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为了探讨壬基酚聚氧乙烯醚(NP10EO)与其降解产物壬基酚(NP)对多刺裸腹溞的复合毒性效应,在实验室条件下研究了NP和NP10EO单一暴露对多刺裸腹溞的急性毒性和亚慢性毒性,以及两者混合暴露对多刺裸腹溞的联合毒性效应。结果表明:NP和NP10EO两种物质单一暴露对多刺裸腹溞的24 h LC50分别为0.154和3.37 mg.L-1,48 h LC50分别为0.065和2.11 mg.L-1。联合毒性实验中,定义0.5×LC50(NP)+0.5×LC50(NP10EO)为一个毒性单位(1TU)。NP和NP10EO混合暴露后对多刺裸腹溞的24 h和48 h的LC50分别是0.646TU和0.291TU,联合毒性强度明显高于两种物质单一暴露时的毒性强度。在持续混合暴露条件下,多刺裸腹溞的首次生殖时间延迟、母体体长和初生幼体体长严重缩短、首次生殖数量大幅减少。说明NP和NP10EO对多刺裸腹溞的复合毒性表现出明显的协同效应。 相似文献
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为探讨典型环境激素壬基酚(nonylphenol,NP)对枝角类浮游动物多刺裸腹溞连续世代的毒性效应,在实验室条件下,暴露连续3个世代(F0、F1、F2)多刺裸腹溞于0.02~0.10 mg·L-1的NP。15 d后测定成体死亡率、首胎繁殖时间、后代数目、成体蜕皮次数以及终点体长。研究结果表明,NP对F0代多刺裸腹溞具有很高的致死率;随着世代的增加,在相同NP质量浓度暴露下,与母代成体的死亡率相比,子代多刺裸腹溞成体的死亡率增高,致死毒性放大;NP对多刺裸腹溞连续3个世代的繁殖力都有显著抑制作用(P0.05),并随着世代递增,NP对子代繁殖力的抑制增强;在NP暴露下,多刺裸腹溞F0首胎繁殖时间明显推迟,NP暴露浓度与延迟程度呈正相关,呈现出剂量-效应关系,首胎繁殖时间延迟的趋势也存在于F1、F2世代中且存在放大效应;但是连续3个世代多刺裸腹溞成体的蜕皮次数都不受NP暴露影响;F0和F1世代多刺裸腹溞终点体长降低,并呈现明显的剂量-效应关系,但与F1相比,F2低浓度处理组受试个体终点体长呈增加趋势。对结果进行分析,认为多刺裸腹溞在NP暴露后的母代DNA或DNA完整性遭到破坏导致子代在相同NP质量浓度暴露下更容易受到NP致死性的影响;NP化合物具有的苯酚结构抑制枝角类体内葡萄糖、硫酸盐与类固醇的结合,从而引起体内荷尔蒙水平异常,最终对诸如生殖等生理行为造成不利影响;多刺裸腹溞成体的蜕皮次数都不受NP暴露影响表明蜕皮激素系统未受到干扰,且NP对生长的影响显然存在蜕皮外的其他作用机制。 相似文献
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在实验室条件下研究了枝角类蒙古裸腹溞(Moina mongolica)对有毒赤潮生物塔玛亚历山大藻的摄食。结果表明,单一饵料试验中,蒙古裸腹溞摄食率在一定范围内随塔玛亚历山大藻细胞数的增加而增大,在塔玛亚历山大藻和亚心形扁藻组成的混合饵料试验中,当前者细胞数为低值时,摄食率不随后者细胞数的变化而变化,而当前者的细胞数高于1920/mL时,摄食率随亚心形扁藻细胞数的增大而升高。 相似文献
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为探讨酚类化合物对水生生物的毒性效应,实验研究了多刺裸腹溞(Moina macrocopa)暴露于不同浓度的苯酚(0.25、0.75、1.25、1.75、2.25mg·L-1)、邻苯二酚(0.10、0.25、0.40、0.55、0.70mg·L-1)和间苯二酚(0.015、0.030、0.045、0.060、0.075mg·L-1)后,体内谷胱甘肽-S-转移酶(GST)和乙酰胆碱酯酶(AChE)活力的动态变化.结果表明,3种酚类化合物处理24h后,多刺裸腹溞体内GST活力随染毒浓度的升高呈先升高后降低趋势.处理48h后,体内GST活力随苯酚和邻苯二酚浓度的升高逐渐降低,而间苯二酚对GST活力的影响与处理24h后GST活力的变化趋势相似.3种酚类化合物处理24h、48h后,多刺裸腹溞体内AChE活力均呈先升高后降低趋势.48h处理多刺裸腹溞体内GST和AChE活力均显著低于24h处理.短时间内低浓度酚类化合物对GST和AChE活力具有诱导作用,但随着酚类化合物处理浓度的升高和处理时间的延长酶活力受到显著抑制.GST和AChE活力的变化能够灵敏地反映出酚类化合物对多刺裸腹溞的毒性大小及造成的损伤,初步推断可作为生物标志物来评价酚类污染物对水生生物的生化毒性. 相似文献
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年龄为5±2h的纯系微型裸腹蚤置于25±1℃、主要含斜栅藻的培养液、静置换水的条件下培养时,其体长(lt)增长模式为lt=1.30-0.7976e-0.3682t(lt为体长,t为时间),各龄蚤平均体长为1.08mm,平均寿命为19.1d,生殖高峰发生在第5龄期,累计生殖量为101.21个.从初始20个体的种群计算,种群生长曲线呈logistic型:y=2024/(1+e4.136-0.537t)(y为总个体数),内禀增长能力rm=0.985/d,净生殖率R0=82.253/世代,世代平均周期T=4.72d. 相似文献
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ABSTRACT We hypothesised that at higher densities herbivorous rotifers through their allelochemicals affect the survival and reproduction of cladocerans. To test this, we separately cultured three rotifers (Brachionus calyciflorus, Brachionus havanaensis, and Plationus patulus) and three cladocerans (Ceriodaphnia dubia, Daphnia pulex, and Moina macrocopa). Chlorella vulgaris was used as food and reconstituted moderately hard water was used as medium. The conditioned-medium (CM) obtained from each of rotifer species was used to conduct cohort life table tests of cladocerans. SDS PAGE electrophoresis revealed the molecular weights of proteins present in the rotifer conditioned medium were 55–63?kDa. Compared to C. dubia and D. pulex, Moina was more resistant to rotifer-mediated chemicals. Gross reproductive rate of C. dubia was significantly stimulated by the