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Effect of Heterodera glycines and soil chemical and biological cultivation factors on the yield of green soybean grown in a glasshouse in Japan

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Yellowing symptoms sometimes cause yield losses in green soybean cultivation. The objective of this study was to estimate the yield loss factors in a glasshouse. The parameters evaluated were plant-parasitic nematodes (Heterodera glycines, Pratylenchus penetrans, Meloidogyne spp.) and soil chemical properties. While the density of H. glycines did not show a negative correlation with yield in the February planting date, it showed a strongly negative correlation in the March planting date. Multiple regression analysis showed that yield was significantly correlated with P. penetrans and nitrate in the February planting, and with H. glycines and K in the March planting. The present study revealed that yield loss was caused by P. penetrans and nitrate in seasons with unsuitable temperatures for H. glycines hatch, and by H. glycines and alleviated by K in seasons with optimum temperatures for H. glycines hatching.

Affiliations: 1: 1Graduate School of Bio-Applications and Systems Engineering, Tokyo University of Agriculture and Technology, 2-24-16, Naka-cho, Koganei, Tokyo 184-8588, Japan ; 2: 2Environmental Control Center Co. Ltd., 3-7-23, Sanda-machi, Hachioji, Tokyo 193-0832, Japan ; 3: 3Graduate School of Engineering, Tokyo University of Agriculture and Technology, 2-24-16, Naka-cho, Koganei, Tokyo 184-8588, Japan

*Corresponding author, e-mail:

