최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기韓國資源植物學會誌 = Korean journal of plant resources, v.34 no.4, 2021년, pp.257 - 262
강헌일 (농촌진흥청 국립농업과학원 작물보호과) , 박병용 (농촌진흥청 국립농업과학원 작물보호과) , 박세근 (농촌진흥청 국립농업과학원 작물보호과) , 김은화 (농촌진흥청 국립농업과학원 작물보호과) , 박은형 (농촌진흥청 국립농업과학원 작물보호과) , 고형래 (농촌진흥청 국립농업과학원 작물보호과)
본 연구는 토양 내 콩씨스트선충(Heterodera glycines)의 초기 밀도에 따른 콩의 수량구성요소 및 수량에 미치는 영향을 규명하기 위하여 실시하였다. 재배포를 35개의 구역을 나누고 콩씨스트선충의 파종 전 토양 내 씨스트 밀도와 알 밀도를 조사하였으며, 수확기 콩의 초장, 협수, 립수, 백립중을 비교 분석하였다. 초기 씨스트의 밀도보다 씨스트 내 알의 밀도가 수량에 더욱 큰 영향을 미쳤으며, 초기 알 밀도가 높을수록협수와 수량이 초기 알 밀도가 높을수록 감소하는 경향을 보였고 토양 100 cm3 당 알의 밀도가 2,000개 이상일 때부터 수량이 20% 이상 급격하게 감소하였다. 본 연구결과를 통하여 콩 재배 시 콩씨스트선충에 의한 피해를 예측할 수 있으며, 국내 콩 재배지의 약 40%가 감염되어 있는 콩씨스트선충에 대한 저항성 품종 육성을 포함한 다양한 방제방법 연구가 필요하다.
This study was conducted to investigate the yield loss of soybean by initial density of Heterodera glycines in soil. A soybean cultivar named 'Cheongja5ho' was cultivated as test material in Dangjin city, Chungcheongnam-do, Korea. Each seed was planted with distance of 25 cm in 35 plots by initial d...
Allen, T.W., C.A. Bradley, A.J. Sisson, E. Byamukama, M.I. Chilvers, C.M. Coker, A.A. Collins, J.P. Damicone, A.E. Dorrance, N.S. Dufault, P.D. Esker, T.R. Faske, L.J. Giesler, A.P. Grybauskas, D.E. Hershman, C.A. Hollier, T. Isakeit, D.J. Jardine, H.M. Kelly, R.C. Kemerait, N.M. Kleczewski, S.R. Koenning, J.E. Kurle, D.K. Malvick, S.G. Markell, H.L. Mehl, D.S. Mueller, J.D. Mueller, R.P. Mulrooney, B.D. Nelson, M.A. Newman, L. Osborne, C. Overstreet, G.B. Padgett, P.M. Phipps, P.P. Price, E.J. Sikora, D.L. Smith, T.N. Spurlock, C.A. Tande, A.U. Tenuta, K.A. Wise and J.A. Wrather. 2017. Soybean yield loss estimates due to diseases in the United States and Ontario, Canada, from 2010 to 2014. Plant Health Prog. 18:19-27.
Asmus, G.L. and L.C.C.B. Ferraz. 2002. Effect of population densities of Heterodera glycines race 3 on leaf area, photosynthesis and yield of soybean. Fitopatol. Bras. 27:273-278.
Board, J.E., A.T. Wier and D.J. Boethel. 1995. Source strength influence on soybean yield formation during early and late reproductive development. Crop Sci. 35:1104-1110.
Choi, Y. and D. Choi. 1983. Survey on soybean parasitic nematodes. Korean J. Pl. Prot. 22:251-261 (in Korean).
Chun, J., M. Jin, N. Jeong, C. Cho, M. Seo, M. Choi, D. Kim, H. Sohn and Y. Kim. 2019. Genetic identification and phylogenic analysis of new varieties and 149 Korean cultivars using 27 InDel markers selected from dense variation blocks in soybean (Glycine max (L.) Merrill). Korean J. Plant Res. 32: 519-542 (in Korean).
