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贵阳市位于贵州省中部云贵高原东斜坡地带,地处东经106°07′至107°17′,北纬262°11′,至272°22′之间,属东部平原向西部高原的过渡地带,地形地貌多样,海拔高,纬度低,具有亚热带湿润温和型气候的特点,资源丰富,能源充足,自然环境得天独厚。本论文详细研究了贵阳市8046平方公里面积内表层土壤中砷、福、铬、铜、汞、镍、铅、锌8种重金属污染元素的环境地球化学特征,确定了土壤环境地球化学基线,并建立了判别自然的和人为的环境影响的地球化学指标,进而计算污染参数:重金属累计指数和污染程度,在此基础上进行了土壤重金属污染来源分析。取得认识如下:1、贵阳市表层土壤中重金属污染元素的均值、标准差、极值、主要含量区间分别是:砷18·ogmg/kg、11·57 mg/kg、79.30mg/kg、AS95.9%<40mg/kg;福0.302mg/kg、0.363mg/kg、2.620mg/lcg、Cd95.7%<1.000mg/kg;铬75.3mg/kg、37.3mg/kg、271.0mg/kg、Cr95.9%<150.0mg/1cg;铜43.lmg/kg、30.3mg/kg、213.0mg瓜g,Cu94.6o/<100mg/kg;铅43.2mg/kg、31.3mg/kg、318.9mg/kg,Pb95.5%<100.0mg/kg;汞0.222mg/kg、0.531mg/kg、7.030mg/kg,Hg98.2%<1.00Omg/kg;镍38.3mg/kg、14.9mg/kg、102.5mh/kg,Ni95.8%<70mg/kg;锌84.7mkg、49.8mg/kg、385.0mg/kg,Zn93.4%<150.0mg/kg。2、利用相对累计总量分析方法和相对累计频率分析方法确定贵阳市表层土壤中重金属元素的基线值和受人为影响的下限:砷为9.04mk和29.0mg/kg;福为0.068mg/kg和1 .OIOms/kg;铬为44.0mg/kg和100.2mg/kg;铜为18.8mg/kg和68.4mg/kg;铅为14.8mg/kg和70.lmg/kg;汞为0.045mg/kg和0.530mkg;镍为17.0mg/kg和57.0mg/kg;锌46.3mg/kg和112.0mg/kg。3、对贵阳市表层土壤重金属含量进行地质累计指数分析,结果显示贵阳市的表层土壤中:41%未受砷污染,43%的在无污染到中度污染之间,14%的中度污染,只有2%的介于中度污染到强污染之间;40%未受福污染,19%无污染到中度污染之间,14%的中度污染,19%的介于中度污染到强污染之间,7%的强污染,1%的表层土壤强污染到极强污染之间;46%未受铬污染,47%在无污染到中度污染之间,6.8%的中度污染,0.2%介于中度污染到强污染之间;38%未受铜污染,38%在无污染到中度污染之间,22%的中度污染,2%的介于中度污染到强污染之间;18%未受铅污染,47%在无污染到中度污染之间,28%的中度污染,3%介于中度污染到强污染之间;12%未受元素汞污染,37%在无污染到中度污染之间,36%的中度污染,11%介于中度污染到强污染之间,2%的强污染,1%的介于强污染与极强污染之间,1%的极强污染;19.2%未受镍污染,63.7%在无污染到中度污染之间,16.8%的中度污染,0.3%介于中度污染到强污染之间;41%未受锌污染,50%在无污染到中度污染之间,7%的中度污染,2%介于中度污染到强污染之间。4、贵阳市表层土壤中重金属元素含量的污染程度计算显示:砷的污染程度最大为4,27,50.2%的表层土壤未受污染,97%的表层土壤污染程度小于2,总污染程度略大于O,即受到轻微污染;蝠的污染程度最大为12.1,57.9%的表层土壤未受污染,%%的表层土壤污染程度小于4,总污染程度大于。,即受到污染;铬的污染程度最大为2.01,69%的表层土壤未受到重金属元素铬的污染,30.6%的表层土壤受到轻微污染,总污染程度小于O,即未受到污染;铜的污染程度最大为5.09,53.2%的表层土壤未受到重金属元素铜的污染,总污染程度略大于0,即受到轻微污染;铅的污染程度最大为8.11,49.9%的表层土壤未受到重金属元素铅的污染,总污染程度略大于0,即受到轻微污染;汞的污染程度最大为45.87,56.1%的表层土壤未受到重金属元 素汞的污染。总污染程度大于0,即受到污染;镍的污染程度最大为1.56,64%的表层土壤未受到重金属元素镍的污染,总污染程度小于O,即未受到污染;锌的污染程度最大为2.85,77.8%的表层土壤未受到重金属元素锌的污染,总污染程度小于0,即未受到污染。综合考虑8种重金属污染元素,贵阳市40.2%的表层土壤无重金属元素污染,巧%的表层土壤在无污染到轻微污染之间,36.1的表层土壤轻微污染,7.2%的中度污染,1.4%的表层土壤严重污染。5、福和镍只存在较少的污染区域,其余六种元素都存在局部的重金属含量受人为因素影响。砷的污染区域主要集中在筑东部的马场和西部清镇的暗流、王家院等地;铬的污染区域主要集中筑南部的花溪马林、西部的暗流一酒坪等地;铜的污染区域则主要集中在筑南部的燕楼马林处;汞的污染区域分布在筑北开阳双流、筑西北六广以及筑中扎佐三片;铅的污染区域分布在筑东北的宅吉、城关;筑西麦格等处;而锌的污染区则集中在筑东北面的开阳花梨和城关。总体来说,镍、铜的含量是处于最安全的位置,而汞、铅的警戒区域面积很大,几乎函盖了全部研究区域,福次之,砷、锌、铬适中。6、贵阳市表层土壤中重金属污染元素的含量主要与矿山、长期的农业措施和燃煤带来的污染有关。所有重金属含量超标区几乎都对应于矿区,其污染可能来自于母岩,也可能来自矿区生产而导致的“三废”污染。汞、铅、镉的“警戒”区域面积较大,主要是由长期的农业污染造成,特别是磷肥和含污染元素的农药、除草剂等的施用,汞、隔“警戒”区域面积较大的原因还与燃煤后重金属的大气沉降有关。另外砷的污染也和燃煤后大气沉降有关。贵阳市表层土壤没有受到重金属污染元镍的污染。7、在本研究区域内,重金属含量呈现不同含量等级的土类是由于长时间受人为影响的结果,而重金属含量处于单一等级区间的土类则受人为因素影响较小,其含量区间反映了背景值含量范围。在贵阳市的表层土壤中,黄壤、石灰土、水稻土受人为影响较多,石质土、粗骨土、紫色土、黄棕壤受人为影响适中,沼泽土和山地草甸土受人为影响较少。