广西百朗地下河水和沉积物中有机氯农药的分布特征

为了解典型岩溶地区广西乐业百朗地下河表层水和沉积物中有机氯农药的分布特征,采集地下河不同断面的水和沉积物样品,利用气相色谱仪测定了19种有机氯农药。结果表明:(1)百朗地下河表层水中19种有机氯农药总量(∑OCPs)浓度为1.95～71.45ng/L,HCHs和DDTs浓度分别为未检出至58.40ng/L和未检出至0.44ng/L;(2)沉积物中∑OCPs浓度为0.75～14.85ng/g,HCHs和DDTs浓度分别为0.11～3.52ng/g和0.03～2.90ng/g;(3)地下河表层水和沉积物中有机氯农药的分布与吸附作用、环境温度以及和地下河连通的天坑的底部的土壤侵蚀有关,即因温差作用,大气沉降的有机氯农药易富集在天坑底部(“冷陷阱效应”),并在土壤侵蚀作用下向水体移动,使地下河沉积物中有机氯农药浓度升高;(4)百朗地下河出口沉积物吸附系数最低,但水中有机氯农药浓度较高且种类最多,推测可能是地下河沉积物中因有机氯农药被释放而引起二次污染;(5)表层沉积物中大多数断面的异狄氏剂浓度及乐业县城附近断面的DDTs和DDD浓度在风险评估低值与风险评估中值之间,表明百朗地下河处于较低的生态风险水平;(6)目前,流域部分断面尚有新的γ-HCH(林丹)和DDTs农药输入。由于有机氯农药长期累积,可能对地下河生态系统造成危害,应采取防治措施。      

洪湖沉积物柱芯有机氯农药高分辨率沉积记录

测定了洪湖沉积物柱芯样品中有机氯农药(OCPs)的质量分数,探讨了有机氯农药的垂直分布特征,结合210Pb定年研究该地区有机氯农药的污染历史。研究结果表明,19种有机氯农药均有检出,不同组分质量分数差异较大,总有机氯农药质量分数范围为1.44~345.95 ng/g(干重)。从20世纪60年代开始,洪湖沉积物中总有机氯农药质量分数呈上升趋势,70年代达到最高峰,并且近年来湖区可能还有部分新的有机氯农药污染物的输入,其来源可能与周边人类活动有关。     

新疆开都河流域不同环境介质中的有机氯农药和多环芳烃残留及分布特征

为探讨新疆开都河流域水不同介质的来源及分布特征,检测了开都河流域水、土壤和表层沉积物样品中20种有机氯农药(OCPs)和16种多环芳烃(PAHs)的含量。结果显示,OCPs和PAHs在水中的含量分别为42.5~62.5ng/L和29.4~454.3ng/L,在土壤中的含量分别为8.8~12.4ng/g和6.6~128.2ng/g,在表层沉积物中的含量分别为6.6~13.7ng/g和20.8~491.0ng/g。空间分布上,开都河中游污染相对严重的土壤对应的周边河流沉积物也具有较高浓度的污染物,这种分布明显受人类活动影响,沿河道上游呈递增趋势,但总体上低于入湖口沉积物中的含量,表明博斯腾湖蓄积了来自周边的污染物。来源分析表明,开都河流域的六六六(HCHs)和滴滴涕(DDTs)主要是历史残留,而入湖口区水体和表层沉积物中新的DDTs,可能与湖泊沉积物被扰动引起的再悬浮释放有关。PAHs以低分子量组分为主,其高含量主要来自于木柴、煤等中低温燃烧。风险评价结果表明,开都河流域土壤和沉积物中的OCPs和PAHs不存在显著的生态风险。     

广州市公园表层土壤中有机氯农药的分布特征

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。     

大石围天坑群土壤中有机氯农药的分布与富集特征

选择典型的岩溶地区广西乐业大石围天坑群为研究区,采集不同岩溶地形的土壤,利用 GC-ECD 气相色谱仪测定六六六(HCHs)和滴滴涕(DDTs)两种有机氯农药的浓度.结果表明,大石围天坑群地表土壤、天坑绝壁土壤、天坑底部土壤以及地下河(洞穴)土壤中的 HCHs 和 DDTs 平均浓度分别为0.06 ng/g 和0.02 ng/g、0.31 ng/g 和0.27 ng/g、0.96 ng/g 和0.28 ng/g 以及0.14 ng/g 和0.10 ng/g.研究区土壤中有机氯农药总检出率为:天坑地表<天坑绝壁<天坑底部<地下河(洞穴),随高程降低而增高;有机氯农药(OCPs = HCHs + DDTs)浓度的空间分布特征为:天坑底部>天坑绝壁>地下河(洞穴)>天坑地表,天坑底部 OCPs 浓度明显高于顶部;因此,大石围天坑呈现明显的有机污染物“冷陷阱效应”     

