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1.
吉林省中部土壤有机氯农药的含量及组成 总被引:11,自引:0,他引:11
用气相色谱法对吉林省中部土壤样品中有机氯农药的分析结果表明,吉林省中部土壤中有机氯农药以六六六(HCH)和滴滴涕(DDT)为主,艾氏剂、氯丹、狄氏剂、异狄氏剂和七氯等也有不同程度的检出。总DDT含量为0.02~69.35μg/kg,平均含量为3.01μg/kg;总HCH含量为0.47~13.47μg/kg,平均含量为2.00μg/kg。p,p′-DDE和p,p′-DDD为DDT的主要存在形式,主要为过去输入的DDT的降解产物,但近期仍有少量DDT的输入;HCH的4种异构体中以β-HCH为主,α-HCH与γ-HCH的比值较低,表明HCH在土壤中残留的时间很长。 相似文献
2.
鲁西南地区土壤中有机氯农药的残留及其分布特征 总被引:11,自引:0,他引:11
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。 相似文献
3.
广州市公园表层土壤中有机氯农药的分布特征 总被引:5,自引:4,他引:1
通过测定广州市典型公园的冬季和夏季表层土壤样品中有机氯农药(OCPs)含量,研究了OCPs的残留现状和潜在生态风险,并与附近地区相比较,结合当地所处的地理位置对土壤中OCPs的分布特征进行了探讨。冬季和夏季土壤中,六六六类(HCHs)的残留水平分别为0.29~6.26 ng/g和0.60~8.07ng/g,平均值分别为2.06和2.44 ng/g;滴滴涕类(DDTs)的残留水平分别为3.27~38.8 ng/g和1.46~35.5 ng/g,平均值分别为12.4和12.5 ng/g。两类OCPs都未超过国家土壤环境质量标准一级自然背景值。较低的α-HCH/γ-HCH比值和γ-HCH>β-HCH,有可能仍有林丹的使用所致。一些公园可能有新的外源DDTs的输入。历史悠久且距离市中心较近的公园土壤中OCPs含量明显偏高。对于大多数新建且相对偏僻的公园而言,表层土壤一般都未见明显的OCPs污染。 相似文献
4.
山东烟台地区苹果果园土壤中DDTs和HCHs残留分布特征与来源解析 总被引:1,自引:1,他引:0
为研究不同土壤类型中有机氯农药的残留特征、降解程度和来源途径,采集了山东烟台9个不同地质单元苹果园根系土壤和剖面土壤样品,用电子捕获检测器气相色谱法测定其中的滴滴涕(DDTs)和六六六(HCHs)。结果表明,研究区所有类型根系土壤中DDTs和HCHs均未超出《土壤环境质量标准》的二级土壤限值(500 ng/g);土壤中DDTs的残留量及检出率均高于HCHs,DDTs检出率为100%,平均残留量为71.7ng/g,而HCHs的检出率为19.70%,平均残留量为7.9 ng/g;根系土壤中DDTs各异构体平均浓度依次为p,p’-DDT>p,p’-DDE>o,p’-DDT>p,p’-DDD,而HCHs大部分以α-HCH形式存在,部分以β-HCH、γ-HCH存在。不同类型土壤中有机氯农药残留分布特征明显不同:DDTs在棕壤土(臧家庄)中最高(145.5 ng/g),在中粗粒砂土(武宁)中最低(24.1 ng/g);而HCHs在细砂质壤土(蛇窝泊)中最高(27.9ng/g)。各剖面土壤DDTs均在<20 cm层位中残留最高。DDTs和HCHs来源解析表明:研究区土壤为好氧条件;麻砂棕壤(官道和桃村)、黏细壤土(牟平)、细砂质壤土(蛇窝泊)和棕壤土(臧家庄)近年来仍有新的DDTs输入;大部分根系土壤均未发现HCHs新来源,但麻砂棕壤(桃村)在HCHs禁用后可能仍存在林丹的使用。 相似文献
5.
