Enhancing the Decomposition of Paper Cups Using Galleria Mellonella and Eisenia Fetida

The composition of paper cups creates a challenge for the recycling industry,as the paperboard–plastic film composite is hard to separate.Therefore,paper cups are sent to landfills or waste incinerators.This study explores the combined use of red worms(Eisenia fetida)and Greater wax moth(Galleria mellonella)in the biodegradation of paper cups.The study investigates the conditions and combinations that promote using Eisenia fetida and Galleria mellonella for degrading paper cups.The study considered the influence of environmental temperature,the presence of food waste,varying the number of Eisenia fetida worms,and the presence of a Galleria mellonella growth-slowing agent on the degradation process.To achieve the study objectives,the study followed a quantitative approach.The study monitored the degradation of paper cup cuts that were placed in jars containing different combinations of Eisenia fetida worms,Galleria mellonella larvae,food waste,bedding material,and Galleria mellonella growth-slowing agents.The study found that the best operating temperature is 30oC.The study found that using food waste improves the performance of Eisenia fetida worms and Galleria mellonella larvae significantly.The study found that adding a Galleria mellonella growth-slowing agent slightly enhances the degradation of the paper cup.Finally,a numerical model was obtained to simulate the paper cup degradation efficiency.

A two-dimensional electrophoresis reference map of the earthworm <i>Eisenia fetida</i>

The molecular mechanisms underlying innate immunity in the earthworm E. fetida remain unclear. For the recognition of innate immunity in the earthworm E. fetida, a detailed knowledge of this proteome is a prerequisite. The absence of a high-resolution E. fetida proteome map prompted us to determine E. fetida protein spots that can be visualised on 2-D protein gels. In this study, we present a preliminary description of the whole earthworm E. fetida proteome. A highly detailed two-dimensional gel electrophoresis (2-DE) map of the E. fetida proteome was established and approximately 1500 protein spots were detected from the earthworm sample when applying a 500 μg protein 2-DE in the pH range 3.0 - 10.0. We present a 2-DE proteome map of E. fetida, identifying 76 different proteins by matrix-assisted laser desorption/ionization-tandem time of flight mass spectrometry (MALDI-TOF/ TOF-MS) analysis. These identified proteins, including heat shock protein 90 (Hsp90), chaperonine protein HSP60, caspase-8, fibrinolytic protease 0, gelsolin-like protein, lombricine kinase, coelomic cytolytic factor1 (CCF 1), manganous superoxide dismutase (MnSOD), triosephosphate isomerase, extracellular globin-4, lysenin, and intermediate filament protein, glyceraldehyde-3- phosphate dehydrogenase, et al., are involved in several processes, including transcripttion, translation, the tricarboxylic acid cycle, the cellular amino acid metabolic process, protein amino acid phosphorylation, glycolysis, and the glucose metabolic process. These 2-DE data will enhance future comparisons of immunity, toxicology, biotic processes and other challenges, thereby allowing for further study of the molecular mechanisms in response to environmental stressors, and it will be useful to investigate environmental proteomics in invertebrate earthworms.

菲和芘对蚯蚓(Eisenia fetida)细胞色素P450和抗氧化酶系的影响

研究了菲和芘在单一低剂量污染胁迫下对蚯蚓(Eisenia fetida)体内细胞色素P450酶系和抗氧化酶系的影响.通过滤纸接触染毒法,检测蚯蚓细胞色素P450含量以及超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)的活性.结果表明,在供试浓度范围内,蚯蚓体内细胞色素P450含量和三种抗氧化酶活性均对毒物产生了不同程度的响应.菲和芘在蚯蚓体内的代谢诱发了细胞色素P450总含量的增加,且在此过程中有活性氧自由基产生.不同酶对毒性效应响应的域值不同,其敏感性大小为:P450>SOD(POD)>CAT.根据四个指标对污染物浓度响应的域值不同,可将四者联合应用互为补充作为一套生物标记物体系,以满足污染物不同暴露浓度下土壤的毒理诊断,增强指示的敏感性和有效性.