长三角部分地区土壤中22种有机氯农药的分布特征

针对长三角地区长期工业化对农业生态环境构成较大风险,本文利用气相色谱法对该地区不同利用类型土壤中22种有机氯农药进行测定,研究了有机氯农药的残留状况及其在4条土壤垂向剖面中的分布特征。结果表明,不同利用类型表层土壤中有机氯农药残留平均值为工业园区菜地(139.87 ng/g)工业园区荒地(103.1 ng/g)农业区传统菜地(26.27 ng/g)农业区水稻田(2.50 ng/g)。表层土壤中DDTs和HCHs是主要污染物,DDTs含量为0.14~485.73 ng/g(均值44.43 ng/g),HCHs含量为0.69~66.69 ng/g(均值7.73 ng/g),(DDD+DDE)/DDTs值表明该地区近期外源DDTs输入较少。土壤剖面样品分析表明,DDTs和HCHs的含量均随土壤深度增加而迅速降低,这与剖面土壤包气带岩性均以黏土和亚黏土为主,削弱了地表径流对有机氯农药的垂直迁移动力有关。本研究可为控制和改善该地区污染状况提供相关数据。     

广州地区蔬菜生产基地有机污染物含量状况及分布

为了解广州地区蔬菜基地有机污染物的分布情况,选取了6个代表性基地进行调查采样,测试分析了表层土壤、蔬菜及灌溉水中15种邻苯二甲酸酯(PAEs)化合物、16种多环芳烃(PAHs)化合物和19种有机氯农药(OCPs)化合物的质量分数及质量浓度.结果表明:在15种PAEs化合物的总质量分数(w(ΣPAEs))中,土壤样品为158.0~4 321.0 ng/g,蔬菜样品为1 134.0~48 576.0 ng/g;水样中15种PAEs化合物的总质量浓度(ρ(ΣPAEs))为632.0~14 271.0 ng/L;就单个化合物而言,以DiBP、DBP、DEHP三种污染物为主,其三项之和占所有PAEs质量分数的97.5%~99.1%;在16种PAHs化合物的总质量分数(w(ΣPAHs))中,土壤样品为28.48~1 121.96 ng/g,蔬菜样品为238.09~1 000.61 ng/g;水样中16种PAHs化合物的总质量浓度(ρ(ΣPAHs))为338.21~1 239.78 ng/L;在19种OCPs化合物的总质量分数(w(ΣOCPs))中,土壤为0.04~71.28 ng/g,蔬菜为1.08~9.18 ng/g.总体上看,各基地土壤中DBP质量分数均超标,多环芳烃类在灵山、花东、黄埔菜地土壤中存在轻微污染,有机氯农药均未出现污染.     

沈阳郊区表层土壤有机氯农药残留特征及风险评价

利用GC-ECD定量测定了沈阳郊区21个表层土壤样品中有机氯农药(OCPs)的含量,并对其残留特征、可能来源及生态风险进行了分析。结果表明,研究区表层土壤中OCPs的检出率达到95.2%,残留量最高值达到111.67 ng·g-1,平均值26.91 ng·g-1,其中以六六六(HCHs)和滴滴涕(DDTs)为主。与国内其他城市土壤中OCPs含量相比,沈阳郊区表层土壤HCHs和DDTs残留属于较低水平,但HCB残留属于较高水平。研究区OCPs的来源解析表明OCPs主要来自环境中的早期残留和近期林丹的使用,六氯苯(HCB)的来源还应包括工业生产。相关性分析说明土壤中总有机碳和水溶盐含量是影响OCPs残留的重要因素。生态风险评价显示表层土壤中DDTs类有机氯农药对该区生物可能仍存在生态风险。     

重庆典型岩溶区地下河水体有机氯农药污染初步研究

利用GC-ECD对重庆典型岩溶区地下河水体中有机氯农药(OCPs)进行检测,结果表明,地下河水中OCPs浓度为3.41～51.34ng/L,均值为13.23ng/L;滴滴涕(DDTs)浓度为0.07～2.37ng/L,均值为0.72ng/L;六六六(HCHs)浓度为1.16～39.82ng/L,均值为7.89ng/L。南川湾滩地下河水体有机氯农药污染最为严重,其上游纸厂排放废水是影响该地下河有机氯农药污染的主要原因。与国内外其它河流相比较,研究区地下河水体有机氯农药含量处于中低水平。由于岩溶区特殊的二元结构,地表水体一旦受到污染,将直接影响到地下水体。因此,对岩溶地下河进行有机污染物的调查研究具有重要的现实意义      

