Nature Environment and Pollution Technology

Open Access Open Access  Restricted Access Subscription Access

Analysis of Existing Speciation and Evaluation of Heavy Metals Pollution of Soil in a Shooting Range


Affiliations
1 Department of National Defense Architecture & Environmental Engineering, Logistical Engineering University, Chongqing, 401311, China
 

In this paper, we have made an investigation and analysis of the concentrations of Pb and Cu in the surface soil samples from a small arms shooting range in Guangxi Province of China by using the U.S.EPA3050B (HNO3-H2O2) method, and evaluated the pollution in the sampling area through the single factor index method and the composite pollution index Nemrow method. The results of our investigation and analysis showed that the soil of the small arms shooting range is heavily polluted by heavy metals, and the main pollution elements are Pb and Cu. The composite pollution index reached 59.18, and the single-factor pollution indexes of Pb and Cu have been the highest in the area of dropping bombs, which reached 72.90 and 10.12 respectively, indicating that the pollution has been to a serious level. The sources of heavy metal pollution comprise residual bullets and cartridge cases. We have also done analysis of the concurrent speciation of Pb and Cu in the soil with the sequential extraction method of Tessier, and discovered that the chemical speciation distribution order stands as follows: Resid-Pb> FeMnO-Pb > Org-Pb > Carb-Pb > Exch-Pb. As to the distribution characteristics of Cu, the order can also be listed as follows: Resid-Cu > Org-Cu > FeMnO-Cu > Carb-Cu > Exch-Cu. It can be seen that heavy metal Pb do much more serious to the ecological environmental contamination risk. Once the environmental conditions change, Pb and Cu can be easily transformed into bioavailability speciation. Because the pollution of heavy metal Pb and Cu in shooting range is serious, it is unfeasible to turn the shooting range soil into agricultural soil.

Keywords

Heavy Metal, Shooting Range, Soil Pollution, Pollution Index.
User
Notifications
Font Size


Abstract Views: 201

PDF Views: 2




  • Analysis of Existing Speciation and Evaluation of Heavy Metals Pollution of Soil in a Shooting Range

Abstract Views: 201  |  PDF Views: 2

Authors

Yutong Liu
Department of National Defense Architecture & Environmental Engineering, Logistical Engineering University, Chongqing, 401311, China
Zhendong Fang
Department of National Defense Architecture & Environmental Engineering, Logistical Engineering University, Chongqing, 401311, China
Chaoxin Xie
Department of National Defense Architecture & Environmental Engineering, Logistical Engineering University, Chongqing, 401311, China
Jian Li
Department of National Defense Architecture & Environmental Engineering, Logistical Engineering University, Chongqing, 401311, China

Abstract


In this paper, we have made an investigation and analysis of the concentrations of Pb and Cu in the surface soil samples from a small arms shooting range in Guangxi Province of China by using the U.S.EPA3050B (HNO3-H2O2) method, and evaluated the pollution in the sampling area through the single factor index method and the composite pollution index Nemrow method. The results of our investigation and analysis showed that the soil of the small arms shooting range is heavily polluted by heavy metals, and the main pollution elements are Pb and Cu. The composite pollution index reached 59.18, and the single-factor pollution indexes of Pb and Cu have been the highest in the area of dropping bombs, which reached 72.90 and 10.12 respectively, indicating that the pollution has been to a serious level. The sources of heavy metal pollution comprise residual bullets and cartridge cases. We have also done analysis of the concurrent speciation of Pb and Cu in the soil with the sequential extraction method of Tessier, and discovered that the chemical speciation distribution order stands as follows: Resid-Pb> FeMnO-Pb > Org-Pb > Carb-Pb > Exch-Pb. As to the distribution characteristics of Cu, the order can also be listed as follows: Resid-Cu > Org-Cu > FeMnO-Cu > Carb-Cu > Exch-Cu. It can be seen that heavy metal Pb do much more serious to the ecological environmental contamination risk. Once the environmental conditions change, Pb and Cu can be easily transformed into bioavailability speciation. Because the pollution of heavy metal Pb and Cu in shooting range is serious, it is unfeasible to turn the shooting range soil into agricultural soil.

Keywords


Heavy Metal, Shooting Range, Soil Pollution, Pollution Index.