温度和电子传递体AQDS对铁还原细菌Shewanella putrefaciens CN32矿化产物的影响  被引量：7

作　　者：李陛[1,2,3] 吴文芳[1,2,3] 李金华[1,3] 潘永信[1,3] 

机构地区：[1]中国科学院地质与地球物理研究所地球深部研究重点实验室,北京100029 [2]中国科学院研究生院,北京100049 [3]中法生物矿化与纳米结构联合实验室,北京100029

出　　处：《地球物理学报》2011年第10期2631-2638,共8页Chinese Journal of Geophysics

基　　金：国家自然科学基金委创新群体(40821091);中国科学院创新团队(KZCX2-Yw-T10)国际合作伙伴计划项目资助

摘　　要：微生物矿化产生的超顺磁性(SP)磁铁矿是沉积物和土壤中磁性矿物的重要来源.本文比较了三个不同温度下(20℃,30℃,37℃)纯培养铁还原细菌Shewanella putrefaciens CN32还原水合氧化铁形成SP磁铁矿的矿化特征.在实验体系中加入细菌CN32后,体系的氧化还原电位Eh迅速下降.酸碱度pH和亚铁离子Fe^(2+)浓度随之快速上升,磁铁矿也逐渐开始形成.透射电镜观测和室温磁滞回线测定表明产物为SP磁铁矿特征.对比三个温度下产物的磁化率和饱和磁化强度变化发现,培养温度是影响细菌CN32矿化的重要因素,温度升高加快了细菌矿化.随培养温度的升高,磁铁矿的矫顽力增大;低温磁学测量结果显示,产物SP磁铁矿颗粒的平均解阻温度T_b从20℃时的95 K升高到37℃时的160 K,都表明生成的磁铁矿的粒径随培养温度的升高而增大.另外,实验体系中加入电子传递体(AQDS,2.6-anthraquinone disulphonate)明显促进了CN32矿化.这些实验模拟结果有助于认识自然环境中铁还原细菌矿化产生磁性矿物的能力和贡献.The superparamagnetic （SP） magnetite produced by microorganism is an important source of magnetic minerals in sediments and soils. To investigate the behavior of the biomineralization, we compared the reduction of hydrous iron oxide and the formation of magnetite by iron reducing bacteria Shewanella putrefaciens CN32 at different temperatures （20℃, 30℃,37℃）. It was observed that after the addition of bacteria to the system, the Eh began to decrease quickly while the pH and the concentration of ferrous increased, and the formation of magnetite started. Transmission electron microscopy observation and magnetic hysteresis loop of room temperature show that superparamagnetic magnetite was produced. Comparing the variations of susceptibility and isothermal remanent magnetization in different conditions suggests that temperature is the most important factor influencing the biomineralization, the increase of the temperature accelerated the mineralization. The fact that coercivity increased with the temperature and low temperature magnetic measurement suggests that the average blocking temperature （Tb） of the magnetite increased from 95K at 20℃ to 160K at 37℃, both indicating that the size of the particles increased. Also the addition of AQDS （2, 6-anthraquinone disulphonate） as the electron shuttle accelerated the biomineralization by CN32. These results help us to understand the biomineralization capability of iron reducing bacteria and their contribution to the environmental magnetism.

关 键 词：铁还原细菌 磁铁矿 生物矿化 培养温度 AQDS 

分 类 号：P318[天文地球—固体地球物理学]