铜暴露对赤子爱胜蚓(Eisenia fetida)抗氧化酶活力的影响

通过溶液接触法和人工土壤法,研究了不同暴露环境中Cu对赤子爱胜蚓(Eisenia fetida)SOD酶、CAT酶和GST酶活力的影响.结果显示:溶液接触试验中,Cu显著抑制蚯蚓SOD酶活力(P<0.05),人工土壤试验中Cu则诱导SOD酶活力增加,预示暴露条件影响蚯蚓SOD酶对Cu的生物响应.人工土壤试验中,Cu暴露浓度与蚯蚓CAT酶和GST酶活力的相关系数分别为0.814和0.933,均存在极显著的剂量效应关系(P<0.001).在这两种暴露环境下,赤子爱胜蚓的CAT酶和GST酶活力对Cu浓度响应敏感.

柠檬醛对赤子爱胜蚓(Eisenia fetida)再生的影响

用不同浓度柠檬醛处理不同部位剪切的蚯蚓,和处理剪切后不同时间段的蚯蚓体段,探讨了柠檬醛对赤子爱胜蚓再生作用的体段、作用浓度和敏感时间段.结果表明,柠檬醛对蚯蚓再生有明显影响,但这种作用依不同体段而异,以体段P7和P25作用最显著,而A25,A90和P60的受柠檬醛影响较小;柠檬醛影响蚯蚓头部再生,而不影响尾部再生;对再生有影响的柠檬醛浓度为1 mmol kg-1,0.1 mmol kg-1和0.01 mmol kg-1(土壤),对蚯蚓再生作用的时间为切后0.5～1 d.试验显示,柠檬醛干扰蚯蚓再生头部形成而且还影响再生头尾体轴形成;内源视黄酸在蚯蚓头尾轴再生图式形成中有重要作用.

蚯蚓(Eisenia fetida)对硒的富集转化研究进展及其应用潜力

硒(Se)作为人和动物必需的微量元素之一,在维持机体健康等方面发挥着重要作用。鉴于目前我国部分缺硒地区人均日摄入硒量仍不能满足卫生行业标准(WS/T 578.3—2017)推荐量,因此,寻找硒富集量大、有机硒转化效率高且生物可利用率高的硒强化材料的任务依然迫切。硒在生物体新陈代谢过程中多与氨基酸结合,进而参与构成蛋白质。蚯蚓是一类蛋白质含量较高的土壤动物,系统分析了蚯蚓对硒的富集转化、蚓体硒的生物可利用率、硒对蚯蚓生长繁殖和蚓体营养成分的影响,并对蚯蚓作为动物源硒强化材料的应用潜力进行了讨论与展望,以期为富硒农业产业的发展提供一定的理论依据和科学支持。

Low-density polyethylene microplastics partially alleviate the ecotoxicological effects induced by cadmium exposure on the earthworm Eisenia fetida

LDPE had no effect on the mortality,growth,and reproduction of earthworms.LDPE did not alter the mortality,growth,and reproduction of earth-worm caused by Cd.LDPE alleviated histopathological damage to earthworms caused by Cd.LDPE alleviated DNA damage in earthworm coelomocytes caused by Cd.LDPE did not affect the accumulation of Cd in earthworms.Cadmium(Cd)can accumulate in the food chain,with serious impacts on human health and safety.Microplastics(MPs)such as low-density polyethylene(LDPE)should be considered not only as a single pollutant but also as a carrier of other pollutants.In this study,we investigated the joint effects of 30%LDPE and 313 mg kg-1 Cd on mortality,growth,reproduction,microstructure,DNA damage,oxidative stress,and mRNA levels in the earthworm Eisenia fetida.We found that 313 mg kg-1 Cd inhibited growth and reproduction and damaged the microstructures of the skin and intestine.Meanwhile,LDPE had no effect on the mortality,growth,or cocoon production of earthworms.Moreover,it did not increase the mortality,growth,or inhibition of cocoon production caused by Cd and instead alleviated the DNA damage in coelomocytes caused by Cd treatment.Finally,it did not alter the accumulation of Cd in the worms.These indicators can be used for toxicity safety assessment and soil ecological risk assessment of LDPE and Cd cooccurrence in soil.

