微塑料与水中污染物的联合作用研究进展

微塑料(直径<5mm的塑料)因其吸附、迁移性能和生物毒性成为目前研究的热点。微塑料进入水体后,会与水中的持久性污染物和重金属进行相互作用,与它们单独作用于生物的毒性效应不同。本文从微塑料对污染物的富集、迁移以及微塑料与污染物的联合毒性效应方面,对微塑料与污染物的联合作用进行了总结。环境中的微塑料能通过吸附作用富集水中有机污染物和金属离子,该过程主要受微塑料自身性质、塑料的老化程度、污染物的空间分布和其他环境条件的影响。污染物能以微塑料为载体在环境和生物体间迁移,包括空间上的转移和生物体内的转移。微塑料与污染物联合作用于生物体时,会通过增加摄入浓度、加剧组织损伤和降低机体抗性等方式增强污染物对生物体的毒性效应,或者通过降低污染物接触浓度、污染物或共污染物的生物可利用性减缓污染物对生物体的毒性效应。未来应对微塑料的吸附行为、相互作用机制以及评价方法、生物积累和慢性毒性进行探究。     

有毒铜绿微囊藻对鱼和溞的毒性

用有毒铜绿微囊藻细胞及其从毒细胞中提取的毒素喂养和腹腔注射鱼类,结果表明:(1)微囊藻毒素MCYST-LR对所有实验过的鱼有毒害作用(LD₅₀为110-500μg/kg).注射毒素24h后,鱼肝电镜超微结构观察均表现出肝损伤.(2)在受控条件下,当用有毒铜绿微囊藻作为食物喂养日鲢和罗非鱼时,鱼类能在以毒藻为唯一食物的环境中生活20d以上.白鲢和罗非鱼粪便的毒性比喂食藻类的毒性分别降低约2-4.5倍,其肝的超微结构现察仍有轻度损伤.(3)在培养液中加入15μg/mLMCYST-LR和用实验室纯培养的铜绿微囊藻作为食物培养枝角类时,均可使它们在48h死亡.以无毒微囊藻培养时则生长不良亦不怀卵,表明它不是枝角类合适的食物.     

甲醛溶液对发头裸腹溞及其体表聚缩虫影响的试验

不同浓度的甲醛溶液对枝角类发头裸腹溲Ｍｏｄｉｎａｉｒｒａｓａ的致毒效应以及对其体表附着的聚缩虫Ｚｏｏｔｈａｍｉｕｍｓｐ．的杀灭效果的试验结果表明,１２ｈ、２４ｈ两俱和用时段中,甲醛浓度与发头裸腹溲相对存活率之间以及甲醛浓度与发头裸腹溲体表聚缩虫营养体脱落率之间存在一定的函数关系。     

菲、芘、苯并(a)芘单一暴露及分别与α-萘黄酮(ANF)联合暴露对海水青鳉(Oryzias melastigma)胚胎发育毒性效应的比较研究

为了解和探讨3~5环PAHs对海水鱼类胚胎发育的毒性及作用方式,比较研究了菲(phenanthrene,Phe)、芘(pyrene,Py)、苯并(a)芘(benzo(a)pyrene,BaP)单一暴露和三者各自与α-萘黄酮(α-naphthoflavone,ANF)联合暴露对海水青鳉(marine medaka, Oryzias melastigma)胚胎发育的毒性效应。胚胎体内EROD活性、发育畸形、孵化率和心律等毒性指标被测定,结果显示:Phe,Py和BaP对海水青鳉胚胎体内EROD活性的诱导能力大小为BaP>Py>Phe,各化合物对EROD诱导与发育畸形之间的关系较为复杂,除Phe所引起的EROD诱导与畸形指数之间呈显著相关(r=0.95,p=0.015)外,Py和BaP均无相关性;在100 μg/dm3 ANF影响下,CYP1A活性诱导被抑制,但胚胎发育的畸形指数被显著提高,ANF分别与Phe,Py和BaP的联合暴露对胚胎发育呈潜在的协同作用。本文研究初步表明,3~5环PAHs化合物对海水青鳉胚胎发育的毒性作用方式可能不同;CYP1A活性抑制在PAHs混合物对海水青鳉胚胎发育的毒性作用过程中未起到缓解毒性的作用,CYP1A抑制剂与PAH型CYP1A诱导剂的混合物对鱼类胚胎发育具有潜在的协同毒性作用,现有的PAHs混合物毒性风险评价方法可能低估了实际环境中PAHs的风险;海水青鳉早期生活阶段的心脏发育对PAHs混合物暴露较为敏感,可推荐其作为生物标志物指示PAHs或溢油污染。     

Toxic effects of several phthalate esters on the embryos and larvae of abalone Haliotis diversicolor supertexta