8、本文建议:(1)在乌当区金华镇三铺村、修文县久长镇新隆村、白云区牛场乡小山村、修文县扎佐镇丁官村、修文县大石乡天桥村、开阳县双流镇凉水井村、修文县六广镇滨江村这几个综合污染较为严重的区域采取政府宏观调控手段,指导当地农户进行绿化苗木、花卉等不进入食物链的植物,或者在合适的地方,进行退耕还林,种植生态林。同时建议有关部门在这些区域开展土壤重金属治理工作;(2)在清镇市的暗流一卫城、王家院、水塘以及开阳县马场一哨上等砷含量较高区域种植旱生禾谷类食用籽粒的作物,如小麦、玉米、高粱等,不能种植水生作物和叶菜类作物;在北部开阳双流片、西北部修文六广一大石片、筑中扎佐一牛场片汞含量较高区域推广竺麻的种植;在东北部开阳花梨一城关锌含量较高区域建议农户种植玉米;在开阳的宅吉一龙水、城关和清镇的麦格片区铅含量较高区域,大力发展烟草的种植;在修文久长、大石、开阳城关一马场、清镇麦格、乌当水田一新堡等搞含量较高地区推荐种植豆科食用籽粒作物。9、综合考虑国家《土壤环境质量标准(GB15618一1995)》中规定监测的8种重金属污染元素,污染程度(Cd)的判别指标可以定量化为:Cd≤O:无污染;O<Cd燕1无污染到轻微污染;1<Cd≤5:轻微污染:5<Cd≤10中度污染;Cd>10:严重污染。
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泥炭的形成和积累主要受控于气候,其次是地质、地貌和水文等因素。作为一种重要和理想的气候信息载体,泥炭己经与冰芯、海洋及湖泊沉积、黄土堆积、洞穴碳酸盐沉积、树轮和珊瑚礁等其它类型的自然地质档案一样,逐渐为国内外致力于古气候变化研究的学者所接受,并将其重点应用于全新世以来气候变化信息的提取。本研究在已有的泥炭混合植物残体纤维素碳稳定同位素记录青藏高原东部地区气候信息的基础上,首次提取泥炭中单一种属植物残体一木里苔草(Calexmulieensis)纤维素,测定其碳稳定同位素,并以其时间序列作为一种新的西南季风代用指标,揭示该区域全新世以来气候变化。研究表明:1.木里苔草的碳稳定同位素时间序列是西南季风强度变化的敏感代用指标。约11800~11加0 cal aBP期间,木里苔草纤维素的613C记录处于最大值,表明该时段西南季风活动鼻弱,气候干冷,对应于普遍发生并存在的新仙女木事件;它清晰地指示了该区全新世的下限年龄为约11200 cal aBP(14c年龄约9900aB玲从约11200 oal aBP起该区迅速进入湿暖的全新世阶段,季风活动迅速增强;在约10800~5500 cal aBP期间,季风总体保持在强盛状态,但其间有4次突然减弱,气候变干冷;约从5500 cala即起季风活动在波动中逐渐减弱,其中有4次减弱最为明显。2.木里苔草纤维素碳同位素所记录的犯000年以来的所有9次西南季风活动的突然减弱与同时期北大西洋发生的冰力}漂移碎屑沉积物事件(IRD事件)一一对应。这种密切的相关关系表明,西南季风强度的波动可能是对全球气候变化特别是对海洋热盐环流引起的地球南北方气撇动变化的响应。3.木里苔草纤维素碳稳定同位素所指示的西南季风有952,乓57,475,312,211和77年等一系列周期。其中557年和77年两个周期分别与北大西洋深层海水环流的550年的周期和76年的气候周期非常吻合。这表明西南季风与北大西洋气候间有很好的相关关系。由于557年和77年的季风周期又都分别类似于53。年和80年的太阳活动周期,这表明太阳活动可能对西南季风和北大西洋气候间的联系有着影响。4.红原泥炭木里苔草纤维素和泥炭混合纤维素别3c时间序列在千年至万年时间尺度上的变化趋势很相近。两种代用记录都一致反映了冰后期的气候变化,即均指示西南季风强度变化可分为三个明显的大阶段。这说明它们对过去12000年的西南季风变化具有相同的响应。对于目前经过较详细研究的那些全球大范围发生的突然气候变化事件,木里苔草纤维素δ~(13)C代用记录与泥炭混合纤维素δ~(13)C代用记录一样,都有相同的响应,但是,相对于泥炭中单一的木里苔草敏感地记录到历次北大西洋I劝事件而言,泥炭混合纤维素δ~(13)C记录对其中的几次突然气候变化事件似乎没有表现出明显的响应。这个结果表明对数百年尺度的突然气候变化,木里苔草纤维素比混合纤维素的酬3c指标似乎要更敏感一点。因此,在能获得足够数量的单种植物·残体的情况下,单种植物残体纤维素的δ~(13)C指标有很好的使用价值。
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A simple and sensitive method for the determination of short and long-chain fatty acids using high-performance liquid chromatography with fluorimetric detection has been developed. The fatty acids were derivatized to their corresponding esters with 9-(2-hydroxyethyl)-carbazole (HEC) in acetonitrile at 60 degreesC with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride as a coupling agent in the presence of 4-dimethylaminopyridine (DMAP). A mixture of esters of C-1-C-20 fatty acids was completely separated within 38 min in conjunction with a gradient elution on a reversed-phase C-18 column. The maximum fluorescence emission for the derivatized fatty acids is at 365 nm (lambda (ex) 335 nm). Studies on derivatization conditions indicate that fatty acids react proceeded rapidly and smoothly with HEC in the presence of EDC and DMAP in acetonitrile to give the corresponding sensitively fluorescent derivatives. The application of this method to the analysis of long chain fatty acids in plasma is also investigated. The LC separation shows good selectivity and reproducibility for fatty acids derivatives. The R.S.D. (n = 6) for each fatty acid derivative are <4%. The detection limits are at 45-68 fmol levels for C-14-C-20 fatty acids and even lower levels for
