Putting biomonitors to work: native moss as a screening tool for solid waste incineration

IF 2.9 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Sarah Jovan, Eleonore Jacobson, Jason M. Unrine, Nasser Jalili-Jahani, Bruce McCune
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Abstract

Solid waste incineration (SWI) can release numerous air pollutants although the geographic reach of emissions is not routinely monitored. While many studies use moss and lichens for biomonitoring trace elements, including around SWIs, few investigate the complex, multi-element footprint expected from SWI emissions. This study develops using native moss as a screening tool for SWI while also informing community concerns about an aging incinerator in rural Oregon, USA. Trained community volunteers helped collect 36 composite samples of epiphytic moss (Orthotrichum s.l.) along a 32-km transect from the SWI. We used ICP-MS to measure 40 elements in moss, including 14 rare earth elements (REEs) previously unexplored for SWI. We compared the elemental signatures of samples with an emissions profile for SWI and modeled relationships between element concentrations and distance from the facility using nonparametric regression. The chemical signatures in moss pointed to SWI as a source, potentially through both stack and fugitive dust emissions. The strongest models described farther-dispersing elements, including mercury and cadmium (xR2 = 0.65 and 0.62, respectively), and suggested most deposition occurs within 5 to 10 km of the facility. Elements often associated with soil and dust, like arsenic and chromium, exhibited localized peaks within 0.2 km of the incinerator (xR2 = 0.14–0.3). Three novel elements—cesium and REEs europium and gadolinium—also showed promise as atmospheric tracers for SWI. Gadolinium, a contrast reagent for MRIs, could reflect medical waste incineration by the facility. We include additional analysis and discussion to help stakeholders use results effectively.

让生物监测器发挥作用:将本地苔藓作为固体废物焚化的筛选工具
固体废物焚化(SWI)会释放出大量空气污染物,但对排放的地理范围却没有进行常规监测。虽然许多研究利用苔藓和地衣对痕量元素进行生物监测,包括在固体废弃物焚烧厂周围,但很少有研究对固体废弃物焚烧排放的复杂、多元素足迹进行调查。本研究将本地苔藓作为 SWI 的筛查工具,同时也向社区通报美国俄勒冈州农村地区老化焚化炉的情况。经过培训的社区志愿者帮助收集了 36 份附生苔藓(Orthotrichum s.l.)的复合样本,这些样本沿 SWI 32 公里的横断面分布。我们使用 ICP-MS 测量了苔藓中的 40 种元素,其中包括 14 种以前未在西南印度洋进行过探索的稀土元素 (REE)。我们将样本的元素特征与 SWI 的排放曲线进行了比较,并使用非参数回归法模拟了元素浓度与设施距离之间的关系。苔藓中的化学特征表明,可能通过烟囱和逃逸性粉尘排放产生的污染物来源于 SWI。最强的模型描述了包括汞和镉在内的较远扩散元素(xR2 分别为 0.65 和 0.62),并表明大部分沉积发生在距离设施 5 到 10 公里的范围内。通常与土壤和灰尘有关的元素,如砷和铬,在距离焚化炉 0.2 公里范围内出现局部峰值(xR2 = 0.14-0.3)。三种新元素--铯和稀土元素铕和钆--也显示出作为 SWI 大气示踪剂的前景。钆是一种用于核磁共振成像的对比试剂,可以反映该设施焚烧医疗废物的情况。我们加入了更多分析和讨论,以帮助利益相关者有效利用结果。
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来源期刊
Environmental Monitoring and Assessment
Environmental Monitoring and Assessment 环境科学-环境科学
CiteScore
4.70
自引率
6.70%
发文量
1000
审稿时长
7.3 months
期刊介绍: Environmental Monitoring and Assessment emphasizes technical developments and data arising from environmental monitoring and assessment, the use of scientific principles in the design of monitoring systems at the local, regional and global scales, and the use of monitoring data in assessing the consequences of natural resource management actions and pollution risks to man and the environment.
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