Chinese Journal of Applied Ecology ›› 2003, Vol. ›› Issue (3): 453-456.
Previous Articles Next Articles
XIANG Wansheng1,2, WU Jinshui1, XIAO He′ai1, LI Xueyuan2
Received:
2001-06-18
Revised:
2002-02-04
CLC Number:
XIANG Wansheng, WU Jinshui, XIAO He′ai, LI Xueyuan. Advances in extraction and purification of soil microorganism[J]. Chinese Journal of Applied Ecology, 2003, (3): 453-456.
[1] Albertsson PA.1956. Chromatography and partition of cell fragments.Nature,177:771~774 [2] Albertsson PA.1986.Partition of Cell Particles and Macromolecules.3nd.New York:Wiley. [3] Bakken LR.1985. Separation and purification of bacteria from soil.Appl Environ Microbiol,49:1482~1487 [4] Balkwill DL,Labeda DP,Casida LEJr.1990.Simplified procedures for releasing and concentrating microorganisms from soil for transmission electron microscopy viewing as thin-sectioned and frozon-etched preparations.Can J Microbiol,21:252~262 [5] Baath E.1996.Thymidine incorporation of bacteria sequentially extracted from soil using repeated homogenization-centrifugation.Microbiol Ecol,31:153~166 [6] Bardgett RD.1991.The use of the membrane filter technique for comparative measurements of hyphal lengths in different grassland sites.Agric Ecosys Environ,34:115~119 [7] Bodding CL,Bassett EE,Jacobsen I,et al.1999. Comparison of techniques for the extraction and quantification of extra-radical mycelium of arbuscular mycorrhizal fungi in soil.Soil Biol Biochem,31:479~482 [8] Datar R and Rosen CG.1991. Studies on the removal of Escherichia coli cell debris by aqueous two-phase polymer extraction.J Biotechnol,3:207~219 [9] Elmholt S,Kjoller A.1987.Measurement of the length of fungal hyphae by the membrane filter technique as a method for comparing fungal occurrence in cultivated field soils.Soil Biol Biochem,19:679~682 [10] Faegri AV,Torsvik L,Goksoyr J. 1977.Bacterial and fungi activities in soil: Separation of bacterial and fungi by a rapid fractionated centrifugation technique.Soil Biol Biochem,9:105~112 [11] Fisher D and Sutherland IA.1989.Separation Using Aqueous Phase Systems-Applications in Cell Biology and Biotechnology. New York:Plenum Press. [12] Green DC,Vilarino A,Newsam R,et al. 1994,Quantification of mycelial development of arbuscular mycorrhizal fungi using image analysis.Mycorrhiza,5:105~113 [13] Herron PR and Wellington EMH.1990.New method for extraction of streptomycete spores from soil and application to the study of lysogeny in sterile amended and nonsterile soil.Appl Environ Microbiol,56:1406~1412 [14] Hopkins DW,Macnaughton SJ,O'Donnell AG.1990. A dispersion and differential centrifugation technique for representatively sampling microorganisms from soil.Soil Biol Biochem,23:117~225 [15] Hopkins DW,O'Donnell AG,Macnaughton SJ.1991. Evaluation of a dispersion and elutration technique for sampling microorganisms from soil.Soil Biol Biochem,23:227~232 [16] Huddleston JG and Lyddiatt A.1990.Aqueous two-phase systems in biochemical recovery.Appl Biochem Biotechnol,26:249~279 [17] Huddleston JG,Veide A,Kohler K,et al.1991.The molecular basis of partitioning in aqueous two-phase systems.Trend Biotechnol,19:381~388 [18] Jacobsen I,Abbott LK,Robson AD.1992.External hyphae of vesicular-arbuscular mycorrhizal fungi associated with Trifolium subterraneum L. 1. Spread of hyphae and phosphorus inflow into roots.New Phytol,120:371~380 [19] Jenkinson DS and Powlson DS.1976.The effect of biocidal treatments on metabolism in soil V. A method for measuring soil biomass.Soil Biol Biochem,8:179~188 [20] Lindahl V.1996.Improved soil dispersion procedures for total bacterial counts,extraction of indigenous bacteria and cell survival.J Microbiol Methods,25:279~286 [21] Lindahl V,Bakken LR.1995. Evaluation of methods for extraction of bacteria from soil.FEMS Microbiol Ecol,16:135~142 [22] Macdonald RM.1986.Extraction of