中华地方病学杂志
中華地方病學雜誌
중화지방병학잡지
Chinese Journal of Endemiology
2014年
2期
182-186
,共5页
石帮辉%王建全%李虹%马永福%梁丽红%杨龙%马重义%徐学英%徐艳娇
石幫輝%王建全%李虹%馬永福%樑麗紅%楊龍%馬重義%徐學英%徐豔嬌
석방휘%왕건전%리홍%마영복%량려홍%양룡%마중의%서학영%서염교
砷%饮水%食品%数据收集
砷%飲水%食品%數據收集
신%음수%식품%수거수집
Arsenic%Drinking%Food%Data collection
目的 了解云南省阳宗海砷污染及对阳宗镇入湖河流、水源、食品的影响,为阳宗海砷污染治理,保障饮水和食品安全提供科学依据.方法 2008-2010年,调查阳宗镇阳宗海沿岸砷污染情况.分别用二乙氨基二硫代甲酸银分光光度法和银盐法对阳宗海湖水、泉眼水,以及阳宗镇入湖河水、水源水、生活饮用水和本地生产食品进行砷含量监测.结果 2008-2010年,阳宗海和3号泉眼平均水砷含量分别为0.12、0.10、0.03mg/L和23.92、2.41、0.35 mg/L,2009年较2008年分别下降了16.67%和89.92%,2010年较2009、2008年分别下降了70.00%、75.00%和85.48%、98.54%,呈逐年下降趋势.北斗抽水站南约100 m的泉眼和阳宗镇入湖河水未受到砷污染.监测阳宗镇生活饮用水268份,水砷均符合《生活饮用水卫生标准》(GB 5749-2006)中农村小型集中式供水标准(< 0.05 mg/L).监测阳宗镇本地产食品78份,食品中含砷量合格77份,合格率为98.72%.结论 阳宗海砷污染已得到有效控制,砷污染对阳宗镇入湖河水、饮用水和食品安全没有产生较大影响,阳宗海水体沉积物或底泥中的砷依然存在隐忧,建议继续加强对阳宗海砷污染的监测和综合治理.
目的 瞭解雲南省暘宗海砷汙染及對暘宗鎮入湖河流、水源、食品的影響,為暘宗海砷汙染治理,保障飲水和食品安全提供科學依據.方法 2008-2010年,調查暘宗鎮暘宗海沿岸砷汙染情況.分彆用二乙氨基二硫代甲痠銀分光光度法和銀鹽法對暘宗海湖水、泉眼水,以及暘宗鎮入湖河水、水源水、生活飲用水和本地生產食品進行砷含量鑑測.結果 2008-2010年,暘宗海和3號泉眼平均水砷含量分彆為0.12、0.10、0.03mg/L和23.92、2.41、0.35 mg/L,2009年較2008年分彆下降瞭16.67%和89.92%,2010年較2009、2008年分彆下降瞭70.00%、75.00%和85.48%、98.54%,呈逐年下降趨勢.北鬥抽水站南約100 m的泉眼和暘宗鎮入湖河水未受到砷汙染.鑑測暘宗鎮生活飲用水268份,水砷均符閤《生活飲用水衛生標準》(GB 5749-2006)中農村小型集中式供水標準(< 0.05 mg/L).鑑測暘宗鎮本地產食品78份,食品中含砷量閤格77份,閤格率為98.72%.結論 暘宗海砷汙染已得到有效控製,砷汙染對暘宗鎮入湖河水、飲用水和食品安全沒有產生較大影響,暘宗海水體沉積物或底泥中的砷依然存在隱憂,建議繼續加彊對暘宗海砷汙染的鑑測和綜閤治理.
목적 료해운남성양종해신오염급대양종진입호하류、수원、식품적영향,위양종해신오염치리,보장음수화식품안전제공과학의거.방법 2008-2010년,조사양종진양종해연안신오염정황.분별용이을안기이류대갑산은분광광도법화은염법대양종해호수、천안수,이급양종진입호하수、수원수、생활음용수화본지생산식품진행신함량감측.결과 2008-2010년,양종해화3호천안평균수신함량분별위0.12、0.10、0.03mg/L화23.92、2.41、0.35 mg/L,2009년교2008년분별하강료16.67%화89.92%,2010년교2009、2008년분별하강료70.00%、75.00%화85.48%、98.54%,정축년하강추세.북두추수참남약100 m적천안화양종진입호하수미수도신오염.감측양종진생활음용수268빈,수신균부합《생활음용수위생표준》(GB 5749-2006)중농촌소형집중식공수표준(< 0.05 mg/L).감측양종진본지산식품78빈,식품중함신량합격77빈,합격솔위98.72%.결론 양종해신오염이득도유효공제,신오염대양종진입호하수、음용수화식품안전몰유산생교대영향,양종해수체침적물혹저니중적신의연존재은우,건의계속가강대양종해신오염적감측화종합치리.
Objective To understand status of arsenic pollution in Yangzonghai Lake and its influence to the Yangzong River,the drinking water source and local food and to provide a scientific basis for arsenic pollution control and drinking water and food safety.Methods From 2008 to 2010,the methods of silver diethyl dithiocarbamate spectrophotometric and silver salt spectrophotometry were used to monitor arsenic level in Yangzonghai Lake water,spring water,river water,water source,drinking water and locally produced food,respectively.Results From 2008 to 2010,the average arsenic concentrations of Yangzonghai Lake were 0.12,0.10,0.03 mg/L,and the No.3 spring water were 23.92,2.41,0.35 mg/L,down 16.67% and 89.92% over the previous year from 2009 to 2008,and 70.00%,75.00% and 85.48%,98.54% over the previous year from 2010 to 2009 and 2010 to 2008,respectively,and showed a downward trend year by year.A spring water about 100 m south of the Big Dipper pumping station into the Yangzonghai Lake and the Yangzong River was not contaminated by arsenic.In Yangzong Town,the arsenic concentration of 268 drinking water samples met "Drinking Water Health Standards" (GB 5749-2006,< 0.05 mg/L).Among 78 samples monitored of the locally produced food in Yangzong Town,77 passed,with a passing rate of 98.72%.Conclusions Arsenic contamination of the Yangzonghai Lake has been effectively controlled.Arsenic pollution does not have a greater influence on drinking water and food safety in Yangzong Town,and arsenic in sediments or bottom mud remains uncertain in the Yangzonghai Lake.More measures and integrated management should be taken to strengthen the monitoring of arsenic pollution in the Yangzonghai Lake.