使用全扫描和选择离子扫描两种方式建立土壤和沉积物中16种多环芳烃的气相色谱四级杆质谱联用仪分析方法

文章建立气相色谱四级杆质谱联用分析土壤和沉积物中16种多环芳烃的测定方法。参考《土壤和沉积物多环芳烃的测定气相色谱质谱法》(HJ805-2016)和《全国土壤污染状况详查土壤样品分析测试方法技术规定》采用全扫描和选择离子扫描两种方式优化定性、定量分析步骤。结合实际对土壤和沉积物中多环芳烃进行了加压流体萃取(ASE)的提取和GPC净化方式,建立了土壤和沉积物中16种多环芳烃的气相色谱四级杆质谱联用仪分析方法。     

ASE-GC/MSMS多离子反应监测(MRM)测定土壤中的16种多环芳烃(PAHs)

采用加速溶剂萃取-凝胶色谱净化-三重四极杆串联气相色谱质谱多离子反应监测技术建立了土壤中16种多环芳烃的分析方法.通过优化试验条件,方法线性关系良好,16种多环芳烃的最低检出浓度在0.055～0.585μg/kg之间.回收率在72.1%～101.4%之间,相对标准偏差在2.9%～9.5%之间.大量实际样品的测定结果表明,该方法定性定量准确、灵敏度高、重复性好,能够满足实际土壤分析工作的需要.     

ASE—GPC—GC—MS快速分析土壤中的PAHs

建立了土壤中多环芳烃的气相色谱—质谱联用的快速检测方法。样品经过加速溶剂萃取、凝胶色谱净化、GC—MS分离测定,优化了加速溶剂萃取和凝胶色谱净化的条件。结果表明,多环芳烃的平均回收率为82.1%~106.4%,相对标准偏差为1.2%~4.8%。方法具有灵敏度高、准确度好、快速、消耗溶剂少的优点,适用于土壤等固体样品中多环芳烃的分离、净化和分析。     

柳州市大气颗粒物中多环芳烃的种类和时空分布特征及来源

采用气相色谱/质谱联用技术(GC/MS)检测了柳州市大气颗粒物样品中的PAHs,比较了柳州市各区大气颗粒物中多环芳烃含量的差异以及不同季节对多环芳烃含量的影响,讨论了其分布规律及污染源.     

乌鲁木齐市新市区大气气溶胶中多环芳烃的GC/MS分析

采用气相色谱-质谱联用技术(GC/MS)分析测定了乌鲁木齐市新市区的大气气溶胶样品16种EPA优控多环芳烃(PAHs)的含量。通过索氏提取气溶胶样品,抽提物经硅胶层析柱分离,使用16种多环芳烃混合标准样品绘制标准曲线,以外标法对PAHs进行定量分析,并根据所得数据浅析了多环芳烃污染来源。结果表明,乌鲁木齐市新市区大气中由于汽车尾气排放和煤的燃烧造成的多环芳烃污染均存在。     

云南曲靖某煤化工基地及周边土壤中多环芳烃的检测研究

采用快速溶剂提取处理土壤样品,利用气相色谱质谱内标法测定土壤中多环芳烃,其检出限范围为2.01~3.68μg/kg,相对标准偏差为2.6%~14.7%,加标回收率为67.1%~119%。结果表明,此方法具有良好的灵敏度、准确度和精密度。本研究对11个不同采样点土壤进行了检测分析,并考察了土壤中多环芳烃的污染水平。     

加速溶剂提取气-质联用分析土壤中的多环芳烃

建立了加速溶剂提取-凝胶渗透色谱净化和气相色谱-质谱联用快速分析土壤中16种多环芳烃的新方法。方法的检出限、定量限分别为1.1~12μg/kg、3.7~40μg/kg。16种PAHs的回收率为76.6%~96.8%,相对标准偏差为2.9%~9.5%。应用于多个环境样品的分析测试,结果满意。     