Eisenia fetida中蚯蚓纤溶酶P-Ⅲ组分序列多态性

为了探讨蚯蚓纤溶酶P-Ⅲ组分序列多态性及其与蚓种关系。从Eiseniafetida中提取总RNA,利用P-Ⅲ组分序列两端的保守性设计引物,通过RT-PCR获得P-Ⅲ组分基因,并构建该组分质粒(pUC18)文库,经PCR筛选后进行序列测定及分析。在原已获得的Efp-Ⅲ-1和Efp-Ⅲ-3的基础上,利用中间引物从文库中筛选到Efp-Ⅲ-2基因。序列分析表明,该基因编码序列为720bp,编码239个氨基酸,与GenBank报道的Efp-Ⅲ-2五条序列整体相似性高达99.02%。通过序列比对,发现Efp-Ⅲ-1、2和3具有完全相同的结构域,差异位点零星分布在序列中间;Lumbricus rubellus的六条序列同样具有Eisenia fetida这个特点,并无明显差异。序列比对证明它们是蚯蚓体内P-Ⅲ组分基因多态性的表现,而且在Lumbricidae科中与蚓种无关。

镉胁迫下蚯蚓(Eisenia fetida)生物标志物的应激响应研究

为研究重金属镉胁迫下蚯蚓生物标志物的响应并综合评价污染风险,设置不同浓度镉污染的人工土壤微宇宙体系,进行为期30 d蚯蚓胁迫实验。比较不同镉浓度下蚯蚓生长繁殖(日增重倍数和日增殖倍数)和生化指标,包括过氧化氢酶(CAT)、超氧化物歧化酶(SOD)和谷胱甘肽硫转移酶(GST)的活性,糖原(Gn)、可溶性蛋白(SP)、丙二醛(MDA)和金属硫蛋白(MT)的含量,结果表明:日增重倍数和日增殖倍数随着镉浓度升高显著降低,镉对蚯蚓生长繁殖具有抑制作用;镉对大多数生化指标有显著影响,其中SP、CAT、MT、GST含量或活性随着镉浓度的升高而显著提升,但MDA、Gn、SOD表现出不规则变化趋势。生物标志物响应指数(BRI)和综合生物标志物响应指数(IBR)表明,环境胁迫效应随着镉浓度增加而加强。BRI显示在0.1,1和10mg·kg^(-1)镉浓度下,蚯蚓分别面临着轻度胁迫、较大胁迫和严重胁迫。多项生物标志物对镉有复杂的响应,相较于IBR,BRI具有操作简单、适用范围广的突出优点。

1,2-二溴-4-(1,2-二溴乙基)环己烷(TBECH)对土壤中蚯蚓(Eisenia foetida)的毒性效应

1,2-二溴-4-(1,2-二溴乙基)环己烷(1,2-dibromo-4-(1,2-dibromoethyl)cyclohexane,TBECH)作为一种新型溴代阻燃剂已在多种环境介质和生物体中被检出,但其毒性效应研究相当匮乏。笔者研究了赤子爱胜蚓(Eisenia fetida)对土壤中TBECH的4种异构体(α-TBECH、β-TBECH、γ-TBECH和δ-TBECH)的选择性积累,考察了TBECH对赤子爱胜蚓的生长、蚯蚓体内自由基水平、丙二醛(MDA)、磷酸化组蛋白(γ-H2AX)含量以及抗氧化酶活性的影响。结果表明,蚯蚓对TBECH的富集存在异构体选择性,γ-TBECH的生物土壤富集因子(BSAF)大于其他异构体。低浓度暴露(50~200 mg·kg^(-1))时,蚯蚓平均体质量、死亡率与空白组均无显著性差异,高浓度暴露(≥400 mg·kg^(-1))时,随暴露浓度的增加,平均体质量下降,死亡率增加。TBECH暴露过程中,蚯蚓体内MDA和γ-H2AX含量显著增加。超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)以及谷胱甘肽S转移酶(GSTs)的活性在50 mg·kg^(-1)暴露下被显著诱导,在100~600 mg·kg^(-1)暴露下,随暴露时间和浓度的增加而降低。采用电子自旋共振结合二级自由基捕获技术测定了蚯蚓体内自由基水平,发现TBECH暴露能够引起蚯蚓体内大量羟基自由基的产生,且羟基自由基水平与MDA含量存在显著正相关关系,表明诱导蚯蚓体内产生大量羟基自由基从而导致的氧化损伤是TBECH对蚯蚓产生毒性的重要原因。以上研究结果揭示了赤子爱胜蚓对TBECH的富集能力以及TBECH对赤子爱胜蚓的毒性效应,为TBECH的生态健康风险评估提供了依据。

