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纳米技术是近年来迅速发展起来的前沿科技领域,人工纳米材料(Manufactured nanomaterials,简称MNMs)具有尺寸小、表面积大、表面能高、表面原子所占比例大等特点,因而其具有独特的三大效应:表面效应、小尺寸效应和宏观量子隧道效应等,使得其强度、韧性、比热、催化能力、导电率、扩散率、磁化率、光学、电磁波吸收性能等方面均优于普通材料。因而其被广泛的应用于材料、生命、环境、能源和国家安全领域。然而,随着其日益增加的产量和广泛应用,MNMs不可避免地在其整个生命周期过程(生产、贮存、运输、消费、处置或回收再生产)中被泄露到环境中。这些具有特殊物理化学性质的MNMs进入环境后,是否会导致特殊的毒性作用,从而给生态系统带来难以预料的影响,其潜在的环境效应和健康风险日益受到研究者的关注。MNMs可以有多种途径进入海洋,本文为了探究MNMs进入海洋生态系统后,会对水生生物造成什么样的毒性影响,主要通过典型人工纳米的生物毒性,人工纳米材料的放大和积累与人工纳米材料与其他污染物共存的影响这3个方面重点论述了典型人工纳米材料对水生生物的毒性效应。 相似文献
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多环芳烃(PAHs)与纳米材料污染已对沉积物生态系统和人类生存环境构成严重威胁,其复合污染的毒性效应环境危害可能更大。为了深入探讨PAHs与纳米材料对近岸表层沉积物反硝化作用的复合毒性效应,本文选取位于胶州湾(JZB)的大沽河河口区(DRE)E站和湾内S站,分别以菲和纳米银代表PAHs和纳米材料,通过测定不同剂量单一及复合污染下沉积物反硝化潜势(PDA)的变化,结合浓度相加模型(CA)、独立作用模型(IA)和中效/联合指数等效图法(CI)三种复合毒性评价方法,评价菲和纳米银对沉积物反硝化潜势的复合毒性效应,并对评价方法进行了优选。结果表明,两种污染物浓度越高,对研究区域反硝化潜势的抑制作用越大。菲、纳米银单一及复合作用下对河口区沉积物反硝化潜势的EC50值分别为44.62、112.49和64.86 mg·kg-1,对湾内分别为61.79、147.05和96.18 mg·kg-1。菲单一作用对反硝化潜势的抑制效应强于纳米银,但复合污染的抑制效应更强。两种污染物对河口区的沉积物反硝化潜势抑制效应强于湾内,可能与河口区具有较高Eh和沉积物颗粒度及较低的pH、盐度和有机质含量有关。三种毒性效应评价方法的结果表明,菲和纳米银的复合污染对2个站位反硝化潜势的毒性效应均为协同作用,且对大沽河河口区的协同作用更强。此外,CI法对复合效应的预测结果比CA和IA法更为接近实际观测值,且CI不需要考虑污染物作用模式的限制,因此认为CI法更适用于评价混合污染对沉积物反硝化作用复合影响的效果。本研究结果表明,菲和纳米银会增强彼此对反硝化菌及反硝化功能的毒性效应,由此推断,PAHs和纳米材料在环境中同时存在时比其单独存在对沉积环境的危害更大。 相似文献
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近年来,大量的原始塑料微球和次生的塑料碎片或颗粒进入水环境,潜在危害水生生物健康和生态系统安全。微塑料在环境中难以降解,可在水体、沉积物等环境介质中长期存在,并在水生生物体内积累,成为人们高度关注的海洋环境问题之一。一方面,微塑料在降解过程中释放出单体化合物、塑料添加剂等有毒有害成分;另一方面,微塑料由于粒径小、比表面积大,可吸附水体中的有机化合物,增强有机污染物对生物的毒性效应。本文参考近年最新发表的有关水环境中微塑料的分布状况、生物毒性等方面的研究论文,对微塑料的来源及其在海水、淡水、沉积物、水生生物体内等不同介质中的分布进行了梳理,并分别讨论了微塑料对浮游植物、浮游动物、贝类、鱼类、珊瑚和胚胎幼体等不同受试生物的毒性效应,发现微塑料在鱼类体内具有明显的积累现象,且对海洋生物的胚胎发育具有相对敏感的毒性效应,最后针对海洋环境中微塑料污染问题提出了控制对策。 相似文献
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作为广谱抗菌的人工合成药物——磺胺类(SAs)是应用最早的一类人工合成抑菌剂之一,被广泛用于人类医疗、禽畜及水产养殖等。大量磺胺类药物的应用随代谢进入水环境中,对水生生态系统和人类健康产生重要影响并构成潜在风险,截至目前,这些影响和风险并未被探明。因此,对8种典型磺胺类合成药物在我国典型水环境中的分布特征进行了阐述,评估了它们对不同水生生物的生态毒性及生态风险,并诠释了它们在生物体内的代谢及其在生态系统中的降解途径。结果表明,不同水环境中磺胺类合成药物的浓度分布差异显著,磺胺甲恶唑和磺胺嘧啶分别在水体及沉积物中的浓度和污染程度最高;水体藻类是磺胺类合成药物最敏感的水生物种,其次是甲壳类和鱼类,磺胺甲恶唑对水生生态系统构成高风险;磺胺类合成药物进入体内后被代谢成不同的产物,与母体合成药物一同进入水环境中经历降解过程;生物降解是水生生态系统中磺胺类合成药物去除的主要途径,不同种细菌、真菌及藻类均可降解磺胺类合成药物。在以后的研究中,应当进一步加强磺胺类合成药物对水生生物的慢性毒性以及合成药物混合毒性的研究,明晰水环境磺胺类合成药物的分布-代谢-传输-效应的综合过程,探析磺胺类合成药物在水生... 相似文献
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THEJOINTTOXICEFFECTOFANTHRACENEANDPROFENOFOSONMARINEMICROALGA天然水环境中存在多种污染物质。当两种或两种以上污染物共存时会发生复杂的联合毒性效应。因此,只分析单一毒物对水生生物的影响是不够的。多环芳烃(PolycyclicAromaticHydrocarbons,PAHs)蒽(Anthracene)是近来颇受关注的一类有机污染物,PAH对鱼类、四类及藻类的伤害效应在国内外已有报道[4],它们在生物体内高积累、高残留和致癌性越来越引起人们的重视[8]。有机磷农药是我国沿海地区常用的农药,对于农业生产的快速发展具有重要的… 相似文献
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双酚A及其类似物双酚S、双酚F、双酚AF和卤代双酚A等双酚类化合物广泛用于生产聚碳酸酯塑料和环氧树脂,生产量大且目前在各种环境介质、食品及人体内均有检出。近年来,研究发现很多神经疾病的发生与双酚类化合物的暴露密切相关,有关双酚A及其类似物的神经毒性日益受到国内外研究者关注。本研究从对动物行为、神经发育、神经递质含量及神经递质代谢等方面综述了双酚类化合物的神经毒性效应及作用机制,为今后进一步探究双酚A类似物的神经毒性作用及其安全性评价提供更多的理论参考。 相似文献
