A three-dimensional model for the transportation of Fe and Mn in Arha Reservoir

Coupling with a three dimensional (3D) hydrodynamic model and a suspended solids model, a 3D model for the transport of Fe and Mn in Arha Reservoir, China, was developed. The 3D velocity fields for the flood season are computed to drive the 3D model of Fe and Mn in which the processes of advection, diffusion, redox, sorption, desorption, deposition, and re suspension are included. The model has been calibrated by matching observed fluid, suspended solids, and total concentrations of Fe and Mn in the water column and in the sediment, successively. The model simulated both horizontal and vertical gradients of Fe and Mn in Arha Reservoir. It was found that Fe and especially Mn stratify in accordance with the stratification of DO during summer. The redox cycles across the water sediment interface has a principal role in the rise of Fe and Mn concentrations in the overlying water. It was also found that Fe and Mn loadings from the tributaries have a carryover effect on the water quality through a secondary contamination in the reservoir.

Optical properties of ZnO and Mn-doped ZnO nanocrystals by vapor phase transport processes

In this paper we investigated the optical properties of ZnO and Mn doped ZnO nanocrystals that were fabricated by a vapor phase transport growth process, using zinc acetate dihydrate with or without Mn in a constant O2/Ar mixture gas flowing through the furnace at 400600℃, respectively. The as grown ZnO nanocrystals are homogeneous with a mean size of 19 nm observed by scanning electron microscope（SEM）. The optical characteristics were analyzed by absorption spectra and photoluminescence（PL） spectra at room-temperature. For ZnO nanocrystals, a strong and predominant UV emission peaked at 377 nm was found in the PL spectra. For Mn doped ZnO nanocrystals, in addition to the strong UV emission, a strong blue emission peaked at 435 nm was observed as well. By doping Mn ions, the major UV emission shifts from 377 nm to 408 nm, showing that Mn ions were not only incorporated into ZnO Ncs, but also introduced an impurity level in the bandgap. Moreover, with the concentration of Mn increasing, the relative intensities of the two emissions change largely, and the photoluminescence mechanism of them is discussed.

水库三维Fe、Mn迁移模型——阿哈水库实例研究

通过描述Ｆｅ、Ｍｎ在水库中的氧化还原变化、吸附、解吸、沉降及再悬浮，考虑水流运动对Ｆｅ、Ｍｎ迁移变化的影响，研制了水库三维水动力模式及三维Ｆｅ、Ｍｎ迁移变化模式，从而建立了完整的水库三维Ｆｅ、Ｍｎ迁移分布模拟模型。该模型在阿哈水库实际运用效果良好。模拟结果表明，水库水流运动整体流速较小，Ｆｅ、Ｍｎ在水库中平行迁移运动缓慢。进入水库的Ｆｅ、Ｍｎ负荷大量沉入库底，在水体缺氧条件下，底质中Ｆｅ、Ｍｎ重新释放，形成明显的Ｆｅ、Ｍｎ分布垂直梯度，造成水库下层Ｆｅ、Ｍｎ大大超过国家生活饮用水质量标准。

乳状液膜迁移、分离Mn（Ⅱ）的研究

用二（２－乙基己基）磷酸酯－ＳＰＡＮ８０－甲苯乳状液膜体系研究了Ｍｎ（Ⅱ）的迁移行为，确定了完全、快速、迁移Ｍｎ（Ⅱ）的迁移行为、制乳及迁移条件，在此条件下，Ｍｎ（Ⅱ）与Ｆｅ（Ⅱ）可完全分离．

MntH与含锰过氧化氢酶共表达基因工程菌的构建与发酵优化

构建Mn2+转运蛋白MntH与来源于Thermus thermophilus HB27的含锰过氧化氢酶的共表达基因工程菌,并进行了发酵培养基及培养环境条件的优化,确定培养基中最佳的碳氮源种类及其浓度分别为:甘油7.0 g/L,酵母粉3.75 g/L和蛋白胨11.25 g/L;当培养基中的Mn2+浓度为1 mmol/L时,最佳的IPTG诱导浓度为0.05 mmol/L。此外,最佳的培养基初始p H值及培养温度分别为:p H 8.0和37℃,在最优发酵条件下工程菌摇瓶发酵培养24 h,过氧化氢酶活最高可达476 U/m L是未优化前3倍。在5 L发酵罐的验证实验中,过氧化氢酶的酶活进一步提高至1 094 U/m L。

ZnS:Mn薄膜电致发光器件中的电子能量

分析了电致发光的物理过程，讨论了用MonteCarlo方法研究电子加速过程的基本思路。在此基础上，研究了ZnS：Mn薄膜电致发光器件中的电子能量，得出了电子功能分布函数与时间、电场的关系及其在不同能谷中的特点。同时研究了电子的平均动能、平均势能与电场的关系。