用气相色谱方法对新疆奎屯河流域五个采样点的土壤样品中残留的 HCH 进行分析,结果表明:天北新区葡萄园 HCH 残留量最高,HCHs 达 2 415.46 μg/kg,远远超过了无公害农产品粮食类产地土壤质量指标 (≤500 μg/kg).其次是古尔图镇北 11 km 棉地,125 团西侧 2 km 弃耕地,古尔图镇北 6 km 棉地,苏来曼克斯套林场.HCH 在土壤剖面中的纵向分布总体上是随着土壤剖面的加深而降低.HCH 各异构体中以γ-HCH 残留最大,可能是使用林丹粉(主要成分是γ-HCH)的缘故. 相似文献
6.
以山东省生态地球化学调查中获取的烟台市和鲁西南地区土壤中DDTs(滴滴涕)、HCHs(六六六)数据为基础,对比研究了两地区土壤中DDTs和HCHs的残留状况及其含量变化。发现鲁西南地区土壤中DDTs、HCHs检出率明显高于烟台市,但烟台市土壤中DDTs、HCHs平均值分别是鲁西南的9倍和25倍,且高于世界其他国家或地区土壤平均值。两地土壤中p,p’-DDE为DDTs的主要存在形式,主要是过去输入的DDTs在氧化环境中的降解产物,但烟台市5.52%的土壤近期仍有少量的DDTs输入,并对土壤环境质量产生较大影响。烟台市HCHs的4种异构体中以β-HCH为主,鲁西南α-HCH/γ-HCH值较低,表明HCHs在两地区土壤中残留的时间很长。经初步分析,鲁西南地区土壤中DDTs和HCHs风险较低,但烟台市局部土壤DDTs仍有一定风险。 相似文献
7.
吉林省中部农业土壤中滴滴涕的残留特征 总被引:3,自引:0,他引:3
通过分析研究吉林省中部农业土壤中DDT的含量和组成,探讨了该区土壤中DDT的残留特征及其可能的生态风险。研究结果表明,吉林省中部农业土壤中普遍残留DDT,质量分数为0.384~54.159μg/kg,残留水平较低,土壤DDT同系物中以p,p’-DDT和p,p-’DDE为主。DDT的组成表明,土壤中DDT主要是过去输入环境的DDT及其降解产物,但近期仍有少量的DDT输入。生态风险评估则显示该区土壤中的DDT具有一定的生态风险,应予以重视。 相似文献
8.
广西桂林大岩洞岩溶洞穴土壤中有机氯农药的分布特征 总被引:2,自引:0,他引:2
首次对桂林岩溶区洞穴土壤中有机氯农药的污染状况进行了研究。结果表明,洞穴土壤受到了有机氯农药的轻度污染,其中大气传输对有机氯农药的贡献起主导作用。在17种有机氯农药中,以DDTs、HCHs和氯丹污染为主。在洞穴内部OCP总量为1.19~11.18 ng/g,远低于洞外土壤中的含量(11.41~23.62 ng/g)。在洞内土壤中,HCHs含量高于DDTs,在HCH四种同分异构体中,β-HCH占HCHs的比例远高于其他3种同分异构体。除β-HCH外,其他3种同分异构体的含量分布均匀,可能是由洞穴环境稳定、气候分带等因素造成的。在洞外土壤中,异构体百分比和示踪标志物比值表明周围可能有林丹扣三氯杀螨醇的新近输入。研究区六六六和滴滴涕主要来源于历史上使用的农药的残留。 相似文献
9.
北京郊区农田土壤中HCH残留调查及评价 总被引:2,自引:0,他引:2
北京郊区农田分析区的土壤样品中,均有不同程度的各种HCH异构体检出.在所测样品中,HCH异构体平均含量由高到低排序为σ-HCH、β-HCH、γ-HCH、α-HCH,而且在各个样品中γ-HCH都没有占据主导地位,说明在土壤中没有新的HCH进入.与商品HCH进行比较,w(α-HCH)和w(γ-HCH)明显下降,w(β-HCH)和w(σ-HCH)却相对上升了,分析得出异构体之间的降解转化速率由大到小排序为α-HCH、γ-HCH、σ-HCH、β-HCH.初步评价近年没有新的HCH来源污染本区,但仍有一定风险. 相似文献
10.
