镍胁迫对菹草(Potamoge toncrispus L.)活性氧及脯氨酸代谢的影响

本文以组织培养技术培养的菹草无菌苗为实验材料,研究了不同浓度(0、0.05、0.10、0.15、0.20 mmol/L)Ni2+胁迫对菹草过氧化氢(H2O2)、超氧阴离子(O2.-)和丙二醛(MDA)的含量、抗氧化系统、脯氨酸代谢途径的影响.结果显示:(1)Ni2+胁迫影响了活性氧水平,主要表现为H2O2和O2.-的大量积累;MDA含量也随着Ni2+浓度的升高呈上升趋势;(2)随着Ni2+浓度的升高,超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性及还原型谷胱甘肽(GSH)、非蛋白巯基(NP-SH)含量均表现为先升后降趋势;抗坏血酸(AsA)含量变化不明显;植物络合素(PCs)则表现为上升趋势;(3)脯氨酸代谢关键酶在Ni2+胁迫下表现为:鸟氨酸转氨酶(OAT)活性在0～0.10 mmol/L Ni2+胁迫下高于对照组;吡咯啉-5-羧酸合成酶(P5CS)活性在Ni2+大于0.10 mmol/L时,显著增加;脯氨酸脱氢酶(ProDH)活性无显著变化;脯氨酸(Pro)含量则均显著高于对照组.以上结果表明,Ni2+胁迫提高了活性氧的水平,加重了膜脂过氧化的程度,干扰了抗氧化系统的内在平衡;此外,低浓度Ni2+胁迫下菹草脯氨酸积量主要依赖于鸟氨酸途径,而高浓度下则主要依靠谷氨酸途径.     

汞胁迫对菹草无菌苗生理代谢的影响

以菹草(Potamogeton crispus L.)无菌苗为实验材料,研究其在不同浓度汞(Hg²⁺)的胁迫下,光合色素含量、叶绿体自发荧光强度、ATP酶活性及相关矿质营养元素(Ca、Mg、Na、K、Fe)的含量变化以及可溶性蛋白含量的变化,以探讨Hg²⁺胁迫对菹草无菌苗光合系统及相关生理指标变化的影响.研究表明:随着Hg²⁺浓度的增加,各种光合色素的含量均呈现下降的趋势,叶绿体自发荧光强度逐渐减弱;Na/K逐渐增大,Na⁺ K⁺-ATP酶活性逐渐降低,Ca²⁺ Mg²⁺-ATP酶活性呈先升后降趋势;可溶性蛋白含量先升后降.结果表明,菹草无菌苗在Hg²⁺胁迫下,光合及其它正常的生理过程遭到破坏,功能紊乱.     

外源钙对菹草(Potamogeton crispus L.)汞胁迫的影响效应

以组织培养的菹草无菌苗为实验材料,研究了外源Ca(NO₃)₂的添加对汞(Hg)胁迫下菹草体内Hg积累、矿质元素、光合色素、活性氧、丙二醛(MDA)、维生素C(V_C)、维生素E(V_E)、谷胱甘肽(GSH)以及多胺(PAs)代谢产生的影响效应机制.结果表明:(1)Hg胁迫下,菹草体内Hg大量积累,达165.79μg/g(FW),并伴随矿质元素P、K、Fe、Mg和Na含量的明显降低.外源Ca(NO₃)₂的添加很大程度上可抑制菹草体内Hg积累,使其降至110.15μg/g(FW),并减轻Hg胁迫所造成的元素失衡;(2)Hg胁迫使菹草体内光合色素含量及叶绿素a/b值大幅降低,并诱导积累大量超氧阴离子、过氧化氢及MDA,同时V_C、V_E和GSH含量显著提升.外源Ca(NO₃)₂的添加则减缓了菹草体内光合色素的分解,降低活性氧水平,减轻了膜脂过氧化程度,更使V_C、V_E及GSH含量在一定程度上恢复到正常水平;(3)Hg胁迫下,伴随着多胺氧化酶、二胺氧化酶和精氨酸脱羧酶活性的显著提升以及鸟氨酸脱羧酶活性的降低,导致菹草体内腐胺(Put)、精胺(Spm)含量明显降低,亚精胺(Spd)含量及游离态(Spd+Spm)/Put比值轻微增加.而外源Ca(NO₃)₂添加后,菹草通过调节体内PAs代谢酶活性,改变了Hg胁迫下PAs含量变化,主要表现为Put、Spm含量回升显著,游离态(Spd+Spm)/Put比值进一步升高.综上所述,外源Ca的添加可抑制Hg的吸收并参与调节多胺代谢,通过内源多胺含量的改变抑制了植物体内活性氧的积累、膜脂过氧化、光合色素及抗氧化物质的分解,增强菹草无菌苗对重金属Hg的耐受力,对减轻植物Hg胁迫有重要作用.     

