Adaptation and population dynamics of Azotobacter vinelandii during aerobic biological treatment of olive-mill wastewater

Olive-mill wastewater (OMW) has a high organic and polyphenol content and is resistant to biodegradation. Its disposal leads to a major environmental pollution problem in the Mediterranean basin. The detoxification of OMW following inoculation with Azotobacter vinelandii (strain A) was performed for...

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Veröffentlicht in:	FEMS microbiology ecology 1999-12, Vol.30 (4), p.301-311
Hauptverfasser:	Ehaliotis, Constantinos, Papadopoulou, Kalliopi, Kotsou, Maria, Mari, Ioanna, Balis, Constantinos
Format:	Artikel
Sprache:	eng
Schlagworte:	Azotobacter vinelandii Bioremediation Mediterranean Region Microbial population dynamics mills Most probable number-polymerase chain reaction Olea europaea Olive-mill wastewater
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creator	Ehaliotis, Constantinos Papadopoulou, Kalliopi Kotsou, Maria Mari, Ioanna Balis, Constantinos
description	Olive-mill wastewater (OMW) has a high organic and polyphenol content and is resistant to biodegradation. Its disposal leads to a major environmental pollution problem in the Mediterranean basin. The detoxification of OMW following inoculation with Azotobacter vinelandii (strain A) was performed for two successive 5-day-period cycles in an aerobic, biowheel-type reactor, under non-sterile conditions. The phytotoxicity of the processed product was reduced by over 90% at the end of both cycles. To exclusively monitor the A. vinelandii population in the reactor a most probable number-PCR approach was employed and applied daily to serial dilutions of total DNA extracted from reactor samples. PCR sensitivity was independent of the presence of OMW or non-target DNA. The A. vinelandii population dynamics were successfully monitored, showing an initial adaptation period, followed by a sharp population maximum on the fourth day of both cycles (1.6×10 8 and 9.6×10 7 cells ml −1 respectively), after a major phytotoxicity decline. N 2 fixation rates were estimated using the acetylene reduction assay and reached a peak during the first 1–2 days of each cycle (36 and 29 nmol C 2H 2 ml −1 h −1 respectively). The data are consistent with an initial physiological adaptation phase, where the presence of phenolic compounds limits A. vinelandii growth but stimulates N 2 fixation, followed by a rapid growth phase as phytotoxicity declines.
doi_str_mv	10.1016/S0168-6496(99)00066-5
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Its disposal leads to a major environmental pollution problem in the Mediterranean basin. The detoxification of OMW following inoculation with Azotobacter vinelandii (strain A) was performed for two successive 5-day-period cycles in an aerobic, biowheel-type reactor, under non-sterile conditions. The phytotoxicity of the processed product was reduced by over 90% at the end of both cycles. To exclusively monitor the A. vinelandii population in the reactor a most probable number-PCR approach was employed and applied daily to serial dilutions of total DNA extracted from reactor samples. PCR sensitivity was independent of the presence of OMW or non-target DNA. The A. vinelandii population dynamics were successfully monitored, showing an initial adaptation period, followed by a sharp population maximum on the fourth day of both cycles (1.6×10 8 and 9.6×10 7 cells ml −1 respectively), after a major phytotoxicity decline. N 2 fixation rates were estimated using the acetylene reduction assay and reached a peak during the first 1–2 days of each cycle (36 and 29 nmol C 2H 2 ml −1 h −1 respectively). 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N 2 fixation rates were estimated using the acetylene reduction assay and reached a peak during the first 1–2 days of each cycle (36 and 29 nmol C 2H 2 ml −1 h −1 respectively). 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Its disposal leads to a major environmental pollution problem in the Mediterranean basin. The detoxification of OMW following inoculation with Azotobacter vinelandii (strain A) was performed for two successive 5-day-period cycles in an aerobic, biowheel-type reactor, under non-sterile conditions. The phytotoxicity of the processed product was reduced by over 90% at the end of both cycles. To exclusively monitor the A. vinelandii population in the reactor a most probable number-PCR approach was employed and applied daily to serial dilutions of total DNA extracted from reactor samples. PCR sensitivity was independent of the presence of OMW or non-target DNA. The A. vinelandii population dynamics were successfully monitored, showing an initial adaptation period, followed by a sharp population maximum on the fourth day of both cycles (1.6×10 8 and 9.6×10 7 cells ml −1 respectively), after a major phytotoxicity decline. N 2 fixation rates were estimated using the acetylene reduction assay and reached a peak during the first 1–2 days of each cycle (36 and 29 nmol C 2H 2 ml −1 h −1 respectively). The data are consistent with an initial physiological adaptation phase, where the presence of phenolic compounds limits A. vinelandii growth but stimulates N 2 fixation, followed by a rapid growth phase as phytotoxicity declines.</abstract><pub>Elsevier B.V</pub><doi>10.1016/S0168-6496(99)00066-5</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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source	Wiley Online Library - AutoHoldings Journals; EZB Free E-Journals; Oxford Open; Alma/SFX Local Collection
subjects	Azotobacter vinelandii Bioremediation Mediterranean Region Microbial population dynamics mills Most probable number-polymerase chain reaction Olea europaea Olive-mill wastewater
title	Adaptation and population dynamics of Azotobacter vinelandii during aerobic biological treatment of olive-mill wastewater
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