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铅(Pb)在海水中易产生沉淀,这将影响毒性实验中效应值的计算。本研究通过海水中不同重金属对中国广泛分布的底栖无脊椎动物双齿围沙蚕(Perinereis aibuhitensis)以及毒理学研究常用的海水模式生物卤虫(Artemiasalina)的急性毒性实验,对比分析了海水中Pb的生物毒性特点以及暴露溶液中Pb的析出对毒性实验结果的影响。用人工海水与天然海水配制Pb溶液时,理论浓度为18.7~1 200mg/L的Pb溶液中均出现大量白色沉淀。通过扫描电子显微镜能谱(SEM-EDS)对析出物进行检测,根据元素组成推测析出物主要为氯化铅与碳酸铅。对溶液浓度进行检测发现,Pb的实测浓度仅为理论浓度的1/15~1/2,根据实测浓度计算的Pb对双齿围沙蚕和卤虫的96h/48h半数致死浓度(LC50)值低于根据理论浓度计算值的1/10。对比Pb、Cu、Cd对双齿围沙蚕与卤虫的LC50值发现, Pb对水生生物的毒性低于Cu和Cd,且对不同生物的毒性效应存在差异。对比研究报道中Pb对海洋生物的急性毒性效应发现,Pb对幼体生物的毒性效应较显著,而在海水有效溶解... 相似文献
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采用水生毒理联合效应相加指数法,比较了久效磷、辛硫磷、敌敌畏以及对硫磷的单剂和混合剂对扁藻的急性毒性和联合毒性。结果表明:久效磷和辛硫磷的联合毒性为协同作用;久效磷和敌敌畏的联合毒性为拮抗作用;久效磷和敌敌畏和对硫磷的48h联合毒性为协同作用,72h、96h则为拮抗作用。 相似文献
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Due to the continuous development and production of manufactured nanomaterials or nanoparticles (NPs), their uptake and effects in the aquatic biota represent a major concern. Estuarine and coastal environments are expected to represent the ultimate sink for NPs, where their chemical behavior (aggregation/agglomeration) and consequent fate may be critical in determining the biological impact.Bivalve mollusks are abundant from freshwater to marine ecosystems, where they are widely utilized in biomonitoring of environmental perturbations. As suspension-feeders, they have highly developed processes for cellular internalization of nano- and micro-scale particles (endo- and phagocytosis), integral to key physiological functions such as intra-cellular digestion and cellular immunity.Here we will summarise available information on the effects of different types of NPs in different bivalve species, in particular Mytilus spp. Data on the effects and modes of action of different NPs on mussel hemocytes in vitro demonstrate that cell-mediated immunity represents a significant target for NPs. Moreover, in vivo exposure to NPs indicates that, due to the physiological mechanisms involved in the feeding process, NP agglomerates/aggregates taken up by the gills are directed to the digestive gland, where intra-cellular uptake of nanosized materials induces lysosomal perturbations and oxidative stress. Overall, bivalves represent a particularly suitable model for investigating the effects and mechanisms of action underlying the potential toxicity of NPs in marine invertebrates. 相似文献
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《Estuarine, Coastal and Shelf Science》2005,62(1-2):131-140
Pollution of the aquatic environment occurs from many different sources including from oil refineries. Oil refinery effluents contain many different chemicals at different concentrations including ammonia, sulphides, phenol and hydrocarbons. The exact composition cannot however be generalised as it depends on the refinery and which units are in operation at any specific time. It is therefore difficult to predict what effects the effluent may have on the environment. Toxicity tests have shown that most refinery effluents are toxic but to varying extents. Some species are more sensitive and the toxicity