microorganisms from soil.Biol Agric Hortic,3:361~365 [23] Macdonald RM.1986.Sampling soil microfloras: Optimization of density gradient centrifugation in percoll to separate microorganisms from soil suspensions.Soil Biol Biochem,18:407~410 [24] Macdonald RM.1986.Sampling soil microfloras: Dispersion of soil by ion exchange and extraction of specific microorganisms from suspension by elutration.Soil Biol Biochem,18:399~406 [25] Macdonald RM. 1986. Sampling soil microfloras: Problems in estimating concentration and activity of suspension of mixed populations of soil microorganisms.Soil Biol Biochem,18:411~416 [26] Martin NJ and Macdonald RM.1981. Separation of non-filamentous microorganisms from soil by density gradient centrifugation in percoll.J Appl Bacteriol,51:243~251 [27] Marco RP and Cueto L.2000.Effect of biological suspension on the position of binodal curve in aqueous two-phase systems.J Chromatography B,743:5~12 [28] Marco RP. Alejandro N,Enrique G,et al.2000,Aroma compounds recovery from mycelial cultures in aqueous two-phase processes.J Chromatogr B,743:403~408 [29] Niepold F,Conrad R,Schlegel HG.1979.Evaluation of the efficiency of extraction for the quantitative estimation of hydrogen bacteria in soil.Antonie van Leeuwenhoek,45:485~497 [30] Puri G,Ashman MR,Stribley DP.1996.Aqueous two-phase partitioning and 15N techniques to determine bacterial and non-bacterial fractions of soil microbial N.Soil Biol Biochem,28:137~139 [31] Richard A and Coakley WT.1994. Ultrasound enhanced phase partition of microorganisms.Bioseparation,4:29~38 [32] Riis V,Lorbber H,Babel A.1998. Extraction of microorganisms from soil: Evaluation of the efficiency by counting methods and activity measurements.Soil Biol Biochem,30:1573~1581 [33] Smith NC and Stribley DP.1994.A new approach to direct extraction of microorganism from soil. In:Ritz K,Dighton J,Giller KE eds. Beyond the Biomass.London: British Society of Soil Science (BSSS). [34] Srom G,Paimgren U,Blomquist G. 1987. Separation of organic dust from microorganism suspensions by partitioning in aqueous polymer two-phase systems.Appl Environ Microbiol,53:860~863 [35] Tupin PE,Maycroft KA,Rolands CL,et al.1993.An ion-exchange based extraction method for the detection of salmonellas in soil.J Appl Bacteriol,53:860~963 [36] Vance ED,Brookes PC,Jenkinson DS.1987.An extraction method for measuring soil microbial biomass C.Soil Biol Biochem,19:703~707 [37] Vilarino A,Arinel J,Schuepp H.1993.Extraction of vesicular-arbuscular mycorrhizal mycelium from sand samples.Soil Biol Biochem,25:99~100 [38] Water H,Brookes DE,Fisher D,eds.1985. Partitioning in Aqueous Two-Phase System.New York:Academic Press Inc. [39] Walter H. 1977.Partition of cells in two polymer aqueous phase A surface affinity method for cell separation. In:Catsimpoolas N ed. Methods of Cell Separation.New York:Plenum Press.307~354 [40] Walter H,Johansson G,Brookes DE.1991.Partitioning in aqueous two-phase systems: Recent results.Analy Biochem,197:1~18 [41] Wu J,Joergenson RG,Pommering B,et al.1990. Measurement of soil microbial biomass C by fumigation-extraction-An automated procedure.Soil Biol Biochem,22:1167~1169 [42] Yu W,Dodds WK,Banks MK,et al.1995.Optimal staining and sample storage time for direct microscopic enumeration of total and active bacteria in soil with two fluorescent dyes.Appl Environ Microbiol,61:3367~3372 |
[1] | YANG Xue, CAO Xia, BAI Bing, YUAN Yanna, ZHANG Ning, XIE Yang, WU Chuncheng. Effects of root-applied biochar on soil nitrogen transformation and root nitrogen metabolism of cucumber seedlings in facility continuous cropping soils [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 713-720. |
[2] | LYU Jiajia, CHU Zheng, LI Baichao, GONG Lijuan, ZHOU Baocai, LIU Dan, WANG Dongni, JIANG Lixia. Construction of yield loss indicators for cold vortex, light-temperature-water combined stress during the flowering period of rice in Northeast China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 731-738. |
