector), and the toxicity data from mouse bioassay, showed that no domoic acid was produced by the strain. However, the mechanism of domoic acid production by Pseudo-nitzschia species is complicated. More works are needed to assess the toxic species and to evaluate the potential risk of amnesic shellfish poison- ing (ASP) in China.展开更多
拟菱形藻属(Pseudo-nitzschia)物种是一类备受关注的海洋有毒有害硅藻,我国相关研究仍然不足,已报道的物种多样性偏低,产毒物种也较少。为了解我国海域拟菱形藻属的物种多样性,阐述产毒物种信息,在我国东南海域建立了8个拟菱形藻单克隆...拟菱形藻属(Pseudo-nitzschia)物种是一类备受关注的海洋有毒有害硅藻,我国相关研究仍然不足,已报道的物种多样性偏低,产毒物种也较少。为了解我国海域拟菱形藻属的物种多样性,阐述产毒物种信息,在我国东南海域建立了8个拟菱形藻单克隆培养株系,结合形态学和分子系统学数据,鉴定到2个物种:环孔拟菱形藻(Ps.circumpora C. H. Lim, C. P. Leaw&P. T. Lim)和多列拟菱形藻[Ps.multiseries(Hasle) Hasle],其中环孔拟菱形藻是我国的新记录种。利用高效液相色谱-质谱联用法检测了藻株的多莫酸(domoic acid,DA)特征,在5个多列拟菱形藻株系中检测到DA,单细胞产毒水平为1.01~96.11 fg。此外,利用卤虫(Artemia salina L.)和强额拟哲水蚤(Paracalanus crassirostris Dahl)对多列拟菱形藻的产毒株系(MC4177)进行诱导,发现能够提高其单细胞产毒水平,提高幅度在26~55倍。展开更多
Advances in sensor technology have allowed the significant progress in the monitoring of noxious compounds in the sea, providing real-time detection so as to prevent risks associated with the diffusion and dispersion ...Advances in sensor technology have allowed the significant progress in the monitoring of noxious compounds in the sea, providing real-time detection so as to prevent risks associated with the diffusion and dispersion of toxic substances in the environment. An important element in the overall picture is the harmful algal blooms which pose serious threats to marine ecosystems through the production of toxins that accumulate in filter-feeders and ultimately impact both human health and fisheries. Domoic acid is a neurotoxic amino acid produced by marine planktonic diatoms of the genus Pseudo-nitzschia. Here we monitored domoic acid production by natural Pseudo-nitzschia populations in phytoplankton samples collected along the Middle Tyrrhenian coast, over the course of one year, using selective immunosensors based on screenprinted electrodes, using differential pulse voltammetry as the electrochemical technique, to yield quantitative outputs. In this work, disposable devices have been applied for monitoring the production of domoic acid on algal extracts and the results have been validated by conventional high pressure liquid chromatography-ultraviolet detection methods. The data obtained revealed the presence of domoic acid in Italian phytoplankton, especially in coastal impacted areas, highlighting the potential risk of toxin entering into marine food webs and the environment. Immunosensors based on screen-printed electrodes prove to be effective tools for annual monitoring of domoic acid in seawater samples, thus providing a reliable early warning system relative to health and economic impact of algal toxins.展开更多
文摘Three melting events of the earth's crust occurred during the period of 220-120 Ma in the Shandong Pe-ninsula. Three subcycles of granitoid magma including six rock series were generated in the faulted granitoidmagma belt. The parent magma of several rock series formed earliest originated from the lower crust ofgranulite facies; following the increase of geothermal temperature the source magma would migrate into themiddle crust of amphibolite facies. In the diapiric granitoid magma belt, the granitoid magma was formed firstin granitic layer of the upper crust, and then in the middle crust. In each subcycle the generation of magmastarted with the generation of more mafic one and finished with low eutectic one; they were formed in the formof layered melting in a particular position of the crust.
基金Supported by the projects of Ministry of Science and Technology (No.2001CB409704 and No. 2001BA804A20), and the innovation project ofthe Institute of Oceanology, CAS (No. 200223107)
文摘The morphology and toxicity of Pseudo-nitzschia strain PP0201-01, isolated near the estuary of Changjiang (Yangtze) River in Year 2002 and tentatively identified as Pseudo-nitzschia pungens, were studied. The strain was identified morphologically as P. pungens using scanning electronic microscope (SEM). The ana- lytical results of LC-PDA (liquid chromatography with photodiode array detector), LC-MS (liquid chromatogra- phy with mass detector), and the toxicity data from mouse bioassay, showed that no domoic acid was produced by the strain. However, the mechanism of domoic acid production by Pseudo-nitzschia species is complicated. More works are needed to assess the toxic species and to evaluate the potential risk of amnesic shellfish poison- ing (ASP) in China.
文摘拟菱形藻属(Pseudo-nitzschia)物种是一类备受关注的海洋有毒有害硅藻,我国相关研究仍然不足,已报道的物种多样性偏低,产毒物种也较少。为了解我国海域拟菱形藻属的物种多样性,阐述产毒物种信息,在我国东南海域建立了8个拟菱形藻单克隆培养株系,结合形态学和分子系统学数据,鉴定到2个物种:环孔拟菱形藻(Ps.circumpora C. H. Lim, C. P. Leaw&P. T. Lim)和多列拟菱形藻[Ps.multiseries(Hasle) Hasle],其中环孔拟菱形藻是我国的新记录种。利用高效液相色谱-质谱联用法检测了藻株的多莫酸(domoic acid,DA)特征,在5个多列拟菱形藻株系中检测到DA,单细胞产毒水平为1.01~96.11 fg。此外,利用卤虫(Artemia salina L.)和强额拟哲水蚤(Paracalanus crassirostris Dahl)对多列拟菱形藻的产毒株系(MC4177)进行诱导,发现能够提高其单细胞产毒水平,提高幅度在26~55倍。
文摘Advances in sensor technology have allowed the significant progress in the monitoring of noxious compounds in the sea, providing real-time detection so as to prevent risks associated with the diffusion and dispersion of toxic substances in the environment. An important element in the overall picture is the harmful algal blooms which pose serious threats to marine ecosystems through the production of toxins that accumulate in filter-feeders and ultimately impact both human health and fisheries. Domoic acid is a neurotoxic amino acid produced by marine planktonic diatoms of the genus Pseudo-nitzschia. Here we monitored domoic acid production by natural Pseudo-nitzschia populations in phytoplankton samples collected along the Middle Tyrrhenian coast, over the course of one year, using selective immunosensors based on screenprinted electrodes, using differential pulse voltammetry as the electrochemical technique, to yield quantitative outputs. In this work, disposable devices have been applied for monitoring the production of domoic acid on algal extracts and the results have been validated by conventional high pressure liquid chromatography-ultraviolet detection methods. The data obtained revealed the presence of domoic acid in Italian phytoplankton, especially in coastal impacted areas, highlighting the potential risk of toxin entering into marine food webs and the environment. Immunosensors based on screen-printed electrodes prove to be effective tools for annual monitoring of domoic acid in seawater samples, thus providing a reliable early warning system relative to health and economic impact of algal toxins.
