Using bulk deposit samplers to evaluate pollutant loads from atmospheric deposition

Nakazawa Koyomi, Kunimatsu Takao, N. Osamu
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Abstract

The aim of this study was to evaluate the number of bulk deposit samplers needed to measure atmospheric deposition of pollutants with an acceptable level of variability. A set of 10 bulk deposit samplers was placed at an experimental site near Lake Biwa in the Shiga Prefecture in Japan, and water samples were collected monthly from each sampler. First, the effects of the intrusion of insects and litter were examined by placing intrusion-prevention devices on the samplers. All measures of variation (coefficient of variation [CV], skewness, and kurtosis) were smaller when the device was used than when it was not. Total nitrogen (TN) loads started to increase in April and peaked in June, with a secondary small peak in February. Levels of dissolved nitrogen, NO3-N, and NH4-N showed similar trends. Total phosphorus (TP) reached a maximum in May, and stayed at a relatively high level until it reached a second peak in August and September. The annual precipitation data obtained from the bulk deposit samplers were normally distributed and had an average and median value of 1570 mm yr-1 (CV, 1.0%). Annual TN loads were also distributed normally, and their average and median values were 12.1 (CV, 2.7%) and 12.0 kg ha-1 yr-1, respectively. Annual TP load, however, apparently deviated from a normal distribution, and the average (0.417 kg ha-1 yr-1; CV, 24%) was larger than median (0.395 kg ha-1 yr-1). At least 8 bulk deposit samplers were needed to obtain TP loads of atmospheric deposition with a CV of less than 5%. The TN loads from the atmosphere to Lake Biwa were estimated to range from 780 to 854 t y-1, whereas the TP load showed a much larger relative range of 20.8 to 42.9 t y-1, indicating that more studies are needed to measure and evaluate the atmospheric deposition of phosphorus.
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使用散装沉积物取样器评估大气沉降的污染物负荷
本研究的目的是评估在可接受的可变性水平上测量污染物的大气沉积所需的散装沉积物取样器的数量。在日本滋贺县琵琶湖附近的一个试验点放置了一套10个散装沉积物采样器,每个采样器每月采集水样。首先,通过在采样器上放置防入侵装置来检测昆虫和凋落物入侵的影响。当使用该装置时,所有的变异指标(变异系数[CV]、偏度和峰度)都比不使用该装置时小。总氮负荷从4月开始增加,6月达到高峰,2月出现次小高峰。溶解态氮、NO3-N和NH4-N的变化趋势相似。总磷在5月达到最大值,此后一直保持较高水平,8月和9月达到第二个峰值。大块沉积物样品的年降水量数据呈正态分布,平均值和中位数为1570 mm -1 (CV, 1.0%)。年全氮负荷也呈正态分布,其平均值和中位数分别为12.1 (CV, 2.7%)和12.0 kg ha-1年-1。年总磷负荷明显偏离正态分布,平均0.417 kg ha-1年-1;CV(24%)大于中位数(0.395 kg ha-1年-1)。要获得CV小于5%的大气沉积总磷负荷,至少需要8个散装沉积物取样器。大气对琵琶湖的全氮负荷量在780 ~ 854 t - y-1之间,而全磷负荷量则在20.8 ~ 42.9 t - y-1之间,这表明对大气中磷沉积的测量和评价还需要进行更多的研究。
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