铜在牙鲆(Paralichthys olivaceus)组织蓄积、分配及排放的研究

采用暴露实验方法 ,研究了海水中Cu在牙鲆 (Paralichthysolivaceus)内脏、肌肉、鳃组织内吸收、积累和排放规律 ,海水中总有机碳 (TOC)浓度、配体种类对铜吸收的影响及其与海水表观络合容量 (ACuCC)的关系。结果表明 ,Cu浓度为 0 .5mg/L时 ,各组织内Cu蓄积量随暴露时间增加而增大 ,第 1 3天均达吸收平衡 ,此时Cu蓄积量 (mg/kg)为内脏 971 .89>肌肉 2 0 4 .99>鳃 90 .0 4。染毒 1 3天牙鲆在清洁海水中排放结果表明 :随排放时间增加各组织Cu蓄积量下降 ,第 8天接近排放平衡。此时各组织Cu排出率为 :肌肉 89% >鳃 86.5 % >内脏团 83.7%。海水中TOC浓度、种类对牙鲆Cu蓄积有明显影响 ,当TOC浓度相同时 ,孔石莼分泌物比牙鲆分泌物更能降低Cu在牙鲆组织内吸收和蓄积量 ;当TOC种类相同时 ,随TOC浓度升高 ,各组织铜蓄积量均明显下降 ,表明海水TOC能降低牙鲆组织对Cu的吸收和积累。ACuCC随TOC浓度增加有明显上升趋势 ,并与TOC浓度呈线性相关。     

Cd~(2+)对青蛤(Cyclina sinensis)的毒性及蓄积过程研究

利用水生动物急性毒性实验方法,在6个浓度下Cd2+对青蛤的急性毒性进行测定,经回归分析后,得到Cd2+对青蛤96h半致死浓度为20.09mg/L,安全浓度为0.201mg/L。分别对半致死浓度和安全浓度下Cd2+在青蛤体内不同组织的蓄积情况进行了分析。结果表明,在半致死浓度条件下,168h青蛤各组织Cd2+的含量依次为肌肉内脏团鳃;而在安全浓度下,其结果为内脏团鳃肌肉,内脏团对于Cd2+富集能力远高于肌肉。讨论了青蛤的养殖环境及产品检验等问题。     

蛋氨酸在模拟海洋小生境中的行为

本文利用35S-蛋氨酸为示踪剂,在人工模拟的条件下研究它在海洋生境中的行为,结果表明在101的实验系统中,游离蛋氨酸被转移至相应介质的百分率是:悬浮物占11.4%,扁藻24%,沉积物7.8%,毛蚶34%.毛蚶吸收蛋氨酸的主要通道是内脏,其次是外套膜和鳃,吸收24小时以后内脏和血液中的蛋氨酸明显转移到叽肉组织,毛蚶从海水介质直接吸收蛋氨酸比通过食物媒介显得重要而迅速.     

中国近岸部分海域海水中金属络合配位体浓度的研究

采用阳极溶出伏安法对黄河口、青岛近海、大亚湾和南海海域海水中的金属络合配位体的浓度进行了测定,同时探讨了其分布规律与相关参量的关系.结果发现:南海海域海水中的金属络合配体的浓度稍高于其他3个海域,且都明显高于大洋水的浓度;在微表层存在富集现象;在垂直分布上表层最大,然后随深度增加而降低,在底层有较大值;各海域配位体的性质呈复杂性;铜的络合配位体浓度大于镉和铅;总的来说与世界其他海域的分布规律是一致的.同时发现铜络合配位体浓度与BOD(生化需氧量)、COD(化学需氧量)、DOC(溶解有机碳)及黏度存在显著的正相关性.     

