湖北秭归鱼泉洞泉域系统中六六六(HCHs)和滴滴涕(DDTs)的分布、来源与迁移

岩溶区特殊的地形地貌,使得地表环境中的有机氯农药(OCPs)很容易进入地下环境,对地下水的安全构成威胁。采用气相色谱-电子捕获检测器(GC-ECD)对湖北秭归鱼泉洞泉域系统中的典型OCPs——六六六(HCHs)和滴滴涕(DDTs)进行了检测,探究了其时空分布特征、潜在污染来源和迁移特征。结果表明:水体中HCHs质量浓度范围为0.09~5.17 ng/L,土壤和泉沉积物中HCHs质量分数范围分别为0.36~3.67,0.11~2.53 ng/g;水体中DDTs质量浓度范围为0.13~7.16 ng/L,土壤和泉沉积物中DDTs质量分数范围分别为0.22~19.13,0.73~11.53 ng/g,呈现出以DDTs为主的污染特征。水体中HCHs和DDTs质量浓度在冬季最高;土壤中HCHs和DDTs质量分数分别在夏季和冬季达到最高;泉沉积物中HCHs和DDTs质量分数分别在夏季和春季达到峰值。特征比值结果显示,水体、土壤和泉沉积物中HCHs主要源于林丹的使用;水体中DDTs主要源于历史残留,而土壤和泉沉积物中DDTs主要来源于近期使用。相关性分析结果表明,HCHs和DDTs可从补给区地表水和补给区土壤分别向排泄区泉水和泉沉积物中迁移。HCHs和DDTs在介质中的快速迁移证实了岩溶区地下水的脆弱性。本研究成果可以为岩溶地下水资源和环境的保护提供参考。

Distribution and Ecological Risk Assessment of HCHs and DDTs in Surface Seawater and Sediment of the Mariculture Area of Jincheng Bay,China

The distribution of hexachlorocyclohexanes(HCHs) and dichlorodiphenyltrichloroethanes(DDTs) in the surface seawater and sediment of Jincheng Bay mariculture area were investigated in the present study. The concentration of total HCHs and DDTs ranged from 2.98 to 14.87 ng L-1 and were < 0.032 ng L-1, respectively, in surface seawater, and ranged from 5.52 to 9.43 and from 4.11 to 6.72 ng g-1, respectively, in surface sediment. It was deduced from the composition profile of HCH isomers and DDT congeners that HCH residues derived from a mixture of technical-grade HCH and lindane whereas the DDT residues derived from technical-grade DDT and dicofol. Moreover, both HCH and DDT residues may mainly originate from historical inputs. The hazard quotient of α-HCH, β-HCH, γ-HCH and δ-HCH to marine species was 0.030, 0.157, 3.008 and 0.008, respectively. It was estimated that the overall probability of adverse biological effect from HCHs was less than 5%, indicating that its risk to seawater column species was low. The threshold effect concentration exceeding frequency of γ-HCH, p,p'-DDD, p,p'-DDE and p,p'-DDT in sediment ranged from 8.3% to 100%, and the relative concentration of the HCH and DDT mixture exceeded their probable effect level in sediment. These findings indicated that the risk to marine benthos was high and potentially detrimental to the safety of aquatic products, e.g., sea cucumber and benthic shellfish.

Organochlorine pesticide and heavy metal residues in some edible biota collected from Quanzhou Bay and Xinghua Bay,Southeast China

In order to assess the contamination of edible marine organisms in Quanzhou and Xinghua Bays, Fujian Province, China, concentrations of organochlorine pesticides （hexachlorocyclohexane isomers or HCHs and dichlorodiphenyltrichloroethane isomers/derivatives or DDTs） and heavy metals （Cu, Pb, Zn, As, Cr, Cd, Ni and Hg） in 13 species collected from different sites in the hays were analyzed by GC-ECD and ICP-MS. The concentration of the sum of DDTs exceeded that the sum of HCHs in the samples. Most of the organisms showed higher levels of DDTs than the first level criterion （10 ng/g） for marine biological quality in China （GB 18421-2001） but conformed to the first level criterion （20 ng/g） for HCHs. The estimated mean daily uptake of pesticides was below the level for minimal risk to the consumers. The levels of Cd, As and Pb in most organisms from both bays were markedly elevated and above the recommended legal limits for human consumption. Our results showed the need for routine monitoring of marine species contamination to ensure public and environmental health.

