现役军事射击场周围土壤中铅的空间分布评估

IF 1 Q4 CHEMISTRY, MULTIDISCIPLINARY
E. U. Etim, Mercy Ichiko Ola
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引用次数: 0

摘要

本研究重新评估了一个现役军用靶场周围的铅污染程度,以确定与 20 年前报告的数据相比目前的污染状况。这是因为铅弹的解体和移动需要数年时间,会对土壤铅污染水平产生广泛影响。在受影响区域(前方)和非受影响区域(后方)共采集了 120 个表层土样本,以测定铅含量。在防撞护堤前方(28940±2996 μg/g)和后方(775±128 μg/g)均发现了高浓度的铅。污染的空间分布反映了与护堤的距离。非影响区周围的土壤铅污染在后护堤至 100 米处显著,铅、铬、镍和锌的含量差异很大。与之前的研究相比,护堤处的铅浓度在大约 20 年的时间里增加了五倍,累积系数约为 1000。主成分分析 PCA 表明,牧场土壤总金属负荷的 67% 主要来自护堤的影响区。对应分析中继图显示,污染顺序为铅(Pb)>镍(Ni)>镉(Cd)>铬(Cr)>锌(Zn)>铜(Cu)。这证实了土壤污染的严重性,尤其是在撞击区(即撞击护堤和射击线)周围,以及 0 米、10 米、50 米和 100 米处的非撞击区。靶场内土壤铅含量较高,尤其是用于农业活动的非撞击区,将对环境造成严重影响。因此,需要进行广泛而持续的监测。不过,通过适当的土壤清洗技术进行修复,可以降低铅含量,改善土壤条件,而不论其年龄如何。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of spatial distribution of lead in soils around an active military shooting range
In this study, the extent of Pb contamination around an active military shooting range is re-assessed to ascertain current contamination status comparatively to data’s reported 20 years ago. This is because lead bullet disintegration and mobility takes several years and extensively affects levels of soil-Pb contamination. A total of 120 topsoil samples were collected within the impact area (front) and non-impact area (back) for Pb determination. High concentrations of Pb were found at impact berm both front (28940±2996 μg/g) and back (775±128 μg/g). Spatial distribution of contamination reflects the distances from berm. Soil-Pb contamination around non-impact area was notable at back berm through to 100 m distance with significant difference in Pb, Cr, Ni and Zn levels. Concentration of Pb at berm was observed to have increase five-fold over a period of about twenty years from previous study with accumulation factor of about 1000. Principal component analysis PCA indicated 67 % of total metal load of range soil was majorly from impact areas of the berm. The correspondence analysis relay plot shows pollution order of Pb > Ni > Cd > Cr > Zn > Cu. This confirms soil contamination especially around the impact area, i.e. impact berm and firing lines and non-impact area at 0 m, 10 m, 50 m and 100 m. Environmental consequence of high soil-Pb levels within the range especially non-impact areas utilized for farming activities will leave much to desire. Hence, extensive and continuous monitoring is needed. However, remediation through appropriate soil washing technique could reduce Pb levels and improve soil condition regardless of age.
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来源期刊
Ovidius University Annals of Chemistry
Ovidius University Annals of Chemistry CHEMISTRY, MULTIDISCIPLINARY-
自引率
11.10%
发文量
20
审稿时长
5 weeks
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