A Novel Reagentless Biosensor Constructed by Layer-by-Layer Assembly of HRP and Nile Blue Premixed with Polyanion

A novel reagentless biosensor constructed by the organic dye nile blue (NB) and horseradish peroxidase (HRP) has been fabricated via layer-by-layer (LBL) self-assembly technique. NB premixed with polyanion poly (sodium-p-styrenesulfonate) (PSS) acts as the mediator between the immobilized HRP and the electrode surface. The response of the biosensor to hydrogen peroxide has been investigated. The linear range of the biosensor to hydrogen peroxide was from 0.20 mmol/L to 7.03 mmol /L with a sensitivity of 8.45 μA/(mmol/L).

新型Nile blue材料对多种客体上潜在手印显现研究

尼罗蓝类化合物是灵敏度高、生物毒性较低的吩恶嗪类荧光试剂。从尼罗蓝A(Nile blue A)的光学性能入手,考察了Nile blue A显现潜在手印时的最佳适用条件及在不同客体上的显现效果。通过连续捺印显现实验进一步探究了该方法的灵敏度和对陈旧性手印的显现能力。实验结果证实,该方法在潜在手印显现时具有较高的显现灵敏度和广泛的客体适用性,在Nile blue A质量浓度为0.03mg/mL时达到最佳,其显现手印具有显色和荧光双重效果,能够适用于大多数渗透性与非渗透性客体表面潜在手印显现,甚至对于潮湿及复杂背景客体仍具有良好的效果,为犯罪现场潜在手印的显现提供了更有效的方法。

Spectroscopic and Spectroelectrochemical Studies of Interaction of Nile Blue with DNA

Nile Blue can strongly bind to DNA and its affinity for DNA has beeninvestigated by spectroscopy and spectroelectrochemistry. At low DNA concentrations, Nile Blue canbind to DNA (per nucleotide phosphate) to form a 1:1 association complex with the binding constantof 4.7 * 10~4 L/mol and the major binding model of Nile Blue to DNA is 'electrostatic binding'.However, the major binding model changes into 'intercalative binding' at high DNA concentrations. Inorder to confirm which part of Nile Blue intercalating into DNA, the inclusion action ofβ-cyclodextrin (β-CD) has been used to study the interaction. Nile Blue can be included into thehydrophobic cavity of β-CD to form an inclusion complex with a stability constant of 1.9 * 10~3L/mol. The experimental results indicate that the naphthalene ring part of Nile Blue is includedinto β-CD's hydrophobic cavity and the inclusion complex decomposes at high DNA concentrations. Itmay be deduced reasonably that the naphthalene ring part of Nile Blue molecule intercalates into DNAhelix Strand.

Electrocatalytic oxidation of NADH at glassy carbon electrodes modified with an electropolymerized film of nile blue A

The kinetic parameters for the etectrocatalytic oxidation of dihydronicotiamide adenine dinucleotide (NADH) at glassy carbon electrodes modified with an electropolymerized film of nile blue A (PNB) have been determined based on rotating disk electrode measurements. The rate constant for the chemical reaction between NADH and PNB is strongly influenced by NADH concentration and the pH value of solution, and it decreases with increasing NADH concentration, indicating that the electrocatalytic process proceeds via the formation of an intermediate of charge-transfer complex between NADH and PNB.

Rainfall Partitioning for Integrated Water Resources Management： Case Study of Upper Blue Nile Basin, Ethiopia

