植物生物系统(PBS)修复铬污染土壤的研究

IF 0.5 Q4 AGRONOMY
R. Rosariastuti, Selly Maisyarah, S. Sudadi, S. Hartati, P. Purwanto
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引用次数: 2

摘要

由于工业的发展,铬污染的水增加了,因为工业废料很可能含有重金属,特别是被丢弃到河流中的纺织工业废料。本研究旨在研究植物与细菌共生对土壤中铬的去除作用。土壤样品中总铬含量为4.33 mg kg-1,灌溉水样品中总铬含量为1.09 mg l-1。本研究设计以随机完全区组设计为基础设计,采用因子分析法。无机肥(P): P0:不加无机肥,P1:加无机肥;2. 螯合剂(B):B0:无螯合剂,B1:有螯合剂根瘤菌I3, B2:有螯合剂粪便;3.植物(T): T0无植物,T1有植物。数据分析采用方差分析,再用t检验或Duncan多元极差检验及相关检验。结果表明,氮磷钾+粪肥+植物组合处理对土壤中铬的去除率达71.90%,而植物单处理对土壤铬的去除率为55.66%。金丝霉体内的铬含量在1.82 ~ 3.15 μ g-1之间,表明金丝霉是一种可行的生物修复植物。球孢毛霉生长良好,对铬有较强的吸收能力,特别是与根瘤菌结合后,根对铬的吸收高于地上部。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Remediation of Chromium Contaminated Soil by Phyto-Bio System (PBS) Application
Chromium polluted water was increased as the result of the growth of the industries, due to their industrial waste were most likely contain heavy metals, especially textile industrial waste that was discarded to the rivers. This research aimed to study the removal of chromium levels in soil used the symbiosis between plant and bacteria. Soil sample contained with 4.33 mg kg-1 and the irrigation water sample contained with 1.09 mg l-1 of total chromium. This research design was factorial with Randomized Complete Block Design as the based design There were 3 factors in this study: 1.  inorganic fertilizer (P): P0: without inorganic fertilizer, P1: with inorganic fertilizer; 2. chelator (B):B0: without chelator, B1: with chelator Rhizobium sp I3, B2: with chelator manure; 3. Plant (T): T0 without plant, T1: with plant. Data were analyzed by statistical analysis using ANOVA continued by T-test or Duncan Multiple Range test and correlation test. The result showed that the remediation process reduced chromium levels in soil with the removal effectivity up to 71.90% on the treatment combination of NPK fertilizer+manure+plant while removal effectivity on plant-only treatment was 55.66%. The chromium levels in Fimbristylis globulosa were in the range from 1.82–3.15 μ g-1, it indicated that Fimbristylis globulosa was a feasible plant for bioremediation. Fimbristylis globulosa grew well and has the ability to absorb chromium, especially by combining it with Rhizobium sp I3and the chromium uptake in roots was higher than shoots.
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来源期刊
Sains Tanah
Sains Tanah Environmental Science-Pollution
CiteScore
1.90
自引率
0.00%
发文量
16
审稿时长
8 weeks
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