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1. Avendano F., Pierce F.J., Melakeberhan H. (2004). "Spatial analysis of soybean yield in relation to soil texture, soil fertility and soybean cyst nematode". Nematology Vol 6, 527-545. [Crossref]
2. Chen S.Y., Porter P.M., Orf J.H., Reese C.D., Stienstra W.C., Young N.D., Walgenbach D.D., Schaus P.J., Arlt T.J., Breitenbach F.R. (2001). "Soybean cyst nematode population development and associated soybean yields of resistant and susceptible cultivars in Minnesota". Plant Disease Vol 85, 760-766. [Crossref]
3. Francl L.J., Dropkin V.H. (1986). "Heterodera glycines population dynamics and relation of initial population to soybean yield". Plant Disease Vol 70, 791-795. [Crossref]
4. Goto K., Sato E., Toyota K. (2009). "A novel detection method for the soybean cyst nematode Heterodera glycines using soil compaction and real-time PCR". Nematological Research Vol 39, 1-7. [Crossref]
5. Hill N.S., Schmitt D.P. (1989). "Influence of temperature and soybean phenology on dormancy induction of Heterodera glycines". Journal of Nematology Vol 21, 361-369.
6. Imsande J., Schmidt J.M. (1998). "Effect of N source during soybean pod filling on nitrogen and sulfur assimilation and remobilization". Plant and Soil Vol 202, 41-47. [Crossref]
7. Ito D., Toyota K., Sedrati G.M. (2015). "Suppression of the soybean cyst nematode, Heterodera glycines, using water extract of bean sprout residue". Nematology Vol 17, 523-530. [Crossref]
8. Kinloch R.A. (1982). "The relationship between soil populations of Meloidogyne incognita and yield reduction of soybean in the coastal plain". Journal of Nematology Vol 14, 162-167.
9. Kushida A., Tsuji M., Itou N. (2010). "Relationship between population density of soybean cyst nematode and yields of susceptible soybean cultivar “Kitamusume”". Annual Report of the Society of Plant Protection of North Japan Vol 61, 150-153.
10. Madani M., Subbotin S.A., Moens M. (2005). "Quantitative detection of the potato cyst nematode, Globodera pallida, and the beet cyst nematode, Heterodera schachtii, using real-time PCR with SYBR green I dye". Molecular and Cellular Probes Vol 19, 81-86. [Crossref]
11. Melkeberhan H., Dey J., Baligar V.C., Carter T.E. Jr (2004). "Effect of soil pH on the pathogenesis of Heterodera glycines and Meloidogyne incognita on Glycine max genotype". Nematology Vol 6, 585-592. [Crossref]
12. Min Y.Y., Toyota K., Goto K., Sato E., Mizuguchi S., Abe N., Nakano A., Sawada E. (2011). "Development of a direct quantitative detection method for Meloidogyne incognita in sandy soils and its application to sweet potato cultivated fields in Tokushima prefecture, Japan". Nematology Vol 13, 95-102. [Crossref]
13. Min Y.Y., Toyota K., Sato E. (2012). "A novel nematode diagnostic method using the direct quantification of major plant-parasitic nematodes in soil by real-time PCR". Nematology Vol 14, 265-276. [Crossref]
14. Oikawa K., Sakuyama K., Akasaka Y., Kamiyama Y. (1991). "Prediction of nematode-damage of green soybean variation in population density of Heterodera glycines I. Under crop rotation". Crop Science Society of Japan Vol 34, 7-9.
15. Pudasaini M.P., Viaene N., Moens M. (2008). "Hatching of the root-lesion nematode, Pratylenchus penetrans, under the influence of temperature and host". Nematology Vol 10, 47-54. [Crossref]
16. Riggs R.D., Wrather J.A., Mauromoustakos A., Rakes L. (2000). "Planting date and soybean cultivar maturity group affect population dynamics of Heterodera glycines, and all affect yield of soybean". Journal of Nematology Vol 32, 334-342.
17. Rogovska N.P., Blackmer A.M., Mallarino A.P. (2007). "Relationships between soybean yield, soil pH, and soil carbonate concentration". Soil Science of America Journal Vol 71, 1251-1256. [Crossref]
18. Ross J.P. (1969). "Effect of Heterodera glycines on yields of nonnodulating soybean grown at various nitrogen levels". Journal of Nematology Vol 1, 40-42.
19. Saito K. (1985). "The relation between density of the soybean cyst nematode and the growth and yield of soybeans". Proceedings of the Kanto-Tosan Plant Protection Society Vol 32, 227-228.
20. Sato E., Min Y.Y., Shirakashi T., Wada S., Toyota K. (2007). "Detection of the root-lesion nematode, Pratylenchus penetrans, from a nematode community using real-time PCR". Nematological Research Vol 37, 87-92. [Crossref]
21. Sato E., Goto K., Min Y.Y., Toyota K., Suzuki C. (2010). "Quantitative detection of Pratylenchus penetrans from soil by using soil compaction and real-time PCR". Nematological Research Vol 40, 1-6. [Crossref]
22. Sato E., Suga Y., Kisaki C., Toyota K., Miyake K., Takada A., Takeuchi K., Matsuura R. (2011). "Quantification of Pratylenchus penetrans in radish fields using a combination method of soil compaction and real-time PCR to determine the economic threshold". Soil Science and Plant Nutrition Vol 57, 213-220. [Crossref]
23. Schmitt D.P., Barker K.R. (1981). "Damage and reproductive potentials of Pratylenchus brachyurus and P. penetrans on soybean". Journal of Nematology Vol 13, 327-332.
24. Schomaker C.H., Been T.H. (2013). "Plant growth and population dynamics". In: Perry R.N., Moens M. (Eds). Plant nematology. Wallingford, UK, CAB International, pp.  301-330. [Crossref]
25. Sipes B.S., Schmitt D.P., Barker K.R. (1992). "Fertility of three parasitic biotypes of Heterodera glycines". American Phytopathological Society Vol 82, 999-1001. [Crossref]
26. Truog E. (1930). "The determination of readily available phosphorus of soil". Journal of the American Society of Agronomy Vol 22, 874-882. [Crossref]
27. Villamil M.B., Nafziger E.D. (2012). "Estimating factor contributions to soybean yield from farm field data". Agronomy Journal Vol 104, 881-887. [Crossref]
28. Watanabe T., Masumura H., Kioka Y., Noguchi K., Min Y.Y., Murakami R., Toyota K. (2013). "Development of a direct quantitative detection method for Meloidogyne incognita and M. hapla in andosol and analysis of relationship between the initial population of Meloidogyne spp. and yield of eggplant". Nematological Research Vol 43, 21-30. [Crossref]

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