Microbial and solute transport through intact vadose zone cores of heterogeneous alluvial gravel under variably saturated conditions

IF 2.5 3区 地球科学 Q3 ENVIRONMENTAL SCIENCES Vadose Zone Journal Pub Date : 2023-03-14 DOI:10.1002/vzj2.20250
L. Banasiak, L. Weaver, B. Humphries, R. Dann, Martina Blaurock, M. Gosses, L. Pang, M. Close
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Abstract

The movement of bacterial and viral pathogens through soil and vadose zone and subsequently into groundwater is a major public health concern. There are relatively few studies on the transport and fate of microbes through variably saturated vadose zone media compared with their transport in the soil and saturated groundwater zones. In this study, we investigated the transport of Escherichia coli, F‐RNA bacteriophage MS2, and a conservative solute tracer bromide through three intact vadose zone cores, under saturated (discharge rate ∼100 mm h−1) and unsaturated (discharge rate 10 and 0.5 mm h−1) flow conditions. The vadose zone media were sandy gravel overlying a sand lens in core 1, a heterogeneous SG mix in core 2, and SG with an open framework gravel lens through the middle of the core in core 3. The three flow regimes resulted in different transport characteristics through each of the cores. As expected, microbial transport through all cores was higher under saturated conditions, compared with unsaturated conditions. Overall, E. coli removal was consistently greater than that of MS2 phage irrespective of core media or flow conditions. There were relatively minor removals (factors of 1–2.5) of both microbes under saturated conditions, reductions of 2–3 orders of magnitude under the high flow unsaturated conditions, and almost complete removal (4 to >5 orders of magnitude) under the low flow unsaturated conditions. The much greater removal of microbes under unsaturated conditions has significant implications and potential benefits for land management decisions.
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在可变饱和条件下,微生物和溶质通过非均质冲积砾石完整气包带岩心的运移
细菌和病毒病原体通过土壤和渗透带并随后进入地下水是一个主要的公共卫生问题。相对于微生物在土壤和饱和地下水中的迁移,对微生物在变饱和气膜带介质中的迁移和命运的研究相对较少。在这项研究中,我们研究了大肠杆菌、F‐RNA噬菌体MS2和保守溶质示踪剂溴化物在饱和(放电速率~ 100 mm h−1)和不饱和(放电速率10和0.5 mm h−1)流动条件下通过三个完整的渗透带核心的运输。孔隙带介质为1号岩心上覆砂透镜体的砂砾石,2号岩心上覆非均质砾石混合物,3号岩心中部覆有开放框架砾石透镜体的砾石。这三种流动形式导致了通过每个岩心的不同输运特性。正如预期的那样,在饱和条件下,微生物通过所有岩心的运输比不饱和条件下更高。总的来说,无论核心介质或流动条件如何,大肠杆菌的去除率始终高于MS2噬菌体。两种微生物在饱和条件下的去除率相对较小(1-2.5),在高流量不饱和条件下的去除率为2-3个数量级,在低流量不饱和条件下几乎完全去除(4 - 50个数量级)。在不饱和条件下微生物的大量去除对土地管理决策具有重要意义和潜在的好处。
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来源期刊
Vadose Zone Journal
Vadose Zone Journal 环境科学-环境科学
CiteScore
5.60
自引率
7.10%
发文量
61
审稿时长
3.8 months
期刊介绍: Vadose Zone Journal is a unique publication outlet for interdisciplinary research and assessment of the vadose zone, the portion of the Critical Zone that comprises the Earth’s critical living surface down to groundwater. It is a peer-reviewed, international journal publishing reviews, original research, and special sections across a wide range of disciplines. Vadose Zone Journal reports fundamental and applied research from disciplinary and multidisciplinary investigations, including assessment and policy analyses, of the mostly unsaturated zone between the soil surface and the groundwater table. The goal is to disseminate information to facilitate science-based decision-making and sustainable management of the vadose zone. Examples of topic areas suitable for VZJ are variably saturated fluid flow, heat and solute transport in granular and fractured media, flow processes in the capillary fringe at or near the water table, water table management, regional and global climate change impacts on the vadose zone, carbon sequestration, design and performance of waste disposal facilities, long-term stewardship of contaminated sites in the vadose zone, biogeochemical transformation processes, microbial processes in shallow and deep formations, bioremediation, and the fate and transport of radionuclides, inorganic and organic chemicals, colloids, viruses, and microorganisms. Articles in VZJ also address yet-to-be-resolved issues, such as how to quantify heterogeneity of subsurface processes and properties, and how to couple physical, chemical, and biological processes across a range of spatial scales from the molecular to the global.
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