The Upper Blue Nile Basin, the highest sources of the Nile River flow through this area, is still under severe land degradation, which aggravates water scarcity. The productivity of subsistence farming is below 50% of the potential of agriculture, mainly because of inappropriate rainwater management. At farm level, rainwater is exposed to poor partitioning described as flooding, land degradation, siltation and water scarcity for domestic, irrigation, hydropower and environmental uses in the basin. Hence, it is one of the root causes of food-insecurity in the region. To reverse this situation and achieve increased rainwater productivity knowledge of rainfall partitioning at grassroots level is significantly important. However, rainwater partitioning and partitioning points are not clearly known by farmers in the area. Besides, understanding water-routes helps to manage rainwater with integrated water resources management （IWRM） processes. The objective of this study was to identify the knowledge gap of farmers and experts on rainwater partitioning that help for increased water productivity. Intensive monitoring and interviews have been carried out for 81 farmers and 22 local experts in three pilot sites. The interviewed farmers and experts are clearly aware of the runoff partitioning, since it is easily observable. While, only 10% of the farmers and 25% of experts know about evaporation partitioning, which is the largest compared to other losses. The paper gives recommendations for better understanding of rainfall partitioning points and management of water-routes at grassroots level to increase rainwater productivity and enhance food security in the area with IWRM processes.

Low Flow Trends and Frequency Analysis in the Blue Nile Basin, Ethiopia

Low flow analysis provides crucial information for the planning and design water resource development, risk assessment and environmental flow management. Understanding the low flow regimes and evaluating the magnitudes for incorporating in water resources management is vital for the countries like Ethiopia where demand for water is increasing. However, there were hardly enough studies in understanding the trends of low flow and frequency analysis. Therefore, this study focuses on evaluation of the trends in low flows and regional low flow analysis in the Blue Nile Basin, Ethiopia. In order to carry out the study, 15 river sub-basins in the Blue Nile Basin were selected based on the long term data availability and presence of quality of data. The 3-day sustained low flow (3d-slf), the 7-day sustained low flow (7d-slf) and the 14-day sustained low flow (14d-slf) models were used to extract the data from the daily time series stream data obtained from MoWIE. Trends in low flow were analyzed separately by using Mann-Kendall (MK) trend test. Low flow frequency analysis was used to estimate the long term low flow quantiles. In addition, regional analysis for estimating the quantiles for ungaged catchments was also developed based on the regional growth curve and catchment characteristic of drainage basins. The results indicated that 3d-slf, 7d-slf and 14d-slf models of low flow series indicated no significant difference for each station at 95% CI. Out of the 15 selected stations, 12 of stations have indicated decreasing;two stations indicated increasing and remaining one station with no trend. Mainly decreasing trend was associated with the land cover and climate change which results in increasing runoff and evapotranspiration respectively. Weibull distribution—GEV and LGN was found best fit based on the L-Moment Ratio Diagram (L-MRD). Hence quantile estimations have indicated diminishing magnitudes of low flow quintiles for 2 - 500 years return periods. Regional low frequency analysis has provided a very good relationship between discharge and catchment characteristics with an R2 of 0.72. Where area (A) and rainfall (R) followed by slope were found sensitive to compute in developing the regional region equations between mean low flows and the physiographic data. This study indicated that there needs to be a new water management scenario and adaptation mechanism of climate change and land use land cover dynamics for utilizing water resource in the Blue Nile Basin.

Prediction of Groundwater Level Fluctuation towards Rainfall Induced Landslide: Case of Blue Nile Gorge, Central Ethiopia

The groundwater level fluctuation was studied in a complex geological setting region where a frequent landslide is observed in a rainy season. Steady and transient states of flow are modeled with different hydrogeological parameters. The models are calibrated to satisfy the observed field conditions and expected results from the scientific point of view. The results reveal that the groundwater level fluctuation and flow direction in the region are complex. In limited areas, the fluctuation of groundwater is significant from season to season while in others the level remains stable in all seasons of the year. Following that, the result of groundwater flow model was exported to GeoStudio to simulate the slope stability of selected slope. The factor of safety was calculated using Slope/W. The effect of pore-water on the factor of safety was cross-checked by remodeling the slope without water. The results and sensitivity analysis of slope stability confirm that the rise of groundwater level decreases the factor of safety significantly only on critical slope section.

