References
- Ashton, F.M. and A.S. Crafts (1981) Mode of action of herbicides. 2nd Ed. J. Wiley & Sons, New York. p.34
- Bradford, M.M. (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem. 72:248-53
- Brown, A.W.A. (1978) Ecology of pesticides. J. Wiley and Sons, New York. p.325
- Chun, J.C. and S.Y. Ma (1996) Herbicidal property and soil behaviour of a new herbicide azimsulfuron. Korean J. Environ. Agric., 15(4):501-505
- Corbin, F.T., R.P. Upchurch and F.L. Selman (1971) Influence of pH on the phytotoxicity of herbicides in soil. Weed Sci. 19:233-239
- Derting, C.W. (1987) Wiper application. In 'Methods of Applying Herbicides' C.G. McWhorter and M.R. Gebhardt(eds). Weed Sci. Soc. of America Monograph No. 4. Champaign. IL.
- Dubach, P. (1971) Dynamics of herbicides in the soil. CIBA-GEIGY, Ltd., Basle, Switzerland. p.20
- Duke S.O., J. Lydon, J.M. Becerril, T.D. Sherman, L.P. Lehnen and H. Matsumoto (1991) Protoporphyrinogen oxidase-inhibiting herbicides, Weed Sci. 39:465-70
- Gerber H.R., P. Ziegler and P. Dubach (1970) Leaching as a tool in the evaluation of herbicide. Proc. 10th Br. Weed Conf. 118
- Goring, C.A.I. and J.W. Hamaker (eds) (1972) Organic chemicals in the soil environment. Vol. I and II. M. Dekker, Inc., New York
- Hamaker, J.W. (1976) Mathematical prediction of cumulative levels of pesticides in soil. pp.122-131. In 'Organic pesticides in the environment.' R.F. Gould (ed). Adv. in Chem. Series 60. Amer. Chem. Soc., Washington, D.C.
- Hance, R.J., (ed) (1980) Interactions between herbicides and soil. Academic Press, New York. p.349
- Hartley, B.S. and I.J. Graham-Bryce (1980) Physical principles of pesticide behavior. Vol. 2. Appendix 5. Academic Press, New York. p.93
- Hay, J. V. (1999) Herbicide discovery in the 21st century - a look into the crystal ball. Special Publication - Royal Society of Chemistry, 233(Pesticide Chemistry and Bioscience):55-65
- Henrie, R. N., M. J. Plummer, S. E. Smith, W. H. Yeager and D. A. Witkowski (1993) Discovery and optimization of a PSI electron-accepting 1,2,4-benzotriazine herbicide. Quantitative Structure-Activity Relationships, 12(1):27-37 https://doi.org/10.1002/qsar.19930120105
- Hirai, K., A Uchida and R. Ohno (2002) Major synthetic routes for modern herbicide classes and agrochemical characteristics. pp.255-278, In Herbicide classes in development (ed. Boger, P. and Wakanayashi, K.), Springer, Berlin
- Hwang, I.T., Y.K. Ko, T.J. Kim, D-W. Kim and K.Y. Cho (2000) Structure-Activity Relationships of Acetolactate Synthase Inhibition among New Benzene sulfuonylureas in Rice(Oryza sativa) and Barnyardgrass (Echinochloa crus-galli var. oryzicola). Pesticide Biochemistry and Physiology 68:166-172 https://doi.org/10.1006/pest.2000.2503
- Kearney, P.C. and D.D Kaufman (1988) Herbicides. Chemistry, degradation, and mode of action. 403p. Marcel Dekker, Inc. New York
- Kudsk, P. and J.C. Streibig (2003) Herbicides - a two-edged sword. Weed Research, 43(2):90-102 https://doi.org/10.1046/j.1365-3180.2003.00328.x
