1. Monitoring uranium mine pollution on Native American lands: Insights from tree bark particulate matter on the Spokane Reservation, Washington, USA
- Author
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Claire McLeod, Barry Shaulis, Lonnie Flett, Mark P.S. Krekeler, Jessica L. McCarty, and Justin J. Fain
- Subjects
Pollution ,Washington ,media_common.quotation_subject ,chemistry.chemical_element ,010501 environmental sciences ,01 natural sciences ,Biochemistry ,Uranium mine ,03 medical and health sciences ,0302 clinical medicine ,Humans ,030212 general & internal medicine ,American Indian or Alaska Native ,0105 earth and related environmental sciences ,General Environmental Science ,media_common ,Hydrology ,Native american ,Trace element ,Particulates ,Contamination ,Uranium ,Soil contamination ,chemistry ,Plant Bark ,Environmental science ,Particulate Matter ,Environmental Monitoring - Abstract
The uranium boom in the United States from the 1940's to the 1980's was a period of extensive uranium mining on Native American lands. However, detailed environmental investigations of the resulting uranium pollution are sparse and typically ignore contributions from airborne particulate matter. The Midnite Mine is a 350-acre inactive open pit uranium mine located on the Spokane Indian Reservation in eastern Washington that operated from 1954 to 1981. Approximately 2.4 million tons of ore and 33 million tons of waste rock were left behind in stockpiles and have also been utilized as gravel on access and haul roads. Although the Midnite Mine is now a Superfund Site, and governmental investigations of water and soil contamination have been done, no investigations of airborne particulate matter pollution have been conducted. This study applies tree bark from 31 Pinus ponderosa trees as a biomonitor of this airborne particulate matter. Bulk trace elemental analyses via inductively coupled plasma – mass spectrometry (ICP-MS) of tree bark show that U is the most abundant trace element of interest present up to 232 ppb. Other metals that are of potential human health concern include Th, Pb, and As which are present at 20 ppb, 104 ppb, and 20 ppb respectively. Calculated geoaccumulation indices determine these metals to be at high (U), moderate (Th), and low (Pb and As) levels of contamination. Detailed scanning electron microscopy (SEM) investigations of particulate matter from the surface of tree bark confirm that U and Th-bearing particulate matter exist in the
- Published
- 2020