利用余补误差函数模拟土壤中铜老化微孔扩散过程模型的构建  被引量：1

作　　者：曾赛琦 李菊梅[1] 韦东普 马义兵[2,1] 

机构地区：[1]中国农业科学院农业资源与农业区划研究所,北京100081 [2]济南大学资源与环境学院,济南250022

出　　处：《化学学报》2016年第1期89-95,共7页Acta Chimica Sinica

基　　金：国家科技部支撑计划重金属超标农田原位钝化/固定与农艺调控技术研究(No.2015BAD05B01)

摘　　要：土壤中铜的老化是指土壤中外源铜的生物有效性或毒性、同位素可交换性及化学有效性随时间降低的过程.此前Ma等提出了两个半机理模型,并分别预测了铜在土壤中的短期和长期老化作用.本文在探讨土壤中铜的老化规律及影响因素的基础上,通过对Ma等的两个半机理模型进行整合与修正,结合Crank对扩散过程的描述,发现利用余补误差函数可以模拟土壤中铜老化的微孔扩散过程的短期(扩散作用与时间的平方根线性相关)和长期行为(扩散作用与时间的自然对数线性相关),解决了土壤中铜短期和长期老化模型之间缺少连续性的问题.本模型考虑了土壤p H及老化时间对老化作用的影响,这两个因素均与老化作用呈正相关,相较于Ma等此前提出的半机理模型,本模型可获得更为准确的预测结果.Aging of copper added to soils refers to the process by which the bioavailability and/or toxicity, isotopic ex- changeability and extractability of added copper decline with time. This process also termed as natural attenuation or fixation. Although aging of extraneous copper added to soils is a key process in the risk assessment and soil restoration and manage- ment that need to be well-considered, it has not been studied in details yet. When water-soluble copper added to soils, the lability of copper decreases rapidly at first, especially in soil samples with relatively high pH value （pH〉6 in this article）, followed by further decreases at slower rate, and finally become stable. The cause of the rapid decrease of copper lability may be the precipitation/nucleation process, while the long-term decrease of copper lability is due to the diffusion of copper into the micropores/mesopores in soils and cavity entrapment. In previous studies, Ma et al. developed two semi-mechanistic models to predict the short-term and long-term aging of copper added to soils separately. In the short-term model, the diffu- sion process is linear related to square root of time and in the long-term model the diffusion process is linear related to natural logarithm of time. As those two models have different description of diffusion process, both of them fail to predict the short- and long-term aging continuously. By combining and analyzing two models developed by Ma et al. and study the duffusion equation in Crank＇s book, we found that both short- and long-term behaviors of diffusion process of aging can be well de- scribed using complementary error function. Thus, the new model we developed in this paper （erfc model） could predict the both short-term and long-term aging of added copper in soils continuously. In the erfc model, the precipitation/nucleation and diffusion processes were considered, as well as occlusion of Cu within organic matter. But the estimated results indicate that the occlusion process plays an insignific

关 键 词：铜 老化 半机理模型 PH 

分 类 号：S153[农业科学—土壤学]