过量Zn2+对水花生(Alternanthera philoxeroides)愈伤组织氧化胁迫及多胺代谢的影响

以植物组织培养技术培养的水花生愈伤组织为实验材料,研究了过量Zn2+(0、0.2、0.4、0.8、1.6 mmol/L)对水花生愈伤组织的氧化损伤及多胺代谢的影响.结果表明,随着Zn2+浓度增加:(1)水花生愈伤组织的超氧阴离子产生速率和硫代巴比妥酸反应物水平显著提升,超氧化物歧化酶活性明显抑制,叶绿素a含量显著降低;(2)精氨酸脱羧酶和鸟氨酸脱羧酶活性均升高,多胺氧化酶和二胺氧化酶活性在低Zn2+浓度处升高、高Zn2+浓度处降低;(3)总腐胺和总精胺含量在低Zn2+浓度处降低、高Zn2+浓度处增加,总亚精胺含量仅在Zn2+浓度为1.6 mmol/L时有显著增加;(4)游离态腐胺含量变化与总腐胺含量相似,游离态亚精胺含量在高Zn2+浓度时下降,游离态精胺含量仅在Zn2+浓度为0.2 mmol/L时略有下降;(5)结合态腐胺和精胺在Zn2+浓度为0.2 mmol/L时下降而在其余处理组中上升,结合态亚精胺含量各处理组中均增加;(6)束缚态腐胺和亚精胺含量均下降.可见,过量Zn2+胁迫导致水花生愈伤组织氧化性损伤,并扰乱其多胺代谢平衡;束缚态多胺向结合态多胺的转化是过量Zn2+胁迫下水花生愈伤组织多胺代谢变化的一个显著特征;以结合态为代表的内源性多胺积累对水花生愈伤组织抵抗过量Zn2+胁迫具有重要意义.     

华北平原北部全新世沉积中某些元素的分布规律

本文根据钻孔岩芯化学分析资料,研究了华北平原北部全新世沉积地层中化学元素Fe、Mn、Ca、Mg、Cu、Ni、Zn、B等以及CaCO_3的分布,它们的迁移和积累受制于气候条件,沉积环境以及海洋等多种因素的控制。在全新世早、中、晚三个沉积阶段中,元素Ca、Mg以及CaCO_3的含量具有高—低—高的分布特征,而元素Fe、Mu、Cu、Ni、Zn和B则表现出低—高—低的变化趋势     

风浪扰动对太湖水体悬浮物重金属含量的影响

通过离心浓缩的方法,获取太湖梅梁湾口东岸处(即梅梁湾与贡湖湾的交界处)不同风浪条件下的悬浮颗粒物．冷冻干燥,微波消解,ICP-AES的方法测定了其中Co、Cr、Cu、Ni、Pb、Zn等重金属元素及Al、Ca、Fe、Mn等相关金属元素的含量．结果发现,小风浪(2 m/s)、中风浪(7 m/s)和大风浪(11 m/s)下：①水体总悬浮颗粒态金属的量依次大幅度增加;②单位悬浮颗粒物中各金属元素的含量在不同风浪下变化不同．Ca在小、中、大风浪下含量依次增大;Zn在小、中、大风浪下含量依次减少;Mn和Cu的含量变化趋势相同：与小风浪相比,中风浪下Mn、Cu的含量显著增大;与中风浪相比,大风浪下含量显著减少;其它元素Al、Fe、Ni、Pb、Co、Cr等在单位悬浮物中,中风浪与小风浪相比含量减少,大风浪与中风浪相比含量略微增加．研究表明：①金属元素在水体总悬浮物中的含量主要受风浪影响,但风浪对单位悬浮物中金属含量的影响则因元素而异;②除Cu、Mn、Zn外,悬浮物中重金属含量随粒径增大含量减少．     