Gridded inventories of historical usage for selected organochlorine pesticides in Heilongjiang River Basin, China

The use of technical HCH （1, 2, 3, 4, 5, 6-hexachlorocyclohexane）, DDT （dichlorodiphenyltrichloroethane） and lindane in Heilongjiang River Basin （HRB） of China was studied. Between 1952 and 1984 the total usage in the HRB was 108900 t for technical HCH, and 4900 t for DDT, respectively, and the use of DDT due to dicofol application in the HRB was 220 t from 1984 to 2003. The usage of lindane in HRB was 109 t from 1991 to 2000. The results show that the highest technical HCH use （41800 t） in HRB was on maize, accounting for 38.3% of the total usage on all crops, followed by the use on wheat （28000 t, 25.7%） and on soybean （26600 t, 24.4%）. The highest DDT use （2300 t） was on soybean, accounting for 46.8% of the total usage on all crops, followed by the use on maize （1500 t, 31.3%） and on sorghum （600 t, 13.2%）. The major use of lindane was mainly on wheat. Gridded usage inventories of these three OCPs （organochlorine pesticides）, in HRB with a 1/6° latitude by 1/4° longitude resolution have been created by using different gridded cropland as surrogates. Some soil samples have also been collected in HRB. Data of usage and soil concentrations of 5： HCH in HRB match quite well to those in Shanghai region, and much higher soil concentration of 5： DDT in Shanghai region could be due to much heavier dicofol use in this region.

气相色谱法测定茶叶中HCH、DDT的农药残留

目的:采用气相色谱-电子捕捉器建立快速测定茶叶中HCH、DDT农药残留的方法。方法:正己烷超声提取样品,经磺化反应后,气相色谱法分离检测,外标法定量。结果:该方法线性范围为0.005~0.500μg·mL^(-1),检出限为0.003 mg·kg^(-1),R^(2)为0.9990~0.9999,相对标准偏差为1.03%~1.62%,待测物的回收率为85.6%~103.1%。结论:该方法稳定性好,操作方便,且准确度及灵敏度较高,适用于茶叶中HCH、DDT含量的测定。

用化学发光免疫法检测有机氯农药DDTs的残留量

建立了检测有机氯农药DDTs残留的化学发光免疫分析技术(chemiluminescence immunoassay,CLIA),以鲁米诺和过氧化氢作为化学发光底物,测定样品中有机氯农药DDTs残留。结果表明:发光底物液非催化下,5～7 min后发光值较稳定;在发光底物液酶催化下,反应10 min接近峰值;DDTs标准曲线线性范围为0.05～25 ng/mL,标准样品DDTs浓度与发光值呈现很好的线性相关,线性方程为y=-63.806x+13426,R2=0.9945,检测最低限为0.05 ng/mL;回收率为91.4%～107.8%。

污染土壤中六六六和DDT在温室中的分布特征及动态变化研究

应用PUF材料空气被动采样技术,研究了密闭温室条件下污染土壤中有机氯农药[DDT和六六六（HCH）]含量的动态变化及其向空气中扩散的规律。结果表明：土壤中∑HCHs和∑DDTs总量随着培养时间的延长而降低;空气中HCH和DDT浓度在20d时达到峰值,20d以后浓度逐渐降低。培养60d后,土壤中∑HCHs的浓度随土层深度增加而增加,0~2cm土层中∑HCHs的浓度（9.4±0.69）mg·kg-1显著低于6~8cm土层中的浓度（12.11±0.83）mg·kg-1;∑DDTs在土壤中浓度随土壤层次呈现先升高后降低的变化趋势。在温室条件下有机氯农药的异构体和降解产物的组成也发生一定变化,土壤中HCHs和DDTs在一定程度上被激活,温室条件也可能促进HCHs和DDTs的土-气交换过程;温室环境促进了p,p′-DDT和o,p′-DDT向p,p′-DDD和p,p′-DDE转化,从而增大DDT和HCH的环境风险。

