• Journal of Ginseng Research
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• 제46권2호
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• pp.296-303
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• 2022

Background: Skin microbiota is important for maintenance of skin homeostasis; however, its disturbance may cause an increase in pathogenic microorganisms. Therefore, we aimed to develop a red ginseng formulation that can selectively promote beneficial bacteria. Methods: The effects of red ginseng formulation on microorganism growth were analyzed by comparing the growth rates of Staphylococcus aureus, S. epidermidis, and Cutibacterium acnes. Various preservatives mixed with red ginseng formulation were evaluated to determine the ideal composition for selective growth promotion of S. epidermidis. Red ginseng formulation with selected preservative was loaded into a biocompatible polymer mixture and applied to the faces of 20 female subjects in the clinical trial to observe changes in the skin microbiome. Results: Red ginseng formulation promoted the growth of S. aureus and S. epidermidis compared to fructooligosaccharide. When 1,2-hexanediol was applied with red ginseng formulation, only S. epidermidis showed selective growth. The analysis of the release rates of ginsenoside-Rg1 and -Re revealed that the exact content of Pluronic F-127 was around 11%. The application of hydrogel resulted in a decrease in C. acnes in all subjects. In subjects with low levels of S. epidermidis, the distribution of S. epidermidis was significantly increased with the application of hydrogel formulation and total microbial species of subjects decreased by 50% during the clinical trial. Conclusion: We confirmed that red ginseng formulation with 1,2-hexanediol can help maintain skin homeostasis through improvement of skin microbiome.

• 한국수산과학회지
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• 제56권1호
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• pp.89-98
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• 2023

We evaluated the effects of prebiotic (mannan oligosaccharides, Mos) and probiotic diet supplements on growth performance, innate immunity, antioxidant activity, and intestinal changes in the microbial flora of red seabream Pagrus major. A basal diet (Con) was formulated to meet the nutrient requirement of red seabream. The dietary starch in Con was replaced with 0.6% Mos, Lactobacillus plantarum, Bacillus subtilis, B. licheniformis and probiotic mixture (labeled as Mos, Pro-LP, Pro-BS, Pro-BL and Pro-Mix, respectively). We stocked 450 fish in 18 polypropylene tanks (400 L) in triplicate groups per dietary treatment. The fish were fed one of the diets twice (08:30, 18:30 h) a day for 63 days. Lysozyme activity was significantly higher in all the supplemented groups than that of the Con group. The immunoglobulin level of Pro-Mix, anti-protease activity of Pro-BL, and glutathione peroxidase and superoxide dismutase activity of Pro-BS, Pro-BL and Pro-Mix groups were significantly higher than those of the Con group. The ratio of total Vibrio/heterotrophic marine bacteria counts was significantly lower in Pro-LP, Pro-BL and Pro-Mix groups than that of the Con group. Therefore, dietary supplementation of Mos and probiotics to improves immune response and antioxidant enzyme activity and inhibits Vibrio bacteria in the intestine.

• Journal of Animal Science and Technology
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• 제65권1호
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• pp.225-243
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• 2023

Large amounts of additives are used during meat product processing to maintain product quality and shelf life. With the growing interest in healthy foods, natural plant-based additives are being used as alternatives to synthetic additives. In this study, six types of natural extracts with excellent antibacterial activity were selected, and their antibacterial and antioxidant activities against four types of pathogens were evaluated in various combinations. In addition, the pH, color, amount of thiobarbituric acid reactive substances (TBARS), and growth of pathogenic microorganisms were analyzed during the storage of sausages treated with various combinations of these extracts. The natural extract mixtures exhibited different antibacterial activities, depending on the combination. Compared to grapefruit seed extract, a mixture of natural extracts extracted with ethanol (M4) reduced the Escherichia coli content by more than 99.9% after 8 days of storage and slowed the growth of Listeria monocytogenes and Salmonella spp. by more than 80% after 14 days. Compared to untreated (NC) and grapefruit extract (PC)-treated sausages, sausages treated with the natural extract mixtures showed a significant decrease in CIE L^* and an increase in CIE a^* and CIE b^* (p < 0.05). The pH value was significantly lower in sausages containing natural extract mixtures than in the NC and PC sausages (p < 0.05). The natural plant extract mixtures significantly prevented lipid oxidation (p < 0.05). In summary, different types of natural extract mixtures have a synergistic effect when used together, suggesting that natural preservatives can generally inhibit the growth of microorganisms and oxidation of processed meat.

