Gangwon Agricultural Research & Extension Services1
Keyword: Antibiotics. Chicken manure compost. Lettuce. Shell meal fertilizer. Zeolite.
1. Aga, D.S., R. Goldfish, and R. Kulshrestha. 2003. Application of ELISA in determining the fate of tetracyclines in land-applied livestock wastes. Analyst. 128:658-662.
2. Ahmed, M.B.M., A.U. Rajapaksha, J.E. Lim, N.T. Vu, I.S. Kim, H.M. Kang, S.S. Lee, and Y.S. Ok. 2015. Distribution and accumulative pattern of tetracyclines and sulfonamides in edible vegetables of cucumber, tomato, and lettuce. J. Agric. Food Chem. 63:398-405.
3. Animal and Plant Quarantine Agency (APQA). 2013. Consumption of veterinary antibiotics in Korea. http://www. qia.go.kr/viewwebQiaCom.do?id=34070&type=6_18_1bdsm
4. Awad, Y.M., S.C. Kim, S.A.M. Abd El-Azeem, K.H. Kim, K.R. Kim, K.J. Kim, C. Jeon, S.S. Lee, and Y.S. Ok, 2014. Veterinary antibiotics contamination in water, sediment, and soil near a swine manure composting facility. Environ. Earth Sci. 71:1433-1440.
5. Azanu, D., C. Mortey, G. Darko, J.J. Weisser, B. Styrishave, and R.C. Abaidoo. 2016. Uptake of antibiotics from irrigation water by plants. Chemosphere. 157:107-114.
6. Boxall, A.B.A., P. Johnson, E.J. Smith, C.J. Sinclair, E. Stutt, and L.S. Levy. 2006. Uptake of veterinary medicines from soils into plants. J. Agri. Food Chem. 54:2288-2297.
7. Boxall, A.B.A., P.A. Blackwell, R. Cavallo, P. Kay, and J. Tolls. 2002. The sorption and transport of a sulphonamide antibiotic in soil systems. Toxicol. Lett. 131:19-28.
8. Christou, A., P. Karaolia, E. Hapeshi, C. Michael, and D. Fatta-Kassinos. 2017. Long-term wastewater irrigation of vegetables in real agricultural systems: Concentration of pharmaceuticals in soil, uptake and bioaccumulation in tomato fruits and human health risk assessment. Water Res. 109:24-34.
9. Dolliver, H., K. Kumar, and S. Gupta. 2007. Sulfamethazine uptake by plants from manure-amended soil. J. Environ. Qual. 36:1224-1230.
10. Grote, M., C. Schwake-Anduschus, R. Michel, H. Stevens, W. Heyser, G. Langenkamper, and M. Freitag. 2007. Incorporation of veterinary antibiotics into crops from manured soil. Landbauforsch. Volk. 57:25-32.
11. Jjemba, P.K. 2002. The potential impact of veterinary and human therapeutic agents in manure and biosolids on plants grown on arable land: a review. Agric. Ecosyst. Environ. 92:267-278.
12. Kumar, K., S.C. Gupta, S.K. Baidoo, Y. Chander, and C.J. Rosen. 2005. Antibiotic uptake by plants from soil fertilized with animal manure. J. Environ. Qual. 34:2082-2085.
13. Lee, S.S., S.C. Kim, J.E. Yang, and Y.S. Ok. 2010. Seasonal monitoring of residual antibiotics in soil, water, and sediment adjacent to a cattle manure composting facility. Korean J. Soil Sci. Fert. 43:612-618.
14. Ok, Y.S., S.C. Kim, K.R. Kim, S.S. Lee, D.H. Moon, K.J. Lim, J.K. Sung, S.O. Hur, and J.E. Yang. 2011. Monitoring of selected veterinary antibiotics in environmental compartments near a composting facility in Gangwon Province, Korea. Environ. Monit. Assess. 174:693-701.
15. Park, S.B., S.J. Kim, and S.C. Kim. 2016. Evaluating plant uptake of veterinary antibiotics with hydroponic method. Korean J. Soil Sci. Fert. 49:242-250.
16. Seo, Y.H., B.O. Cho, A.S. Kang, B.C. Jeong, and Y.S. Jung. 2010. Antibiotic uptake by plants from soil applied with antibiotic-treated animal manure. Korean J. Soil Sci. Fert. 43:466-470.
17. Seo, Y.H., J.K. Choi, S.K. Kim, H.K. Min, and Y.S. Jung. 2007. Prioritizing environmental risks of veterinary antibiotics based on the use and the potential to reach environment. Korean J. Soil Sci. Fert. 40:43-50.
18. Vaclavik, E., B. Halling-Sorensen, and F. Ingerslev. 2004. Evaluation of manometric respiration tests to assess the effects of veterinary antibiotics in soil. Chemosphere. 56:667-676.