甲基汞在褐牙鲆幼鱼体内蓄积的组织特异性及其对免疫功能和生长的毒性作用

甲基汞(MeHg)对鱼类多种生命过程存在极强的毒性作用,但有关其对海水鱼类免疫功能的毒性作用研究较少。本文利用实验毒理学方法研究了MeHg(暴露浓度0.0, 0.1, 1.0, 10.0, 20.0μg/L;暴露时间30天)在褐牙鲆(Paralichthys olivaceus)幼鱼组织(鳃、肝脏和脾脏)中的蓄积特征及其对幼鱼的四种免疫功能生物指示物(溶菌酶LZM、酸性磷酸酶ACP、碱性磷酸酶AKP和免疫球蛋白MIgM)和生长的毒性作用。结果表明,幼鱼体内MeHg蓄积量具有显著的浓度依赖性和组织特异性,各组织对MeHg的蓄积能力总体上呈现肝脏鳃脾脏的趋势;四种免疫功能生物指示物(活性或含量)对不同MeHg浓度暴露的响应方式各异,且具有显著的组织特异性; MeHg达到一定暴露浓度后显著抑制幼鱼的生长。总体而言,MeHg在褐牙鲆幼鱼体内蓄积,对其产生免疫毒性,并抑制幼鱼的生长。此外,ACP、AKP和LZM等免疫性指标能较好的反映对MeHg暴露的浓度依赖关系和组织特异性,可作为海水环境中MeHg污染风险评估和生物毒性分析的潜在生物指示物。     

氟苯尼考浸泡栉孔扇贝后各组织中含量的测定

以栉孔扇贝(Chlamys farreri)为对象,研究了其不同组织对氟苯尼考的蓄积与消除规律。氟苯尼考对栉孔扇贝的96h半致死浓度LC50为213.1mg·L~(-1),安全浓度为21.3mg·L~(-1)。将栉孔扇贝分别暴露于氟苯尼考含量在安全浓度以上(40mg·L~(-1),A组)、安全浓度水平(20mg·L~(-1),B组)和安全浓度以下(10mg·L~(-1),C组)进行8天的蓄积实验,从第9天开始将栉孔扇贝转移至洁净的海水中进行5天的消除实验。研究表明:蓄积阶段,栉孔扇贝各组织中氟苯尼考含量随海水中氟苯尼考浓度的升高而增加;而同一时间的生物蓄积系数(BCF)则随海水中氟苯尼考浓度的升高而逐渐降低,表明在低剂量浓度条件下,栉孔扇贝更容易对氟苯尼考产生富集作用。各组织中氟苯尼考浓度大小顺序为:内脏团外套膜闭壳肌,其中,内脏团与外套膜中氟苯尼考含量大约是闭壳肌的2~7倍,表明氟苯尼考主要富集在栉孔扇贝的内脏团及外套膜中,闭壳肌中含量较少。消除阶段,氟苯尼考的日均消除速率大小顺序为内脏团外套膜闭壳肌,且A组B组C组,说明作为主要食用部位的闭壳肌对氟苯尼考的消除速率相对较慢。在较高浓度氟苯尼考下,闭壳肌需要经过一段时间的净化才能使氟苯尼考含量降至低于0.1mg·kg-1以下。研究结果为在栉孔扇贝养殖中合理施用氟苯尼考提供参考。     

95Zr在海水、底质及海洋生物间的迁移、富集和分布

在模拟海洋环境中,海水中95Zr的比活度在试验前期快速下降,在最初4h内下降了90%以上,此后呈缓慢递减趋势.底质中95Zr的比活度在试验前期逐渐上升,至48h达到最大值,此后随时间逐渐降低.半褶织纹螺螺壳富集95Zr的能力显著强于螺肉,螺壳和螺肉的富集系数分别为10.32和4.68.大弹涂鱼各组织器官中,根据富集量,对95Zr的富集能力最强的是内脏,其次是鳃和鳍,最弱的是肌肉,次弱的是脊椎.大弹涂鱼除鳃外,其余各组织器官的富集系数均小于1.半褶织纹螺对95Zr的富集能力比大弹涂鱼更强.     

黄芩苷在中国对虾体内的代谢及残留消除规律研究

在(24±1)℃下,中国对虾连续7 d给予100 mg/kg黄芩苷药饵,用高效液相色谱法(HPLC)测定对虾血液及其它组织中的黄芩苷含量,建立适合中国对虾体内黄芩苷含量的测定方法,研究黄芩苷在中国对虾不同组织中的残留消除规律.结果表明,HPLC法黄芩苷与杂质分离良好,4个浓度水平的黄芩苷在不同组织中的平均回收率在80.57%～96.25%之间,日内精密度在3.26%～5.85%之间,日间精密度在3.88%～5.73%之间.与其它给药方式相比,黄芩苷药饵给药吸收较慢,在血液、肝胰腺、肌肉、鳃中的达峰时间(Tmax)依次为6,3,6,3 h;黄芩苷在不同组织中的分布为肝胰腺>鳃>血液>肌肉.黄芩苷在肝胰腺、鳃、肌肉、血液中的消除半衰期(t1/2β)分别为29.62,27.50,25.20,23.73 h,消除速率从快到慢依次为血液>肌肉>鳃>肝胰腺;黄芩苷残留较少,在肌肉和血液中5 d已降到检测限以下,肝胰腺及鳃7 d降到检测限以下.本试验为含黄芩苷的药物的应用提供参考.     

