Redirigiendo al acceso original de articulo en 17 segundos...
ARTÍCULO
TITULO

Spatial Variations of Heavy Metals in the Soils of Vegetable-Growing Land along Urban-Rural Gradient of Nanjing, China

Shi-Bo Fang    
Hao Hu    
Wan-Chun Sun and Jian-Jun Pan    

Resumen

China has experienced rapid urbanization in recent years. The acceleration of urbanization has created wealth and opportunity as well as intensified ecological and environmental problems, especially soil pollution. Our study concentrated on the variation of heavy metal content due to urbanization in the vegetable-growing soil. Laws and other causes of the spatial-temporal variation in heavy metal content of vegetable-growing soils were analyzed for the period of urbanization in Nanjing (the capital of Jiangsu province in China). The levels of Cu, Zn, Pb, Cd and Hg in samples of vegetable-growing soil were detected. The transverse, vertical spatio-temporal variation of heavy metals in soil was analyzed on the base of field investigations and laboratory analysis. The results show that: (1) in soil used for vegetable production, the levels of heavy metals decreased gradually from urban to rural areas; the levels of the main heavy metals in urban areas are significantly higher than suburban and rural areas; (2) the means of the levels of heavy metals, calculated by subtracting the sublayer (15?30 cm) from the toplayer (0?15 cm), are all above zero and large in absolute value in urban areas, but in suburban and rural areas, the means are all above or below zero and small in absolute value. The causes of spatial and temporal variation were analyzed as follows: one cause was associated with mellowness of the soil and the length of time the soil had been used for vegetable production; the other cause was associated with population density and industrial intensity decreasing along the urban to rural gradient (i.e., urbanization levels can explain the distribution of heavy metals in soil to some extent). Land uses should be planned on the basis of heavy metal pollution in soil, especially in urban and suburban regions. Heavily polluted soils have to be expected from food production. Further investigation should be done to determine whether and what kind of agricultural production could be established near urban centers.

 Artículos similares

       
 
Muhammad Fahad,Ishfaq Ahmad,Athar Hussain     Pág. 337 - 355
The goal of limiting the increasing global mean temperature below 2.0 and possibly 1.5 ºC, was decided in the Paris Agreement of 2015. It is therefore important to understand the climate risk and impacts associated with 1.5 and 2.0 ºC additional warming ... ver más
Revista: Atmósfera

 
Md Masud Hasan, Barry F. W. Croke and Fazlul Karim    
Revista: Climate

 
Sucharita Gopal, Yaxiong Ma, Chen Xin, Joshua Pitts and Lawrence Were    
The United Nations? Sustainable Development Goal 3 is to ensure health and well-being for all at all ages with a specific target to end malaria by 2030. Aligned with this goal, the primary objective of this study is to determine the effectiveness of util... ver más

 
Rodolfo Sosa-Echeverría,Ana Luisa Alarcón-Jiménez,María del Carmen Torres-Barrera,Mónica Jaimes-Palomera,Armando Retama-Hernández,Pablo Sánchez-Álvarez,Elias Granados-Hernández,Humberto Bravo-Álvarez     Pág. 55 - 69
At the end of the 1980´s particulates and sulfur dioxide (SO2) were the main atmospheric pollutants in the Mexico City Metropolitan Zone (MCMZ). To reduce emissions, fuel oil was replaced by natural gas at power plants located inside Mexico City. Current... ver más
Revista: Atmósfera

 
Ziqi Meng, Min Liu, Qiannan She, Fang Yang, Lingbo Long, Xia Peng, Ji Han and Weining Xiang    
The Yangtze River Delta (YRD) region, including Shanghai City and the Jiangsu and Zhejiang Provinces, is the largest metropolitan region in China. In the past three decades, the region has experienced an unprecedented process of rapid and massive urbaniz... ver más