• Evaluation of Denitrification Efficiency and Functional Gene Change According to Carbon(Fumarate) Concentration and Addition of Nitrate Contaminated-soil in Batch System
  • Park, Sunhwa;Kim, Hyun-Koo;Kim, Moon-su;Lee, Gyeong-Mi;Jeon, Sang-Ho;Song, Dahee;Kim, Deok-hyun;Kim, Young;Kim, Tae-seung;
  • National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;Korea University;National Institute of Environmental Research;
  • 회분식반응조 실험을 통한 탄소원(Fumarate) 주입조건에 따른 지하수 중 탈질율 및 탈질 관련 기능성 유전자 분석
  • 박선화;김현구;김문수;이경미;전상호;송다희;김덕현;김영;김태승;
  • 국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;고려대학교 대학원 환경공학과;국립환경과학원;
Abstract
Nitrate is on the most seriou pollutant encountered in shallow groundwater aquifer in agricultural area. There are various remediation technologies such as ion exchange, reverse osmosis, and biological denitrification to recover from nitrate contamination. Biological denitrification by indigenous microorganism of the technologies has been reviewed and applied on nitrate contaminated groundwater. In this work, we selected the site where the annual nitrate (NO3) concentration is over 105 mg/L and evaluated denitrification process with sampled soil and groundwater from 3 monitoring wells (MW4, 5, 6). In the results, the nitrate degradation rate in each well (MW 4, 5, and 6) was 25 NO3 mg/L/day, 6 NO3 mg/L/day, and 3.4 NO3 mg/L/day, respectively. Nitrate degradation rate was higher in batch system treated with 2 times higher fumarate as carbon source than control batch system (0.42M fumrate/1M NO3), comparing with batch system with soil sample. This result indicates that increase of carbon source is more efficient to enhance denitrification rate than addition of soil sample to increase microbial dynamics. In this work, we also confirmed that monitoring method of functional genes (nirK and nosZ) involved in denitrification process can be applied to evaluated denitrifcation process possibility before application of field process such as in-situ denitrification by push-pull test.

Keywords: Nitrate;Denitrification;Fumarate;Functional genes (nirK;nosZ);

This Article

  • 2015; 20(7): 80-89

    Published on Dec 31, 2015

  • 10.7857/JSGE.2015.20.7.080
  • Received on Sep 3, 2015
  • Revised on Oct 12, 2015
  • Accepted on Nov 24, 2015

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