Organochlorine pesticides in soils under different land usage in the Taihu Lake region, China

A field study was conducted in the Taihu Lake region, China in 2004 to reveal the organochlorine pesticide concentrations in soils after the ban of these substances in the year 1983. Thirteen organochlorine pesticides （OCPs） were analyzed in soils from paddy field, tree land and fallow land. Total organochlorine pesticide residues were higher in agricultural soils than in uncultivated fallow land soils. Among all the pesticides, ΣDDX （DDD, DDE and DDT） had the highest concentration for all the soil samples, ranging from 3.10 ng/g to 166.55 ng/g with a mean value of 57.04 ng/g and followed by ΣHCH, ranging from 0.73 ng/g to 60.97 ng/g with a mean value of 24.06 ng/g. Dieldrin, endrin, HCB and α-endosulfan were also found in soils with less than 15 ng/g. Ratios of p,p＇-（DDD＋DDE）/DDT in soils under three land usages were： paddy field 〉 tree land 〉 fallow land, indicating that land usage inlfuenced the degradation of DDT in soils. Ratios of p,p＇-（DDD＋DDE）/DDT 〉1, showing aged residues of DDTs in soils of the Taihu Lake region. The results were discussed with data from a former study that showed very low actual concentrations of HCH and DDT in soils in the Taihu Lake region, but according to the chemical half-lives and their concentrations in soils in 1980s, the concentration of DDT in soils seemed to be underestimated. In any case our data show that the ban on the use of HCH and DDT resulted in a tremendous reduction of these pesticide residues in soils, but there are still high amounts of pesticide residues in soils, which need more remediation processes.

典型农药生产场地DDTs和HCHs残留水平及垂直分布特征

采集我国西南某农药厂场地内不同深度的土壤样品,使用GC-MS分析了土壤中六六六(HCHs)和滴滴涕(DDTs)的残留水平和垂直分布特征。结果表明,土壤HCHs浓度变化范围为nd^90.80mg/kg之间(平均值为3.65mg/kg),土壤的DDTs含量介于nd^465.00mg/kg之间(平均值为11.22mg/kg)。垂向土壤样品分析结果显示,HCHs和DDTs的检出率普遍偏高,检出有机氯农药的最深土层达到了1100cm;虽然HCHs和DDTs在不同采样点的剖面变化规律差异明显,但均表现出较强的垂直迁移能力,这可能与本场地企业生产过程中的车间建设改造有关。总体看来,本研究场地土壤环境遭受了明显的HCHs和DDTs污染,在后续的再开发利用中必须采取相应的控制措施或者治理修复,从而保障环境安全。

东莞市土壤中有机氯农药的含量及其组成

2002年10-12月采集东莞市土壤样品64个，采用气相色谱法对土壤中的17种有机氯农药进行分析．除HCHs外，其它13种有机氯农药在所有样品中都有不同程度的检出．HCHs的含量介于n．d．-16．11μg／kg之间，平均含量为1．76μg／kg．DDTs含量在0．05～36．33μg／kg之间，平均含量为3．49μg／kg，同国内其他地区相比，其残留水平偏低．土壤中DDTs、HCHs残留在不同土壤利用方式下有所不同．