稀土锰氧化物的Mn位掺杂效应

Mn位掺杂是调整稀土锰氧化物中Mn^3＋-O^2--Mn^4＋网络的一种十分有效的方法，对理解稀土锰氧化物材料的物理机制和微观机理具有重要作用。在Ln1-xAxMnO3体系中，当x=0．3左右时，Mn位微量掺杂即可破坏原有的长程铁磁有序与金属性共存，而产生团簇玻璃型（短程）铁磁有序行为；多数情况下，TP降低，对应的峰值电阻率ρp急剧升高，居里温度Tc降低，CMR效应增强。当x=0．5时，通过在Mn位掺杂可以使反铁磁绝缘母体产生铁磁金属性行为；电阻率急剧降低，出现CMR效应。

MnCl2滴鼻后大鼠嗅球中锰、钙分布的关联性研究

采用MnCl2滴注大鼠鼻腔,分析嗅球截面上锰、钙等分布及其关联性,探讨锰示踪激活钙的神经通路机理。结果表明:嗅球中锰、钙分别比滴鼻前增加54%和85%,呈现出外周各层高,中间嗅室、室管膜内低的盆地状关联分布。钙的增长区域比锰更深,达颗粒细胞层。嗅球腹外侧的锰及腹侧、外旁侧各层的钙增长显著;内侧各层的锰、钙虽多但变化小,各区神经密度差异影响Mn2+、Ca2+的传入与分布,说明Mn2+跨神经元传递时会损失。特定区域缺乏结合Mn2+的投射神经导致Mn2+、Ca2+含量低、变化小。Mn2+通过Ca2+通道和微管运输进入嗅神经细胞后抑制Ca2+外流,并跨突触传递到嗅球外周各层神经是Mn2+、Ca2+关联和增加的部分机制。

(Ga,Mn)As磁电输运性质的研究进展

综述了Ⅲ-Ⅴ族稀磁半导体(Ga,Mn)As磁电性质的研究进展,尤其是(Ga,Mn)As单层膜和多层膜结构的磁电输运性质的详细研究状况。关于(Ga,Mn)As的结构与物理性质的信息可由单层膜的反常霍尔效应、平面霍尔效应、电阻对温度的依赖关系与磁阻各向异性等磁电输运性质测量得到;而多层膜中观察到的自旋阀效应、自旋相关散射与层间交互耦合等现象,对加深稀磁半导体的基本物性认识、拓展稀磁半导体的实际应用空间非常重要。最后总结并展望了(Ga,Mn)As未来的发展趋势。

Mn^(4+)掺杂对CdO多晶电、热输运性能的影响

利用固相烧结法制备了Cd_(1-x)Mn_xO(x=0、0.1%、0.3%、0.5%、0.7%)多晶块体样品并研究了Mn^(4+)掺杂对CdO多晶高温电、热输运性能的影响.实验发现,随着Mn^(4+)掺杂量的增加,样品的载流子浓度和迁移率同时增大,导致其电阻率降低、塞贝克系数变大;Mn^(4+)掺杂虽然可以降低CdO的声子热导率κp,但因为电子热导率κe的大幅上升从而使样品的总热导率κ升高.本研究结果为CdO热电性能的进一步调控及优化提供了基础.

微量元素锰在天津浅层孔隙含水介质中的吸附模式与迁移性能

为了解天津浅层孔隙含水介质对锰的吸附特征和锰在地下水中的迁移运动规律,利用宝坻和大港地区的2个钻孔岩芯配制7个土样,以Mn(NO3)2溶液模拟污染源,进行了室内静态吸附实验与动态淋滤实验,实验结果表明:(1)该地区浅部不同岩性地层对锰的吸附模式符合Langmuir等温吸附模式;(2)锰在淡水区含水层中迁移10m需要900d,在咸水区含水层中迁移10m需要1500d,个别地点锰的超标不会造成大面积污染。