• 한국축산식품학회지
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• 제44권1호
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• pp.146-164
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• 2024

Owing to the residual toxicity and adverse health effects of chemical preservatives, there is an increasing demand for using natural preservatives in food. Although many natural extracts have been evaluated, research on their antibacterial effects remains insufficient. Therefore, this study aimed to explore the possibility of developing Psidium guajava, Ecklonia cava, and Paeonia japonica (Makino) Miyabe & Takeda extracts as natural food preservatives. Further, the effect of mixing these extracts on microbial growth and quality was evaluated during the refrigeration of sausages. Optimal mixing ratios were determined based on the minimum inhibitory and bactericidal concentrations of each mixed extract against the Listeria monocytogenes, Salmonella spp. and Escherichia coli. D-optimal mixing design optimization tool was further used to obtain an optimum mixing ratio of Formulation 1 (F1). The antibacterial activity of F1 increased with increasing concentration, with similar activities at 0.5% and 1%. The sausages with synthetic or natural preservatives showed significantly lower lipid oxidation than those of the control and grapefruit extract-treated sausages after 4 wk of refrigeration. Total plate counts were observed only in the control and treatment groups stored for 3 wk, and no significant effect of ascorbic acid was observed. Compared to the other samples, sausages with added natural extracts showed the highest overall acceptability scores initially and after 4 wk. Therefore, similar amounts of grapefruit seed and natural extracts had the same effect on microbiological analysis and lipid rancidity during sausage storage. Hence, this mixture can serve as a potential natural preservative in meat products.

• 생명과학회지
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• 제26권10호
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• pp.1207-1213
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• 2016

오미자(Schisandrae Fructus)와 상엽(Mori folium)은 한국, 중국, 일본을 포함한 아시아 지역에서 오랫동안 식품자원 및 전통 의약제로 광범위하게 사용되어 왔다. 최근 연구에 따르면 오미자와 상엽은 항균, 항염증, 항산화, 면역기능 조절 및 혈관신생억제 등과 같은 많은 효능을 가지는 것으로 알려져 있다. 그러나 오미자(SF), 상엽(MF) 에탄올 단독추출물 및 복합추출물(medicinal herber mixture, MHMIX)에 대한 독성 및 안전성에 대해서는 거의 알려져 있지 않은 실정이다. 따라서 본 연구에서는 SF, MF 및 MHMIX가 유발하는 급성독성 및 안전성을 확인하였다. 이를 위하여 ICR mice를 대상으로 SF, MF 및 MHMIX 5,000 mg/kg을 최고농도로 설정하여 단회 경구 투여하였으며, 투여 후 14일 동안의 치사율, 체중 변화, 임상증상, 음수율 및 사료섭취량과 함께 부검 소견, 장기무게 변화, 혈액학 및 혈액생화학적 검사를 실시하였다. 결과에서 나타난 바와 같이 SF, MF 및 MHMIX의 투여 후 치사율, 임상증상, 체중 및 부검 소견 상의 유의적인 변화는 관찰되지 않았다. 또한 SF, MF 및 MHMIX 투여에 따른 각 장기의 무게, 혈액학적 및 혈청학적 임상 화학적 지표에도 유의적인 변화는 관찰할 수 없었다. 따라서 SF, MF 및 MHMIX는 단회 경구 투여에 따른 치사량이 5,000 mg/kg 이상일 것으로 추정되어 ICR 마우스에 대하여 급성독성이 없는 비교적 안전한 물질이라는 것을 알 수 있었으며, 향후 천연물 소재로서의 효능 규명을 통한 활용이 기대된다.