[3] | GUO Peilong, WANG Wenlong, LI Jianming, KANG Hongliang, LOU Yibao, WEI Sihan. Responses of runoff and sediment yield to slope length and gravel content of Lou soil engineering accumulation slope in Guanzhong region, Northwest China [J]. Chinese Journal of Applied Ecology, 2024, 35(3): 749-758. |
[4] | YANG Yanmeng, ZHANG Jiaxing, LI Yaru, MA Jingran , WANG Duo, JIN Zhancai, XIE Lulu, DENG Jiaojiao, YE Ji, YU Dapao, WANG Qingwei. Effects of light qualities on growth and physiological-biochemical traits of Scutellaria baicalensis [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 424-430. |
[5] | MA Xiaoming, LI Dan, LEI Jia, YU Jie, WANG Nan, HOU Xianqing, WEI Na, LI Rong. Influence of tillage methods combined with mulching on soil physical properties and potato yield in dry farming area under different precipitation years [J]. Chinese Journal of Applied Ecology, 2024, 35(2): 447-456. |
[6] | LI Changqing, JI Meng, MA Mengmeng, WANG Shuo, LIU Huan, SUN Zhimei. Effects of combined natural synergists and chemical inhibitors on yield, nitrogen utilization and balance in wheat/maize rotation system [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2391-2397. |
[7] | GUO Lina, LU Lin, DONG Xuerui, ZHANG Fenglu, YAN Peng, DONG Zhiqiang. Effects of gibberellic acid, kinetin and indole butyric acid mixture on sorghum salinity tolerance and grain yield in saline-alkali coastal zone [J]. Chinese Journal of Applied Ecology, 2023, 34(9): 2405-2412. |
[8] | ZHOU Yufei, DENG Jiayi, MA Qiuyun, YE Shen. Estimation of life history traits and stock status for Scomber japonicus based on data-limited method [J]. Chinese Journal of Applied Ecology, 2023, 34(8): 2249-2258. |
[9] | PANG Danbo, WU Mengyao, ZHAO Yaru, YANG Juan, DONG Liguo, WU Xudong, CHEN Lin, LI Xuebin, NI Xilu, LI Jingyao, LIANG Yongliang. Soil microbial community characteristics and the influencing factors at different elevations on the eastern slope of Helan Mountain, Northwest China [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1957-1967. |
[10] | ZHU Zhenchuang, SUN Shijun, ZHU Miaomiao, LI Dongyi, WANG Zhe, SHEN Ruxuan, CHEN Wei. Effects of groundwater depth on groundwater recharge and soybean growth dynamics in Northeast China Plain [J]. Chinese Journal of Applied Ecology, 2023, 34(7): 1871-1882. |
[11] | YANG Yixuan, CHEN Yingzhi, TANG Peng, LIN Wen, SUN Min, GAO Zhiqiang. Effects of sowing patterns on nitrogen utilization and yield formation of winter wheat in the western Huang-Huai-Hai region [J]. Chinese Journal of Applied Ecology, 2023, 34(6): 1572-1582. |
[12] | ZHANG Xiaowei, YANG Xianhe, CHE Haojie, QIN Jing, BI Huangai, AI Xizhen. Effects of rotted corn straw on soil environment, yield, and quality of cucumber [J]. Chinese Journal of Applied Ecology, 2023, 34(5): 1290-1296. |
[13] | MENG Qingqing, WU Fengling, SONG Jianli, WEI Min, MENG Lun, LI Jing, YANG Fengjuan. Effects of drip irrigation frequency on the yield and nutrient utilization efficiency of tomato under long-season cultivation in solar greenhouse [J]. Chinese Journal of Applied Ecology, 2023, 34(5): 1297-1304. |
[14] | LOU Yunsheng, YU Yujie, LIU Yan, YANG Huilin, ZHOU Dongxue. Effects of silicate application on rice growth, yield and quality under nighttime warming in southern China [J]. Chinese Journal of Applied Ecology, 2023, 34(4): 985-992. |
[15] | NING Chuanchuan, CHEN Yuegui, LIU Rui, LI Tongxin, CHEN Hailang, TIAN Jihui, CAI Kunzheng. Effects of N fertilizer reduction combined with straw biochar application on the yield, Si, and N nutrition of double-cropping rice [J]. Chinese Journal of Applied Ecology, 2023, 34(4): 993-1001. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||