rotifer-CM. However, gross and net reproductive rates of D. pulex were strongly reduced (72–85%) due to P. patulus-CM but not from the other two rotifer species. The rate of population increase of M. macrocopa was significantly reduced by the rotifer CM. Overall, about 46% (adverse effect: 24%; stimulatory impact: 22%) of the life history variables in controls significantly differed from rotifer-CM treatments, thus proving our hypothesis that rotifer-mediated allelochemicals had some effect on the cladoceran life history variables. 相似文献
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Leaf litter processing is one major pathway of the global organic carbon cycle. During this process, a variety of small reactive organic compounds are released and transported to the aquatic environment, and may directly impact aquatic organisms as natural xenobiotics. We hypothesize that different forest stockings produce different leachate qualities, which in turn, stress the aquatic communities and, eventually, separate sensitive from tolerant species. Particularly, leachates from coniferous trees are suspected to have strongly adverse impacts on sensitive species. We exposed individuals of a clone of the model organism, Moina macrocopa, to comparable concentrations (approximately 2 mM) of litter leachates of Norway spruce, Picea abies, Colorado blue spruce, Picea pungens, black poplar, Populus nigra, and sessile oak, Quercus petraea. The animals were fed ad libitum. The following life trait variables were recorded: growth, lifespan, and lifetime offspring. To identify, whether or not exposure to litter leachates provokes an internal oxidative stress in the exposed animals we measured the superoxide anion radical scavenging capacity via photoluminescence. Except of P. abies, exposure to the leachates reduced this antioxidant capacity by approximately 50%. Leachate exposures, except that of Quercus, increased body size and extended lifespan; furthermore, particularly the leachates of both Picea species significantly increased the offspring numbers. This unexpected behavior of exposed Moina may be based on food supplements (e.g., high carbohydrate contents) in the leachates or on yet to be identified regulatory pathways of energy allocation. Overall, our results suggest that the potentially adverse effects of litter leachates can be overruled by either bacterial-growth supporting fractions in the leachates or an internal compensation mechanism in the Moina individuals. 相似文献
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有机磷农药的构效关系及其对浮游生物的毒性效应 总被引:2,自引:0,他引:2
以定量构效关系理论和实验室内急性毒性试验相结合研究了六种有机磷农药对四尾栅藻(S.quadricanda)和多刺裸腹溞(Moina macrocopa)的生态毒性。有机磷农药的毒性取决于磷原子的电正性,各取代基种类和构象对电荷分布作用显著。根据构效关系原理,磷氧双键(P=O)被磷硫双键(P=S)取代后毒性降低;羟基(-OH)被甲、乙、丙氧基(-CH3O、-CH3CH2O、-CH3CH2CH2O)取代后有机磷农药毒性依次增强;磷氧单键(P-O)毒性高于磷碳单键(P-C)。该实验中毒死蜱、辛硫磷(-CH3CH2O)毒性高于其它四种(-CH3O),敌敌畏和敌百虫(P=O)毒性高于乐果(P=S),敌敌畏(P-O)又高于敌百虫(P-C),甘氨酸异丙胺盐取代羟基(-OH)的草甘膦毒性最低。毒性试验结果表明,毒死蜱、辛硫磷、敌百虫、敌敌畏、乐果、草甘膦异丙胺盐对四尾栅藻的96 h EC50分别为6.34、6.62、59.53、82.12、141.37和7.25 mg.L-1。它们对多刺裸腹溞的48 h LC50分别为0.20、0.12、0.28、0.17、1.12和5.03 mg.L-1。六种有机磷农药对多刺裸腹溞的毒性强度结果与QSAR分析具有较高的一致性,即表征有机磷农药毒性特征的取代基团作用的毒性强弱顺序为:-OH〉=O〉-O;对四尾栅藻毒性试验结果中,由于草甘膦异丙胺盐作用于植物类靶位点的特殊性,导致其对四尾栅藻毒性显著增强。综合以上研究,以构效关系理论和浮游生物毒性试验相结合进行有机磷农药的生态风险评价将更加便捷和准确。 相似文献