Kinetics of antimony biogeochemical processes under pre-definite anaerobic and aerobic conditions in a paddy soil

While the transformation of antimony(Sb) in paddy soil has been previously investigated, the biogeochemical processes of highly chemical active Sb in the soil remain poorly understood. In addition, there is a lack of quantitative understanding of Sb transformation in soil. Therefore, in this study, the kinetics of exogenous Sb in paddy soils were investigated under anaerobic and aerobic incubation conditions. The dissolved Sb(V) and the Sb(V) extracted by diffusive gradient technique decreased u...     

水分管理对稻田土壤铁氧化物形态转化的影响及其与镉活性变化的耦合关系

稻田土壤水分管理过程中铁氧化物的形态转化对土壤镉（Cd）活性和水稻Cd累积具有重要影响.以西南地区紫色水稻土为研究对象,通过室内培养试验,探讨了淹水管理方式（持续淹水,CW;干湿交替,DW）联合铁氧化物（针铁矿,G-Fe;铁粉,Fe）施用对Cd污染土壤的pH、氧化还原性质（Eh、pe+pH）、铁氧化物形态转化和Cd有效性变化的影响,分析了水分管理驱动下铁氧化物形态转化与土壤Cd活性演变的耦合关系.结果表明CW管理可显著降低土壤Cd有效性,淹水93 d后DTPA-Cd降低了17.7%~39.2%,CW联合Fe或G-Fe施用显著提升了对土壤Cd的钝化效果,其中G-Fe短期钝化效果好,淹水14 d后DTPA-Cd的含量较对照降低24.3%,而Fe则可持续钝化土壤Cd,淹水93 d后DTPA-Cd的降幅为39.2%,干湿交替下施用铁氧化物则对土壤Cd无钝化效应.相关性分析表明,无定形铁（Fe_o）的形成（P<0.01）是驱动土壤Cd有效性变化的主要原因：CW使土壤pH逐渐降低并稳定在7.4左右,且土壤保持还原状态,促进了土壤铁氧化物由结晶态（Fe_c）向Fe_o转化,进而促使Cd由可交换态向铁锰结合态转化,并最终导致Cd有效性降低;CW联合Fe、G-Fe施用显著提升了Fe_o的含量和比例,从而强化了对土壤Cd的钝化效果.研究结果揭示了水分管理联合铁氧化物施用对稻田土壤Cd活性的调控效应和机制,为Cd污染稻田土壤安全利用中水分优化管理和含铁钝化剂施用提供了科学依据.     

Effect of moisture regime on the redistribution of heavy metals in paddy soil

Sequential extraction procedure was applied to assess the dynamics of solid-phase transformation of added Cu, Pb, Cd, and Hg in a typical Chinese paddy soil incubated under three moisture regimes (75% field capacity, wetting-drying cycle, and flooding). The heavy metals spiked in the soil were time-dependently transferred from the easily extractable fraction (the exchangeable fraction) into less labile fractions (Fe-Mn oxide- and organic matter-bound fractions), and thus reduced lability of the metals. No significant changes were found for the carbonate-bound and residual fractions of the heavy metals in the soil during the whole incubation. Change rate of the mobility factor (MF), a proportion of weakly bound fractions (exchangeable and carbonate-bound) in the total metal of soil, reflected the transformation rate of metal speciation from the labile fractions toward stable fractions. It was found that soil moisture regime did not change the direction and pathways of transformation of metal speciation, but it significantly a ected the transformation rate. In general, the paddy soil under flooding regime had higher metal reactivity compared with 75% field capacity and wetting-drying cycle regimes, resulting in the more complete movement of metals toward stable fractions. This might be related to the increased pH, precipitation of the metals with sulfides and higher concentration of amorphous Fe oxides under submerged condition.     

水稻土中甲硫氨酸分解释放挥发性含硫气体的影响因素

为了探讨水稻土中含硫气体产生和释放的途径 ,在室内培养条件下 ,测定了南京水稻土中含硫气体的释放 .从该淹水土壤中测出 3种含硫气体 ;羰基硫 (COS)、二甲基硫 (DMS)和少量硫化氢 (H₂S)气体 .当土壤中加入甲硫氨酸后 ,DMS气体的释放量有了明显增加 ,此外还有大量甲硫醇 (CH₃SH)和二甲基二硫 (DMDS)气体测出 .而 COS在好氧条件 (普通大气淹水 )下的释放量明显增加 ,在厌氧条件 (充氮淹水 )下的释放量变化不明显 ;只有 H₂S的释放量几乎没变 .这些结果表明 ,甲硫氨酸的分解可能是 COS、DMS、CH₃SH和 DMDS的产生源之一 ,且释放含硫气体的种类明显不同于胱氨酸和半胱氨酸 .在好氧 (普通大气 )条件下 ,DMDS和 CH₃SH的释放量低于厌氧情况 (充氮气 )下的释放量 ,DMS则高于厌氧条件下的释放量 .这表明 ,水稻土中甲硫氨酸分解产生 DMDS和 CH3SH需较强的还原条件 ,产生这 2种气体的微生物需要严格的厌氧条件 .产生 DMS的微生物则比前者需要高一些的含氧量 .土壤 pH值和含水量及光照对甲硫氨酸分解释放含硫气体均有影响 .各含硫气体在持水率 50%、普通大气、光照条件下的释放量明显高于无光照条件下的释放量 .     