may vary throughout the life cycle. Sublethal tests have found that not only can the effluents be lethal but also they can often have sublethal effects on growth and reproduction. Field studies have shown that oil refinery effluents often have an impact on the fauna, which is usually restricted to the area close to the outfall. The extent of the effect is dependent on the effluent composition, the outfall's position and the state of the recipient environment. It is possible to detect two effects that oil refinery effluent has on the environment. Firstly it has a toxic effect close to the outfall, which is seen by the absence of all or most species. Secondly there is an enrichment effect which can be distinguished as a peak in the abundance or biomass. These effects are not limited to just oil refinery effluents, which makes it difficult to distinguish the effects an oil refinery effluent has from other pollution sources. The discharge from oil refineries has reduced in quantity and toxicity over recent decades, allowing many impacted environments in estuaries and coasts to make a substantial recovery. 相似文献
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铬对文昌鱼的毒性效应和生长的影响 总被引:4,自引:2,他引:2
本文分析并报道了不同浓度Cr^6+和Cr^3+对文昌鱼的毒性效应及对文昌鱼生长的影响。结果表明,Cr^6+的毒性大于Cr^3+,其对文昌鱼的致死效应与底质有关;组织学观察发现,文昌鱼中毒器官主要是鳃、肠和肌肉;适宜浓度的Cr^6+和Cr^3+可明显地促进文昌鱼的生长。 相似文献
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This article discusses the interaction of phthalates and ocean algae based on the standard appraisal method of chemical medicine for algae toxicity. Through the experiments on the toxic effects of dimethyl (o-) phthalate (DMP), diethyl (o-) phthalate (DEP), dibutyl (o-) phthalate (DBP) on ocean algae, the 50 % lethal concentration of the three substances in 48 h and 96 h for plaeodectylum tricornutum, platymonas sp, isochrysis galbana, and skeletonema costatum is obtained. Tolerance limits of the above ocean algae of DMP, DEP, and DBP are discussed. 相似文献
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Oxidative damage in rainbow trout caged in a polluted river 总被引:1,自引:0,他引:1
Sewage treatment works (STWs) are a common source of chemicals entering into the aquatic environment. In order to assess effects of these effluents on oxidative stress parameters in aquatic organisms, we caged rainbow trout at five sites: upstream, near an STW effluent, and three sites downstream in the river Viskan in western Sweden for 14 days during autumn, 2006. We then measured protein carbonyls in plasma as well as 20S proteosome activity and lipid peroxidation products, i.e. MDA and 4-HNE, in liver samples. Levels of both lipid and protein oxidative damage products were elevated in fish caged near the STW effluent while 20S activity showed no differences. This argues that complex mixtures of chemicals entering into the aquatic environment do have deleterious effects on fish. Additionally, oxidative stress parameters can serve as a biomarker in aquatic organisms. 相似文献