原油污染对栉孔扇贝抗氧化酶活性的影响

以原油水溶性成分(water soluble fraction of crude oil,WSF)为污染物,采用暴露实验法,研究了栉孔扇贝(Chlamys farreri)鳃和消化腺组织中超氧化物歧化酶(Superoxide Dismutase,SOD)和过氧化氢酶(Catalase,CAT)活性的变化.结果表明,WSF污染下,鳃和消化腺组织SOD和CAT酶活性随暴露时间增加一般表现为降低-升高-降低的趋势,酶活性达到最高的时间随浓度不同而变化.第1天时消化腺SOD在0.08 mg/L浓度下被诱导,而后随时间增加表现为抑制效应;浓度为0.21和0.88 mg/L时消化腺SOD酶活性被抑制,随暴露时间延长而活性增加.暴露时间为4d时,石油烃浓度在0.08和0.88 mg/L时鳃组织SOD酶活性均被抑制,而浓度为0.21 mg/L时被诱导.消化腺和鳃组织SOD可以作为扇贝被污染胁迫的指标.     

绿潮藻浒苔光合固碳与防治海水酸化的作用Ⅰ.光合固碳与海水pH值提高速率研究

以黄海绿潮暴发的主要漂浮种类浒苔 (Ulva prolifera)为材料,在实验室条件下研究了浒苔光合参数、固碳速率及提升海水pH的作用,结果表明:浒苔光合作用半饱和常数K_m为0.25 mmol/dm3,光合作用饱和时海水溶解无机碳(DIC)浓度也只需1.2 mmol/dm3,为正常海水DIC浓度(2.4 mmol/dm3)一半,故黄海绿潮暴发时藻体可以一直保持光合作用饱和与旺盛生长状态。水生条件下浒苔藻体主要吸收海水中的DIC,0.5 g/dm3培养密度下,1个光周期内净光合固碳速率为10.92 mg /(g·d)(鲜重)。连续培养5 d,0.5,1.0和2.5 g/dm3培养密度组的DIC浓度从22 mg/dm3分别降为4.85,2.62和0.66 mg/dm3,表明DIC去除率随藻体培养密度提高而增强,分别可达77.78%,88.00%,96.98%;藻体吸收海水中无机碳的同时可使海水pH升高,0.5 g/dm3培养密度下,1个光周期内净提升pH速率高达0.96/(dm3·g·d)。连续培养5 d,0.5,1.0和2.5 g/dm3培养密度组第1天其pH分别可达到9.1,9.2和9.7,表明藻体密度越高pH提升越快,而且第5天pH均可稳定在9.9左右。浒苔暴露在空气中可直接吸收空气中CO₂,1个光周期内其光合固碳速率约为46.14 mg/(g·d),而在海水中的光合固碳速率为10.92 mg/(g·d),可见浒苔在空气中的光合固碳速率是水中的4.23倍。水生和气生时单位质量藻体的固碳效率因藻体间相互遮蔽而下降。结果可为今后黄海绿潮暴发机制及CO₂减排和防止海洋酸化作用的评估提供技术支撑。     

Kinetics of Cd accumulation and elimination in tissues of juvenile rockfish (Sebastes schlegeli) exposed to dietary Cd

Cadmium (Cd) accumulation and elimination were investigated in the tissues (gill, intestine, kidney, lever and muscle) of juvenile rockfish, Sebastes schlegeli, after sub-chronic dietary Cd exposure (0, 0.5, 5, 25 and 125 mg/kg). No mortality occurred during the sub-chronic exposure to dietary Cd. Specific growth rates of the rockfish estimated by weight and length were significantly different from those of the control, and a significant inverse relationship was observed between weight gain and the exposure concentration of dietary Cd at 25, 125 mg/kg. Cd accumulation in the tissues increased with exposure periods and concentrations for the 60 days of dietary Cd exposure. Cd accumulation in the intestine of rockfish was higher than other tissues, and the order of Cd accumulation in tissues were intestine>kidney approximately liver>gill>muscle. Accumulation factors showed an increase with the exposure period and an inverse relationship between the accumulation factor and the exposure concentrations in the gill, intestine, liver and muscle, but not in kidney. Cd elimination in tissues of rockfish decreased during the 30 days of depuration except kidney and muscle. Intestine showed the fastest elimination rates of Cd at all concentrations compared with other tissues.     

