Urease Activity of Ureolytic Bacteria Isolated from Six Soils in which Calcite was Precipitated by Indigenous Bacteria

Burbank M.B.; Weaver T.J.; Williams B.C.; Crawford R.L.

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Urease Activity of Ureolytic Bacteria Isolated from Six Soils in which Calcite was Precipitated by Indigenous Bacteria

机译：从六种土质沉淀方解石的土壤中分离的尿溶菌的脲酶活性

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Ten distinct and phylogenetically diverse bacterial strains able to produce urease constitutively, even in the presence of high levels of ammonia, were isolated. Each isolate was characterized with respect to morphology, growth conditions, 16S rRNA sequence identity and the urease specific activity each isolate was measured. At least one bacteria that was able to hydrolyze urea in the presence of high concentration of ammonia was isolated from each soil tested. These results indicate that constitutive production of urease is a common trait in soil bacteria. This makes the general application of biomineralization process based on stimulation of urea hydrolysis possible and potentially useful for a variety of soil bioengineering and environmental bioremediation applications.

机译：分离出即使在高水平的氨存在下也能组成性地产生脲酶的十种不同且系统发育多样的细菌菌株。对每种分离物的形态，生长条件，16S rRNA序列同一性和脲酶比活性进行了表征。从每种测试的土壤中分离出至少一种在高浓度氨水存在下能够水解尿素的细菌。这些结果表明，尿素酶的组成型生产是土壤细菌的共同特征。这使得基于尿素水解刺激的生物矿化过程的一般应用成为可能，并且可能对多种土壤生物工程和环境生物修复应用有用。

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《Geomicrobiology journal 》 |2012年第5期| 共7页
作者
Burbank M.B.; Weaver T.J.; Williams B.C.; Crawford R.L.;
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原文格式 PDF
正文语种 eng
中图分类其他应用微生物学 ;
关键词
biocement; calcite; indigenous bacteria; microbial induced calcite precipitation; urease activity;

机译：生物水泥;方解石;本土细菌;微生物诱导的方解石沉淀;脲酶活性;

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1. Urease Activity of Ureolytic Bacteria Isolated from Six Soils in which Calcite was Precipitated by Indigenous Bacteria [J] . Burbank M.B., Weaver T.J., Williams B.C., Geomicrobiology journal . 2012 ,第1a5期

机译：从六种土质沉淀方解石的土壤中分离的尿溶菌的脲酶活性
2. Sugarcane Molasses: A Cheap Carbon Source for Calcite Production in Different Class of Soils using Stimulation of Indigenous Urease-producing Bacteria [J] . Geomicrobiology journal . 2020 ,第1a5期

机译：甘蔗糖蜜：使用刺激土着脲酶产生细菌的不同类别中的方解石生产的廉价碳源
3. Factors affecting the urease activity of native ureolytic bacteria isolated from coastal areas [J] . Al Imran Md, Nakashima Kazunori, Evelpidou Niki, Geomechanics and engineering . 2019 ,第5期

机译：影响沿海地区天然尿素分解细菌脲酶活性的因素
4. Evaluating the Effectiveness of Soil-Native Bacteria in Precipitating Calcite to Stabilize Expansive Soils [C] . Bhaskar C. S. Chittoori, Malcolm Burbank, Touhidul Islam International foundations congress and equipment expo . 2018

机译：土方细菌沉淀方解石稳定膨胀土的效果评估
5. Bioremediation of Local Textile Wastewater Using Indigenous Bacteria Isolated from Soil Contaminated with Dye Effluent [D] . Sulugambari, Zulukarnain Bolaji 2018

机译：利用染料废水污染土壤中的土著细菌对当地纺织废水进行生物修复
6. Development of a M9‐based urea medium (M9U) for sensitive and real‐time monitoring of ureolytic activity of bacteria and cell‐free urease [O] . Jens Jakob Sigurdarson, Simon Svane, Henrik Karring 2020

机译：基于M9的尿素培养基（M9U）的开发用于敏感实时监测细菌和无细胞尿素酶的尿素分解活性
7. High strength in-situ biocementation of soil by calcite precipitating locally isolated ureolytic bacteria [O] . Al-Thawadi Salwa 2008

机译：方解石沉淀局部分离的溶尿细菌高强度原位生物固结土壤

Urease Activity of Ureolytic Bacteria Isolated from Six Soils in which Calcite was Precipitated by Indigenous Bacteria

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