位错载氢运动对材料氢脆行为的影响

位错载氢运动会导致金属结构材料中氢原子的再分布和氢损伤的加剧,但目前仍缺乏相关实验数据支撑。本文首先对比了高锰钢预充氢后在四种应变速率(1×10^(-3) s^(-1),1×10^(-4) s^(-1),1×10^(-5) s^(-1)和1×10^(-6) s^(-1))下的断口特征,随后结合理论计算探究了不同应变速率下位错载氢对金属材料氢脆行为的影响。结果表明较慢应变速率(1×10^(-5) s^(-1) and 1×10^(-6) s^(-1))下拉伸的试样具有比较快应变速率(1×10^(-3) s^(-1)和1×10^(-4) s^(-1))拉伸时更高的氢脆敏感性和更大的断口脆性区面积。这是因为较慢应变速率下拉伸时,氢可以随位错运动,导致在塑性变形过程中形成更大的氢原子扩散距离和脆性区深度。此外,在更慢的应变速率(1×10^(-6) s^(-1))下,晶界处可以富集更多的氢,导致断口具有最大的脆性区面积。但是由于塑性变形过程中形成大量对氢原子具有强束缚作用的缺陷,导致实际位错载氢运动距离远低于理论位错载氢运动距离。

Marsh Spot Disease and Its Causal Factor, Manganese Deficiency in Plants: A Historical and Prospective Review

This review provides an examination of the marsh spot disease in beans and the roles played by its causal factor, manganese (Mn) deficiency. The discovery of the marsh spot disease, its relation with Mn deficiency, and how it can be treated are discussed. Mn serves as a cofactor and a catalyst in various metabolic processes in different cell compartments, such as the oxygen-evolving complex of photosystem II (PSII) or reactive oxygen species scavenging. Some major quantitative trait loci (QTL) and putative candidate genes associated with Mn content in plants, especially in plant seeds, have been identified. Marsh spot disease in cranberry common bean is controlled by several major genes with significant additive and epistatic effects. They provide valuable clues for QTL candidate gene prediction and an improved understanding of the genetic mechanisms responsible for marsh spot resistance in plants.

水稻OsNramp4介导锰离子吸收和转运的功能分析

锰(Mn)是植物生长发育必需的矿质营养元素。水稻天然抗性相关巨噬细胞蛋白(natural resistance-associated macrophage protein, OsNramp)家族有7个成员,其中4个具有Mn^(2+)转运活性。OsNramp4已被鉴定为一个铝离子转运蛋白,但尚未报道其是否具有Mn^(2+)转运活性。本文利用Mn^(2+)吸收突变株Δsmf1进行OsNramp4功能互补实验,分析OsNramp4对Mn^(2+)的响应,研究环境Mn^(2+)胁迫对敲除突变体nramp4的生长势以及Mn^(2+)吸收和转运的影响。结果显示:OsNramp4能互补Δsmf1的Mn^(2+)吸收缺陷表型;水稻根部OsNramp4的表达受Mn^(2+)的诱导;高Mn^(2+)胁迫下, nramp4的长势明显优于野生型对照,突变体地上部Mn^(2+)含量显著低于野生型,且根-茎Mn^(2+)转运率明显低于野生型,暗示OsNramp4可能作为一个低亲和性Mn^(2+)转运蛋白,具有在高Mn^(2+)环境下吸收Mn^(2+),并由根部向地上组织运输Mn^(2+)的功能。本研究结果对深入探讨植物Mn^(2+)吸收、转运和分配的分子机制具有重要意义。

纳米材料锰掺杂量子点中的近藤效应

采用非平衡格林函数方法,探讨了量子点掺杂锰原子纳米材料的低温输运特性。结果表明,输运受到掺杂锰原子的强烈影响。具体来说,在微分电导中出现(2S+1)个近藤劈裂峰,锰原子表现为一个多值量子化有效磁场,导致这种劈裂。

Co替代Mn的La_(0.4)Ca_(0.6)Mn_(1-x)Co_xO_3的磁电性质及电荷有序相

用固相反应法制备La0.4Ca0.6Mn1-xCoxO3(x=0.02,0.04,0.06,0.08,0.10,0.12)系列样品,用X射线衍射(XRD)探测样品的结构,通过电阻率-温度(ρ-T)曲线、磁化强度-温度(M-T)曲线、电子自旋共振(ESR)谱,研究Co替代Mn对La0.4Ca0.6Mn O3磁电性质及电荷有序相的影响。结果表明:XRD图谱显示所有样品均形成良好的单相,没有任何杂相出现,说明Co已经进入Mn位并结晶良好;随Co替代量的增大,电阻率逐渐减小;随Co替代量的增大,反铁磁性减弱,铁磁性增强;x=0.02的样品,电荷有序相已基本融化,还有一些电荷有序相的残留,x=0.06的样品,电荷有序相完全融化。物理机制是,Co3+的电子结构是3d6,符合Oh对称,它不是Jahn-Teller(JT)离子,因为Co3+不是JT离子,所以Co3+替代Mn3+抑制了JT畸变。JT畸变减弱引起的影响:一方面使Mn3+—O2-—Mn4+键长缩短,键角增大,有利于双交换;另一方面,Mn3+的两个eg轨道劈裂产生带隙,Co3+替代Mn3+使带隙减小,提高了材料的导电性,使体系反铁磁性减弱铁磁性增强,从而破坏电荷有序相。