泉州湾沉积物中有机氯农药含量及风险评估

参照美国EPA8000系列方法及质量保证／质量控制（QA／QC），将泉州湾表层沉积物分为上（0～2cm）、下（2～10cm）2层，分析沉积物中有机氯农药（OCPs）含量特征。结果表明，OCPs含量由高至低依次为内湾、秀涂-石湖-线和外湾，吸附性强的硫丹硫酸盐、七氯环氧化合物倾向于在上层富集．残留有机氯农药的降解主要发生在厌氧环境下，上层降解程度大于下层．西南偏南向潮流造成来自江河的污染物长期滞留，降低了内湾自净化能力．对照Ingersoll风险评估标准，认为泉州湾上、下层沉积物中有机残留具有较高的生态风险性，会对该海域深水养殖和底栖食泥生物产生较大影响．

湖南省东北部蔬菜土壤中有机氯农药残留及其组成特征

2006年3月,采集湖南省东北部7个地区蔬菜土壤样品,采用GC-ECD检测、GC/MS-MS确证的方法对土壤中20种有机氯农药进行分析,并探讨有机氯农药在蔬菜土壤中的残留现状及组成。结果表明,HCHs和DDTs检出率高达100%,残留量范围分别为0.15～16.80μg·kg-1和6.05～57.91μg·kg-1。OCPs的主要残留物是DDTs,占残留总量的70%以上。绝大部分地区土壤中α-HCH/γ-HCH比值大于1,DDT/(DDE+DDD)比值小于1,表明HCHs和DDTs主要来自于早期的使用,但岳阳和衡阳地区近期可能有新的DDTs农药输入。艾氏剂、狄氏剂、γ-氯丹和环氧七氯也有不同程度的检出。与国内外相关报道相比,HCHs和DDTs残留水平较低。

鲁西南地区土壤中有机氯农药的残留及其分布特征

在鲁西南地区1.08×104km2的范围内以1点/36km2的采样密度采集表层土壤299件,测试六六六(HCH)、滴滴涕(DDT)等10项指标。研究这些指标的含量变化,发现区内土壤中停用20多年的六六六(HCH)、滴滴涕(DDT)仍有较高的检出率。土壤中六六六(HCH)4种异构体β-HCH含量最高,P,P'-DDE和P,P'-DDD为滴滴涕(DDT)的主要存在形式;进一步研究α-HCH/γ-HCH、β-HCH/γ-HCH和(P,P'-DDE+P,P'-DDD)/P,P'-DDT值的变化规律,得出调查区内仅滴滴涕(DDT)在局部可能存在新的污染源输入,而大部分地段六六六(HCH)、滴滴涕(DDT)农药使用时间较长,其组分已经通过物理、化学等作用发生了很大变化,污染是过去形成的。土壤环境质量评价结果表明区内土壤质量能保障农业生产、维护人体健康。

青岛沿海养殖区贝类体内有机氯农药残留量分布和评价

2005年5月和9月分别在青岛周边的胶州湾、田横湾、鳌山湾、胶南等贝类养殖区的17个站位采集了杂色蛤,竹蛏,栉孔扇贝等三种贝类,采用气相色谱-电子捕获检测器(GC-ECD),外标法定量,对贝类体内有机氯农药(HCHs、DDTs)残留量进行检测。并对不同情况下残留量的分布状况进行研究,结果表明:(1)贝类体内HCHs的检出率为60%,DDTs为100%。均未超过国家标准。(2)5月份农药残留量偏高,9月份残留量偏低。(3)生活在河流入海口处的贝类体内农残含量略有偏高。(4)栉孔扇贝对有机氯的富集尤为显著,残留量高。杂色蛤,竹蛏农药残留量低。

漓江桂林市区段表层沉积物有机氯农药分布特征

对漓江桂林市区段沉积物中有机氯农药分析结果表明,沉积物中总OCPs为0.94~56.68ng/g（平均值13.77ng/g）,在国内处于中等水平.上游蚂蝗洲附近和下游瓦窑受有机氯农药污染最为严重,中游河段污染较轻.18种检出的有机氯农药中,六氯苯含量最高,其次为HCHs,这与当地使用历史有关.（DDE＋DDD）/DDT比值（平均值为2.79）表明DDT降解比较完全,DDE/DDD比值说明沉积物降解主要发生在厌氧条件下.同分异构体比例分析说明漓江市区河段HCH类农药以历史残留为主,而蚂蝗洲附近有大量林丹输入,需引起相关部门重视.