长白山表层土壤中有机氯农药和多氯联苯的海拔高度分布特征

吉林省洁净地区长白山表层土壤中有机氯农药(OCPs)和多氯联苯(PCBs)总体上污染较轻,但高于一些其他地区。表层土壤的OCPs和PCBs表现出明显的随海拔高度增大的趋势,初步显示了高山冷凝捕集效应的影响。长白山旅游地区表层土壤受到轻微HCHs和DDTs的污染(平均值分别为12.4 ng/g和12.3 ng/g)。长白山附近较低海拔地区表层土壤中OCPs含量要略高一些,表明农业活动逐渐增大。HCHs和DDTs都未超过国家土壤环境质量标准的一级,但个别地点DDTs可能对鸟类和土壤生物具有一定的潜在生态风险。不排除在个别采样点有林丹和三氯杀螨醇被使用的可能性。长白山及附近地区表层土壤样品中∑7PCBs含量为7.3～31.9ng/g,平均17.2 ng/g。PCBs污染主要集中在海拔1450 m和1800 m处。7种PCBs异构体的含量依次为:PCB 28>PCB 52>PCB 180>PCB 138>PCB 101>PCB 153>PCB 118。     

Distribution and source of organochlorine pesticides (OCPs) in the sediments of Poyang Lake

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.     

Analyses of the Compositional Characteristics and Sources of the Organochlorine Pesticides in the Surface Sediments of Guanghai Bay,Taishan City,Guangdong Province

Organochlorine pesticides (OCPs) are a class of toxic and harmful persistent organic pollutants widely found in environment. Hexachlorocyclohexane (HCHs) and DDTs are two of the most widely used OCPs (Qiu et al., 2004), so it is important to find out their compositional characteristics and sources in surface sediments. Guanghai Bay is located in the south of Guanghai Bay Industrial Park in Taishan City, Guangdong Province. It borders Huangmaohai to the east and Zhenhai Bay to the west, covering an area of about 236 square kilometers. In this study, surface sediments were collected at 16 sites in Guanghai Bay (Fig. 1). After the surface sediments were pretreated, GC‐MS was used to analyze OCPs. A total of 14 OCPs were detected and their content was shown in Table 1. The concentration of ΣOCPs ranged between 0.507～0.860ng·g‐1, with an average of 0.680 ng?g‐1. In general, the content of ΣOCPs was the highest at No. A12 site. The concentrations of these 14 detected OCPs ordered as dieldrin > epoxy heptachlor > P, P'‐DDD > γ‐HCH >endrin >aldrin > P, P'‐DDE >mirex >hexachlorobenzene >P, P'‐DDT > α‐HCH > δ‐HCH >β‐HCH > heptachlor.     

广州市海珠区有机氯农药污染状况及其土-气交换

通过在冬夏两季对广州市海珠区表层土壤和空气样品中有机氯农药的采样和分析,对有机氯农药残留现状和潜在生态风险进行了研究。结果表明,土壤中六六六类(HCHs)含量水平在2007年冬季和2008年夏季分别为0.57~8.77 ng/g和0.30~14.9 ng/g,平均值分别为2.87 ng/g和3.04 ng/g,都未超过国家土壤环境质量标准的一级自然背景值。冬季和夏季滴滴涕类(DDTs)含量水平分别为3.69~697.7 ng/g和0.88~263.3 ng/g,平均值分别为85.5 ng/g和39.4 ng/g。海珠区部分地点DDTs超过国家土壤环境质量标准的一级自然背景值。DDTs为该区域表层土壤中主要的有机氯农药残留。在研究区域对逸度模型进行了初步应用。     

Distribution of organochlorine pesticides in soils of Dashiwei Karst Tiankeng (giant doline) area in South China

Surface soil samples were collected in two karst Tiankengs, Dashiwei and Datuo, situated within the Dashiwei Tiankeng group, located in Leye County of Guangxi province, South China. The soil samples were analyzed for 23 kinds of organochlorine pesticides (OCPs) using a gas chromatography electron capture detector device. The results showed that the concentrations of OCPs in soils of Dashiwei Tiankeng ranged from 0.03 to 5.13 ng/g for total OCPs, not detectable (ND) to 0.22 ng/g for Hexachlorocyclohexane (HCHs), and 0.01 to 3.61 ng/g for Dichlorodiphenyltrichloroethane and metabolites (DDTs). Concentration of the total OCPs in soils of Datuo Tiankeng ranged from 0.13 to 14.36 ng/g, ND to 0.39 ng/g for HCHs, and 0.01 to 3.28 ng/g for DDTs. These concentrations indicated that there could be new inputs of HCHs and DDTs from recent application of lindane and dicofol in this area. Further analysis also revealed that the concentration of OCPs at the bottom of both Tiankengs was higher than the top. The variability in concentrations between the top and the bottom was attributed to the “cold trapping effect” for persistent organic pollutants (POPs) in karst Tiankeng topography. The difference in temperature between the top and bottom of Tiankeng is a predominating factor which can cause a POPs “cold trapping effect.” Other environmental factors are proposed to explain the difference in concentration such as humidity, topography (or slope), wind speed, wind direction, solar radiation, vegetation cover, and soil organic matter. The environmental condition of Dashiwei Tiankeng appears to favor the accumulation of OCPs than that of Datuo Tiankeng because Dashiwei Tiankeng is a matured Tiankeng but Datuo Tiankeng is a degraded one. Thus, there is the need for further studies on the environmental factors influencing distribution of OCPs in karst Tiankeng.     