Endo, B.Y. and J.N. Sasser. 1958. Soil fumigation experiments for the control of the soybean cyst nematode, Heterodera glycines. Phytopathology 48:571-574.
Han, S.C. and H.J. Cho. 1980. Influence of soybean cyst nematode on growth and yield of soybean. Korean J. Pl. Prot. 19: 31-34 (in Korean).
Ichinohe, M. 1959. Studies on the soybean cyst nematode, Heterodera glycines, and its injury to soybean plants in Japan. Plant Dis. Rep. Suppl. 260:239-248.
Iwahori, H., N. Kanzaki and K. Futai. 2000. A simple, polymerase chain reaction-restriction fragment length polymorphism-aided diagnosis method for pine wilt disease. Forest Pathol. 30:157-164.
Jiang, H. and D.B. Egli. 1995. Soybean seed number and crop growth rate during flowering. Agron. J. 87:264-267.
Johnston, J.G. and J.W. Pendleton. 1968. Contribution of leaves at different canopy levels to seed production of upright and lodged soybean. Crop Sci. 8:291-292.
Kang, B., J. Seo, H. Kim, H. Kim, Y. Lee and B. Lee. 2021. Lodging tolerance and high sprout yield with small seed soybean cultivar 'Haewon' for soy-sprout. Korean J. Breed. Sci. 53:53-59 (in Korean).
Kang, H., G. Eun, J. Ha, Y. Kim, N. Park, D. Kim and I. Choi. 2016. New cyst nematode, Heterodera sojae n. sp. (Nematoda: Heteroderidae) from soybean in Korea. J. Nematol. 48:280-289.
Kang, H., H. Ko, D. Kim and I. Choi. 2021. Occurrence of the white soybean cyst nematode, Heterodera sojae, and the soybean cyst nematode, H. glycines, in Korea. Plant Dis. 105: 31-33.
Kim, J., I. Shin, S. Park, M. Choi, J. Lee, B. Ha, J. Lee, Y. Kang, S. Jeong, J. Moon and S. Kang. 2021. Soybean cultivar 'Hipro' for tofu and soymilk with high seed protein content and pod shattering resistance. Korean J. Breed. Sci. 53:60-68 (in Korean).
Lauritis, J.A., R.V. Rebois and L.S. Graney. 1983. Development of Heterodera glycines Ichinohe on soybean, Glycine max (L.) Merr., under gnotobiotic conditions. J. Nematol. 15: 272-280.
Lee, G.A., G.W. Crawford, L. Liu, Y. Sasaki and X. Chen. 2011. Archaeological soybean (Glycine max) in East Asia: does size matter? PLoS ONE 6:e26720.
Niblack, T.L. 2005. Soybean cyst nematode management reconsidered. Plant Dis. 89:1020-1026.
Noel, G.R. 1992. History, Distribution, and Economics: In Riggs, R.D. and J.A. Wrather (eds.), Biology and Management of the Soybean Cyst Nematode, APS Press, St. Paul, MN (USA). pp. 1-13.
Park, E. and S. Lim. 1986. Effects of bacterial blight on soybean yield. Plant Dis. 70:214-217.
Rural Development Administration (RDA). 2002. Standard for investigation of agricultural experiment. Suwon, Korea. p. 87.
Wright, A.J.D., D.L. Sparkes, M. Stevens and M.A. Back. 2019. Hatching dynamics of the beet cyst nematode, Heterodera schachii, following exposure to root leachates from cultivars of sugar beet, white mustard and radish. Nematology 21:813-825.
Young, L.D. 1992. Epiphytology and life cycle: In Riggs, R.D. and J.A. Wrather (eds.), Biology and Management of the Soybean Cyst Nematode, APS Press, St. Paul, MN (USA). pp. 27-36.
Young, L.D. 1996. Yield loss in soybean caused by Heterodera glycines. Suppl. J. Nematol. 28:604-607.
Zheng, L. and H. Ferris. 1991. Four types of dormancy exhibited by eggs of Heterodera schachtii. Rev. Nematol. 14:419-426.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.