苏南典型地区土壤中有机氯农药残留的空间分布及来源分析 总被引:1,自引:0,他引:1
本文研究了江苏张家港市土壤中有机氯农药六六六(HCH)和滴滴涕(DDT)的残留状况,用空间插值和GIS技术分析了其空间分布规律,探讨了潜在来源。结果表明,547个采样点中有21.94%的表层土壤样品中检出HCH,而DDT的检出率为96.16%。HCH在土壤表层的残留均低于《土壤环境质量标准》(GB 15618-1995)的二级标准(500 ng/g),超过一级标准(50ng/g)的也仅占1.46%,DDT则有0.55%的样品超过二级标准。HCH和DDT不同异构体的比值指示土壤中可能有新的来源,但主要还是与历史上的农药施用有关。空间上HCH在南部人为土区的含量要显著高于北部的雏形土区,DDT则相反,这一空间分布格局主要与不同地区的种植历史有关,HCH在人为土区的较高残留可能与历史上水稻种植有关,DDT在北部雏形土区的较高残留则与棉花种植关系较密切。 相似文献
11.
Distribution and potential sources of organochlorine pesticides in the karst soils of a tiankeng in southwest China 总被引:1,自引:0,他引:1
Yinghui Wang Yiyin Xu Shihua Qi Xiaoming Li Xiangsheng Kong Daoxian Yuan Oramah I. Theodore 《Environmental Earth Sciences》2013,70(6):2873-2881
This research was conducted in an attempt to assess the concentration levels and potential sources of organochlorine pesticides (OCPs) in the karst soils of Dashiwei tiankeng, southwest China. The tiankeng is a karst surface expression that can act as a focal point for introduction of contaminants to groundwater system, which may serve as condenser and receiver for semi-volatile persistent organic pollutants such as OCPs. In this study, surface soil samples from Dashiwei tiankeng were collected and 23 organochlorine pesticide compounds were analyzed. The results showed that the concentration was 0.019–3.605 ng/g for DDTs (sum of p,p’-DDD, p,p’-DDE, o,p’-DDT, p,p’-DDT), 0.001–0.218 ng/g for HCHs (sum of α-, β-, γ-, δ-HCH), 0.003–0.290 ng/g for CHLs (sum of heptachlor, heptachlor epoxide, TC, CC and trans-nonachlor), 0.001–0.064 ng/g for endosulfan (sum of α-endosulfan and β-endosulfan), 0.008–1.630 ng/g for HCB and 0.023–0.928 ng/g for other OCPs (sum of aldrin, dieldrin, methoxychlor, endrin, endrin aldehyde and endrin ketone). The total OCPs concentrations varied from 0.055 to 5.216 ng/g. The ratio of DDT/(DDE + DDD) in the floor soils of Dashiwei tiankeng ranged from 0.434 to 0.797, suggesting a mostly historical residue of technical DDT contamination. However, the ratio of DDT/(DDE + DDD) in the upper rim soils was higher than one, which that there was fresh DDT application nearby. Both the floor and upper rim soils of Dashiwei tiankeng had high ratios of o,p’-DDT/p,p’-DDT (range of 0.016–10.833 with mean of 5.424 and 4.667–7.714 with mean of 5.723, respectively), which implied that the primary source of DDTs was probably from dicofol-type DDT products. The average ratios of α-/γ-HCH were 24.435 in the floor soils and 1.067 in the upper rim soils, together with the averaged percentages of β-HCH among the total HCH isomers (accounting for 33.772 %), indicating that the HCHs were a dominant contribution from technical HCH usage in the past. 相似文献
12.