Biotransformation of endosulfan by the tiger worm, <i>Eisenia fetida</i>

This study assesses the role of the earthworm, Eisenia fetida, in the breakdown of endosulfan in a soil environment. Two strains of E. fetida were used in this study to assess the effect of salinity on toxicity and metabolism of endosulfan in these earthworms. One strain of E. fetida (R) was reared in high salinity soil (over 2.0 dS/m of electric conductivity) from Shiwha lake, Korea. A control strain (W) was reared in pig manure compost. Acute toxicity of endosulfan was lower in the R strain when endosulfan was injected. In vitro metabolic studies of endosulfan based on microsomal preparations showed that both strains produced two major metabolites, endosulfan sulfate and endosulfan diol. The production rate of endodulfan sulfate was not significantly different between the strains, while endosulfan diol production was significantly different. In vivo metabolism studies showed only one primary metabolite, endosulfan sulfate, was produced by both strains. HPLC-MS/MS analysis showed annetocin was the indicative protein newly expressed in the R strain in relation to salinity exposure. These findings suggest salinity may induce hydrolyzing enzymes to produce endosulfan diol from endosulfan.

氯虫苯甲酰胺及其代谢物IN-EQW78对蚯蚓氧化应激及繁殖能力的影响

为明确氯虫苯甲酰胺(CAP)及其代谢物氯虫苯甲酰胺脱水环化物(IN-EQW78)对蚯蚓毒性效应的差异,开展了CAP和代谢物IN-EQW78对蚯蚓的56 d单一暴露实验,探讨2种化合物分别对蚯蚓氧化应激及繁殖能力的影响。结果表明,5 mg·kg^(-1)的CAP暴露14 d后,过氧化氢酶(CAT)活性显著上升,超氧化物歧化酶(SOD)活性在28 d时明显增强;IN-EQW78暴露7 d后,SOD和谷胱甘肽转移酶(GSH-ST)活性增强,而CAT活性降低。IN-EQW78比CAP会更早地引起蚯蚓氧化应激效应,并引发更大的氧化损伤。5 mg·kg^(-1)的CAP处理减少了蚯蚓精子数量,破坏卵巢结构,对生殖系统造成损伤,并进一步抑制蚯蚓繁殖,导致56 d时幼蚓数量显著下降;而IN-EQW78(≥0.04 mg·kg^(-1))处理对卵巢无损伤,反而引起蚯蚓精子数量增加,从而促进蚯蚓繁殖,显著提高了56 d时幼蚓及蚓茧数量。本研究揭示了CAP及其代谢物对蚯蚓的潜在影响,为农业生产中CAP的风险评估提供了科学依据。