• 미생물학회지
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• 제51권4호
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• pp.374-381
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• 2015

국내의 경우 항만과 연안해역 준설로 인하여 연간 수 천만톤 이상 준설토사가 발생하며 매년 증가하고 있으나, 대부분 투기장에 장기간 방치되며, 더구나 2012년부터 런던협약에 의해 해양투기가 금지되고 있어 환경친화적인 준설토처리 및 재활용기술개발이 시급하다. 준설토 재활용기술에서는 중간처리과정후 발생하는 현탁수(유기물과 중금속 함유 $10{\mu}m$ 미만 미세오염퇴적물 포함)의 처리가 필요한데 현재 이 기술은 연구되어 있지 않다. 본 연구에서는 복합유용미생물제제(BM-S-1)을 이용하여 미세해양오염퇴적물($10{\mu}m$ 이하 입자)내 오염되어 있는 유기물질, 영양염류 및 중금속을 정화하여 배출함으로써 오염퇴적물 정화처리수 방류수질 기준을 충족하고자 하였다. BM-S-1 복합미생물제제를 이용한 해양준설토의 친환경정화시스템으로서 일일 50 L 처리용량의 Lab scale 실험장치를 HRT 6.5일, BOD 용적부하 $0.2-0.6kg/m^3{\cdot}day$의 조건으로 생물반응기를 100일 이상 운전하였다. SCOD, T-N 및 T-P의 제거효과는 각각 96.1%, 92.0% 및 79.0%로 나타나 오염미세퇴적토 내의 유기물의 처리효과가 매우 양호하였다. 또한 몇 가지의 중금속(Zn, Ni 및 Cr) 처리에도 효과적이었다. 아울러 물리적으로 분리하기 어려운 $10{\mu}m$ 이하의 미세토양의 고액분리가 가능함을 확인하였다. 미생물군집구조를 분석한 결과 Flavobacteria 및 Gammaproteobacteria 강이 매우 우점하였으며, 이들에 속한 미생물종들은 해양 내의 각종유기물(다당류, 단백질 및 기타 생물중합체)을 처리하는 것으로 알려졌다. 따라서 본 실험에서 사용된 BM-S-1 미생물제제와 처리시스템은 고농도의 염분이 함유되어있는 유기물 및 중금속 오염 해양퇴적물 정화에 효율적으로 적용가능한 것으로 판단되며, 정화, 분리된 미세해양퇴적물은 목적에 맞게 재사용 가능할 것으로 사료된다.

• 한국식품위생안전성학회지
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• 제13권4호
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• pp.319-331
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• 1998

본 연구는 학교급식에서 Cook/chill system으로 생산 가능한 음식으로 돼지 불고기를 선정하고 모의실험을 통해 급식생산체계를 반복 실시함으로서 식품 위해 분석 중요관리점(HACCP)을 규명하고, 저장기간중의 음식품질 평가를 통해 합리적인 저장기한을 설정하고자 수행되었으며, 그 연구결과는 다음과 같다. 돼지불고기는 냉동상태로 운반되지 않아 온도상승이 일어난 검수 단계를 제외하면 각 생산 단계별 기준이 준수된 양호한 상태 하에서 생산된 것으로 나타난다. 생산단계별 미생물 분석결과, 원재료($4.26{\pm}0.11\;Log\;CFU/g$)에서 중온균수가 조리하지 않은 식품 기준 이내이나 다소 높게 나타났고, 양념장($5.97{\pm}0.04\;Log\;CFU/g$)에서는 조리하지 않은 식품 기준에 근접한 수준이었으며, 양념으로 재우는 과정($5.56{\pm}0.21\;Log\;CFU/g$)도 위험 수준이었다. 가열 조리 후 최종 음식온도가 $8.25{\pm}3.54^{\circ}C$에 도달하였으나 중온균수($5.17{\pm}0.04\;Log\;CFU/g$)가 급식 단계 음식기준을 초과한 위험한 수준이었고, 기타 미생물은 검출되지 않았다. 급속 냉각과 저장 1일, 3일, 5일 동안도 중온균수가 급식단계 음식 기준에 근접한 위험한 상태였고 기타 미생물은 검출되지 않았다. 재가열 처리에 의해 저장 1일($4.62{\pm}0.22\;Log\;CFU/g$), 3일($4.55{\pm}0.20\;Log\;CFU/g$), 5일($4.25{\pm}0.16\;Log\;CFU/g$) 모두 중온균수는 감소하여 급식단계 음식기준에 충족한 상태가 되었다. 배분 3조건에서도 급식단계 음식 기준 이내에 들었다. 저장 5일간 이화학 분석 결과 pH, 산가, 휘발성 염기 질소 모두 저장 5일에 유의적으로 증가하였고, 관능평가에서는 모든 항목들이 유의적인 차이를 보이지 않았다. 티아민 정량 분속 결과 ,가열 전의 티아민 함량을 100%으로 했을 때, 가열 후에는 78.6%로 손실이 일어났으며, 냉각과 저장 1일, 3일은 티아민 손실을 거의 일으키지 않는 것으로 나타났다. 그러나 저장 5일에는 티아민이 현저히 저하되어 62.5% 보유에 그쳤다. 저장기간에 따른 미생물적, 이화학적, 관능적 품질을 분석한 결과와 티아민 함량의 변화를 고려하여 돼지불고기의 저장기한을 3일로 제안하며, 생산 단계별 온도-소요시간 측정 및 미생물 분석을 통해 규명된 중요관리점은 돼지고기와 양념장재료인 파, 마늘, 생강의 구입 및 검수, 가열조리, 냉각, 저장, 재가열과 배식단계였다.

