Monitoring subsurface microbial ecology and demonstrating in situ biodegradation potential using Bio-Sep® Bio-traps

• Autorzy: Busch-Harris J. L. , Jennings E. , Sublette K.L. , Roberts K. P. , White D. C. , Peacock A. , Davis G. , Ogles D. , Holmes W. E. , Yang X , Kolhatkar A. , Beckmann D. , Kolhatkar R.

Warianty tytułu

PL

Monitoring wód podziemnych oraz wykorzystanie potencjału biodegradacji in-situ przy zastosowaniu pułapki Bio-Sep®

• Języki publikacji: EN

Abstrakty

EN

Monitored natural attenuation can be a successful management strategy for groundwater contamination if requisite microbial and geochemical conditions are present. Subsurface microbial ecology of a contaminated aquifer is often investigated by sampling groundwater from the plume. However, the subsurface microbial ecology of a contaminated aquifer is better represented by in situ biofilms than planktonic organisms. Conventional sampling to collect the sessile subsurface microbial community requires coring of the aquifer sediments. However, the efficiency of extracting viable microorganisms and biomarkers from these sediments varies with site geochemistry. Therefore, we have developed a rapid and efficient microbial-sampling system based on Bio-Sep® technology. Bio-Sep® consists of 3-4 mm diameter spherical porous beads engineered from a composite of 25 % aramid polymer and 75 % powdered activated carbon. These beads encourage microbial growth by providing high internal surface area with low-shear conditions, and by concentrating limiting nutrients within the groundwater environment. Biomarkers can be efficiently extracted from Bio-Sep® to provide measures of viable biomass, redox environment, and microbial community composition. We have introduced Bio-Sep® beads into aquifers contaminated with tetrachloroethylene, BTEX, MTBE, and uranium where we used Bio-Sep® to evaluate the effects of potential remediation amendments and to demonstrate in situ biodegradation. This paper presents a review of the Bio-Sep technology, and its applications for documenting subsurface microbial ecology and bioprocesses in contaminated aquifers.

PL

Monitoring fauny bakteryjnej obecnej w wodach podziemnych jest dogodnym narzędziem w ocenie jakości środowiska. Tradycyjne techniki pobierania próbek wód podziemnych oraz osadów wymagają wykonania odwiertów w celu pobrania żyjących w wodzie mikroorganizmów. W pracy przedstawiono szybki i sprawny system pobierania próbek mikrobowych, korzystający z technologii Bio-Sep®, składający się z kulek porowatych o średnicy 3-4 mm, stwarzających dogodne warunki do wzrostu mikroorganizmów. Kulki Bio-Sep®, zostały wprowadzone do wód zanieczyszczonych tetrachloroetylenem, BTEX, MTBE oraz uranem. W pracy zaprezentowano technologię Bio-Sep® oraz jej zastosowanie.

Słowa kluczowe

EN

Bio-Sep®; subsurface microbial ecology; intrinsic biodegradation; biofilms; tetrachloroethylene; BTEX; MTBE; TBA

PL

Bio-Sep®; podpowierzchniowa ekologia mikrobowa; biodegradacja; błona biologiczna; tetrachloroetylen; BTEX; MTBE; TBA

• Wydawca: Towarzystwo Chemii i Inżynierii Ekologicznej
• Czasopismo: Chemia i Inżynieria Ekologiczna
• Rocznik: 2006
• Tom: Vol. 13, nr 5
• Strony: 349--372
• Opis fizyczny: Bibliogr. 74 poz., 10 rys., 9 tab.

Twórcy

autor

Busch-Harris J. L.

autor

Jennings E.

autor

Sublette K.L.

autor

Roberts K. P.

autor

White D. C.

autor

Peacock A.

autor

Davis G.

autor

Ogles D.

autor

Holmes W. E.

autor

Yang X

autor

Kolhatkar A.

autor

Beckmann D.

autor

Kolhatkar R.

• Center for Applied Biogeosciences, University of Tulsa, 600 S. College Ave., Tulsa, OK 74104, USA; 918 631 3085,