Ca^(2+)-dependent successive phosphorylation of vacuolar transporter MTP8 by CBL2/3-CIPK3/9/26 and CPK5 is critical for manganese homeostasis in Arabidopsis

Manganese(Mn)is an essential micronutrient for all living organisms.However,excess Mn supply that can occur in acid or waterlogged soils has toxic effects on plant physiology and development.Although a variety of Mn transporter families have been characterized,we have only a rudimentary understanding of how these transporters are regulated to uphold and adjust Mn homeostasis in plants.Here,we demonstrate that two calcineurin-B-like proteins,CBL2/3,and their interacting kinases,CIPK3/9/26,are key regulators of plant Mn homeostasis.Arabidopsis mutants lacking CBL2 and 3 or their interacting protein kinases CIPK3/9/26 exhibit remarkably high Mn tolerance.Intriguingly,CIPK3/9/26 interact with and phosphorylate the tonoplast-localized Mn and iron(Fe)transporter MTP8 primarily at Ser35,which is conserved among MTP8 proteins from various species.Mn transport complementation assays in yeast combined with multiple physiological assays indicate that CBL-CIPK-mediated phosphorylation of MTP8 negatively regulates its transport activity from the cytoplasm to the vacuole.Moreover,we show that sequential phosphorylation of MTP8,initially at Ser31/32 by the calcium-dependent protein kinase CPK5 and subsequently at Ser35 by CIPK26,provides an activation/deactivation fine-tuning mechanism for differential regulation of Mn transport.Collectively,our findings define a two-tiered calcium-controlled mechanism for dynamic regulation of Mn homeostasis under conditions of fluctuating Mn supply.

耐辐射球菌基因DR1709与DR2523的突变分析(英文)

【目的】检测在耐辐射球菌抵抗外来辐射和氧自由基的过程中,锰离子转运蛋白基因(DR1709和DR2523)是否发挥了作用。探讨锰离子、锰离子转运蛋白基因与耐辐射球菌辐射抗性之间的关系。【方法】分别构建这两个基因的突变体。对突变体和野生型进行紫外线照射和过氧化氢处理。对处理后的菌株存活率进行分析。【结果】DR2523被突变以后,耐辐射球菌在tryptone-glucose-yeast extract(TGY)培养液中的生长受影响很小。而DR1709突变体M1709在对数生长阶段的生长速度远低于野生型。用紫外线和过氧化氢处理以后,尽管野生型的存活率高于DR2523突变体M2523,不过二者的差别并不大。但是M1709在紫外线和过氧化氢处理后的存活率远低于野生型。【结论】在耐辐射球菌抵御辐射和氧自由基损伤的过程中,DR2523和DR1709都在不同程度上发挥了作用。耐辐射球菌从培养基吸收锰离子分多步骤进行。在DR2523被突变以后,其部分功能可能被DR2283和/或DR2284所取代。

西北冰洋及白令海沉积物颜色旋回与成因

利用沉积岩芯重建高纬海区古环境变化的瓶颈在于微体生物化石的缺乏限制了有孔虫氧同位素地层学在北冰洋的应用.一些北冰洋岩芯中发现的富Mn褐色旋回沉积似可成为建立冰期尺度年代地层的新手段,但仍存争议.我国多次的北极科考在西北冰洋及白令海的不同海区采获了众多沉积岩芯.对代表性的14根岩芯的测试分析发现,采于西北冰洋陆坡至海盆内的岩芯均有颜色的旋回变化并基本可用颜色反射率参数a*/b*值来指示.a*/b*与Mn,Mn与Mo之间具有较密切的相关变化,沿陆坡向洋盆中央方向,深褐色沉积层中的MnO含量逐渐降低;而采于白令海、北冰洋陆架及近岸深海的岩芯均未出现颜色及Mn含量的旋回变化,且a*/b*与Mn,Mn与Mo之间无任何相关性,同时,MnO含量总体很低.结合部分岩芯的地层年代框架推测,间冰期时,大量风化的陆源Mn元素经陆架被搬运至洋盆,并随洋流分布到氧化环境较强的海区沉积,形成了深褐色沉积层;冰期时,因陆架封冻、海冰覆盖率增高导致还原性沉积环境,造成北冰洋洋盆内形成土黄色或深灰色沉积.在排除成岩作用的影响后,颜色及Mn元素含量的旋回变化应能指示冰期/间冰期旋回变化.