• Applied Biological Chemistry
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• 제22권2호
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• pp.123-134
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• 1979

Bacillus thuringiensis Berliner를 이용한 미생물 살충제의 개발을 위하여 연구를 행한바 다음과 같은 결과를 얻었다. (1) 제사공장에서 폐기되는 자견수의 냉동 건조물 중에는 조단백질 함량이 51.825%가 함유되어 있으며 기타 무기염류도 다량 함유되어 있어 자견수는 본 세균 배양의 좋은 영양원이 될 수 있다. (2) 현수성으로 보아 가장 양호한 제제는 F-5로서 그 조성은 Cell-Spore-Crystal 혼합을 0.2 g, 200-mesh Kaolin 25 g, New Kalgen NX-150, 2.59 그리고 glycerine 2.5 g을 증류수 8ml의 비율로 혼합하여 80 mesh 입제로 한 것이다. (3) F-5, F-6, 및 F-7의 조성중 다른 것은 전부 같고 다만 Cell-Spore-Crystal 혼합들의 함량이 F-5에서는 0.2 g, F-6에서는 0.4 g, F-7에서는 0.6 g인 점이 다르므로 이들 제제의 물리성은 거의 동일하다. (4) F-5, F-6 및 F-7은 5% 농도에서 무궁화잎 밤나방, 송충, 회양목 명나방 유충 등에 우수한 살충효과를 보였다. (5) 제제의 일 성분으로 $NaHCO_3$를 첨가한 F-8과 F-9는 무궁화잎 밤나방과 송충에 대한 독성 실험에서 $NaHCO_3$를 함유하지 않은 F-6 보다 현저한 독성의 감소를 보여주었다. (6) $(NH_4)_2SO_4$ 0.2%와 glucose 0.8%를 자견수에 용해하여 pH를 7.05로 조정한 배지인 M-3을 사용하여 aeration 시키면서 96시간 배양하였을때 포자수는 최고 $2.97{\times}10^9/ml$에 도달하였다. (7) F-6은 제제후 70일 동안 실온에서 저장시 무궁화잎 밤나방과 송충에 대한 독성이 약간 감소하는 경향이 있었으므로 냉암소에 저장함이 바람직하다. (8) F-6은 야외 살포로 대추나무의 노랑쐐기나방 회양목 명나방유충, 장미의 찔레수염 진딧물 등의 방제에 좋은 효과를 보였다.