土壤中多环芳烃预处理及分析方法研究

本文综述了土壤中多环芳烃PAHs的预处理和测定分析方法,主要介绍了索氏提取、超声波萃取、超临界流体萃取、加速溶剂萃取和协同萃取等萃取方法。检测方法具体介绍了高效液相色谱法(HPLC)法、恒能量同步荧光法(CESF)、气相色谱-质谱(GC/MS)法等多环芳烃测定方法。重点分析比较了提取和纯化过程,为今后研究土壤中多环芳烃提供了一定支持和技术参考。     

重点流域水系沉积物中多环芳烃标准样品制备

环境标准样品是监测过程中重要的质量控制手段,中国受天然基体标准样品制备技术的制约,尚未拥有自己的沉积物中多环芳烃标准样品。为制备符合中国重点流域沉积物类型及多环芳烃浓度水平的沉积物标准样品,对中国6个重点流域的沉积物进行了采样,获得了制备多环芳烃标准样品的原料。分析常温及冷冻2种干燥方式对多环芳烃的影响,为制备大批量多环芳烃标准样品提供数据支持。对11个点位样品采用气相色谱质谱法测定16种优控多环芳烃化合物浓度,结果表明,样品均匀性良好,样品中多环芳烃检出率在99%以上,江河沉积物样品中多环芳烃浓度区间为664~2.91×103μg/kg,湖泊样品最高值达到1.25×105μg/kg,其主要污染源是化学燃料的燃烧。为中国制备水系沉积物中多环芳烃标准样品积累了技术基础。     

原煤二氯甲烷浸取液中多环芳烃分布特征

本文用色谱／质谱／红外联用系统研究了原煤二氯甲烷浸取液中多环芳烃的种类、数量、含量及其分布特征。为进一步研究煤燃烧排放飞灰、烟气、炉渣中多环芳烃分布打下良好基础。     

装潢居室空气中甲醛采样方法改进

对空气中甲醛测定的采样方法进行了探讨 ,分别用水和稀硫酸作吸收液对空气甲醛进行采样研究。结果表明 ,用 0 .0 0 5mol LH2 SO4 作吸收液的采样方法 ,可有效、稳定地延长样品的保存时间 ,且又符合方法灵敏度和精密度的要求。     

从履约压力看环境监测发展方向

分析了在当前履约压力下环境监测的薄弱与不足之处,提出了拓展环境空气监测内容,将生态调查和多样性监测纳入常规体系,推进有机监测技术发展,加大多边合作与联合监测的发展思路.     

泰东河疏浚工程对通榆河水质的影响

为了解泰东河疏浚工程对通榆河水质的影响,于2012年6月8日、9月12日、12月6日,对泰东河沿线以及通榆河东台段进行调查取样,分析施工期间河体水质变化。结果表明,施工期间水质参数基本保持在Ⅱ~Ⅲ类。根据江苏省水环境监测中心盐城分中心2011年、2013年监测资料评价分析,泰东河河道疏浚后,清理了河床淤泥,提高了泰东河的行洪、抗洪以及通航能力,其水质的好转有效地改善了下游通榆河的水质,确保了饮水安全。     

锅炉污染物监测中运行负荷的现场判断

简述了锅炉的风量和烟气量、锅炉燃料的消耗量以及锅炉运行负荷的估算方法。通过实例分析,用现场监测的实际风量与理论值比较,粗略估算出监测时段锅炉运行负荷,比对锅炉污染物监测时段的锅炉运行负荷标准,从而判断监测数据的准确性与有效性。     

Estimating the Ecological Condition of the Estuaries of the Gulf of Mexico

Monitoring of estuaries in the Louisianian Province was performed annually from 1991–1994 to assess ecological conditions on a regional scale. We found over the four years of monitoring, 25±6% of Gulf of Mexico estuarine sediments in the Louisianian Province displayed poor biological conditions, as measured by benthic community structure, and 14±7% of the area was characterized by poor water clarity, the presence of marine debris, and elevated levels of fish tissue contaminants. Using statistical associations to discern relationships between ecological condition and exposure or stressor data has shown that much of this degraded' condition co-occurs with sediment contamination.     