As the most widely used plasticizers in the world, phthalate esters (PAEs) are potential endocrine disruption compounds (EDCs). In the present study, the toxicity of dimethyl phthalate (DMP),diethyl phthalate (DEP), dibutyl phthalate (DBP), di (2-ethylhexyl) phthalate (DEHP) on embryogenesis and larvae development of the marine univalve Haliotis diversicolor supertexta was examined in laboratory. The results show that the malformation of embryos appeared during the experiment, such as embryos died or lysed, small transparent flocculent rings studded on the periphery of the embryo, and the larvae could failed to hatch. In embryo toxic test, embryos incubated at the highest concentration of DMP,DEP and DBP solutions showed significantly high abnormal rate compared with the control, while DEHP solutions displayed no significant difference. In larval toxic test, in all concentrations of DMP, DEP and DBP solutions, larval settlement rates were low significantly than that of the control. Similarly, DEHP solutions show nearly no effect on the larval settlement. The order of toxicity on embryos and larvae is DBP>DEP>DMP>DEHP. Being a simple and easy stimulation to indoor spawn, sensitive to environmental factors, and short culture time, the embryos of 1-1. diversicolor supertexta can be used to indicate toxicity of the PAEs.     

Application of rotifer Brachionus plicatilis in detecting the toxicity of harmful algae

The toxicity of seven major HAB (harmful algal bloom) species/strains, Prorocentrum donghaiense, Phaeocystis globosa, Prorocentrum micans, Alexandrium tamarense (AT-6, non-PSP producer), Alexandrium lusitanicum, Alexandrum tamarense (ATHK) and Heterosigma akashiwo were studied against rotifer Brachionus plicatilis under laboratory conditions. The results show that P. donghaiense, P. globosa, P. micans, A. tamarense (AT-6), or A. lusitanicum could maintain the individual survival and reproduction, as well as the population increase of the rotifer, but the individual reproduction would decrease when exposed to these five algae at higher densities for nine days; H. akashiwo could decrease the individual survival and reproduction, as well as population increase of the rotifer, which is similar to that of the starvation group, indicating that starvation might be its one lethal factor except for the algal toxins; A. tamarense (ATHK) has strong lethal effect on the rotifer with 48h LC₅₀ at 800 cells/mL. The experiment on ingestion ability indicated by gut pigment change shows that P. donghaiense, P. globosa, P. micans, A. tamarense (AT-6) and A. lusitanicum can be taken by the rotifers as food, but A. tamarense (ATHK) or H. akashiwo can be ingested by the rotifers. The results indicate that all the indexes of individual survival and reproduction, population increase, gut pigment change of the rotifers are good and convenient to be used to reflect the toxicities of HAB species. Therefore, rotifer is suggested as one of the toxicity testing organisms in detecting the toxicity of harmful algae. Supported by the Knowledge Innovation Program of Chinese Academy of Sciences (No. KZCX2-YW-208), National Natural Science Foundation of China (No. 40821004, U0733006) and National Basic Research Program of China (973 Program, No. 2001CB409700)     

多环芳烃的海洋环境行为及其代谢产物的研究进展

多环芳烃是一类广泛存在于环境中的持久性有机污染物,具有"三致"作用.环境中多环芳烃的某些不完全代谢产物同样可能具有持久性,有些甚至比母体多环芳烃的毒性更强,有可能对环境造成更大的危害.本文介绍了近年来国内外有关多环芳烃的海洋环境行为及其代谢产物毒性方面的研究进展,并重点对代谢产物的分析方法,包括高效液相色谱、气相色谱、气相色谱-质谱联用和液相色谱-质谱联用等,进行了总结,最后对该领域的研究方向进行了展望.     

胶州湾产蓝色素海洋链霉菌的初步研究

在胶州湾沿海采取泥样和水样,从中分离了300余株海洋链霉菌(marine Streptomyces),并对其生理生化性质作了初步研究,建立了胶州湾海洋链霉菌菌种库。在该菌种库中,约有3%的菌株可产生天然蓝色素。其中一株海洋链霉菌(marine Streptomycessp.)M259能够高产天然蓝色素。M259对绿脓杆菌(Pseudomonas areuginosa)、隐球菌(Crytococcal meningitis)有较强的抑菌活性。对其生理生化性质进行了鉴定,结果表明它可以利用可溶性淀粉、甘油、蔗糖、甘露醇、葡萄糖、D-半乳糖、果糖、阿拉伯糖、肌醇、木糖、D-甘露糖、核糖等碳源;能利用大部分氮源,尤其对酵母粉的利用很显著;最适生长pH为7.0~7.4;最适培养温度为28~30℃。结果提示它属于蓝色类群,并与天蓝色链霉菌(Streptomyces cyanogenus)和产蓝链霉菌(Streptomyces ceolicolor)亲缘关系最为密切。此外还优化了M259的发酵培养基和培养条件,使得蓝色素在摇瓶条件下,OD590达到7.74。通过对M259所产蓝色素性质的研究,发现此色素水溶性较强,耐热性较好,在酸性条件下呈红色,在碱性条件下呈蓝色。此外,毒性实验的结果表明所提纯的蓝色素没有毒性,为进一步开发和利用该色素提供了可能。