生物炭对牛粪-酒糟-园林废弃物联合蚯蚓堆肥进程及重金属钝化的影响

为探究生物炭对蚯蚓堆肥过程理化特性、微生物群落结构组成和重金属形态变化的影响,以牛粪、酒糟和园林废弃物为原料,分别添加5%(质量比)的竹炭、木屑生物炭和玉米芯生物炭,采用赤子爱胜蚯蚓(Eisenia fetida)开展为期60 d的堆肥试验。结果表明:相比对照,3种生物炭添加显著增加了种子发芽指数,降低了堆体最终碳氮比,促进了堆肥腐熟,最终堆体全氮、硝态氮和腐植酸含量分别提高10.74%~13.20%、41.91%~54.29%和26.22%~33.44%,不同生物炭之间,添加玉米芯生物炭能提高有机质降解率和全氮含量,添加木屑生物炭可以提高堆体硝态氮含量和腐植酸含量。3种生物炭添加均提高了堆肥细菌的多样性和丰富度,提高了Actinomadura、Ilumatobacter和Saccharomonospora等木质纤维素降解菌的丰度;此外3种生物炭添加促进了铜和锌从可交换态转化为氧化态,钝化率分别提高了11.7个和5.87个百分点,添加竹炭处理对铜和锌的钝化率效果最好,能较好地促进铜和锌从活性较高的可交换态向着稳定性更高的氧化态转化。相关性分析表明,铜和锌的氧化态分配率与腐植酸、木质纤维素降解菌呈显著正相关(P<0.05)。研究表明,竹炭、木屑生物炭和玉米芯生物炭均能提高蚯蚓堆肥腐熟、改善细菌群落结构和增加重金属钝化效率。

PFOS及其三种替代品对蚯蚓的毒性效应及比较

本研究从氧化应激、生殖毒性和发育毒性3个方面研究了PFOS、6:2FTSA、PFHxS和PFBS以相同浓度(0.2mg/kg)暴露28d后对赤子爱胜蚓的毒性效应.结果表明,PFOS、6:2FTSA、PFHx S和PFBS均诱导ROS含量上升,并导致脂质过氧化和DNA损伤.此外,PFOS及其3种替代品还诱导与氧化应激、生殖和生长发育相关的基因异常表达,从而在基因水平上诱导氧化应激并引发生殖毒性和发育毒性.综合生物标志物响应(IBR)指数结果表明,PFOS、6:2FTSA、PFHxS和PFBS的IBR数值分别为36.4, 22.2, 34.1, 24.3.4种物质对蚯蚓的综合毒性大小依次为:PFOS>PFHxS>PFBS>6:2FTSA,表明3种替代品的综合毒性低于PFOS.本研究结果为6:2FTSA、PFHxS和PFBS作为PFOS替代品的安全性评价提供了依据.

蚯蚓对2,4-DCP污染土壤的毒性响应及微生物群落影响

2.4-二氯苯酚(2.4-DCP)作为合成农药、医药的中间体,在我国广泛生产和使用,其生态危害性已引起广泛关注.然而,关于土壤动物、微生物对2.4-DCP的毒性响应知之尚少.基于此,本研究以赤子爱胜蚓(Eisenia fetida)为受试生物,从致死浓度、抗氧化系统、病理学和行为特征角度评价2.4-DCP对蚯蚓的毒性,通过高通量测序分析土壤微生物群落变化.此外,还探讨了蚯蚓对土壤中2.4-DCP的降解动力学和微生物多样性影响.结果表明,2.4-DCP对蚯蚓7 d半致死浓度(LC_(50))值为29.55 mg·kg^(-1),14 d为28.76 mg·kg^(-1);蚯蚓体内超氧化物歧化酶(SOD)随暴露时间、浓度增加总体呈下降趋势(P<0.01),而过氧化氢酶(CAT)和丙二醛(MDA)呈缓慢上升趋势(P<0.01);当2.4-DCP暴露浓度为15 mg·kg^(-1)时,14 d可使蚯蚓表皮细胞发生凹陷并破裂,浓度达到25 mg·kg^(-1)时,蚯蚓表皮细胞丧失规则细胞排列结构,肠上皮细胞发生细胞间隙扩大和破裂现象;2.4-DCP浓度越高,对蚯蚓的行为特征影响越明显;2.4-DCP在添加蚯蚓和未添加蚯蚓土壤中的降解动力学均符合一级动力学模型,在添加蚯蚓土壤中的降解速率(0.20 d^(-1))明显高于未添加(0.08 d^(-1));2.4-DCP可抑制土壤微生物群落多样性,但蚯蚓活动、蚓粪的产生可分别增加土壤中一些具有降解有机物功能的好氧、厌氧菌属丰度.本研究旨在揭示2.4-DCP与土壤动物及微生物的相互作用关系,为综合评价2.4-DCP的毒性和风险提供理论参考.