- Lyga J.W., R.M. Patera, G. Theodoridis, B.P. Halling, F.W. Hotzman and M.J. Plummer (1991) Synthesis and quantitative structure-activity relationships of herbicidal N-(2-fluro-5-methoxyphenyl)-3,4,5,6-tetrahydrophthalimi des, J. Agric Food Chem. 39:1667-1673
- McKinlay, K.S., S.A. Brandt, P. Morse and R. Ashford (1972) Droplet size and phytotoxicity of herbicides. Weed Sci. 20:450-452
- Ryu, E.K., D.J. Jeon, J.H. Song, H.R. Kim, J.N. Lee, K.M. Kim and K.Y. Cho (2001) Herbicidal 2-(5-Isoxazolinemethoxyphenyl)-4,5,6,7-tetrahydro-2H-Indazole and Their Related Derivatives, Korean Pat. 0289470
- Tamaru, M. and Y. Kimura (1998) Synthetic approach for discovery and development of novel rice herbicide, pyriminobac-methyl. Yuki Gosei Kagaku Kyokaishi, 56(10):863-870 https://doi.org/10.5059/yukigoseikyokaishi.56.863
- Troyer, J. R. (2001) In the beginning: the multiple discoveries of the first hormone herbicides. Weed Science 49(2):290-297 https://doi.org/10.1614/0043-1745(2001)049[0290:ITBTMD]2.0.CO;2
- Walker, A., S.J. Welch, A. Melacini and Y.H. Moon (1996) Evaluation of three pesticide leaching models with experimental data for alachlor, atrazine, and metribuzin. Weed Res. 36:37-47
- Weller, S.C., F.D. Hess, J.R. Abernathy, A.P. Appleby, G.F. Warren, J.H. Dawson, R. Liebl, J.L. Ahlrichs, T.N. Jordan, G.E, Van Scoyoc, G.E. Ruhl, D.I. Leap, H.A. Holt, C.S. Throssell, D.C. Thill, D.R. Griffith and P.A. Banks (1993) Herbicide Action. p.621. Purdue University, West Lafayette, Indiana
- Yogo, Y. (2000) Challenge to discovery of novel action site of herbicides. Nippon Noyaku Gakkaishi, 25(3):276-280
- 강태구, 변종영 (1995) 벼와 잡초에서 온도조건에 따른 Bensulfuron의 흡수, 이행 및 대사. 한국잡초학회지, 15(4):321-328
- 권용웅, 조광연, 소창호, 이강휘. 조용섭 (1986) 제초제 연구동향과 신규 제초제 개발전망. 한국잡초학회지 6(1):138-148
- 김길웅 (1992) 제초제 약해발생 양상과 경감대책. 한국잡초학회지 12(3):261-270
- 마상용, 전재철 (1997) Fenoxaprop-ethyl의 초종별 제초활성 변이를 유발하는 생리적 요인. 한국농약과학회지 1:52-60
- 문영희, 김영석 (1998) 토양중 제초제 Naproparnide의착 및 분해특성. 한국잡초학회지, 18(3):257-261
- 박영선, 오병열 (1988) 농약의 안전성과 합리적인 사용법. 식물보호와 조절 3:3-27
- 심상인, 정우식, 이상옥, 강병화 (2000) 수종 토양처리제초제의 처리량과 약효간의 관계. 한국잡초학회지 20(1):9-16
- 양환승, 문영희, 최연철, 최은석 (1990) Dithiopyr (MON7200)의 제초작용 특성에 관한 연구. 3. 토양 중에 있어서 Dithiopyr의 이동과 잔효. 한국잡초학회지 10(1):37-40
- 이재구 (1974) 모조환경조건하에서 치환 diphenyl ether제초제의 광분해에 관한 연구. 한국농화학회지, 17(3):149-125
- 이희재, 황인택, 조광연 (1996) 제초제와 식물생리, 번역서, (주)서울외국서적 p.217
- 임일빈, 臼井健二, 조수연 (1998) 직파 벼의 제초제 약해 요인과 회복연구. 3. 비료 3요소에 따른 약해발생특성. 한국잡초학회지 18(1):12-19
- 임선욱 (1977) 토양 중에서 농약의 동태에 관한 연구. 한국농화학회지, 20(3): 310-315
- 전동주, 박관용, 김영미, 김형래, 송종환, 황인택, 유응걸 (2001) 새로운 2-(5-Propargyloxyphenyl)-4,5,6,7-tetrahydro-2H-indazole의 합성과 제초활성. 한국농약과학회지 5(4):68-71
- 한수곤, 안병구, 문영희 (1998) 토양 중 fenoxaprop P-ethyl의 홉착성 및 이동성. 한국잡초학회지 18(4):325-332
- 황인택, 구석진, 홍경식, 조광연 (1990) 제초제의 토양중 수직이동성 검정. 한국잡초학회지, 10(1):30-36
- 황인택, 문영희, 한성수, 전재철 (2001) 제초제와 환경. 한국잡초학회지 21(2):146-166
- 황인택, 최정섭, 홍경식, 유주현, 김진석, 조광연 (1998) Benzenesulfonylurea계 화합물 KSC-13906의 약해발생요인 및 경감방법. 한국잡초학회지 18(3):225-236