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Alcohols were derivatised to their carbazole-9-N-acetic acid (CRA) esters with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride (EDC . HCl) as the dehydrating agent. Studies on derivatisation conditions indicated that the coupling reaction proceeded rapidly and smoothly in the presence of a base catalyst in acetonitrile to give the corresponding sensitively fluorescent derivatives. The retention behaviour of alcohol derivatives was investigated by varying mobile phase compositions (ACN-water and MeOH-water). The parameters from the equation log k'=A-BX were evaluated by retention data of derivatives using an isocratic elution with different mobile phases. The results indicated that the parameters derived allowed computation of retention factors in good agreement with experiments. At the same time, a general equation was derived that makes possible predictions of partition coefficient in binary mobile phases with different proportions of organic solvent to water based on some simple regression analysis. The LC separation for the derivatised alcohols containing higher carbon alcohols showed good reproducibility on a reversed-phase C-18 column with gradient elution. The detection limits (excitation at 335 nm, emission at 360 nm) for derivatised alcohols (signal-to-noise ratio=3:1) were in the range of 0.1-0.4 pg per injection. (C) 2001 Elsevier Science B.V. All rights reserved.
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Research on naïve biology investigates children spontaneous understanding of biology objects, phenomena and function. Previous researches focus mostly on biology phenomena. Little has done on organism’s function, such as eating food. Many research in this field found that children were unable to categorize food by nutrition criterion, but rely on physical cues. In order to investigate the development of children’s naïve understanding of food and to find if they can classify food by nutrition criterion, three age groups (5-year-olds, 7-year-olds, and 9-year-olds) were included in this study. Varies experimental tasks were also used to explore the children’s understanding of food and its function. The results showed as the followings: 1) A few 5-year- old children can classify food by nutrition criterion when they take the spontaneous classification task. However, more and more children can realize what make a kind of food different from another can be the nutrition it contains. 