干旱环境监测
榦旱環境鑑測
간한배경감측
ARID ENVIRONMENTAL MONITORING
2011年
4期
193-197,202
,共6页
赤水河%有机氯农药%毛细管气相色谱法
赤水河%有機氯農藥%毛細管氣相色譜法
적수하%유궤록농약%모세관기상색보법
Chishui river%organochlorine pesticides%capillary gas chromatography
建立了用正己烷萃取,气相色谱—电子捕获(GC—ECD)测定水体中有机氯农药痕量残留的方法。结果表明:六氯苯、α-HCH、β-HCH、γ-HCH、δ-HCH、p,p′-DDD、p,p′-DDE、p,p′-DDT、艾氏剂、狄氏剂、异狄氏剂、七氯、环氧七氯、o,p′-DDT 14种农药在14 min内有较好的分离;2个不同浓度的标准添加,其回收率为72.0%~121.0%,方法检出限为1.19~4.87 ng/L,各组份相对标准偏差(RSD,n=8)为1.34%~3.14%;采用该方法从赤水河中段10个监测点采集样品进行检测,14种有机氯农药只有少部分指标有检出,但含量水平均较低。
建立瞭用正己烷萃取,氣相色譜—電子捕穫(GC—ECD)測定水體中有機氯農藥痕量殘留的方法。結果錶明:六氯苯、α-HCH、β-HCH、γ-HCH、δ-HCH、p,p′-DDD、p,p′-DDE、p,p′-DDT、艾氏劑、狄氏劑、異狄氏劑、七氯、環氧七氯、o,p′-DDT 14種農藥在14 min內有較好的分離;2箇不同濃度的標準添加,其迴收率為72.0%~121.0%,方法檢齣限為1.19~4.87 ng/L,各組份相對標準偏差(RSD,n=8)為1.34%~3.14%;採用該方法從赤水河中段10箇鑑測點採集樣品進行檢測,14種有機氯農藥隻有少部分指標有檢齣,但含量水平均較低。
건립료용정기완췌취,기상색보—전자포획(GC—ECD)측정수체중유궤록농약흔량잔류적방법。결과표명:륙록분、α-HCH、β-HCH、γ-HCH、δ-HCH、p,p′-DDD、p,p′-DDE、p,p′-DDT、애씨제、적씨제、이적씨제、칠록、배양칠록、o,p′-DDT 14충농약재14 min내유교호적분리;2개불동농도적표준첨가,기회수솔위72.0%~121.0%,방법검출한위1.19~4.87 ng/L,각조빈상대표준편차(RSD,n=8)위1.34%~3.14%;채용해방법종적수하중단10개감측점채집양품진행검측,14충유궤록농약지유소부분지표유검출,단함량수평균교저。
In this paper, a method was established that with hexane extraction gas chromatography- electron capture (GC - ECD) to determine organocb.lorine pesticides residues in water. The result showed that HCB, α- HCH, β- HCH, γ- HCH, δ- HCH, p, p' - DDD, p, p' - DDE, p, p- DDT, aldrin, dieldrin , endrin, heptachlor, heptachlor epoxide, o, p' - DDT those 14 kinds of pesticides were good separated within 14min, the recoveries of two different concentrations standard addition was from 72.0% to 121.0 %, the range of the detection limit was from 1.19 to 4.87 ng/L, and the relative standard deviation (RSD, n = 8) was 1.34% to 3.14%. The samples were detected from 10 monitoring points where in the middle of the Chishui River, only a small part out of 14 organochlorine pesticide were detected with concentration level very low.