水稻土中硫酸二乙酯分解产生含硫气体的研究

为了探讨水稻土中含硫气体产生和释放的途径，在室内培养条件下，测定了南京水稻土中含硫气体的释放。结果从该淹水土壤中测出3种含硫气体；硫化氢（H2S），羰基硫（COS）和二甲基硫（DMS）气体。当土壤中加入硫酸二乙酯后，不仅上述3种气体的释放量增加了，而且还明显测出甲硫醇（CH3SH）和二硫化碳（CS2）。据此推测，水稻土中硫酸二乙酯的分解可能是CH3SH、CS2、COS、H2S、DMS5种气体产生释放的来源之一。在好氧条件（普通大气）下：（1）H2S和COS的释放量低于厌氧条件（充氮）。（2）CS2和CH3SH的释放量高于厌氧条件。（3）DMS的释放量不受空气中氧气含量的影响。分析了培养前后土壤pH和Eh的变化和影响。     

微生物铁氧化作用对砷迁移转化的影响

采用厌氧培养的方法,从砷污染的水稻上中富集依赖硝酸盐的铁氧化菌群,通过监测培养体系中Fe和A$的形态变化模拟水稻厌氧条件下微生物铁氧化过程对As迁移转化的影响.结果表明,约96%外源添加的Fe(Ⅱ)可在10d内氧化成Fe(Ⅲ),As(Ⅲ)对Fe(Ⅱ)的初期氧化速率具有一定的抑制作用;在微生物铁氧化过程中,As(Ⅲ)被氧...     

土壤中发生的挥发性有机硫气体的研究

测定了张北、封丘、鹰潭、吴县、长沙、湛江等地旱地土壤和水稻土在室内培养情况下挥性有机硫气体的释放。结果表明，这些土壤中产生硫化氢、氧硫化碳、甲基硫醇、二甲基硫、二硫化碳和二甲基二硫等含硫气体。水稻土中产生的有机硫气体高于旱地土壤，同时施用有机肥和化肥后，土壤中发生的有机硫气体高于仅施用化肥，在厌氧条件下检测到的有机硫气体高旱地土壤、同时施用有机肥和化肥后，土壤中发赡有机硫气体高于仅施用化肥。在厌氧     

有机废水快速渗滤处理系统中氧化还原环境特征

在啤酒废水交替淹水的土柱中安装了铂金和甘汞电极，对淹水—落干期间不同土壤深度的氧化—还原电位进行了测定．结果表明，在１００ｃｍ深度以上，随淹水—落干交替进行，土壤依次出现厌氧和好氧环境，在１００ｃｍ浓度以下，土壤中保持厌氧状态．据此将有机废水ＲＩ系统划分为不同的氧化—还原带，各带对有机污染物具有不同的净化功能．     

厌氧和好氧条件下土壤中六氯乙烷降解的动态研究

通过在实验室模拟不同的环境条件,研究常用有机氯化合物——六氯乙烷(Hexachloroethane,HCE)在好氧和厌氧环境条件中的土壤生物降解动态及其影响因素。结果表明,HCE在水稻土中的降解遵循一级反应动力学方程。相对于好氧条件,厌氧条件下土壤微生物对HCE的降解影响较大。在厌氧条件下,在30⁶0 mg/kg的浓度范围内,HCE的降解随土壤中HCE起始浓度增加而加快,当浓度≥60 mg/kg时,随HCE起始浓度增加而减慢。而在好氧条件下,HCE的降解速率变化较小,表明相对于好氧条件,厌氧条件下土壤微生物可以利用HCE生长,在未达到其毒性耐受浓度时,HCE降解速率随着其浓度的增加而提高,但当浓度超过微生物的耐受极限浓度时,微生物活动将受到抑制,HCE的降解速率呈下降趋势。     

Dissimilatory Fe(III) reduction characteristics of paddy soil extract cultures treated with glucose or fatty acids

Dissimilatory Fe(Ⅲ) reduction is a universal process with irreplaceable biological and environmental importance in anoxic environments. Our knowledge about Fe(Ⅲ) reduction predominantly comes from pure cultures of dissimilatory Fe(Ⅲ) reducing bacteria (DFRB). The objective of this study was to compare the effects of glucose and a selection of short organic acids (citrate, succinate, pyruvate, propionate, acetate, and formate) on Fe(Ⅲ) reduction via the anaerobic culture of three paddy soil solutions with Fe(OH)3 as the sole electron acceptor. The results showed significant differences in Fe(Ⅲ) reduction among the three paddy soil solutions and suhstrate types. Bacteria from the Sichuan paddy soil responded quickly to substrate supply and showed higher Fe(Ⅲ) reducing activity than the other two soil types. Bacteria in the Jiangxi paddy soil culture solution could not use propionate as a source of electrons for Fe(Ⅲ) reduction. Similarly, bacteria in the Jilin paddy soil culture could not use succinate effectively. Pyruvate was readily used by cultures from all three paddy soil solutions, thus indicating that there were some similarities in substrate utilization by bacteria for Fe(Ⅲ) reduction. The use of glucose and citrate as substrate for dissimilatory Fe(Ⅲ) reduction indicates important ecological implications for this type of anoxic respiration.