Feighery John, Mailloux Brian J, Ferguson A S, Ahmed Kazi Matin, van Geen Alexander, Culligan Patricia J
Department of Earth and Environmental Engineering, Columbia University, New York, USA.
Department of Environmental Sciences, Barnard College, New York, USA.
Water Resour Res. 2013 Jul 1;49(7):3897-3911. doi: 10.1002/wrcr.20289.
Fecal bacteria are frequently found at much greater distances than would be predicted by laboratory studies, indicating that improved models that incorporate more complexity are might be needed to explain the widespread contamination of many shallow aquifers. In this study, laboratory measurements of breakthrough and retained bacteria in columns of intact and repacked sediment cores from Bangladesh were fit using a two-population model with separate reversible and irreversible attachment sites that also incorporated bacterial decay rates. Separate microcosms indicated an average first order decay rate of 0.03 log / day for free bacteria in both the liquid phase and bacteria attached to the solid phase. Although two-thirds of the column results could be well fit with a dual deposition site, single population model, fitting of one third of the results required a two-population model with a high irreversible attachment rate (between 5 and 60 hr) for one population of bacteria and a much lower rate (from 5 hr to essentially zero) for the second. Inferred attachment rates for the reversible sites varied inversely with grain size (varying from 1 - 20 hr for grain sizes between 0.1 and 0.3 mm) while reversible detachment rates were found to be nearly constant (approximately 0.5 hr). Field simulations based on the fitted two-population model parameters predict only a two-fold reduction in fecal source concentration over a distance of 10 m, determined primarily by the decay rate of the bacteria. The existence of a secondary population of bacteria with a low attachment rate might help explain the observed widespread contamination of tubewell water with at the field site where the cores were collected, as well as other similar sites.
粪便细菌在比实验室研究所预测的距离远得多的地方经常被发现,这表明可能需要改进模型,纳入更多复杂因素,才能解释许多浅层含水层广泛受到污染的现象。在本研究中,使用一个双种群模型对来自孟加拉国完整和重新装填的沉积物岩芯柱中细菌的穿透和滞留情况进行实验室测量,该模型具有独立的可逆和不可逆附着位点,还纳入了细菌衰减率。单独的微观世界表明,液相中游离细菌以及附着在固相上的细菌的平均一级衰减率为0.03 log/天。尽管三分之二的柱实验结果可以用双沉积位点单种群模型很好地拟合,但三分之一的结果拟合需要一个双种群模型,其中一群细菌的不可逆附着率较高(5至60小时),另一群细菌的不可逆附着率则低得多(从5小时到基本为零)。可逆位点的推断附着率与颗粒大小成反比(颗粒大小在0.1至0.3毫米之间时,附着率从1至20小时不等),而可逆脱离率几乎恒定(约0.5小时)。基于拟合的双种群模型参数进行的现场模拟预测,在10米的距离内粪便源浓度仅降低两倍,这主要由细菌的衰减率决定。存在一群附着率低的次级细菌可能有助于解释在采集岩芯的现场以及其他类似地点观察到的管井水广泛污染现象。