The correlation between bioaccumulation and pattern of stress-related genes expression of black sea bream (<Emphasis Type="Italic">Acanthopagrus schlegeli</Emphasis>) by cadmium exposure

In order to correlate the expression of detoxifying enzyme genes and Cd accumulation in black sea bream, we analyzed four tissues (brain, gills, liver, and muscle) from black sea breams that were exposed to four different concentrations of Cd (0, 2, 13, and 25 mg/L) for various durations (0, 24, 48, 72, and 96 h). The highest level of Cd was accumulated in the liver, followed by the gills, brain, and muscle. The accumulation of Cd was significantly correlated with the duration of exposure and the concentration in brain, gill, and liver tissue, but not in muscle tissue, and the rate of accumulation increased with Cd concentration. The expression of metallothionein II (MT II) mRNA exhibited a similar pattern as Cd accumulation, especially in that the expression of MT II mRNA decreased in muscle tissue with increases in exposure duration. In contrast, the expression of cytochrome P450 1A (CYP1A) mRNA was highest in the liver, followed by brain, muscle, and gill tissues, and in gills and muscle tissue of Cd-exposed fish, the expression of CYP1A mRNA fell below that of the control fish. Overall, the liver of black sea bream was the most sensitive to Cd exposure, and the expression of MT II mRNA was 200-fold greater than the control fish. These findings indicate that the detoxification mechanisms of black sea bream are influenced by both MT II and CYP1A and that the genes participate in the detoxification of different tissues.     

The effects of bunker c oil and an oil dispersant: Part 2—effects on the accumulation of chlorine-labelled bunker c oil in various fish tissues

Chlorine-labelled Bunker C oil was used to measure the differential accumulation in various fish tissues between a hydrocarbon and a hydrocarbon/oil dispersant mixture. There is an increased movement of the emulsified oil across the gill structure although accumulation by this tissue is similar for both test conditions. The liver and kidney showed significantly higher levels of the oil/dispersant mixture whereas muscle accumulations were less dramatic. The amounts of Bunker C found in the gills, liver and kidney were considerably higher than that found in the muscle. Consideration was given to the varying capability of the blood to carry polar, compared with non-polar, compounds.     

Effect of dietary copper exposure on accumulation, growth and hematological parameters of the juvenile rockfish, Sebastes schlegeli

Copper accumulation, and its effect on growth and hematological parameters were investigated in juvenile rockfish, Sebastes schlegeli (mean length 11.83+/-0.03 cm, and mean weight 26.02+/-0.23 g), after sub-chronic dietary Cu exposure (0, 50, 125, 250 and 500 mg/kg) for 60 days. The profile of Cu accumulation among tissues in rockfish is dependent on the exposure periods and Cu concentration. Liver of rockfish is a more important storage tissue than other tissues, and the order of Cu accumulation in tissues was liver > intestine > kidney > gill > muscle. Cu reduced the growth rate, and there was an inverse relationship between growth and Cu concentration (> 50 mg/kg). The RNA:DNA ratios were not affected by exposure and there was no correlation between growth rate and RNA:DNA ratio in the liver and muscle. There was no significant effect of exposure on blood parameters except for magnesium. Cu exposure increased GOT and GPT serum concentrations with increasing time and dose.     

南海北部三种金线鱼属鱼类BHC,DDT残留研究

为探讨六六六(BHC)、滴滴涕(DDT)对远岸海域渔业资源和水产品质量的影响,用气相色谱法测定了南海北部陆架海域3种金线鱼属(Nemipterus)鱼类肌肉内和其中深水金线鱼(N.bathybius)5种组织内的BHC、DDT含量.结果显示,研究海域鱼肉中BHC和DDT含量分别为0.04~0.89(平均0.26)μg/kg(湿重)、0.71~8.0(平均3.1)μg/kg(湿重),均低于亚太地区部分近岸海洋鱼类的残留水平,并低于国内外水产品安全限量,呈广东海域高于台湾浅滩的区域分布,但在不同鱼种之间、离岸远近的鱼类之间BHC、DDT含量差异不明显(p>0.10).深水金线鱼体内农药含量在肝组织中较高,在肌肉内居中,在鳃丝中较低,BHC含量由高到底的顺序为:肝脏、腹肌、背肌、肠、皮、鳃丝,DDT含量由高到底的顺序为:肝脏、腹肌、背肌、皮≈肠、鳃丝,不同组织中pp-DDT,op-DDT含量与脂肪含量较显著地正相关(p<0.05).     