The concentrations of typical organochlorine pesticides (OCPs) (DDTs, HCHs, PCP-Na, and HCB) were measured to understand distribution and source of OCPs in surface and columnar sediments of Poyang Lake in 2006. And OCPS concentrations in surface sediment in 2017 were made a comparison with those in 2006 at several same sampling sites. OCPs showed higher concentrations in main stream than in river mouths (entrance of river flow into lake) of the lake. The average concentrations of HCHs and DDTs were 4.63 ± 3.86 and 20.15 ± 26.86 ng/g in surface sediments in 2006, respectively. Concentrations of OCPs in 2017 were lower than in 2006, such as HCHs average 1.98 ± 2.04 ng/g and DDTs average 4.87 ± 1.48 ng/g in 2017, indicating historical residual and degradation. The primary isomers of HCHs and DDTs in the lake were α-HCH, γ-HCH and p,p′-DDD, respectively. HCHs were from historical residual and lindane application. DDTs were from historical residual. PCP-Na total concentrations in surface sediment were 77.36 ng/g in 2006 and 44.04 ng/g in 2017. The concentration of HCB residues in surface sediment was 0.92 ± 0.90 ng/g in 2006 and 0.42 ± 0.38 ng/g in 2017. The concentrations of OCPs in columnar sediments showed annual variations, and the peak concentrations occurred in 1953, 1961, 1974, 1982, and 1995, showing close relations with onset of production OCPs pesticide in 1950s and its later prohibition in 1980s and a large number agricultural cultivated land decrease in 1990s in China. The concentrations of HCB in columnar sediments were average 2.33 ± 1.26 ng/g. OCPs of columnar sediments were from historical residues and lindane input. The main contamination of OCPs was PCP-Na and p,p′-DDD in Poyang Lake. On the whole, the combination of surface samples (0–5 cm in depth) and columnar samples (0–38 cm in depth) in a single study would give insight into OCPs pollution levels in different years (temporal resolution) and in different regions (spatial resolution) in Poyang Lake. 相似文献
13.
通过评价漓江流域果园土壤农药残留及其风险,为桂林国际旅游胜地创建提供建设性的建议。在重要的葡萄园、柑橘园和桃园采集表土,分析其27种有机氯、磷农药残留,运用土壤环境质量标准、食用农产品产地环境质量评价标准、食品中农药最大残留限量标准等,结合时间代替空间的方法进行评价。漓江流域典型果园表土中,所检测的6种有机磷和21种有机氯农药中16种的残留量在报出限之下,检出率为0%和24%。检出的有机氯农药为滴滴涕总量(DDTs)、对,对 滴滴伊(p,p DDE)、对,对 滴滴涕(p,p DDT)、六六六总量(HCHs)和乙体六六六(β HCH),其质量分数分别为<0.50~10.67 ng/g、<0.50~8.32 ng/g、<0.70~2.35 ng/g、<0.50~0.64 ng/g和<0.50~0.64 ng/g,检出率为68.8%、68.8%、6.3%、6.3%和6.3%。就桃园、葡萄园和柑橘园而言,表土滴滴涕和六六六的检出率分别为33.3%、25%、100%和0%、0%、6.3%,并分析出柑橘园表土滴滴涕和六六六均源于历史上工业品的使用。三大果园表土达到Ⅰ类土壤环境质量,为清洁的农产品产地土壤环境,生产的柑橘、葡萄和桃有机氯、磷再残留量风险低。 相似文献
14.
柳州岩溶地下河水体有机氯农药分布特征 总被引:6,自引:3,他引:3
采用气相色谱(配ECD检测器)对柳州鸡喇和龙寨两条岩溶地下河不同位置水体中18种有机氯农药(OCPs)组分进行分析。结果表明,除异狄氏剂醛外,其余17种OCPs均有不同程度检出,OCPs浓度变化范围为107.68~1101.55ng/L,均值为532.515ng/L。OCPs主要组分为:α-HCH、β-HCH、γ-HCH、δ-HCH、p,p'-DDE、o,p'-DDT、p,p'-DDD、p,p'-DDT、六氯苯、七氯、艾氏剂。其中DDTs和HCHs含量最高,二者之和占到总OCPs的75.8%~96%。对其污染源进行分析,发现地下河水体中DDTs主要源自土壤。HCHs来源相对复杂,可能源于工业品或者长距离大气运输,也可能是近期有林丹的输入使其浓度增高。与国内外各水体相比,本次研究的两条岩溶地下河有机氯农药含量相对较高。 相似文献
15.
