Lavy T L, Mattice J D, Massey J H, Skulman B W
University of Arkansas, Department of Agronomy, Fayetteville 72703.
Arch Environ Contam Toxicol. 1993 Feb;24(2):123-44. doi: 10.1007/BF01141339.
A year-long nurseryworker pesticide exposure study was designed to measure and evaluate the exposure occurring to workers who had the potential for simultaneous exposure to multiple pesticides. This four-State study was conducted in five nurseries (four USDA Forest Service and one State) involved in conifer seedling production. Primary comparisons were made among nursery workers in the Pacific northwest and south central United States. Worker exposure was assessed by using patches attached to clothing, handrinse samples and urine excreted from potentially exposed workers. In addition, dislodgeable residue in rinsate from a water wash of pesticide-treated seedlings was also evaluated. Four different groups of field workers, designated as applicators, weeders, scouts and packers, were included. The pesticide absorbed dose, assessed by urine analysis of pesticide metabolites and the deposition of pesticide on patches attached to the clothing of field workers, was monitored as they performed their duties under normal conditions (e.g., typical clothing, pesticide application). Monitoring was performed for the 14 different pesticides which were used in these nurseries. Seven pesticides were studied in more detail using biological monitoring. For these compounds, metabolites known to be excreted in the urine of exposed humans or other mammals were used to estimate the dose of pesticide absorbed by the exposed workers. The highest percentage of positive samples came from dislodgeable residue samples (8.3%) followed by patch samples (3.2%), handrinse (2.9%), and urine samples (1.3%). To summarize the conclusions from the urinary excretion data, 12 of the 73 nursery workers in the study received a low absorbed dose of pesticide. Biological monitoring revealed that three pesticides (benomyl, bifenox and carbaryl) were found in the urine of some of the workers. Of the 3,134 urine samples analyzed there were 42 positive; 11 urine samples were positive for benomyl, while bifenox was responsible for 13 positives and carbaryl accounted for the remaining 18. The 12-week continuous monitoring of urine showed that metabolites of these materials were rapidly excreted; thus, no build-up in the body is anticipated. Margins of Safety (MOS) calculations were made to provide an assessment of the significance of the exposure. Based on the low frequency of positive urine samples in the study, the low levels of metabolites when they were found, their apparent rapid excretion rate and the No Observed Effect Level (NOEL) data, furnished from other sources, nursery worker exposure to pesticides in these conifer nurseries is below health threatening levels.
一项为期一年的苗圃工人农药接触研究旨在测量和评估有可能同时接触多种农药的工人的接触情况。这项涉及四个州的研究在五个从事针叶树苗生产的苗圃(四个美国农业部森林服务处的苗圃和一个州立苗圃)中进行。主要比较对象是美国太平洋西北部和中南部的苗圃工人。通过使用附着在衣物上的贴片、手部冲洗样本以及潜在接触工人排出的尿液来评估工人的接触情况。此外,还对经过农药处理的幼苗水洗后的冲洗液中的可去除残留进行了评估。研究纳入了四组不同的田间工人,分别指定为施药员、除草工、巡查员和包装工。通过对农药代谢物的尿液分析以及农药在田间工人衣物上贴片的沉积情况来监测农药吸收剂量,监测他们在正常工作条件下(如典型着装、施用农药)的工作情况。对这些苗圃中使用的14种不同农药进行了监测。对其中7种农药使用生物监测进行了更详细的研究。对于这些化合物,利用已知会在接触农药的人类或其他哺乳动物尿液中排泄的代谢物来估计接触工人吸收的农药剂量。阳性样本比例最高的是可去除残留样本(8.3%),其次是贴片样本(3.2%)、手部冲洗样本(2.9%)和尿液样本(1.3%)。为总结尿液排泄数据得出的结论,该研究中的73名苗圃工人中有12人吸收的农药剂量较低。生物监测显示,在一些工人的尿液中发现了三种农药(苯菌灵、乙羧氟草醚和西维因)。在分析的3134份尿液样本中,有42份呈阳性;11份尿液样本苯菌灵呈阳性,乙羧氟草醚导致13份阳性,西维因占其余的18份。对尿液进行的为期12周的连续监测表明,这些物质的代谢物排泄迅速;因此,预计不会在体内蓄积。进行了安全边际(MOS)计算以评估接触的显著性。基于该研究中尿液阳性样本的低频率、发现代谢物时的低水平、其明显的快速排泄率以及从其他来源获取的未观察到有害作用水平(NOEL)数据,这些针叶苗圃中的苗圃工人接触农药的水平低于对健康构成威胁的水平。
