苯并(a)芘在黄河水体不同粒径颗粒物上的表面吸附和分配作用特征

模拟实验研究了苯并(a)芘在黄河水体不同粒径颗粒物上的吸附作用,重点探讨了颗粒物粒径对苯并(a)芘的表面吸附和分配作用的影响.结果表明:(1)苯并(a)芘在黄河水体颗粒物上的吸附符合表面吸附-分配作用复合模式(2)苯并(a)芘在粒径d≥0.025 mm颗粒物上的吸附以表面吸附为主,表面吸附对吸附的贡献在68.7%至82.4%之间;当苯并(a)芘液相平衡浓度为0～8.87μg·L-1时,其在粒径0 007 mm≤d＜0.025 mm颗粒物上的吸附以表吸附作用为主,当液相平衡浓度大于8.87μg·L-1时,吸附以分配作用为主;苯并(a)芘在粒径d＜0.007 mm颗粒物上的吸附以分配作用为主;(3)苯并(a)芘在不同粒径颗粒物上的表面吸附对总吸附的贡献大小顺序为:(d≥0.025 mm)＞(0.007 mm≤d＜0 025 mm)＞(d＜0.007 mm);(4)苯并(a)芘在不同粒径颗粒物中的分配系数与有机质含量呈线性相关,其标化分配系数Koc约为1.26×105L·kg-1.     

苏云金芽胞杆菌苏云金素缺失突变株的筛选及特性研究

利用高温和SDS对苏云金素高产菌株CT-43-1c进行了质粒消除,筛选得到一株不产苏云金素的无晶体突变株BMB0806;并通过SDS-PAGE、高效液相色谱(HPLC)和脉冲电泳(PFGE)分析了野生型菌株CT-43、出发菌株CT-43-1c和突变株BMB0806杀虫晶体蛋白的组成、苏云金素的产量和质粒图谱之间的差异.结果表明,突变株BMB0806与菌株CT-43和CT-43-1c相比,分别缺失了3个和2个大质粒,从而不再产生苏云金素和由cry1B基因编码的分子量为140×103的杀虫晶体蛋白.进一步分析三者质粒图谱后发现,突变株BMB0806中苏云金素的缺失和cry1B基因所在的大质粒A直接相关.图5参12     

多年连续种植转基因Bt汕优63稻田水体和土壤中Cry1Ab/c蛋白残留调查

以湖北武汉、随州、武穴和孝感以及山东德州5个多年转基因水稻种植区为试验地,在水稻生育期采集转cry1 Ab/c基因水稻Bt汕优63(Bt-SY63)和对照非转基因汕优63(SY63)稻田水体和土壤,使用酶联免疫吸附测定(ELISA)方法对稻田水体和土壤Cry1 Ab/c蛋白残留量进行动态监测.结果显示,与SY63稻田相比,连续种植2～4 a后,不同生育期Bt-SY63稻田水体Cry1Ab/c蛋白残留量大多与同一生育期SY63样品间差异未达显著水平(P＞0.05),最高残留量为0.373 ng· mL-1.与水体Cry1Ab/c蛋白残留情况相似,不同生育期Bt-SY63稻田土壤Cry 1Ab/c蛋白残留量大都低于试剂盒检测限(0.25 ng·g-1),仅随州苗期、德州拔节期和开花期样品有微量残留,鲜土残留量分别为0.261、0.540和0.361 ng·g-1,并分别与SY63样品间差异显著(P＜0.05).另外,多年连续种植Bt-SY63水稻后,2、3和4a种植年限的Bt-SY63稻田水体和土壤中Cry1Ab/c蛋白残留量之间大都没有显著差异(P＞0.05).认为连续种植2、3和4a的Bt-SY63水稻稻田水体和土壤仅存在微量Cry1Ab/c蛋白残留,不会造成Cry1Ab/c蛋白在稻田水体和土壤中的累积.     

苏云金芽孢杆菌新基因cry1Ab17的克隆和生物信息学

利用高效克隆PCR产物的专用载体pMD18T,直接从苏云金芽孢杆菌WB9的PCR产物中克隆了cry1Ab17新基因.测序结果表明,该基因(GenBank登录号为AY646166)由3471个碱基组成,其编码的蛋白质含有1156个氨基酸残基,其中亲水性氨基酸占30.8%,疏水性氨基酸占45.2%,酸性氨基酸占12.9%,碱性氨基酸占11.1%.氨基酸序列的同源性分析结果表明,Cry1Ab17蛋白与已报道的Cry1Ab蛋白同源性为95.4%～99.7%,该蛋白的4个氨基酸残基———Pro170、Gly449、Gly796和Gly863与其它已报道Cry1Ab蛋白相应位置的氨基酸残基均不同.在核苷酸序列和氨基酸序列多重比较的基础上,应用PAUP4.0构建了Cry1A蛋白家族的系统发育树.SignalP分析结果显示,Cry1Ab17蛋白中不含信号肽序列.此外,对Cry1Ab17蛋白的二级结构和3个结构域也进行了预测和分析.图4表2参15     

苯酚降解菌红球菌PNAN5菌株(Rhodococcus sp.strain PNAN5)的分离鉴定、降解特性及其开环双加氧酶性质研究

分离到一株能以苯酚、苯甲酸、对甲酚、萘为唯一碳源和能源生长、具有同时降解单环和双环芳烃能力的细菌菌株,经生理生化、16SrRNA基因序列分析等鉴定为红球菌PNAN5菌株(Rhodococcussp.strainPNAN5).在实验条件下和在温度为20～40℃、pH7 0～9 0范围内菌株PNAN5降解苯酚的效率保持在80%～100%之间,苯酚浓度在2～10mmol·L-1范围内变化对降解效率没有明显的影响.该菌株通过邻苯二酚1,2 双加氧酶催化的开环途径降解芳烃,不同于已知的浑浊红球菌(R.opacus)是通过邻苯二酚2,3 双加氧酶催化芳烃降解.以细胞裂解液测定该酶的酶促反应动力学常数Km值为35 94μmol·L-1,Vmax为0 84μmol·L-1·min-1·mg-1.     