Bibliografia

• [1] Small M.C.: Bioremediation J. 1998, 2, 221-225.
• [2] National Research Council, In situ bioremediation: when does it work? National Academy Press, Washington, DC 1993.
• [3] ASTM Standard E 1943-98. 1998. Standard Guide for Remediation of Ground Water by Natural Attenuation at Petroleum Release Sites.
• [4] Wiedemeier T., Wilson J., Kampbell D., Miller R. and Hansen J.: Technical protoco! for implementing intrinsic remediation with long term monitoring for natural attenuation of fuel contamination dissolved in groundwater, Air Force Center for Environmental Excellence, San Antonio, TX 1995.
• [5] Downey D.C., Benson L.A. and Taffinder S.A.: Remediation J. Environ. 1997, 8, 71-86.
• [6] Borden R.C., Gomez C.A. and Becker M.T.: Ground Water 1995, 33, 180-189.
• [7] Sublette K.L., Kolhatkar R.V., Borole A.P., Raterman K.T., Trent G.L., Javanmardian M. and Fisher J.B.: Appl. Biochem. Biotechnol. 1997, 63-65, 823-834.
• [8] Cho J.S., Wilson J.T., DiGiulio D.C., Yardy J.A. and Choi W.: Biodegradation 1997, 8, 265-273.
• [9] Gibson D.T. and Subramanian V.: Microbial degradation ofaromatic hydrocarbons, [in:] Microbial Degradation of Organie Compounds fed.] Gibson D.T., Marcel Dekker, Inc., New York 1984, 181-252.
• [10] Krumholz L., Caldwell M.E. and Suflita J.M.: Biodegradation of BTEXhydrocarbons under anaerobic conditions, [in:] Bioremediation: Principles and Applications [eds.] Crawford R. and Crawford D., Cambridge University Press 1996, 61-77.
• [11] Zhou J., Bruns M.A., and Tiedje J.M.: Appl. Environ. Microbiol. 1995, 62, 316-322.
• [12] Sublette K.L., Plato A.E., Woolsey M., Yates R.G., Camp C.E. and Bair T.: Appl. Biochem. Biotechnol. 1996, 57/58, 1013-1019.
• [13] Camp C.E. and Sublette K.L.: Treatment of refmery wastewaier using Bio-Sep beads as suspended media. Paper presented at the 7th International Petroleum Environmental Conference, Albuquerque, NM 2000.
• [14] Conner J.A., Beitle R., Duncan K., Kolhatkar R. and Sublette K.L.: Appl. Biochem. Biotechnol. 2000, 84-86, 707-719.
• [15] Sublette K.L., Jenneman G. and Bala G.: Evaluation of an immobilized Thiomicrospira sp. Strain CVO enrichment for H2S oxidation. Paper presented at the 8th International Petroleum Environmental Conference, Houston, TX 2001.
• [16] Sublette K.L., G. Jenneman G. and Bala G.: Immobilization of Thiobacillus denitrificans m Bio-Sepfor removal and oxidation of H2S from a gas stream. Paper presented at the 8th International Petroleum Environmental Conference, Houston, TX 2001.
• [17] Nix L., Camp C.E. and Bair T.: Bioreactor for treatment of BTEX-contaminated groundwater: A case history. Paper presented at the 3rd International Petroleum Environmental Conference, Albuquerque, NM 1996.
• [18] Camp C.E., Thompson L.A. and Bair T.: Packed-bed bioreactor utilizing a novel adsorbent biocatalyst support for treatment of BTEX contaminated groundwater. Paper presented at the 1st International Petroleum Environmental Conference, Houston, TX 1994.
• [19] Kaufman E.N., Little M.H. and Selvaraj P.T.: J. Chem. Tech. Biotechnol. 1996, 66, 365-374.
• [20] Turick C.E., Camp C.E. and Apel W.A.: Appl. Biochem. Biotechnol. 1997, 63-65, 871-877.
• [21] Selvaraj P.T., Little M.H. and Kaufman E.N.: Biotechnol. Progr. 1997, 13, 583-589.
• [22] Sundberg D.C. and Durant Y.G.: Polymer React. Eng. 2003, 11, 379-432.
• [23] Rae P. and di Lullo G.: Fracturing fluids and breaker systems: A review of the state-of-the-art, [in:] Technical Advances Going Into the 21th Century, Society of Petroleum Engineers 1996.
• [24] Sartain J. B. and Kruse J.K.: Selected fertilizers used in turf fertilization. University of Florida Extension, CIR 2001.
