Anthropocene Geochemical and Technological Signatures of an Experimental Landfill Bioreactor in the Central Valley of California

Gry H. Barfod, Reinhard Seiser, Ramin Yazdani, Li Wang, Charles E. Lesher, Bryan M. Jenkins, Peter Thy
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引用次数: 1

Abstract

The geochemical signatures of a 12-year-old experimental bioreactor at a California landfill are used to identify elemental concentrations and ratios that characterize the landfill and relate it to the age and state of technology of the deposited waste. The bioreactor was constructed and sealed with a synthetic liner during 2001–2002 and operated and monitored as an anaerobic digester to enhance methane production. In 2013, the bioreactor was sampled and trace element concentrations of the extracted fine fractions were determined. The concentrations normalized to a regional soil composition, reveal systematic peaks for transition metals, alkali metals, heavy metals, and various metalloids and non-metals. A group of potential solder elements (Cu, Zn, Cd, In, Sn, Pb, Bi, and Sb) shows moderate to strong co-variations and is largely attributed to household electronic components and other similar products, while elements that correlated well with rare-earth and other elements are related to the diluting effect of a soil component used as cover. Batteries show modest to little effects on the overall concentrations. Circulating fluids (recycled leachate) in the controlled reactor did not completely redistribute and homogenize the elemental signatures within the time frame of the bioreactor. It is concluded that the present experimental landfill defines an Anthropocene marker identifiable by building material (plaster), PVC plastic, and household electronic components (Pb–Sn solder). These marker elements and ratios are variably diluted by soil components identified by alkali metals, rare-earths, and high field-strength elements (Hf, Zr, Nb, and Ta).

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加利福尼亚中央谷地一个实验垃圾填埋场生物反应器的人类世地球化学和技术特征
加利福尼亚垃圾填埋场一个12年历史的实验生物反应器的地球化学特征被用来确定表征垃圾填埋场的元素浓度和比率,并将其与沉积废物的年龄和技术状态联系起来。生物反应器在2001-2002年期间用合成衬垫建造和密封,并作为厌氧消化器进行操作和监测,以提高甲烷产量。2013年,对生物反应器进行了取样,并测定了提取的细粒级分的微量元素浓度。将浓度标准化为区域土壤成分,揭示了过渡金属、碱金属、重金属以及各种类金属和非金属的系统峰值。一组潜在的焊料元素(Cu、Zn、Cd、In、Sn、Pb、Bi和Sb)表现出中等到强烈的共变异,主要归因于家用电子元件和其他类似产品,而与稀土和其他元素关系良好的元素与用作覆盖物的土壤成分的稀释作用有关。电池对总浓度的影响不大。受控反应器中的循环流体(回收的渗滤液)在生物反应器的时间范围内没有完全重新分配和均匀化元素特征。得出的结论是,目前的实验性垃圾填埋场定义了一个可通过建筑材料(石膏)、PVC塑料和家用电子元件(Pb–Sn焊料)识别的人类世标志。这些标记元素和比率被碱金属、稀土和高场强元素(Hf、Zr、Nb和Ta)识别的土壤成分可变地稀释。
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