Cu2+对青蛤的胁迫效应

为研究青蛤(Cyclina sinensis)对重金属Cu~(2+)的蓄积作用及免疫机能的影响,开展了Cu~(2+)对青蛤的急性毒性实验,观察青蛤在96 h Cu~(2+)半致死浓度和安全浓度胁迫下,不同组织的蓄积趋势,及血淋巴液中SOD、CAT和ACP活性的变化。结果显示:Cu~(2+)的半致死浓度为0.807 mg/L,安全浓度为0.00807 mg/L。鳃和内脏团组织中蓄积的Cu~(2+)浓度与处理时间呈正相关;在半致死和安全浓度胁迫下,鳃组织中Cu~(2+)蓄积速度均快于内脏团;在半致死浓度胁迫下血淋巴液中SOD、CAT和ACP活性呈现先诱导再抑制的趋势,安全浓度下无明显变化,但均高于对照组水平。     

冠瘤海鞘幼体附着和变态的离子控制

研究了人工海水中三种金属离子K+,Mg2+和Ca2+分别在不同浓度下对冠瘤海鞘(Styelaca nopusSavigny)幼体附着和变态的影响,同时采用K+通道阻滞剂TEA检验其可兴奋细胞膜上的K+通道特性,对冠瘤海鞘幼体附着和变态的离子控制机制进行初步探讨,结果表明:K+的浓度为20~40mmol/dm3时诱导幼体附着和变态的效果最佳,低于45 mmol/dm3和高于80mmol/dm3的K+浓度都表现出抑制效果;Mg2+浓度在0~32 mmol/dm3时显著促进幼体附着和变态,达88mmol/dm3时起抑制作用;在人工海水中无论添加或减少Ca2+,均有效抑制幼体变态.TEA不能阻抑增加K+的诱导作用,这表明冠瘤海鞘幼体可兴奋细胞膜上的K+通道对外部TEA不敏感.另外,人工海水中缺乏K+或Ca2+或K+浓度达80mmol/dm3都会对冠瘤海鞘幼体产生毒害作用.     

磺胺甲噁唑在黑鲪肌肉中药代动力学及残留研究

在13℃条件下,采用单剂量灌服的方法给黑鲪100mg/kg体重的磺胺甲噁唑(SMZ),以HPLC法测定黑鲪肌肉中的药物浓度,用DAS2.0药物代谢动力学分析软件处理药时数据,结果表明:在13℃条件下,黑鲪单次灌服SMZ的药动学房室模型符合无时滞的二房室模型,分布半衰期t_(1/2α)为5.947h,消除半衰期t_(1/2β)为12.882h,达峰时间T_(max)为8h,峰值C_(max)为40.880μg/g.经过71d的代谢,肌肉中的药物含量下降到无公害食品中所规定的＜0.1mg/kg鱼体重.     

饲料维生素C对花鲈(Lateolabrax japonicus)幼鱼生长和免疫的影响

采用单因子实验设计方法，进行了饲料中添加维生素C对花鲈幼鱼生长（增重率、存活率、特定生长率、饲料效率）、免疫反应（血清中溶菌酶活性和血清总补体活性）和组织中维生素C积累量影响的研究。结果表明，随着饲料中维生素C添加量由0提高到98．9mg／kg，花鲈的增重率和特定生长率显著提高。以特定生长率为指标，花鲈最佳生长性能的饲料维生素C添加量为103.0mg／kg左右；饲料中维生素C添加量在0-98．9mg／kg时，花鲈幼鱼肌肉和肝脏中维生素C的积累量随饲料中维生素C的增加而显著增加（P〈0．05），花鲈幼鱼获得最大肝脏和肌肉中维生素C的积累量时，饲料中维生素C最低添加量为97．2mg／kg和105.0mg／kg；花鲈幼鱼血清溶菌酶和总补体活性随着维生素C添加量的增加而显著升高，维生素C添加量达到396．4mg／kg时，血清溶菌酶和总补体活性较高。综上所述，花鲈生长和免疫的维生素C适宜添加量为400mg／kg左右。