云南属都湖沉积物金属元素地球化学

通过对属都湖短岩芯Esdrl重金属元素的分析,结合沉积物粒度、流域降水和人类活动资料,讨论属都湖沉积物金属元素地球化学变化特征.结果表明.沉积物中AI、Mg、Co、Zn、Cr、Ti、V、Cu、Ni等元素含量变化与粘土含量、夏季降水量显著相关,降水导致的流域侵蚀强弱变化是影响元素含量变化的主要因素.元素Pb含量从岩芯底部到顶部总体呈上升趋势,25-17.5cm沉积物中Pb含量较稳定主要为自然侵蚀过程控制;17.5-10.5cm沉积物中Pb含量迅速增加后逐渐降低推测为20世纪50年代湖区附近矿山开采产生的粉尘沉降的影响;10.5-Ocm Pb含量逐渐增加,80年代以后大气中Pb含量上升.Pb在漉域的干湿沉降应是岩芯上部Pb含量升高的原因.在氧化还原作用下沉积物中Fe、Mn易在沉积物一水界面发生再迁移.25-7.5cm沉积物中的Fe、Mn含量变化特征为沉积后再迁移作用的结果;7.5-0cm Fe和bin含量明显上升,夏季降水量增加导致流域侵蚀增强和土壤的潜育化可能是岩芯上部Fe、Mn含量显著上升的原因.     

南海西北陆缘大型多金属结核的生长过程及其对晚新生代古海洋环境变化的响应

由于新生代巨量陆源物质的堆积,发育完好的多金属结核在南海北部罕见.对南海西北陆缘大型多金属结核进行了矿相显微镜观察,电子探针、X射线粉晶衍射(XRD)、等离子质谱(ICP-MS)等方面的分析和铍同位素测年.结核壳层显微结构类型丰富,呈现柱状、纹层状、叠层状、花瓣状、斑杂状等类型;主要矿物为δMnO2.与东太平洋海盆结核相比,南海样品Fe,Si,Al和REE(稀土元素)含量高,Mn,Cu,Co和Ni含量低,Mn/Fe低;REE平均含量达1370.4ppm,存在较强的Ce正异常;铍同位素测年显示结核的初始生长时间约为3.29～1.83Ma,形成结核的内致密层,纹层状和叠层状构造发育,陆源属性的Fe,Si,REE和Al等含量较低,反映底流活动和氧化条件较弱的古海洋环境.1.83～0.73Ma,结核生长速率提高了约3%,显微结构为叠层状和柱状构造,Si和Al等组分含量升高近10%,指示南海北部陆源物质向海输入的增加;但Ce含量下降约16%,代表海底氧化程度明显降低.0.73～0.69Ma,结核生长速率急剧升高,达平均生长速率的8.27倍,壳层中Fe,Al和REE等含量也迅速上升,形成以鲕状、颗粒状、斑杂状、花瓣状为特征的疏松层,指示南海北部出现沉积速率升高、陆源物质供应充分的古海洋环境;0.69～0.22Ma,结核生长速率骤然减慢,形成外致密层,壳层中Fe,Si,REE,Al及Mn,Cu,Co和Ni等元素含量均明显降低,壳层以纹层状和裂隙充填构造为特征,反映底流活动平稳、环境氧化强度减弱等不利于结核生长的古海洋环境.结核S04-1DG-1的生长历史,对新生代末期南海北部古海洋环境的变化产生了灵敏的响应.     