Validation of General Climate Models (GCMs) over Upper Blue Nile River Basin, Ethiopia

Potential of climate change impact assessment on hydrology and water resources of rivers is increasing from time to time due to its importance for water resources planning and management in the future. In order to carry out climate change impact studies, using General Climate Models (GCM) is a common practice and before using any of these models, it is essential to validate the models for the selected study area. Blue Nile River is one of the most sensitive rivers towards climate change impacts. The main source of Blue Nile River is Lake Tana where the two adjacent tributary rivers, Ribb & Gumera, are located and the main object of this paper is validation of current 15 GCM outputs (IPCC-AR5) over these two rivers using empirical quantile perturbation downscaling technique. The performance of the downscaled outputs of GCMs were evaluated using statistical indicators and graphical techniques for evapotranspiration, rainfall and temperature variables using observed daily meteorological datasets collected from five stations (Addis Zemen, Bahirdar, Debretabor, Woreta and Yifag) for the control period 1971-2000. Analysis results showed that the correlation coefficient of all models for mean monthly (MM) rainfall are 12% - 45%;and the Bias and RMSE -46 mm to +169 mm and 62 mm to 241 mm, respectively. The Bias and RMSE for MM maximum temperature are -2.5°C to +35°C;and 1°C to 35°C whereas for MM minimum temperature -6°C to +22°C and 1.7°C to 23°C, respectively. For the case of MM evapotranspiration, which is estimated using FAO-Penman-Montheith equation, the Bias and RMSE values vary from -35 mm to +10 mm;and +11 mm to +36 mm, respectively. The variation in the performance level of these models indicates that there is high uncertainty in the GCM outputs. Therefore, to use these GCM models for any climate change studies in the basin, careful selection has to be made.

耐尔蓝硫酸盐在核酸分子表面的长距组装及核酸的三波长共振光散射测定

在ｐＨ７．２０－７．６０及离子强度低于０．０１２的介质中，耐尔蓝硫酸盐在核酸分子表面进行长距组装后，产生２９３．４ｎｍ，３４９．４ｎｍ和５６０．４ｎｍ的共振光散射（ＲＬＳ）增强峰。根据ＲＬＳ增强的Ｓｃａｔｃｈａｒｄ数据分析表明，ＮＢＳ在小牛胸腺ＤＮＡ，鱼精ＤＮＡ和酵母ＲＮＡ上的组装数分别是６．４，６．６和３．９，组装常数分别为７．１×１０＾６ｍｏｌ／Ｌ，４．６×１０＾６ｍｏｌ／Ｌ和１．７×１。

铑(Ⅲ)-耐尔蓝-高碘酸钾体系催化动力学光度法测定痕量铑

研究了催化动力学光度法测定痕量铑。在氯化钠存在的磷酸溶液中及加热条件下，铑（Ⅲ）对高碘酸钾氧化耐尔蓝褪色的反应具有催化作用．该催化反应对耐尔蓝或铑（Ⅲ）均为一级反应，表观活化能为６１．０ｋＪ／ｍｏｌ；ｌｏｇ（Ａｏ／Ａ）与铑（Ⅲ）浓度呈线性的范围为０～６．０μｇ／２５ｍＬ，检出限为３．８０×１０－１０ｇ／ｍＬ。本法用于实际样品中铑的测定，其相对标准偏差为２．４％～７．２％，标准加入回收率为９８．２％～１０１．２％。

耐尔蓝-高碘酸钾催化光度法测定痕量钌

在磷酸介质和加热条件下，钌（Ⅲ）对高碘酸钾氧化耐尔蓝（ＮＢ）有强催化作用，详细研究了动力学条件，建立了动力学光度测定钌的新方法，１g（Ａ０／Ａ）与ＣＲu（Ⅲ）呈线性关系的范围为０．００８～１．２ｕｇ／Ｌ，检出限为０．００８ｒｇ／Ｌ，对０．００８和０．８ｕｇ／ＬＲｕ（Ⅲ）测定的ＲＳＤ分别为１４．３０％６和１．７３（n＝１１ ）。本催化反应对Ｒu（Ⅲ）、ＮＢ和ＫＩＯ４为一级反应，表观活化能为７３．