砷和全氟辛酸对赤子爱胜蚓的联合毒性效应

将赤子爱胜蚓(Eisenia fetida)暴露于亚致死剂量的砷酸盐(As(V))与全氟辛酸(PFOA)的单一及复合污染土壤中28d,分析2种毒物的生物积累和蚯蚓体内多种生物标志物的响应特征,以评估As(V)和PFOA的联合毒性效应.生物富集分析结果表明,土壤中As(V)和PFOA的共存可以增加砷的生物积累量,同时减少PFOA的生物积累.随着暴露水平的增加,大多数生物标志物都表现出显著变化,表明蚯蚓生长受到抑制,并产生了氧化损伤.采用综合生物标志物响应指数(IBR)来整合多种生物标志物响应,发现在As(V)与PFOA的单一及复合污染组中均存在显著的剂量-效应关系.之后,结合IBR和两种复合毒性指数,包括效应加和指数(EAI)和浓度加和指数(CAI),以评估As(V)与PFOA之间的毒性相互作用.结果表明,As(V)和PFOA的联合毒性效应取决于As(V)的暴露浓度,As(V)浓度较高时,复合污染在整个效应水平范围内表现为协同作用,而As(V)浓度较低时的复合毒性则随着效应水平的增加表现出从拮抗作用到协同作用的变化特征.As(V)是对蚯蚓生物标志物造成毒性影响的主要污染物,并影响了As(V)与PFOA的联合毒性效应.本文结果为As(V)和PFOA联合毒性的风险评估提供了有价值的信息.

土壤草铵膦污染诱导赤子爱胜蚓蛋白质氧化损伤

为评价施用草铵膦(GLA)可能给土壤生态环境带来的潜在风险,将制备的GLA人工污染土壤[0(对照)、10、20、40、80 mg·kg^(-1)]于室内老化3个月后置入赤子爱胜蚓,培养30 d后研究蚯蚓体内蛋白质的氧化损伤及其解毒机制。结果表明:与对照组比较,20、40 mg·kg^(-1) GLA污染土壤明显上调了蚯蚓体内NADPH氧化酶和CAT同工酶活性,同时促进了GSH的合成(P<0.05)。当GLA浓度增至80 mg·kg^(-1)时,SOD、APX、POD同工酶活性明显升高,而HSP70的合成和蚯蚓的体质量受到显著抑制。免疫印迹显示,在GLA浓度为10~40 mg·kg^(-1)时,蚯蚓体内蛋白羰基化产物明显增加,诱导了潜在的解毒机制。泛素和20S蛋白酶体的蛋白丰度总体上随着土壤GLA浓度的增加趋于升高。在GLA浓度为40~80 mg·kg^(-1)时,20S蛋白酶体、总蛋白酶、EPs同工酶和GSTs酶活性显著升高(P<0.05)。研究表明,土壤GLA污染诱导了赤子爱胜蚓蛋白质的氧化损伤,泛素-20S蛋白酶体、EPs同工酶、总蛋白酶和GSTs是其重要的解毒机制。