不同pH处理对菹草(Potamogeton crispus L.)Cr6+毒害效应的影响

对Cr⁶⁺胁迫条件下不同pH处理对菹草无菌苗元素、光合色素、活性氧、丙二醛、抗氧化酶、脯氨酸(Pro)及多胺(PAs)含量的影响进行研究,以探讨不同pH处理影响水生植物Cr⁶⁺毒害效应的机制.结果表明:(1)偏酸性pH处理加剧菹草对铬的蓄积,而pH为7.0时Cr⁶⁺胁迫所造成的矿质元素失衡有所减弱;(2)Cr⁶⁺胁迫下pH为6.0~8.0的处理延缓了菹草的失绿症状,促进了光合色素的合成;(3)Cr⁶⁺胁迫下菹草超氧化物歧化酶、过氧化氢酶的活性在pH为6.0和7.0的处理组诱导程度最小;(4)Cr⁶⁺胁迫下pH为6.0和7.0处理的菹草Pro含量显著提高;(5)pH为4.0和5.0的处理使腐胺(Put)含量显著提高,而pH为6.0和7.0的处理则促进亚精胺(Spd)含量及游离态(Spd+Spm)/Put比值上升,精胺(Spm)含量总体趋势为随pH值升高而逐步上升,仅在pH为4.0和5.0的处理组中低于Cr⁶⁺胁迫对照组.因此,pH条件可影响菹草对铬及营养元素的积累,抗氧化酶、Pro、PAs代谢等生理生化过程,导致铬毒性效应差异.在pH为6.0~7.0的范围内,菹草能调节抗氧化酶系统,较有效地清除体内活性氧,提高机体中Pro、PAs含量及游离态(Spd+Spm)/Put比值,减轻膜系统脂质过氧化,维持机体内矿质元素平衡,致使毒性效应达到最小程度.     

铜胁迫对菹草无菌苗多胺及活性氧代谢的影响

本文研究了不同浓度Cu2+(0、1、2、4、8、12μmol/L)对菹草无菌苗多胺(PAs)及活性氧代谢的影响.结果表明,随着Cu2+处理浓度的升高:(1)菹草无菌苗植株的超氧化物歧化酶(SOD)活性逐渐上升,过氧化物酶(POD)和过氧化氢酶(CAT)活性则表现为先升后降;(2)超氧阴离子(O2.-)产生速率逐渐增大,过氧化氢(H2O2)和丙二醛(MDA)有所积累,可溶性蛋白含量降低;(3)游离态多胺含量与多胺总含量的变化一致,均表现为腐胺(Put)含量先升后降,亚精胺(Spd)含量逐渐降低,精胺(Spm)含量逐渐上升;游离态多胺(Spd+Spm)/Put的比值在高浓度Cu2+胁迫时迅速上升;结合态Put和Spm的含量变化与游离态的变化一致,而结合态Spd的含量与对照相比均略有上升;束缚态Put和Spd含量先升后降,而Spm含量则逐渐降低;(4)精氨酸脱羧酶(ADC)、多胺氧化酶(PAO)和二胺氧化酶(DAO)活性均表现为先升后降,而鸟氨酸脱羧酶(ODC)活性变化不明显.可见,Cu2+对菹草无菌苗造成了明显的氧化胁迫,抗氧化酶活性的升高,Spm含量的升高,Put向Spd和Spm的转化以及不同状态多胺之间的转化,在菹草无菌苗抵抗Cu2+胁迫过程中发挥着重要的作用.     

Hg2+对水鳖(Hydrocharis dubia)叶片生理生化及超微结构的毒害效应

研究了不同浓度Hg^2 对水鳖叶片光合放氧速率,呼吸速率、细胞膜透性、硝酸还原酶活性以及超微结构的毒害影响,结果表明,随着Hg^2 浓度的增加,水鳖叶片的光合放氧速率逐渐下降,呼吸速率、硝酸还原酶活性先升后降,而细胞膜透性则逐渐上升,电镜观察发现,水鳖叶细胞受Hg^2 毒初期,染色质凝集,叶绿体中类囊体片层以及线粒体嵴突膨胀,随着叶细胞遭受毒害程度的加深,核膜破裂,染色质与核质消失,叶绿体膨胀解体,线粒体空泡化。     

低浓度硝态氮促进微囊藻累积多聚磷酸盐

2016年以来太湖总磷浓度高位波动而总氮浓度持续下降,藻细胞内源性磷释放是湖泊水体总磷的重要来源,而多聚磷酸盐作为藻细胞内磷的储存库,其含量变化会显著影响藻细胞内源性磷的释放量.针对上述现象,开展了不同硝态氮浓度影响野外水华蓝藻及实验室纯培养的铜绿微囊藻(Microcystis aeruginosa)利用磷特别是合成多...     