2) Kindergarteners can find the relation between food and its output. When they become older, more and more children can explain the relation by consistent theory. It can be said that 9-year-old children have already have a profound understanding of nutrition. They gradually developed naive theory of biology on nutrition level. 3) Even kindergarteners can understand the concept of “food balance”. However, with development there was a significant age increase in food balance choice. 4) Children’s knowledge of food balance grows with age, but urban and rural educational background influence cognitive performance.
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Research on children's naive concepts has previously tended to focus on the domains of physics and psychology, but more recently attention has turned to conceptual development in biology as a core domain of knowledge. Because of its familiarity, illness has been a popular topic for researchers in this domain. However, they have only studied the children’s understanding of its causes. Other aspects of illness, such as treatment and prognosis, have received little attention. This research addresses the development of 5- to 9-year-old children’s understanding of the causes of illness and their probabilities via open-ended and forced choice interviews. The results of this research are: 1) Most of the 5- to 7-year-old children used behavioral causes to explain illness, and the 9-year-old children primarily used biological causes to interpret illness. With age, more and more children selected psychological causes to explain illness. 2) Pre-school children did not over-generalize contagions to non-contagious illnesses. They used behavioral and biological causes to explain contagious illnesses. For non-contagious illnesses, they chose only behavioral causes. 3) Most of the children used only one kind of cause to explain illness. 4) Some preschool-aged children viewed outcomes of familiar causes of illness as probabilistic. With age, more and more could make uncertain predictions of illness. 5) The children’s understanding of the causes’ probabilities appeared to be based on naïve biology. 5- to 9-year-old children often made probabilistic predictions by analyzing a single cause of illness. 6) Children coming from higher educational backgrounds outperformed their counterparts coming from lower educational backgrounds with respect to understanding illness. 7) Specific knowledge acquired could generally improved the preschoolers’ understanding of causes of illness and their probabilities.
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2009
