高效絮凝菌的培养条件优化

从呼和浩特市污水处理厂筛选分离了1株高效絮凝剂产生菌YS2,通过培养条件优化试验确定了该菌株产絮凝剂的最佳培养条件:碳源为蔗糖、氮源为脲、N/C为2.5∶1、初始pH值为6.0、培养温度为30℃。絮凝试验表明:该菌株产生的生物絮凝剂对高岭土悬浊液有良好的絮凝效果,絮凝率达到95%。絮凝活性分布试验表明其絮凝活性全部存在于离心沉降物中,而上清液没有絮凝活性。16S rDNA测序鉴定其为克雷伯氏菌G。     

南京冬季典型霾天气过程多元对比分析

选取2017～2020南京地区冬季3个典型霾天气过程,综合分析了霾天气过程中污染物、气象要素以及边界层条件等影响机制与特征变化.结果表明,3次过程中,AQI指数峰值分别为304(严重污染)、227(重度污染)与176(中度污染),且与PM2.5、PM10浓度变化基本趋于一致,PM25与PM10比值基本都大于0.7;污染...     

“5·12”地震前后都江堰市地表覆盖状况变化分析

本文以应用遥感技术,对“5·12”地震都江堰区域地表覆盖状况进行分析评价。选取都江堰市基于2007年的LandsatTM影像和2010年HJ-1卫星CCD影像,通过面向对象和目视解译相结合的方法,提取了草地、河流、旱地、水田、建设用地等9类生态类型环境覆盖信息。结果表明：“5·12”汶川地震对地表生态环境的变化较大,北...     

弹药公路运输安全影响因素分析及防护

交通安全是弹药运输安全的前提条件.分析交通系统的构成要素,指出驾驶员是影响交通安全的核心因素.根据事故致因理论建立了交通安全事故模型.分析了弹药运输环境条件对弹药运输安全的影响,并提出研究运行速度与运输冲击振动环境变化的关系.最后,提出了弹药公路运输安全的3点防护对策.     

乌鲁木齐市可吸入颗粒物污染水平及其与气象因素的相关性分析

为了解可吸入颗粒物污染水平与气象因素之间的关系,从2008年9月—2010年2月采集乌鲁木齐市可吸入颗粒物样品,并对其随时间的变化特征及其与气象因素之间的相关性进行了统计分析。结果表明,采样时间内可吸入颗粒物中PM2.5和PM2.5-10的质量浓度的范围分别为38.2~468.7μg/m3和20.8~243.1μg/m3,平均浓度分别为134.2μg/m3和69.2μg/m3。可吸入颗粒物同时受几种气象因素的影响,其浓度与温度、能见度、风速呈负相关,与湿度呈正相关。     

绵阳市大气污染物浓度变化特征及相关性分析

随着我国工业化、城市化和机动化的高速发展,大气环境质量越来越受民众关注,我国已建成国控—省控—市控—县控四级环境空气自动监测网络,监测项目包括SO2、NO2、CO、O3、PM2.5和PM10.基于2018年绵阳市环境空气监测数据、颗粒物化学组分及气象资料分析上述6个监测项目年均、季度、月均、日均及每日最大小时浓度变化特征,并进一步探讨污染物浓度与气象条件的相关性,结合颗粒物化学组分对产生原因进行剖析.结果表明:绵阳市冬季环境空气质量较差,夏季相对较好.Pearson相关性分析表明:SO2、NO2、CO和颗粒物(PM2.5和PM10)之间存在显著相关性,冬季PM2.5与SO2、NO2的相关系数分别为0.610和0.635,PM10与SO2、NO2的相关系数分别为0.655和0.655,颗粒物主要化学组分为硫酸盐、硝酸盐、铵盐和二次有机气溶胶,颗粒物二次转化尤为明显,冬季需重点管控颗粒物;春季和夏季O3与PM2.5、PM10呈显著正相关,需做好颗粒物和O3的协同管控.O3每日最大小时浓度多集中在13:00?—?18:00,其他污染物每日最大小时浓度多集中于08:00?—?12:00和20:00?—?24:00,同时NO2在20:00?—?24:00出现每日最大小时浓度的频次占67.1％,控制机动车等污染源排放尤为重要.     