• [25] Tunlid A. and White D.C.: Biochemical analysis ofbiomass, community structure, nutritional status, and metabolic activity of the microbial communities in soil, [in:] Soil Biochemistry [eds.] Bollag J.-M. and Stotzky G.: Marcel Dekker, Inc., New York, NY, 7, 1992, 229-262.
• [26] White D.C., Ringelberg D.B. and Macnaughton S.J.: Review of PHA and signature lipid biomarker analysis for quantitative assessment of in situ environmental microbial ecology, [in:] 1996 International Symposium on Bacterial Polyhydroxylalkanoates, (eds.) Eggnik G., Steinbuchel A., Poier Y. and Wit-holt B.: NRC Research Press, Ottawa, Canada 1997, 161-170.
• [27] Balkwill D.L., Leach F.R., Wilson J.T., McNabb J.F. and White D.C.: Microb. Ecol. 1988,16, 73-84.
• [28] Pinkart H.C., Wolfram J.W., Rogers R. and White D.C.: Appl. Environ. Microbiol. 1996, 62, 1127-1131.
• [29] Pinkart H.C., Ringelberg D.B., Piceno Y.M., Macnaughton S.J. and White D.C.: Biochemical approaches to biomass measurements and community structure analysis, [in:] Manuał of Environmental Microbiology, 2nd ed., (ed.) C.J. Hurst, R.L. Crawford, M.J. Mclnerney, and L.D. Stetzenbach, 101-113. ASM Press, Washington, D.C. 2002.
• [30] White D.C.: Arch. Hydrobiol. Beih Ergebnisse der Limnol. 1988, 31, 1-18.
• [31] White D.C: Oikos 1995, 74, 174-181.
• [32] White D.C. and Ringelberg D.B.: Utility of signature lipid biomarker analysis in determining in situ viable biomass, community structure. and nutritional/physiological status of the deep subsurface microbio-ta, [in:] (eds.) Amy P.S. and Halderman D.L. The Microbiology of the Terrestrial Subsurface, CRC Press, Boca Raton, FL 1995.
• [33] Lytle C.A., Gan Y.D.M., Salone K. and White D.C.: Environ. Microbiol. 2001, 3(4), 265-272.
• [34] Lytle C.A., Van Berkel G J. and White D.C.: Comparison of Atmospheric Pressure Photoionization and Atmospheric Pressure Chemical Ionization for the Analysis of Ubiąuinones and Menaąuinones, 49* American Society for Mass Spectrometry Meeting Proceedings Chicago, IŁ., TPC 074, May 27-31 2001.
• [35] White D.C., Stair J.O. and Ringelberg D.B.: J. 1nd. Microbiol. 1996, 17, 185-196.
• [36] White D.C., Lytle C.A., Gan Y.D.M., Piceno Y.M., Wimpee M.H., Peacock A. and Smith C.A.: J. Microbial Methods 2002, 48, 139-147.
• [37] Sambrook J., Fritsch E. and Maniatis T.: Molecular Cloning - A Laboratory Manuał, Cold Springs Har-bor Laboratory Press, New York 1989.
• [38] Muyzer G., DeWaal E.C., Uitterlinden A.G.: Appl. Environ. Microbiol. 1993, 59, 695-700.
• [39] Stephen J.R., Chang Y.J., Gan Y.D., Peacock A., Pfiffner S.M., Barcelona M.J., White D.C. and Macnaughton S.J.: Environ. Microbiol. 1998, 1(3), 231-241.
• [40] Altschul S., Madden T., Schaffer A., Zhang J., Zhang Z., Miller W. and Lipman D.; Nucleic Acids Res. 1997, 25, 3389-3402.
• [41] Macnaughton S., Stephen J.R., Chang Y.J, Peacock A., Flemming C.A., Leung K.T., and White D.C.: Canad. J. Microbiol. 1999, 45, 116-124.
• [42] http://rdp.cme.msu.edu
• [43] Chang Y.J., Peacock A., Long P.E., Stephen J.R., McKinley J.P., Macnaughton S.J., Anwar Hussain A K M., Saxton A.M. and White D.C.: Appl. Environ. Microbiol. 2001, 67, 3149-3160.
• [44] Ivanova I.A., Stephen J.R., Chang Y.J., Bruggemann J., Long P.E., McKinley J.P., Kowalchuk G.A., White D.C. and Macnaughton S.J.: Canad. J. Microbiol. 2000, 46, 1012-1020.
• [45] Kaneda T.: Microbiol. Rev. 1991, 55, 288-302.
• [46] Peacock A.D., Sublette K.L., Moralwar A., Davis G. and White D.C.: In Situ Monitoring of Chlorinated Hydrocarbon Remediation Potential Using Baited BioSep Traps, [in:] Proceedings of the Second International Conference on Remediation of Contaminated Sediments, (eds.) Pellei M. and Porta A. 2003.
• [47] Vestal J. and White D.C.: Bioscience 1989, 39, 535-541.