• 한국응용곤충학회지
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• 제55권4호
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• pp.319-327
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• 2016

단감 해충의 효과적인 방제를 위하여, 현재까지 주로 화학 살충제가 사용되어 왔으나, 최근 화학 살충제의 과다 사용은 해충 저항성과 농약 잔류 문제라는 심각한 문제를 야기하고 있다. 본 연구에서는 친환경 유기농자재 (Eco-Friendly Organic Pesticides; EFOP)의 주요 단감 해충인 감꼭지나방과 톱다리개미허리노린재에 대한 살충 활성을 검토하였다. 현재 유통되고 있는 친환경 유기농자재 11 종을 실험실 조건에서 대상 해충에 분무 처리하였다. 대조 약제는 화학 살충제인 buprofezin+dinotefuran (20+15) 수화제를 사용하였다. 감꼭지나방에 대한 유기농자재의 살충 효과를 평가하는 과정에서, 감꼭지나방 유충의 개체수 부족 문제로 인하여 배추좀나방 유충을 1차 실험충으로 사용하였으며, 세 종류의 친환경 유기농자재를 사전 선발하였다. 선발된 친환경 유기농자재는 목초액 (EFOP-1), 회화나무, 양명아주, 멀구슬나무의 혼합추출물 (EFOP-2), Bacillus thuringiensis subsp. aizawai NT0423 (EFOP-11)이었으며, 선발된 유기농자재의 감꼭지나방 유충에 대한 살충력 실험 결과, EFOP-2의 처리구에서 생충율이 27.7% (5 일차), 13.3% (7 일차), 6.7% (10 일차)로 가장 높은 살충 효과를 보였다. 톱다리개미허리노린재에 대한 살충 효과 평가에서는 회화나무, 양명아주, 멀구슬나무의 혼합추출물 (EFOP-2, EFOP-9)과 고삼, 데리스의 혼합추출물 (EFOP-10)이 높은 살충 효과를 보였다. 특히 EFOP-2의 처리구에서 생충율이 20.0% (5 일차), 16.7% (10 일차)로 가장 높은 살충 효과를 보였다. 결론적으로, 친환경 유기농자재인 EFOP-2를 이용하여 단감의 주요 해충인 감꼭지나방과 톱다리개미허리노린재를 포함한 다양한 노린재 해충에 대한 방제가 가능할 것으로 판단된다.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2004년도 총회 및 춘계학술발표회
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• pp.3-4
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• 2004