耐尔蓝-高碘酸钾-溴代十六烷基吡啶-氨三乙酸体系催化动力学光度法测定锰

在增敏剂溴代十六烷基吡啶和活化剂氨三乙酸存在的条件下 ,锰 对高碘酸钾氧化耐尔蓝的反应具有催化作用 ,据此建立了测定锰的新方法。该法具有很高的灵敏度和选择性。在最优化的实验条件下 ,其线性范围为 0 .4～ 5 .6 μg L ;检出限为 0 .0 5 4μg L (n =8) ;相对标准偏差为 3.8%。用于水样、蔬菜样品中锰含量的测定 ,结果令人满意。

用耐尔蓝和高碘酸盐催化光度法测定痕量铱(Ⅳ)

研究了在弱酸性介质中,利用铱(Ⅳ)催化高碘酸钾氧化耐尔蓝(NB)形成桃红色产物,建立了催化光度法测定痕量铱的新方法.方法的线性范围为4.0～40μg/L;检出限为4.0μg/L;对40μg/L Ir(Ⅳ)测定的RSD为2.02%.Os(Ⅷ)、Ru(Ⅲ)、Rh(Ⅲ)干扰,100倍量Au(Ⅲ)和Pd(Ⅱ)、40倍量Pt(Ⅳ)和很多非贵金属不干扰.本法满意地用于某些矿石和冶金产品中铱的测定.

用钨酸盐和耐尔蓝光度法测定痕量碲

报告一个简单、灵敏、快速光度测定碲的方法。聚乙烯醇（ＰＶＡ）存在下，碲与钨酸盐和耐尔蓝（ＮＢ）反应形成离子缔合物。离子缔合物的最大吸收峰位于５８０ｎｍ；表观摩尔吸光系数ε值为３．３３×１０７Ｌ·ｍｏｌ－１·ｃｍ－１。本方法允许的碲浓度范围为０～６．０μｇ／Ｌ；对４．８μｇ／Ｌ碲（Ｎ）测定的相对标准偏差为１．３％（ｎ＝１１）；检测限（３σ）为０.０１１μｇ／Ｌ（ｎ＝１２）。考察了许多离子的影响，大多数常见元素不干扰，可允许５００倍量Ｓｅ（Ⅳ）、２０倍量Ｇｅ（Ⅳ）、Ｓｂ（Ⅴ）和１０倍量Ｓｉ（Ⅳ）、Ｐ（Ⅴ）、Ａｓ（Ⅴ）存在。本法已用于烟尘中ｎｇ量碲的测定，回收率为９７％～１０２％，相对标准偏差为０．８％～４．５％。

铜钨杂多酸-耐尔蓝离子缔合显色反应及其应用

在阿拉伯胶存在下铜钨杂多酸与耐尔蓝（ＮＢ）形成离子缔合物，其最大吸收位于５８０ ｎｍ；表观摩尔吸光度ε值为２．２２×１０６Ｌ·ｍｏｌ－１·ｃｍ－１；铜量在０～２４μｇ／Ｌ范围内服从比耳定律；检测限（３σ）ｌ．０μｇ／Ｌ（ｎ＝１０）；分析１６μｇ／Ｌ铜的ＲＳＤ＝１．５％（ｎ＝１１）；离子缔合 物的摩尔比为Ｃｕ：Ｗ：ＮＢ＝１：１２：４。ＩＲ谱表明其具有Ｋｅｇｇｉｎ结构。考察了４０多种共存 离子的影响，大多数常见离子不干扰。本法已用于天然水、自来水、降水、人发、中药及蔬菜中 铜的测定，结果满意。

在聚乙烯醇存在下铑（Ⅲ）─钼酸盐─耐尔蓝体系光度法测定铑

本文研究了聚乙烯醇（ＰＶＡ）存在下铑（Ⅲ）─钼酸盐─耐尔蓝（ＮＢ）的显色体系。在高氯酸介质中该体系λ＿ｍａｘ＝５９５ｎｍ，表观摩尔吸光系数ε值为１．８×１０￣５。符合比尔定律范围：０～１０μｇ／２５ｍｌ，缔合物至少稳定３ｈ。考察了３６多种共有离子的影响，大多数离子不干扰。本法已用于某些贵金属物料中铑的测定，结果满意。离子缔合物的摩尔比为Ｒｈ：ＮＢ＝１：４。