Surface soil and sediment samples were collected from the surroundings of the Ittehad Chemical Industries Kalashah Kaku industrial
zone to assess residual level of 19 organochlorine pesticides (OCPs) and identify their sources. DDTs and HCHs were most prevalent
OCPs and general pattern of contamination followed the order: ∑DDT > ∑HCH > dicofol > endrin > heptachlor > dieldrin > endosulfan
II. Total measured concentrations of HCHs (6.38–121.71 ng/g) and DDTs (759.65–1811.98 ng/g) were greater in the soil samples
collected from fodder/rice fields irrigated with the factory effluents and in the surrounding of waste disposal site. Ratios
of β to γ-HCH highlighted an old mixed source of technical HCH and lindane in surface soils. Predominance of p,p′-DDT and p,p′-DDE among isomers and metabolites showed that large quantity of technical grade DDT is still present in the surrounding
surface soils. Six soil samples were categorized as heavy polluted soils (class III category of DDT > 1,000 ng/g), two soil
samples into less polluted soil between class I and II (50–500 ng/g) and 28 soil samples as non-polluted (<50 ng/g) according
to environmental quality standards for surface soils. Six soil samples were categorized as less polluted between class I and
II of HCHs (50–500 ng/g). Greater concentration of DDTs and HCHs above quality guideline poses potential exposure risk to
biological organisms, safety of agricultural products and human health in the surrounding of the Ittehad Chemical Industries. 相似文献
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17.
Norma Tombesi Karla Pozo Andrés Arias Mónica Alvarez Petra Pribylova Ondrej Audy Jana Klánová 《Environmental Earth Sciences》2018,77(11):403
The present study fills a gap in the knowledge in regards to the occurrence of banned pesticides at both coastal and inland locations at the Southwest Buenos Aires region, Argentina. Superficial sediment and soil samples were collected from different sites along the Bahia Blanca Estuary and surrounding sites to assess the concentration levels and spatial distribution of 12 selected organochlorine pesticides (OCs); 13 spatial locations including inland and shore-coast were sampled to evaluate occurrence and concentration levels of hexachlorocyclohexanes α-HCH, β-HCH, δ-HCH, γ-HCH, dichlorodiphenyltrichloroethane and its degradation products (DDXs: p,p′-DDT, o,p′-DDT, p,p′-DDE, o,p′-DDE, p,p′-DDD, o,p′-DDD) and the polychlorobenzenes PeCB (pentachlorobenzene) and HCB (hexachlorobenzene). After cleaning and extractions steps, samples were analyzed by means of gas chromatography/mass spectrometry. ∑OCs (sum of all studied compounds) ranged between 0.206 and 1040 ng g?1 dw (mean?=?82.4 and SD?=?277 ng g?1 dw). Total HCHs (sum of α-HCH, β-HCH, γ-HCH and δ-HCH) ranged from 0.0858 to 0.876 ng g?1 dw (mean?=?0.43 and SD?=?0.23 ng g?1 dw), DDXs (sum of p,p′and o,p′ isomers) from 0.080 to 1040 ng g?1 dw (mean?=?81.3 and SD?=?277 ng g?1 dw). Lower concentrations were found for PeCB (mean?=?0.095 and SD 0.17 ng g?1 dw) and HCB (mean?=?0.56 and SD 1.7 ng g?1 dw). Principal component analysis (PCA) permitted the extraction of underlying information about common factors, providing an overview of the distribution of pesticides and allowing the characterization of sites in regards to the major pesticide signature. 相似文献