惠州农业土壤中有机氯农药残留的剖面分布特征

对惠州市6个样点的农业土壤剖面样品的17种有机氯农药残留量进行了测定,探讨了土壤剖面有机氯农药的残留现状和分布特征。结果表明,有机氯农药的检出率为100%,含量范围0.25-64.16μg.kg^-1。有机氯农药残留总量沿土壤剖面总的垂直变化趋势为随深度增加而下降。各组分在不同土壤深度具体变化特征因受多种因素影响而有所不同,HCHs峰值多出现在土壤亚表层,含量随深度变化幅度不大;DDTs在土壤深层的残留量远低于表层。从HCHs和DDTs的异构组成来看,DDTs残留主要是过去施用的残留物,HCHs可能与土壤新的林丹输入有关,需要进一步加强监管力度。

小海湾沉积物中有机氯农药的浓度水平和分布特征

用GC／ECD法测定了小海地区上下层沉积物中17种有机氯农药的浓度水平和分布特征。结果表明：小海湾上层OCPs含量明显高于下层，且大致呈现由内湾至人海口先增后减的分布特征，入海口处含量的突增可能与泻湖的特殊地理构造有关；DDTs类有机氯农药在内湾的降解程度明显强于人海口地区，α-HCH／γ-HCH比值均处于0～4之间，认为沉积物中HCHs来源于林丹和工业HCH；DDTs含量水平低于厦门湾海域、澳门河口等经济发达地区，高于泉州湾、莱州湾等半敞口型海湾；HCHs含量远低于厦门湾、泉州湾及莱州湾。

贵州遵义地区土壤中有机氯农药残留调查

于2008年3月-5月对遵义地区土壤中有机氯农药残留进行了调查。结果表明，15种有机氯农药在所有样品中都有不同程度的检出。HCHs、DDTs类物质的检出率分别为90．7％、45．7％。∑HCH残留量为未检出～12．7μg／kg，平均值为1．6μg／kg；2DDT残留量为未检出-239．7μg／kg，平均值为2．8μg／kg；总有机氯杀虫剂平均残留量为4．51μg／kg，同国内其他地区相比，其残留水平偏低。

重庆老龙洞地下河流域水体有机氯农药污染及来源初步研究

为查明重庆老龙洞地下河流域有机氯农药的污染情况及其特征和来源,通过气相色谱-微池电子捕获检测器(GC-μECD)检测水体OCPs含量。结果表明研究区水样中受到了有机氯农药不同程度的污染。α-HCH是研究区水体HCHs主要成分,HCHs的残留主要来自于大气长距离传输。DDTs的主要成分各采样点不尽相同。DDTs的输入为历史上工业DDTs的使用且在水体中其主要以好氧转化为主。与国内外河流相比较,老龙洞地下河流域水体有机氯农药含量处于较高水平。

气象因子对洪湖有机氯农药大气沉降的影响

对洪湖进行了为期一年(2005年2月-2006年2月)的大气沉降采样,采用被动大气采样方法对大气沉降中的有机氯农药进行了分析,得到该年通过大气沉降向洪湖输入有机氯农药9.77 kg,其中大气颗粒态沉降量为2.74 kg,湿沉降量为7.03kg。大气沉降中六六六(HCHs)和滴滴涕(DDTs)的沉降量最大。将所获气象数据和各季度有机氯农药大气沉降量进行了相关性分析,结果表明:①气象因子对湿沉降的相关性较大气颗粒态沉降的明显,其中降雨量、平均温度、平均风速与湿沉降量的相关系数最高;②风速、温度、日照对有机氯农药在气相溶解态和大气颗粒态分配影响强烈,而温度是决定有机氯农药在大气中以何种形式沉降的主要因素;③由于降雨的前锋时段具备有效的强沉降能力,使得连续性降雨频次对大气沉降影响强烈。