• [48] White D.C. and Ringelberg D.B.: Signature lipid biomarker analysis, [in:] Techniques in Microbial Ecology, (eds.) Burlage S., Atlas R., Stahi D., Geesey G. and Sayler G., Oxford University Press, New York, NY,1998, 255-272.
• [49] Mehta C., Sublette K.L., Peacock A., Davis G., Harrison M.C., White D.C., Fogel S., Findley M, and Frazier N.E.: A comparison of in situ baited Bio-Sep-bead traps and ex situ microcosms in the evatuation of potential remediation amendments in a PCE-contaminated aguifer, [in:] Proceedings of the Fourth International Conference on Remediation of Chlorinated and Recalcitrant Compounds. May 24-27, 2004. Monterey CA 2004.
• [50] Peacock A.D., Chang Y.J., Istok J.D., Krumholz L., Geyer R., Kinsall B., Watson D., Sublette K.L. and White D.C.: Microb. Ecol. 2004, 47, 284-292.
• [51] Istok J.D., Humphrey M.D., Schroth M.H., Hyman M.R. and O'Reilly K.T.: Ground Water 1997, 35, 619-631.
• [52] Istok J.D., Senko J.M., Krumholz L.R., Watson D., Bogle M., Peacock A., Chang Y J., and White D.C.:. Environ. Sci. Technol. 2004, 38, 468-475.
• [53] Lovely D.R., Phillips E.J.P., Gorby Y.A. and Landa E.R.: Nature 1991, 350, 413-416.
• [54] Dabert P., Sialve B., Delgenes J.P., Moletta R. and Godon J.J.: Appl. Microbiol. Biotechnol. 2001, 55(4), 500-509.
• [55] Dojk, M.A. Jr., Hugenholtz P., Haack S. and Pace N.R.: Appl. Environ. Microbiol. 1998, 64(10), 3869-3877.
• [56] Chang Y.J., Long P.E., Geyer R., Peacock A., Resch C.T., Sublette K.L., Pfiffner S., Smithgalt A., Anderson R.T., Vrionis H.A., Stephen J.R., Dayvault R., Ortiz-Bernad L, Loyely D.E. and White D.C. Environ. Sci. Technol. In Press
• [57] Sublette K.L., Peacock A., White D.C., Davis G., Ogles D., Cook D., Kolhatkar R., Beckmann D. and Yang X.: Ground Water Monit. R. 2006, 26, 70-78.
• [58] Beller H.R., Kane S.R., LegierT.C. and Alvarez P.J.: Enyiron. Sci. Technol. 2002,36,3977-3984.
• [59] Guckert J.B., Hood M.A. and White D.C.: Appl. Environ. Microbiol. 1986, 52, 794-801.
• [60] Baird B.H. and White D.C.: Marinę Geol. 1985, 68, 217-231.
• [61] Guckert J.B., Antworth C.P., Nichols P.D. and White D.C.: FEMS Microbiol. Ecol. 1985,31,147-158.
• [62] Dowling N., Widdel J.E. and White D.C.: J. General Microbiol. 1986, 132, 1815-1825.
• [63] White D.C., Smith G.A., Gehron M.J., Parker J.H., Findley R.H., Martz R.F. and Fredrickson H.L.: De-velop. 1nd. Microbiol. 1983, 24, 201-211.
• [64] Boschker H.T.S., Nold S.C., Wellsbury P., Boś D., De Graaf W.D., Pel R., Parkes R.J. and Cappenberg T.E.: Nature 1998, 392, 801-805.
• [65] Geyer R., Peacock A.D., Miltner A., Richnow H.H., White D.C., Sublette K.L. and Kastner M.: Environ. Sci. Technol. 2005, 39, 4983-4989.
• [66] Geyer R., Peacock A.D., White D.c., Lytle C. and Van Berkel G-J.: J. Mass Spect. 2004,39,922-929.
• [67] Baedecker M.J., Cozzarelli I.M., Siegel D.I., Bennett P.C., Eganhouse R.P.: Appl. Geochem. 1993, 8, 569—586.
• [68] Revesz K., Coplen T.B., White D.C.; Appl. Geochem. 1995,10,505-516.
• [69] Jackson A.W., Pardue J.H., and Araujo R.: Environ. Sci. Technol. 1996, 30, 1139-1144.
• [70] Aggarwal P.K., Fuller M.E., Gurga M.M., Manning J.F. and Dillon M.A.: Environ. Sci. Technol. 1997, 31, 590-596.
• [71] Conrad M.E., Daley P.F., Fischer M.L., Buchanan B.B., Leighton T. and Kashgarian M.: Environ. Sci. Technol. 1997, 31, 1463-1469.
• [72] Stehmeier L., Francis M., Jack T., Diegor E., Winsor L. and Abrajano T.: Org. Geochem. 1999, 30, 821-833.
• [73] Hunkeler D., Andersen N., Aravena R., Bernasconi S. and Butler B.: Environ. Sci, Technol. 2001, 35, 3462-3467.
• [74] Mancini S., UIrich A., Lacrampe-Couloume G., Sleep B., Edwards E. and Lollar B.: Appl. Environ. Microbiol. 2003, 69, 191-198.