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Nanoparticles may be introduced into aquatic environments during production processes and also as a result of release following their use in various commercial formulations and biologic applications. Filter-feeding bivalve mollusks such as oysters are valuable model species for characterizing nanoparticle bioavailability and interactions with basic cellular processes. The adults release their gametes into the environment, so their embryos and larvae are also likely targets of nanoparticles. The purpose of these studies was to characterize the toxicity of metal nanoparticles on embryonic development of oysters, Crassostrea virginica and to compare the relative sensitivity of embryos to adults. Newly-fertilized oyster embryos were exposed to silver nanoparticles (AgNP) and then the percent normal development after 48 h was assessed. Studies were conducted with adult oysters in which they were also exposed to AgNP for 48 h, and the effects on lysosomal destabilization were determined. The expression of metallothionein (MT) gene expression was also assessed in both embryos and adults. Adverse effects on embryonic development were observed at concentrations similar to those that caused both statistically and biologically significant effects on lysosomal destabilization of adults. Significant increases in MT mRNA levels were observed in both embryos and adult oysters, and MT levels were highly induced in embryos. While we do not know whether the toxicity and gene expression responses observed in this study were due to the nanoparticles themselves or the Ag ions that dissociated from the nanoparticles, these kinds of basic studies are essential for addressing the potential impacts of nanoengineered particles on fundamental cellular processes as well as aquatic organisms. 相似文献
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Francisca Arratia Pamela Olivares-Ferretti Alba García-Rodríguez Ricard Marcos 《新西兰海洋与淡水研究杂志》2019,53(3):460-469
Copper-based nanoparticles (NPs) are being widely used in different application fields and their health impacts to aquatic environments represent a current concern. Few studies are available about their comparative toxicity with their bulks and ions under natural exposition in aquatic organisms. Thus, the toxicity of Cu and CuO NPs and their microparticle and ionic forms was assayed in the acute immobilisation test of Daphnia magna by using freshwater media. Electronic microscopy, laser doppler velocimetry, and dynamic laser scattering methodologies were used to NPs characterisation. The results indicated that CuNPs and CuONPs were more toxic than their microparticles. Among NPs, CuNPs showed higher toxicity than CuONPs. Copper-based nanoparticles showed similar hydrodynamic particle size and were agglomerated in culture media, suggesting toxic-ionic release relationship and corroborated by the high toxicity induced by CuSO4. Additionally, water chemistry of natural freshwater used in the experiments also favoured the ion release of these NPs. 相似文献