The toxicity and oxidative stress of TiO2 nanoparticles in marine abalone (Haliotis diversicolor supertexta)

The increasing use of nanotechnology highlights the need to understand and clarify the environmental impacts of nanomaterials. In this study, the acute toxicity and oxidative stress of titanium dioxide nanoparticles (nTiO₂) in mature marine abalone (Haliotis diversicolor supertexta) were assessed. No acute effect was found in any of the treatment groups with nTiO₂ concentration gradients ranging from 0.1 to 10 mg/L. However, the activity of an antioxidant enzyme superoxide dismutase (SOD) significantly increased in the group that was exposed to 1.0 mg/L nTiO₂. The content of a non-enzymatic antioxidant, glutathione (GSH), significantly decreased in the groups with an nTiO₂ concentration ⩾1.0 mg/L. The level of lipid peroxidation (LPO) was found to increase as the nTiO₂ dose increased. Furthermore, NO was produced in excess in abalone. These results demonstrated that, although nTiO₂ is not acutely toxic to abalone, it does exert oxidative stress on abalone.     

盐度对湖冰冻结过程中氮磷营养盐排出效应的影响

伴随结冰过程的盐分排出是驱动冰封浅湖营养盐动态变化的关键过程,影响湖泊水质、环境与生态演变.为探究湖冰冻融过程如何改变寒区浅湖营养盐条件,采用自制定向冻结装置开展了无机氮磷营养盐溶液(NH₃-N、NO^-₂-N、NO^-₃-N、PO^3-₄-P)的室内冻结试验,结合现场采样分析评估了冻结排出效应对典型浅湖氮磷营养盐的影响.结果表明:营养盐浓度、盐度(以NaCl表征)是影响冻结排出效率的关键因素;随营养盐浓度的升高,冰内营养盐浓度升高,但冻结分离系数减小;若盐度升高,冰内营养盐浓度和分离系数均增大,主要与未冻卤水泡的形成有关;3种形态的无机氮、磷酸根的分离系数均存在明显差异.将试验结果应用于内蒙古乌梁素海结冰期氮磷营养分析,计算表明湖冰冻结排盐过程不仅造成湖水各类营养盐浓度升高,同时改变无机氮素构成、氮磷比等营养结构状态;特别是若湖泊盐度发生变化,氮磷营养盐的冻结排出效率及其差异性均会显著改变,增加冰封期湖泊营养条件的时空变异性.本文结果可广泛应用于定量评价冰层冻融过程对冬季湖泊营养条件的影响,有助于理解冰封期浮游植物群落演变的内在驱动力.     

Accumulation of Heavy Metals by Chickpea Grown in Fly Ash Treated Soil: Effect on Antioxidants

Chickpea grown in fly ash (FA) treated soil (25, 50, and 100% FA) was used to evaluate the effect of FA on antioxidants, metal concentration (Fe, Zn, Cu, Cr, and Cd), photosynthetic pigments (chlorophyll a (chl‐a), chlorophyll b (chl‐b), total chlorophyll (total chl), and carotenoids), growth and yield performance. All antioxidants in roots, shoots and leaves of chickpea increase with increasing FA doses to combat FA stress. The activities of antioxidants were more in the root tissues to cope with stress induced in the plants as compared to shoot and leaf. Concentration of metals was found maximum in roots than the shoots and seeds. The highest concentration of Fe and lowest level of Cd were recorded in all treatments of FA for different parts of the plant. The treated crop showed reduced level of chlorophyll but enhanced level of carotenoids and protein. However, root length, number of nodules and biomass in 25 and 50% FA treatments did not differ significantly in comparison to respective control plants. These results suggest that heavy metals of FA causes oxidative stress in this crop and the antioxidant enzymes could help a pivotal role against oxidative injury.     