Temporal limits to simulating the future spread pattern of invasive species: Buddleja davidii in Europe and New Zealand

The spread of invasive species is a major ecological and economic problem. Dynamic spread modelling is a potentially valuable tool to assist regional and central government authorities to monitor and control invasive species. To date a lack of suitable data has meant that most broad scale dispersal models have not been validated with independent datasets, and so their predictive ability and reliability has remained unscrutinised. A dynamic, stochastic dispersal model of the widely invasive plant Buddleja davidii was calibrated on European spread data and then used to project the temporal progression of B. davidii's distribution in New Zealand, starting from several different historical distributions. To assess the model's performance, we constructed an occupancy map based on the average number of simulation realisations that have a population present. The application of Receiver Operating Characteristic (ROC) curves to occupancy maps is introduced, but with specificity substituted by the proportion of available area used in a realisation. A derivative measure, the partial area under these curves when assessed through time (pAUC), is introduced and used to assess overall performance of the spread model. The model was able to attain a high level of model sensitivity, encompassing all of the known locations within the occupancy envelope. However, attempting to simulate the spread of this invasive species beyond a decade had very low model specificity. This is due to several factors, including the exponential process of spread (the further a population spreads the more sites exist from which it can spread stochastically), and the Markovian chain property of the stochastic system whereby differences between realisations compound through time. These features are seen in many reports of spread models, without being explicitly acknowledged. Our measure of pAUC through time allows a model's temporal performance and its specificity to be simultaneously assessed. While the rapid deterioration in model performance limits the utility of this type of modelling for forecasting long-term broad-scale strategic management of biological invasions, it does not necessarily limit its attractiveness for informing smaller scale and shorter term invasion management activities such as surveillance, containment and local eradication.     

基于时序片段的油气管道运行工况识别方法*

为准确识别管道系统运行工况,提高对油气管道突发事故的响应速度,综合提升管网安全管理水平,提出1种基于时序片段的油气管道运行工况识别方法。首先,构建基于概率分布的状态变化识别模型,提取油气管道中不同运行状态点;其次,建立基于时间序列片段的工况识别模型,快速识别不同时间长度内油气管道运行工况;最后,以国内某成品油管道为例进行方法验证。研究结果表明:该方法可有效识别成品油管道阀门开关状态、泵异常停机和阀门内漏3种运行工况。对比传统的识别方法,该方法可降低状态变化点的漏报率,提升管道运行工况识别的准确率。研究结果可为油气管道系统运行工况识别提供新的借鉴方法。     

Soil factors associated with zinc deficiency in crops and humans

Zinc deficiency is the most ubiquitous micronutrient deficiency problem in world crops. Zinc is essential for both plants and animals because it is a structural constituent and regulatory co-factor in enzymes and proteins involved in many biochemical pathways. Millions of hectares of cropland are affected by Zn deficiency and approximately one-third of the human population suffers from an inadequate intake of Zn. The main soil factors affecting the availability of Zn to plants are low total Zn contents, high pH, high calcite and organic matter contents and high concentrations of Na, Ca, Mg, bicarbonate and phosphate in the soil solution or in labile forms. Maize is the most susceptible cereal crop, but wheat grown on calcareous soils and lowland rice on flooded soils are also highly prone to Zn deficiency. Zinc fertilizers are used in the prevention of Zn deficiency and in the biofortification of cereal grains.     

军用物资集装箱运输机械环境条件及防护要求

分析集装箱运输军用物资的机械环境,通过测试给出了集装箱装卸冲击特性、运输振动冲击特性等环境量值,并结合机械环境对军用物资的影响．提出安全防护的几点要求。