Results will be presented from two field studies that evaluated the in-situ treatment of chlorinated aliphatic hydrocarbons (CAHs) using aerobic cometabolism. In the first study, a cometabolic air sparging (CAS) demonstration was conducted at McClellan Air Force Base (AFB), California, to treat chlorinated aliphatic hydrocarbons (CAHs) in groundwater using propane as the cometabolic substrate. A propane-biostimulated zone was sparged with a propane/air mixture and a control zone was sparged with air alone. Propane-utilizers were effectively stimulated in the saturated zone with repeated intermediate sparging of propane and air. Propane delivery, however, was not uniform, with propane mainly observed in down-gradient observation wells. Trichloroethene (TCE), cis-1, 2-dichloroethene (c-DCE), and dissolved oxygen (DO) concentration levels decreased in proportion with propane usage, with c-DCE decreasing more rapidly than TCE. The more rapid removal of c-DCE indicated biotransformation and not just physical removal by stripping. Propane utilization rates and rates of CAH removal slowed after three to four months of repeated propane additions, which coincided with tile depletion of nitrogen (as nitrate). Ammonia was then added to the propane/air mixture as a nitrogen source. After a six-month period between propane additions, rapid propane-utilization was observed. Nitrate was present due to groundwater flow into the treatment zone and/or by the oxidation of tile previously injected ammonia. In the propane-stimulated zone, c-DCE concentrations decreased below tile detection limit (1 $\mu$g/L), and TCE concentrations ranged from less than 5 $\mu$g/L to 30 $\mu$g/L, representing removals of 90 to 97%. In the air sparged control zone, TCE was removed at only two monitoring locations nearest the sparge-well, to concentrations of 15 $\mu$g/L and 60 $\mu$g/L. The responses indicate that stripping as well as biological treatment were responsible for the removal of contaminants in the biostimulated zone, with biostimulation enhancing removals to lower contaminant levels. As part of that study bacterial population shifts that occurred in the groundwater during CAS and air sparging control were evaluated by length heterogeneity polymerase chain reaction (LH-PCR) fragment analysis. The results showed that an organism(5) that had a fragment size of 385 base pairs (385 bp) was positively correlated with propane removal rates. The 385 bp fragment consisted of up to 83% of the total fragments in the analysis when propane removal rates peaked. A 16S rRNA clone library made from the bacteria sampled in propane sparged groundwater included clones of a TM7 division bacterium that had a 385bp LH-PCR fragment; no other bacterial species with this fragment size were detected. Both propane removal rates and the 385bp LH-PCR fragment decreased as nitrate levels in the groundwater decreased. In the second study the potential for bioaugmentation of a butane culture was evaluated in a series of field tests conducted at the Moffett Field Air Station in California. A butane-utilizing mixed culture that was effective in transforming 1, 1-dichloroethene (1, 1-DCE), 1, 1, 1-trichloroethane (1, 1, 1-TCA), and 1, 1-dichloroethane (1, 1-DCA) was added to the saturated zone at the test site. This mixture of contaminants was evaluated since they are often present as together as the result of 1, 1, 1-TCA contamination and the abiotic and biotic transformation of 1, 1, 1-TCA to 1, 1-DCE and 1, 1-DCA. Model simulations were performed prior to the initiation of the field study. The simulations were performed with a transport code that included processes for in-situ cometabolism, including microbial growth and decay, substrate and oxygen utilization, and the cometabolism of dual contaminants (1, 1-DCE and 1, 1, 1-TCA). Based on the results of detailed kinetic studies with the culture, cometabolic transformation kinetics were incorporated that butane mixed-inhibition on 1, 1-DCE and 1, 1, 1-TCA transformation, and competitive inhibition of 1, 1-DCE and 1, 1, 1-TCA on butane utilization. A transformation capacity term was also included in the model formation that results in cell loss due to contaminant transformation. Parameters for the model simulations were determined independently in kinetic studies with the butane-utilizing culture and through batch microcosm tests with groundwater and aquifer solids from the field test zone with the butane-utilizing culture added. In microcosm tests, the model simulated well the repetitive utilization of butane and cometabolism of 1.1, 1-TCA and 1, 1-DCE, as well as the transformation of 1, 1-DCE as it was repeatedly transformed at increased aqueous concentrations. Model simulations were then performed under the transport conditions of the field test to explore the effects of the bioaugmentation dose and the response of the system to tile biostimulation with alternating pulses of dissolved butane and oxygen in the presence of 1, 1-DCE (50 $\mu$g/L) and 1, 1, 1-TCA (250 $\mu$g/L). A uniform aquifer bioaugmentation dose of 0.5 mg/L of cells resulted in complete utilization of the butane 2-meters downgradient of the injection well within 200-hrs of bioaugmentation and butane addition. 1, 1-DCE was much more rapidly transformed than 1, 1, 1-TCA, and efficient 1, 1, 1-TCA removal occurred only after 1, 1-DCE and butane were decreased in concentration. The simulations demonstrated the strong inhibition of both 1, 1-DCE and butane on 1, 1, 1-TCA transformation, and the more rapid 1, 1-DCE transformation kinetics. Results of tile field demonstration indicated that bioaugmentation was successfully implemented; however it was difficult to maintain effective treatment for long periods of time (50 days or more). The demonstration showed that the bioaugmented experimental leg effectively transformed 1, 1-DCE and 1, 1-DCA, and was somewhat effective in transforming 1, 1, 1-TCA. The indigenous experimental leg treated in the same way as the bioaugmented leg was much less effective in treating the contaminant mixture. The best operating performance was achieved in the bioaugmented leg with about over 90%, 80%, 60 % removal for 1, 1-DCE, 1, 1-DCA, and 1, 1, 1-TCA, respectively. Molecular methods were used to track and enumerate the bioaugmented culture in the test zone. Real Time PCR analysis was used to on enumerate the bioaugmented culture. The results show higher numbers of the bioaugmented microorganisms were present in the treatment zone groundwater when the contaminants were being effective transformed. A decrease in these numbers was associated with a reduction in treatment performance. The results of the field tests indicated that although bioaugmentation can be successfully implemented, competition for the growth substrate (butane) by the indigenous microorganisms likely lead to the decrease in long-term performance.