Fractionation of Ni,Cr and Cu from Soil by Sequential Extraction Procedure and Determination by Inductively Coupled Plasma Optical Emission Spectrometry

Five‐step sequential extractions were employed to fractionation of Ni, Cr and Cu in soil polluted by anthropogenic activities and determine the mobility of the metals. Twelve samples were collected on an agricultural area that was located near an airport and intercity roads in Elazig‐Turkey. Exchangeable, organically bounded, carbonate bounded, adsorbed species on Fe and Mn oxides and residual species (except silicates) of Ni, Cr and Cu were extracted into solution by using CaCl₂, Na₄P₂O₇, Na₂EDTA, NH₂OH–HCl and HNO₃–H₂O₂, respectively. Mobile metal concentrations in fractions and total recoverable in soils were determined by using inductively coupled plasma‐optical emission spectrometry (ICP‐OES). Total recoverable Ni, Cr and Cu concentrations were in the range of 40–119, 45–126 and 23–72 mg kg^?1, respectively. It was observed that total concentrations of metals in some of the samples were higher than the permitted values. The sum of the mobile percentages of metals was found to be lower than 50%. The Ni, Cr and Cu percentages for exchangeable species are in the ranges of 0.18–1.64, 0.03–0.59 and 0.42–2.53%, respectively.     

Removal of Ni(II) Using Cation Exchange Resins in Packed Bed Column: Prediction of Breakthrough Curves

Sorptive removal of Ni(II) from electroplating rinse wastewaters by cation exchange resin Dueolite C 20 was investigated at the temperature of 30°C under dynamic conditions in a packed bed. The effects of sorbent bed length 0.1–0.2 m, fixed flow rate 6 dm³ min^?1, and the initial rinse water concentration (C₀) 53.1 mg L^?1 on the sorption characteristics of Dueolite C 20 were investigated at an influent pH of 6.5. More than 94.5% of Ni(II) was removed in the column experiments. The column performance was improved with increasing bed height and decreasing the flow rate. The Thomas, Yoon–Nelson, Clark, and Wolborska models were applied to the experimental data to represent the breakthrough curves and determine the characteristic design parameters of the column. The sorption performance of the Ni(II) ions through columns could be well described by the Thomas, Yoon–Nelson, and Wolborska models at effluent‐to‐influent concentration ratios (C/C₀) >0.03 and <0.99. Among the all models, the Clark model showed the least average percentage time deviation. The sorptive capacity of electroplating rinse water using Ni(II) was found to be 45.98 mg g^?1.     

Investigation of trace metals distribution in water,sediments and wetland plants of K(i)z(i)l(i)rmak Delta,Turkey

In this study,accumulation and distribution of Pb,Cu,Zn,Co,Ni,Mn and Fe in water,bottom sediments and four plant species (Myriophyllum verticillatum,Hydrocharis morsus-ranae,Nymphaea alba and Typha latifolia) were investigated in (C)ernek Lake of Kizihrmak Delta.The Kizdirmak Delta is one of the largest natural wetlands of Turkey and it is protected by the Ramsar convention since 1993.Selected physico-chemical parameters such as pH,conductivity and dissolved oxygen and also trace metal concentrations were monitored in water.All the parameters obtained were found higher than that of the national standards for the protected lakes and reserves.The accumulated amounts of various trace metals in bottom sediments and wetland plants were found in the following order of Fe ＞ Mn ＞ Zn ＞ Ni ＞ Co ＞ Cu ＞ Pb and Fe ＞ Mn ＞ Zn ＞ Ni ＞ Co respectively.The historical trace metal intake of Myriophyllum verticillatum,Hydrocharis morsus-ranae,Typha latifolia and Nymphaea alba were obtained higher than that of the toxic metal levels and these plants may be accepted as accumulators for the detected trace metals and also bioindicators in the historically polluted natural areas.