砷对蚯蚓的滤纸接触毒性及硒的调节作用

为探究重金属砷(As)对蚯蚓的滤纸接触急性毒性及硒(Se)的调节效果,将赤子爱胜蚓(Eisenia fetida)在不同Se(IV)浓度的基质(滤纸和土壤)中暴露适应后再进行As(V)的滤纸接触法急性毒性试验。结果表明:蚯蚓直接暴露于As染毒滤纸上的24、48 h的半致死浓度(LC50)分别为31.33、12.30μg/cm^(2);蚯蚓在Se浓度为0.5μg/cm^(2)的湿润滤纸上适应6 h后,As对其的LC_(50)分别为30.20μg/cm^(2)(24 h)和15.85μg/cm^(2)(48 h);蚯蚓在Se浓度为6、12 mg/kg的土壤中适应一周后,As对其的LC_(50)分别为34.67~35.48μg/cm^(2)(24 h)和18.62~21.88μg/cm^(2)(48 h)。蚯蚓经含Se滤纸和土壤适应后在48 h的LC50有所升高,说明Se能够在一定程度上提高蚯蚓短时间内对As的耐受能力。本研究为缓解土壤生物所受污染胁迫提供了新的研究思路与方法。

Effects of soybean oil exposure on the survival,reproduction,biochemical responses,and gut microbiome of the earthworm Eisenia fetida

With increasing production of kitchen waste,cooking oil gradually enters the soil,where it can negatively affect soil fauna.In this study,we explored the effects of soybean oil on the survival,growth,reproduction,tissue structure,biochemical responses,mRNA expression,and gut microbiome of earthworms(Eisenia fetida).The median lethal concentration of soybean oil was found to be 15.59%.Earthworm growth and reproduction were significantly inhibited following exposure to a sublethal concentration of soybean oil(1/3 LC50,5.2%).The activity of the antioxidant enzymes total superoxide dismutase(T-SOD),peroxidase(POD),and catalase(CAT)were affected under soybean oil exposure.The glutathione(GSH)content decreased significantly,whereas that of the lipid peroxide malondialdehyde(MDA)increased significantly after soybean oil exposure.mRNA expression levels of the SOD,metallothionein(MT),lysenin and lysozyme were significantly upregulated.The abundance of Bacteroides species,which are related to mineral oil repair,and Muribaculaceae species,which are related to immune regulation,increased within the earthworm intestine.These results indicate that soybean oil waste is toxic to earthworms.Thus,earthworms deployed defense mechanisms involving antioxidant system and gut microbiota for protection against soybean oil exposure-induced stress.

土壤锑胁迫下赤子爱胜蚓在个体和细胞水平的毒性效应

随着锑(Sb)矿的开采,Sb及其化合物对矿区周围生物暴露风险增大,Sb污染研究在国内外日益受到重视.为阐明矿区Sb污染土壤对周边生物的毒性效应,本文通过向人工土壤添加焦锑酸钾(KSbO6H6)模拟受污染土壤,分别探究了Sb对土壤无脊椎模式生物——赤子爱胜蚓(Eisenia fetida)存活、Sb富集、总蛋白、抗氧化系统酶、丙二醛(malondialdehyde, MDA)的影响,并利用生物标志物响应指数(biomarker response index, BRI)对Sb胁迫下蚯蚓的毒性效应进行综合评价.结果表明:(1)蚯蚓死亡率与土壤Sb浓度和暴露时间剂量效应关系明显,经计算蚯蚓56 d LC50为4 380.37 mg/kg.(2)蚯蚓对Sb仅有少量吸收,最高处理组(12 800 mg/kg)在暴露56 d后Sb富集量仅为213 mg/kg.(3)超氧化物歧化酶(superoxide dismutase, SOD)、过氧化物酶(peroxidase,POD)、MDA在暴露28 d内呈现先升高后降低的倒“U”型变化,过氧化氢酶(catalase, CAT)总体呈现“上升—下降—上升—下降”的变化趋势;总蛋白随时间和处理水平增加呈现不断下降趋势.(4)在暴露期间共计24个含Sb处理组中,20个处理受到中等及以下水平健康影响,仅有4个处理组BRI小于2.5,属于严重健康影响.研究显示,总蛋白、SOD、CAT、POD、MDA均对Sb比较敏感,Sb对赤子爱胜蚓的毒性效应不强,该研究结果可为我国土壤Sb污染提供关键毒理学数据.