An ecosystem report on the Panama Canal: monitoring the status of the forest communities and the watershed

In 1996, the Smithsonian Tropical Research Institute and the Republic of Panama's Environmental Authority, with support fromthe United States Agency for International Development, undertook a comprehensive program to monitor the ecosystem of the Panama Canal watershed. The goals were to establish baselineindicators for the integrity of forest communities and rivers. Based on satellite image classification and ground surveys, the2790 km² watershed had 1570 km² of forest in 1997, 1080 km² of which was in national parks and nature monuments. Most of the 490 km² of forest not currently in protected areas lies along the west bank of the Canal, and its managementstatus after the year 2000 turnover of the Canal from the U.S. to Panama remains uncertain. In forest plots designed to monitorforest diversity and change, a total of 963 woody plant specieswere identified and mapped. We estimate there are a total of 850–1000 woody species in forests of the Canal corridor. Forestsof the wetter upper reaches of the watershed are distinct in species composition from the Canal corridor, and have considerably higher diversity and many unknown species. Theseremote areas are extensively forested, poorly explored, and harbor an estimated 1400–2200 woody species. Vertebrate monitoring programs were also initiated, focusing on species threatened by hunting and forest fragmentation. Large mammals are heavily hunted in most forests of Canal corridor, and therewas clear evidence that mammal density is greatly reduced in hunted areas and that this affects seed predation and dispersal. The human population of the watershed was 113 000 in 1990, and grew by nearly 4% per year from 1980 to 1990. Much of this growth was in a small region of the watershed on the outskirts of Panama City, but even rural areas, including villages near and within national parks, grew by 2% per year. There is no sewage treatment in the watershed, and many towns have no trashcollection, thus streams near large towns are heavily polluted. Analyses of sediment loads in rivers throughout the watershed did not indicate that erosion has been increasing as a result ofdeforestation, rather, erosion seems to be driven largely by total rainfall and heavy rainfall events that cause landslides.Still, models suggest that large-scale deforestation would increase landslide frequency, and failure to detect increases inerosion could be due to the gradual deforestation rate and the short time period over which data are available. A study of runoff showed deforestation increased the amount of water fromrainfall that passed directly into streams. As a result, dry season flow was reduced in a deforested catchment relative to aforested one. Currently, the Panama Canal watershed has extensive forest areasand streams relatively unaffected by humans. But impacts of hunting and pollution near towns are clear, and the burgeoningpopulation will exacerbate these impacts in the next few decades.Changes in policies regarding forest protection and pollution control are necessary.     

空气质量监测中标准状态对测定结果的影响及建议

环境空气质量标准中各种污染物的浓度限值是评价、考核空气质量状况的基本依据。为了保证在不同时空、不同环境状况下监测数据的可比性,各个国家或组织在制定的空气质量标准中对标准状态(温度和压力)进行了定义。但是,由于标准状态定义不同,即使是同一环境状况下的同一实测结果进行标化计算后的污染物浓度也不相同,达不到可比性的基本原则。因此,建议中国在未来修订空气质量标准所采用的标准状态,进一步与国际接轨。     

北方重工业城市降水pH值与相关因素关系的研究

针对北方重工业城市出现的酸性降水和pH值降低的现象,采用集中监测、纵横对比、统计分析的方法,对降水pH值现状及与相关因子的关系进行了研究。结果显示,降水pH值依污染源排放的烟(粉)量的减少、环境空气中总悬浮微粒浓度的降低、机动车保有量的增加而向酸性发展,空气质量好的区域易发生酸雨,北方重工业城市"尘"重点治理以后酸雨和二氧化硫污染将出现加重趋势。仅靠削减二氧化硫排放量控制污染是不够的,重工业城市必须综合防治。     

太湖流域水体富营养化成因及防治对策的初步研究

以较丰富的素材分析了太湖流域富营养化的成因及其危害性,同时阐述了水体富营养化的治理对策。     

环境监控(监测)建设与发展过程的思考

论述环境监控系统的发展过程、具体应用和建设的意义。叙述环境监控系统的建设为解决环境质量监测、污染源在线自动监测和生态监测与具体部门相关联而造成信息孤岛的问题,提倡环保多业务综合共享信息的标准化;环境监控系统的建设是基础,应用是关键,运行维护管理是保障,三者不可偏废。让环境管理者产生形象思维,拓宽思路和视野,发现和解决新问题。