1/f噪声源与其在半导体器件可靠性评估中的应用

1／f噪声,由于其能够反映器件的质量与可靠性参数,其研究受到重视。本文首先较为系统地介绍了1／f噪声源两种较为成熟的理论：迁移率涨落模型和载流子涨落模型,最后介绍了几个1／f噪声与半导体器件参数漂移相关的实例。     

光度法测定水中己二胺

本文报道了在碱性介质中,沸水浴条件下,己二胺与２,４二硝基氯苯反应生成黄色的１,６二（２,４二硝基苯胺）己烷化合物,用氯仿萃取后于波长４２０ｎｍ处,用２０ｍｍ比色皿比色测定。文中对碱的用量,反应温度及时间,显色剂用量及萃取效率等进行了较详细研究,确定了最佳实验条件并进行了废水样品分析,结果满意。     

Scaling range sizes to threats for robust predictions of risks to biodiversity

Assessments of risk to biodiversity often rely on spatial distributions of species and ecosystems. Range‐size metrics used extensively in these assessments, such as area of occupancy (AOO), are sensitive to measurement scale, prompting proposals to measure them at finer scales or at different scales based on the shape of the distribution or ecological characteristics of the biota. Despite its dominant role in red‐list assessments for decades, appropriate spatial scales of AOO for predicting risks of species’ extinction or ecosystem collapse remain untested and contentious. There are no quantitative evaluations of the scale‐sensitivity of AOO as a predictor of risks, the relationship between optimal AOO scale and threat scale, or the effect of grid uncertainty. We used stochastic simulation models to explore risks to ecosystems and species with clustered, dispersed, and linear distribution patterns subject to regimes of threat events with different frequency and spatial extent. Area of occupancy was an accurate predictor of risk (0.81<|r|<0.98) and performed optimally when measured with grid cells 0.1–1.0 times the largest plausible area threatened by an event. Contrary to previous assertions, estimates of AOO at these relatively coarse scales were better predictors of risk than finer‐scale estimates of AOO (e.g., when measurement cells are <1% of the area of the largest threat). The optimal scale depended on the spatial scales of threats more than the shape or size of biotic distributions. Although we found appreciable potential for grid‐measurement errors, current IUCN guidelines for estimating AOO neutralize geometric uncertainty and incorporate effective scaling procedures for assessing risks posed by landscape‐scale threats to species and ecosystems.     

Efficacy of extracting indices from large‐scale acoustic recordings to monitor biodiversity

Passive acoustic monitoring could be a powerful way to assess biodiversity across large spatial and temporal scales. However, extracting meaningful information from recordings can be prohibitively time consuming. Acoustic indices (i.e., a mathematical summary of acoustic energy) offer a relatively rapid method for processing acoustic data and are increasingly used to characterize biological communities. We examined the relationship between acoustic indices and the diversity and abundance of biological sounds in recordings. We reviewed the acoustic‐index literature and found that over 60 indices have been applied to a range of objectives with varying success. We used 36 of the most indicative indices to develop a predictive model of the diversity of animal sounds in recordings. Acoustic data were collected at 43 sites in temperate terrestrial and tropical marine habitats across the continental United States. For terrestrial recordings, random‐forest models with a suite of acoustic indices as covariates predicted Shannon diversity, richness, and total number of biological sounds with high accuracy (R² ≥ 0.94, mean squared error [MSE] ≤170.2). Among the indices assessed, roughness, acoustic activity, and acoustic richness contributed most to the predictive ability of models. Performance of index models was negatively affected by insect, weather, and anthropogenic sounds. For marine recordings, random‐forest models poorly predicted Shannon diversity, richness, and total number of biological sounds (R² ≤ 0.40, MSE ≥ 195). Our results suggest that using a combination of relevant acoustic indices in a flexible model can accurately predict the diversity of biological sounds in temperate terrestrial acoustic recordings. Thus, acoustic approaches could be an important contribution to biodiversity monitoring in some habitats.     

Essential hazard and process safety assessment of para-toluene sulfonic acid through calorimetry and advanced thermokinetics

Para-toluene sulfonic acid is a typical intermediary for the synthesis of pharmaceuticals, pesticides, and dyes and is a catalyst for organic synthesis. The consumption of para-toluene sulfonic acid used in organic synthesis has increased substantially. The toluene sulfonation process is the central path for synthesizing para-toluene sulfonic acid in China. However, the process has risks and has resulted in numerous disasters. This study utilized a reaction calorimeter 1 to reproduce the commercial toluene sulfonation process in a laboratory. The para-toluene sulfonic acid product was examined with an accelerating rate calorimeter and through differential scanning calorimetry. Both differential and integral isoconversional methods were used to determine the thermal stability of and appropriate thermokinetic models for para-toluene sulfonic acid. The safety parameters of para-toluene sulfonic acid were estimated. The research findings can be used for optimization of the toluene sulfonation process and for safe handling of para-toluene sulfonic acid.