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    4 research outputs found

    华山地区PM_(2.5)中无机离子垂直分布特征

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    2016年夏季在华山山腰及山脚设两个采样点(垂直高程相差约700 m),运用大流量采样器进行每4 h 1次PM_(2.5)样品采集,对其无机离子进行分析,探讨其浓度、组成、垂直变化、日变化及酸度的特征.结果表明:采样期间,华山山腰及山脚的PM_(2.5)分别为:(46.9 &plusmn; 38.2) &mu;g&middot;m ~(- 3)和(76.0 &plusmn; 44.3) &mu;g&middot;m ~(- 3),PM_(2.5)中无机离子分别为:(16.6 &plusmn; 15.7) &mu;g&middot;m ~(- 3)和(24.0 &plusmn; 15.0) &mu;g&middot;m ~(- 3).两个点位无机离子浓度依次为: SO_4~(2 -) &gt; NO_3~- &gt; NH_4~+ &gt; Ca~(2 +). SO_4~(2 -) 、NO_3~- 、NH_4~+为主要组分,占华山山腰及山脚大气PM_(2.5)总离子质量浓度的89 %和85%.线性回归分析显示: PM_(2.5)中的NH_4~+在华山山腰主要以(NH_4)_2 SO_4和NH_4NO_3的形式存在,而在华山山脚主要以NH_4HSO_4和NH_4NO_3的形式存在.华山山腰和山脚PM_(2.5)及其离子呈现出不同的日变化特征:山腰在12: 00 ~ 16: 00出现峰值,主要是因为边界层抬升和山谷风输送地表污染物的缘故;山脚则分别在白天08: 00 ~ 12: 00和夜晚00: 00 ~ 04: 00出现双峰值,这主要是由于早高峰交通排放增加和夜间大型载货卡车流量增大所致.利用阴阳离子当量平衡法及ISORROPIA Ⅱ模型进一步探讨了PM_(2.5)酸度特征,结果表明:华山山脚PM_(2.5)的酸度(pH = 2.9 &plusmn; 2.0)强于山腰(pH = 3.2 &plusmn; 2.3).</p
    Institutional Repository of Institute of Earth Environment, CAS

    芍药苷对PM2.5诱导BEAS-2B细胞损害的保护作用

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    目的探索芍药苷对PM2.5诱导人支气管上皮细胞(BEAS-2B细胞)损害的保护作用及其机制。方法采用析因设计,分别利用MTT法,TBA法及化学荧光法,测定不同剂量芍药苷对PM2.5染毒所致BEAS-2B细胞生长抑制,细胞培养上清中丙二醛(MDA)及细胞内活性氧(ROS)的含量的影响。结果随着PM2.5干预浓度水平的增高,细胞存活率显著性降低(P&lt;0.05),并呈剂量反应关系(r=-0.759,P&lt;0.05),随着共处理芍药苷干预浓度的增高,PM2.5诱导BEAS-2B细胞存活率下降的幅度明显降低(P&lt;0.05),但未观察到剂量-反应关系(P&gt;0.05);同时发现PM2.5染毒可致细胞培养上清中MDA,细胞内ROS含量均显著增高(P&lt;0.05),芍药苷高浓度干预时,细胞培养上清中MDA,细胞内ROS含量较染毒对照组均显著性降低(P&lt;0.05)。结论芍药苷对PM2.5所致BEAS-2B细胞的生长抑制有明显的保护作用,其机制可能与芍药苷抗氧化作用有关。</p
    Institutional Repository of Institute of Earth Environment, CAS

    成都春季生物质燃烧和沙尘期间气溶胶散射特征及其重建

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    于2009年4月19日~5月17日在成都城区每天采集PM2.5样品.利用热光碳分析仪、离子色谱、X荧光光谱仪和高效阴离子交换色谱分别分析样品中有机碳/元素碳、水溶性离子、地壳元素和左旋葡聚糖,同步测量了大气散射系数(bsp)和气象数据.利用IMPROVE方程重建大气散射系数,并与实测大气散射系数进行对比.结果发现,PM2.5浓度均值为133.2&mu;g.m-3,大气散射系数为530 Mm-1.左旋葡聚糖和地壳元素能很好地反映生物质燃烧和沙尘事件.观测期间成都城区计算值b&rsquo;sp为504 Mm-1,(NH4)2SO4、NH4NO3、OM(organic matter)、FS(fine soil)和CM(coarse mass)贡献率分别为26%、15%、53%、4%和2%.DS(dust storm)期间,计算值b&rsquo;sp为575 Mm-1,FS和CM贡献率达到17%和21%.BB(biomass burning)期间,计算值b&rsquo;sp为635 Mm-1,OM贡献率达到62%.</p
    Institutional Repository of Institute of Earth Environment, CAS

    会宁胡麻油产地环境及产品特征 Production environment and product characteristic of Huining flaxseed oil

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    中粮工科(西安)国际工程有限公司
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    为提高会宁胡麻油品牌知名度和影响力,探究了地理标志产品会宁胡麻油的产地环境、种植方式及生产管理过程和品质特性。以会宁县17个乡镇的土壤和胡麻油为试验材料,采用国家相关标准对产地环境及胡麻油品质进行分析并采用气相色谱-质谱法对胡麻油风味物质进行分析。结果表明:会宁胡麻油的产地环境和产品安全指标均达到绿色食品标准;会宁胡麻油中α-亚麻酸平均含量为54.24%,不同产地间存在一定差异;会宁胡麻油含有65种风味物质,香味浓郁,其中己醛、正己醇、2-甲基吡嗪、γ-己内酯和3-甲基巴豆腈对会宁胡麻油独特的香味有重要影响。综上,会宁胡麻生长环境好,会宁胡麻油香味浓郁、营养价值高。In order to improve the brand awareness and influence of Huining flaxseed oil, the production environment, cultivation method and production management process, and quality characteristics of Huining flaxseed oil, a geographical indication product, were explored.The soil and flaxseed oil from 17 townships in Huining county were used as test materials, and the production environment and product quality were determined by the relevant national standards, and the flavor compounds of flaxseed oil were determined by GC-MS method.The results showed that the production environment and product safety indicators of Huining flaxseed oil could meet the standards of green food; the average content of α-linolenic acid in Huining flaxseed oil was 54.24%, moreover, there was difference among different townships.Furthermore, the flaxseed oil of Huining contained 65 flavor compounds and had aromatic flavor, of which hexanal, hexyl alcohol, 2-methylpyrazine, γ-caprolactone, and 3-methyl crocetonitrile had important effect on the unique scent of Huining flaxseed oil.In summary, the flaxseed of Huining grows in a good environment and the oil has a rich aroma and high nutritional value
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