Abstract:Based on an 11-year fertilizer field trial (located at the lower liaohe river plain), the effects of different organic manure application rates on the accumulations of heavy metals (Cu, Zn, Cd and Cr) in surface soil (0~20 cm), and the leaching characteristic and vertical migration pattern of heavy metal have been investigated in this rainfed agro-ecosystem using undisturbed soil columns. The result showed that the content of heavy metal in surface soil was elevated with the increase of manure application. The increasing magnitude was in the order of Cd>Cu>Zn>Cr. According to the Chinese soil quality standard (GB15618—1995), the application of manure (not exceeding 50 t·ha-1) did not result in serious heavy metal pollution in the surface soil. Chromium met the Grade Ⅰ, and Cu and Zn met the Grade Ⅱ; whereas, Cd was almost exceeded the threshold of Grade Ⅲ. The potential risk of Cd in soil should be paid more attentions in future research. According to the National water quality standard (GB/T14848—93), the Cu and Cd concentrations in leachate samples were up to the Grade Ⅱ except only a few samples that fell in Grade Ⅲ. Furthermore, Cr in the leachate all matched Grade Ⅰ water quality standard. These results indicated long-term application of manure (not exceeding 50 t·ha-1) in our site had not induced contaminant risks of heavy metals in underground water. In addition, the Cu, Zn and Cd (except Cr) in leachate all declined with the increase of soil depth, indicating the low capacity of vertical migration of heavy metal. Among the four heavy metals, Zn and Cr tended to be leached into deep soil, whereas Cu and Cd were more prone to be accumulated in surface soil.
赵 颖,马 强,周 桦,姜春明,徐永刚,姜子绍,宇万太* . 利用ICP-MASS研究有机培肥土壤重金属淋溶特征 [J]. 光谱学与光谱分析, 2015, 35(11): 3200-3203.
ZHAO Ying, MA Qiang, ZHOU Hua, JIANG Chun-ming, XU Yong-gang, JIANG Zi-shao, YU Wan-tai* . Study on Leaching Characteristic of Heavy Metal in the Manure-Amended Soil Using ICP-MASS . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2015, 35(11): 3200-3203.
[1] ZENG Xi-bai, YANG Zheng-li(曾希柏, 杨正礼). Chinese Journal of Applied Ecology(应用生态学报), 2006, 17(1): 131. [2] SHEN Shan-min(沈善敏). The Fertility of Chinese Soil(中国土壤肥力). Beijing: China Agricultural Press(中国农业出版社), 1998. [3] PAN Xun, HAN Zhe, BEN Wei-wei(潘 寻, 韩 哲,贲伟伟). Journal of Agro-Environment Science(农业环境科学学报), 2013, 32(1): 160. [4] HUANG Yu-yi, LIU Bin, CHEN Gui-fen, et al(黄玉溢,刘 斌,陈桂芬,等). Guangxi Agricultural Science(广西农业科学), 2007, 38(5): 544. [5] HUANG Ming-li, LI Li-na, TANG Ao-han, et al(黄明丽,李丽娜,唐傲寒,等). Journal of Environmental Health(环境与健康杂志), 2009, 26(11): 1023. [6] Zhang S Q, Zhang F D, Liu X M, et al. Plant Nutrition Fertilizer Science, 2005, 11:822. [7] Xu Y G, Yu W T, Ma Q, et al. Plant Soil Environment, 2013, 59(11): 492. [8] Adeli A, Sistani K R, Tewolde H, et al. Soil Science, 2007, 172:349. [9] He Z Q, Endale D M, Schomberg H H, et al. Soil Science, 2009, 174:687. [10] Shi J C, Yu X L, Zhang M K, et al. Journal Environmental Quality, 2011, 40:1695. [11] Azeez J O, Adekunle I O, Atiku O O, et al. Waste Managment, 2009, 29:2582. [12] ZHOU Fu-lai, YAN Jia-ping(周福来, 严家平). Energy Environmental Protection(能源环境保护), 2004, 18(4): 21. [13] SHANG Xiao-juan, ZHAO Shu-lan, DUO Li-an(尚小娟, 赵树兰,多立安). Chinese Journal of Environmental Engineering(环境工程学报), 2012, 6(3): 996.