钌（Ⅲ）－钼酸盐－耐尔蓝－PVA＿（124）体系缔合显色反应的研究

在聚乙烯醇存在下，钌与铜酸盐和耐尔蓝（ＮＢ）形成离子缔合物，缔合物的λ＿（ｍａｘ）为５８５ｎｍ，ε为１．３２×１０￣６Ｌ·ｍｏｌ·ｃｍ￣（－１），符合比耳定律范围０～１．２μｇ／２５ｍＬＲｕ，检测限为２．６ｎｇ／ｍＬ（ｎ＝１１），用平衡移动法测定缔合物的摩尔比为Ｒｕ：ＮＢ＝１：２。考察了４３种共存离子的影响，仅Ｏ＿ｓ（Ⅲ）、、Ａｓ（Ⅲ）、Ｓｂ（Ⅲ）、Ｇｅ（Ⅳ）有干扰，需用蒸馏分离。本法已用于某些岩矿和冶金产品中钌的测定，结果满意。

高碘酸盐氧化耐尔蓝动力学光度法测定锇

在硫酸介质和热水浴中 ,Os( )对高碘酸盐氧化耐尔蓝有催化作用。研究了反应速率对酸度、浓度、温度和离子强度的依赖关系 ,采用 0 .0 1 0mol/ L硫酸 ,反应的灵敏度随温度升高而增大 ,反应速率对反应混合物的离子强度依赖较小。线性范围为 0～ 0 .2 5μg/ 2 5m L;检出限为 8.0 2× 1 0 -5 μg/ m L;对质量浓度为 0 .1 0 μg/ 2 5m L 的 Os( )测定的相对标准偏差为 1 .0 2 % ( n=1 1 ) ;导出了催化反应的动力学方程 ;探讨了反应机理。4 0 0倍量以上常见金属离子不干扰锇的测定 ,1 0倍量以上的 Ru( )、Fe3 +有干扰。本法已用于贵金属冶金样品中锇的测定。

用金钨杂多酸和耐尔蓝光度法测定纳克量金

在阿拉伯胶存在下，金与钨酸钠和耐尔蓝（ＮＢ）形成离子缔合物，它的最大吸收位于５８０ｎｍ，表观摩尔吸光系数ε值为２．３８×１０７Ｌ·ｍｏｌ－１·ｃｍ－１，体系至少稳定２４ｈ。金量在０～４．４μｇ／Ｌ范围内服从比尔定律，检测限（３σ）为０．０６９μｇ／Ｌ（ｎ＝１２），对４．０μｇ／ＬＡｕ（Ⅲ）测定的相对标准偏差为１．９％（ｎ＝１１），离子缔合物的摩尔比为Ａｕ（Ⅲ）∶ＮＢ＝１∶３。考察了４０多种共存离子的影响，大多数常见离子不干扰，允许１６０倍量Ｐｔ（Ⅳ）和３００倍量Ｐｄ（Ⅱ）存在，方法有较好选择性。本法已用于某些矿和炭粉中金的测定，结果满意。

铑钨杂多酸-耐尔蓝缔合体系测定痕量铑

研究了在 1 .44 mol/ L H2 SO4 及聚乙烯醇 ( PVA)存在下 ,铑 ( )与钨酸盐及耐尔蓝 ( NB)形成缔合物的最佳反应条件 ,建立了测定铑 ( )超高灵敏的光度分析新方法。缔合物体系在 580 nm处的吸光度与 Rh( )的浓度在 0 .0～ 2 2 ng/ 2 5m L及2 2～ 40 ng/ 2 5m L范围内服从比耳定律 ,其摩尔吸光系数 (ε)达到了 1 0 7L· mol- 1·cm- 1。检出限为 1 .0 2 7ng/ 2 5m L,大量常见离子对 Rh( )的测定不干扰。建立的方法用于测定催化剂及工业产品中铑的含量 ,结果与标准方法 ( Sn Cl2 方法 )