In a follow-up paper, Genersch et al. (2010) provided a more detailed 的简体中文翻译

In a follow-up paper, Genersch et a

In a follow-up paper, Genersch et al. (2010) provided a more detailed assessment of the German Bee Monitoring Project. All data were statistically analysed in respect to the Foraging honey bee, honey and pollen trap samples collected from eighteen apiaries in Western France (Bretagne and Pays de la Loire) from four different landscape contexts during four different periods in 2008 and in 2009 were analysed to evaluate the presence of pesticides and veterinary drug residues (Lambert et al. 2013). A multiresidue analysis was developed to identify and quantify 80 pesticides (covering the majority of active ingredients used for plant protection) and veterinary drugs in the three beehive matrices. A total of 141 honey bee, 141 honey and 128 pollen samples were collected from the 18 apiaries during 2008 and 2009. Of these, 102 (72.3 %), 135 (95.7 %) and 75 (58.6 %) of the samples, respectively, contained at least one of the defifined 80 chemicals. The frequency of detection was higher in the honey samples (28 compounds) than in the pollen (23 compounds) or honey bee (20 compounds) samples, but the highest concentrations were found in pollen. Although most compounds were rarely found, some of them reached high concentrations that might lead to adverse effects on bee health. The three most frequent residues in all three matrices were the widely used fungicide carbendazim and two acaricides, amitraz and coumaphos, that are used by beekeepers to control Varroa destructor. Clothianidin was not found at all while imidacloprid was only detected in 3 out of 141 honey samples (2.1 %) and in 1 of the 128 pollen samples (0.8 %) and was not found among the 141 honey bee samples. While it was recognised that lower levels established for this monitoring exercise could be present (e.g.,
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In a follow-up paper, Genersch et al. (2010) provided a more detailed assessment of the German Bee Monitoring Project. All data were statistically analysed in respect to the Foraging honey bee, honey and pollen trap samples collected from eighteen apiaries in Western France (Bretagne and Pays de la Loire) from four different landscape contexts during four different periods in 2008 and in 2009 were analysed to evaluate the presence of pesticides and veterinary drug residues (Lambert et al. 2013). A multiresidue analysis was developed to identify and quantify 80 pesticides (covering the majority of active ingredients used for plant protection) and veterinary drugs in the three beehive matrices. A total of 141 honey bee, 141 honey and 128 pollen samples were collected from the 18 apiaries during 2008 and 2009. Of these, 102 (72.3 %), 135 (95.7 %) and 75 (58.6 %) of the samples, respectively, contained at least one of the defifined 80 chemicals. The frequency of detection was higher in the honey samples (28 compounds) than in the pollen (23 compounds) or honey bee (20 compounds) samples, but the highest concentrations were found in pollen. Although most compounds were rarely found, some of them reached high concentrations that might lead to adverse effects on bee health. The three most frequent residues in all three matrices were the widely used fungicide carbendazim and two acaricides, amitraz and coumaphos, that are used by beekeepers to control Varroa destructor. Clothianidin was not found at all while imidacloprid was only detected in 3 out of 141 honey samples (2.1 %) and in 1 of the 128 pollen samples (0.8 %) and was not found among the 141 honey bee samples. While it was recognised that lower levels established for this monitoring exercise could be present (e.g.,
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结果 (简体中文) 2:[复制]
复制成功!
在后续文件中,Genersch等人(2010年)对德国蜜蜂监测项目进行了更详细的评估。2008年四个不同时期,从法国西部的18个鱼场(Bretagne和Loire)收集的蜜蜂、蜂蜜和花粉陷阱样本,对所有数据进行了统计分析,并分析了2009年农药和兽药残留物的存在(Lambert等人,2013年)。开发了一种多残留分析,以识别和量化三种蜂巢基质中的80种杀虫剂(涵盖用于植物保护的大多数活性成分)和兽药。2008年和2009年,共从18个蜜蜂中采集了141个蜜蜂、141个蜂蜜和128个花粉样本。其中,102人(72.3%)、135人(95.7%)和 75 (58.6%)样本中,至少有一种含有80种化学药品。蜂蜜样品(28种化合物)的检测频率高于花粉(23种化合物)或蜜蜂(20种化合物)样品,但在花粉中发现浓度最高。虽然大多数化合物很少被发现,但有些化合物达到高浓度,可能对蜜蜂健康产生不利影响。所有三种基质中最常见的三种残留物是广泛使用的杀菌剂卡本达齐姆和两种杀菌剂,即阿米特拉兹和库马福斯,由养蜂人用来控制Varroa析构物。根本不发现克西亚尼丁,而在141个蜂蜜样本中只检测到3个(2.1%)的imidacloprid在128个花粉样本中1个(0.8%)在141个蜜蜂样本中没有发现虽然人们认识到,为这种监测工作确定的较低水平可能存在(例如,
正在翻译中..
结果 (简体中文) 3:[复制]
复制成功!
在后续文件中,Genersch等人。(2010)对德国蜜蜂监测项目进行了更详细的评估。对2008年和2009年从法国西部18个养蜂场(Bretagne和Pays de la Loire)采集的来自4个不同景观环境的蜜蜂、蜂蜜和花粉捕集器样本进行了统计分析,以评估杀虫剂和兽药的存在残留物(Lambert等人。2013年)。采用多残留分析法对三种蜂巢基质中的80种农药(包括大多数用于植物保护的活性成分)和兽药进行了鉴定和定量分析。2008年和2009年,共采集了18个蜂场141只蜜蜂、141只蜂蜜和128份花粉样品。其中,102份(72.3%)、135份(95.7%)和75份(58.6%)分别含有至少一种降纤80种化学品。蜂蜜样品(28种化合物)的检测频率高于花粉(23种化合物)或蜜蜂(20种化合物)样品,但花粉的检测浓度最高。尽管大多数化合物很少被发现,但其中一些达到了高浓度,可能会对蜜蜂健康造成不利影响。三种基质中最常见的三种残留是广泛使用的杀真菌剂多菌灵和两种杀螨剂,阿米特拉斯和库马福斯,养蜂人用它们来控制伐螨。在141份蜂蜜样品中只有3份(2.1%)和128份花粉样品中的1份(0.8%)检测到吡虫啉,141份蜜蜂样品中没有检测到吡虫啉。虽然人们认识到,为这项监测工作制定的较低水平可能存在(例如。,
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