西藏错鄂湖和羊卓雍湖水体及沉积物中有机氯农药的初步研究

对2002年5月采集的西藏错鄂湖和羊卓雍湖的水和沉积物样品进行了实验及分析。结果表明，这2个高原湖泊均不同程度地受到有机氯农药的污染，并具有多种有机氯农药的同时存在、在沉积柱上近表层没有含量下降趋势以及南部的羊卓雍湖污染程度高于藏北的错鄂湖等特点，反映出湖泊中的有机氯农药有可能是随孟加拉湾洋暖流由南向北带人的。两个湖泊的水与沉积物中滴滴涕(DDTs)和六六六(HCHs)含量甚至与我国东部地区的一些淡水水体相近，这种现象很可能表明，大气沉降的有机氯农药可在青藏高原湖泊水体与沉积物中发生一定程度的累积。长远地看，这一过程将可能对青藏高原野生动物产生负面影响。     

Contamination by organochlorine pesticides from rivers

The contamination of organochlorine pesticides (OCPs) from the selected rivers in Okinawa Island was investigated to estimate the current status of pollution in water, plants and surface sediments in these rivers. The Aja River, Asato River, Houtoku River, Kokuba River and Okukubi River were selected for this study. The concentration of the total pesticides were in the range of 0.94-231.8 ng/L in river water, 0.006–191.6 ng/L dry weight in river sediments and 0.001–55.8 ng/L dry weight in plants. Among the OCPs, ΣHCB of α-BHC,β-BHC and Aldrin were the common detected compounds in river water. The α-BHC, Aldrin and Dieldrin were the most frequent detected compounds in river sediments and α-BHC and Dieldrin were the common OCPs detected in plants. Aldrin, Dieldrin and ΣHCB were in abundance. Various contamination patterns between the selected river water, sediments and plants were observed. Aja River, Asato River and Houtoku River were contaminated with α,β,δ,γ- BHC, Aldrin and Dieldrin (water and sediments) whereas the main OCPs in Kokuba River and Okukubi River were Dieldrin (plants) The OCPs levels in all rivers were generally below guideline values in Japan, but some sites displayed levels which exceeded the EC and WHO Standards for Aldrin, Dieldrin and α,β-BHC.     

长江入海口浅层沉积物中典型有机氯农药分布特征

对长江入海口包括江苏启东,上海崇明岛、长兴岛、横沙岛等地区的浅层沉积物中典型有机氯农药(OCPs)的分布情况进行了研究。采用气相色谱-电子捕获检测器进行检测,方法检出限为0.10 ng/g,回收率为62.4%～116.7%,精密度(RSD)为2.7%～8.3%。调查分析结果显示,长江入海口沿岸均存在轻度和中度的OCPs污染,主要检出物总滴滴涕(DDTs)浓度范围为1.22～626.43 ng/g。深度(0～80 cm)采样检测结果表明,研究区表层及深度样品中DDTs均有不同程度检出,浅层沉积物中DDTs在0～20 cm区域占检出总量的58.1%;其次是20～40 cm区域,DDTs占总量的30.8%;40～60 cm区域DDTs占总量的8.2%;60～80 cm区域DDTs占总量的2.9%,即浅层沉积物中DDTs主要集中在0～40 cm区域,部分点位40～80 cm能够检出少量DDTs。本研究提供的数据为该地区OCPs垂直分布提供参考。     

气相色谱-质谱法同时测定河流沉积物中多环芳烃和有机氯农药

建立了用加速溶剂萃取,气相色谱-质谱法同时测定河流沉积物中16种多环芳烃和19种有机氯农药的分析方法,优化了萃取溶剂、萃取温度和时间、凝胶渗透色谱收集时间、固相萃取洗脱溶剂和洗脱体积等条件。16种多环芳烃的方法检出限在0.15~0.59 ng/g,加标回收率为82%~102%,相对标准偏差(RSD,n=5)为1.1%~4.5%。19种有机氯农药的方法检出限在0.14~2.23 ng/g,加标回收率为71%~108%,相对标准偏差(RSD,n=5)为1.0%~4.5%。实际样品的测定结果表明,该方法分离效果较好,能够满足沉积物样品中多环芳烃和有机氯农药的分析要求。