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Isoda Laboratory |
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| Main published papers |
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Dry matter production and characteristics of radiation interception in crops |
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An analysis of light intercepting characteristics in rice by using simple integrated solarimeter. 1990. Isoda, A., Y. Nakamura, T. Yoshimura, T. Ishikawa, H. Nojima and Y. Takasaki, Tech. Bull. Fac. Hort. Chiba Univ., 43: 39-43. |
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| Radiation interception in field grown soybeans measured by integrated solarimeter films. 1991. Isoda, A., T. Yoshimura, T.Ishikawa, H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 63:298-304. |
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| Plant type and dry matter production in peanut (Arachis hypogaea L.) cultivars. 1. Varietal differences in dry matter production. 1994. Aboagye, L.M., A. Isoda, H. Nojima, Y. Takasaki, T. Yoshimura and T. Ishikawa, Jpn. J. Crop Sci., 63:289-29 |
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| Plant type and dry matter production in Peanut (Arachis hypogaea L.). cultivars. 2. Varietal differences in radiation interception among some genotypes. 1995. Aboagye, L.M., A. Isoda, H. Nojima, Y. Takasaki, T. Yoshimura and T. Ishikawa, Jpn. J. Crop Sci., 64:73-77. |
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| Application of integrated solarimeter films for measuring radiation interception in crop communities. 1995. Isoda, A., T. Yoshimura, T. Ishikawa, H. Nojima and Y. Takasaki, The 2nd Asian Crop Science Conf., 686-687 |
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| Growth pattern and radiation interception of indeterminate early soybean cultivars under high planting population. 1996. Isoda, A., H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 65:599-604. |
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| Effects of paclobutorazol on dry matter distribution and canopy structure in peanut. 1999. Isoda, A. H. Nakazato, H. Nojima and Y. Takasaki, Tech. Bull. Fac. Hort. Chiba Univ., 53:1-6. |
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| Effects of paclobutrazol on dry matter distribution and yield in peanut. 2003. Senoo, S. and A. Isoda, Plant Prod. Sci., 6:90-94. |
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| Effects of paclobutrazol on podding and photosynthetic characteristics in peanut. 2003. Senoo, S. and A. Isoda, Plant Prod. Sci., 6:190-194. |
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| Dry matter production of Japanese and Chinese high-yielding cultivars in peanut under high planting population in terms of intercepted radiation and its use efficiency. 2008. Cao, T. and A. Isoda , Jpn. J. Crop Sci., 77: 41-47. |
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| Characteristics of radiation interception and photosynthesis of Japanese and Chinese high-yielding cultivars in peanut under high planting population. 2008. Cao, T. and A. Isoda , Jpn. J. Crop Sci., 77: 48-53. |
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| Effect of ƒÁFe2O3 nonoparticles on photosynthetic characteristic of soybean (Glycine max (L.) Merr.): foliar spray versus soil amendment. 2013. Alidoust, D. and A. Isoda, Acta Physiologiae Plantarum 35: 3365-3375. |
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| Phytotoxicity assessment of ƒÁ-Fe2O3 nanoparticles on root elongation and growth of rice plant. Alidoust, D. and A. Isoda Environmental Earth Science (in press). |
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Physiological characteristics and dry matter production in crops under water deficit conditions |
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Growth and adaptation of soybean cultivars under water stress conditions. 1. Leaf movement and leaf temperature. 1993. Wang, P., A. Isoda and G. Wei, Jpn. J. Crop Sci., 62:401-407. |
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| Growth and adaptation of soybean cultivars under water stress conditions. 2. Effects of leaf movement on radiation interception. 1994. Wang, P., A. Isoda, G. Wei, T. Yoshimura and T. Ishikawa, Jpn. J. Crop Sci., 63:699-705. |
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| Growth and adaptation of soybean cultivars under water stress conditions. 3. Yield response and dry matter production. 1995. Wang, P., A. Isoda and G. Wei, Jpn. J. Crop Sci., 64:777-783. |
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| Effects of leaf movement on leaf temperature, transpiration and radiation interception in soybean under water stress conditions. 2001. Isoda, A. and P. Wang, Tech. Bull. Fac. Hort. Chiba Univ., 55:1-9. |
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| Leaf temperature and transpiration of field grown cotton and soybean under arid and humid conditions. 2002. Isoda, A. and P. Wang, Plant Prod. Sci., 5: 224-228. |
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| Growth and yield performance of some cotton cultivars in Xinjiang, China, an arid area with short growing period. 2004. Wang, C., A. Isoda and P. Wang, J. Agron. Crop Sci., 190: 177-183. |
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| Transpiration and leaf movement in field grown cottons under arid conditions. 2004. Wang, C., A. Isoda, Z. Li and P. Wang, Plant Prod. Sci., 7:266-270. |
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| Adaptive changes in soybean and cotton to water stress I. Transpiration changes in relation to stomatal area and stomatal conductance.2005. Inamullah and A. Isoda, Plant Prod. Sci., 8: 16-26. |
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| Adaptive changes in soybean and cotton to water stress II. Changes in CO2 assimilation rate, chlorophyll fluorescence and photochemical reflectance index relation to leaf temperature. 2005. Inamullah and A. Isoda, Plant Prod. Sci., 8: 131-138. |
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| High Yielding Performance of Soybean in Northern Xinjiang, China. 2006. Isoda, A., M. Mori, S. Matsumoto, Z. Li and P. Wang, Plant Prod. Sci., 9: 401-407. |
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| Canopy structure and radiation interception of cotton grown under high density condition in northern Xinjiang. 2006. Wang, C., A. Isoda, D. Wang, M. Li, M. Ruan and Y. Su, Cotton Sci., 18: 223-227. |
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| Effects of different irrigation methods on yield and water use efficiency of sugar beet in the arid area of China. 2007. Isoda, A., H. Konishi, P. Wang and Z. Li, HortResearch 61: 7-10. |
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| Effects of soil water deficiency on seed germinability and vigour during seed maturation in peanut. 2007. Shinohara, T. and A. Isoda, J. ISSAAS 13: 26-32. |
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| Growth and ecophysiological performance of cotton under water stress conditions. 2007. Wang, C., A. Isoda, M. Li and D. Wang, Agricultural Sciences in China 6:949-955. |
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| Growth of High-Yielding Soybeans and its Relation to Air Temperature in Xinjiang, China. 2010. Isoda, A., H. Mao, Z. Li and P. Wang, Plant Production Science 13: 209-217. |
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| Effects of water stress on leaf temperature and chlorophyll fluorescence parameters in cotton and peanut. 2010. Shahenshah and A. Isoda, Plant Production Science 13: 269-278. |
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| Assessment of photochemical reflectance index as a tool for evaluation of chlorophyll fluorescence parameters in cotton and peanut cultivars under water stress condition. 2010. Shahenshah and A. Isoda, Agricultural Sciences in China 9: 662-670. |
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| Soybean cultivation in desert sand using drip irrigation with mulch. 2012. Miyauchi, Y., A. Isoda, Z. Li and P. Wang, Plant Production Science 15: 310-316.. |
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| Effects of foliar application of humic substance on growth and yield of soybean in arid areas of Xinjiang, China. 2012. Miyauchi, Y., A. Iosda, Z. Li and P. Wang, Jpn J. Crop Sci., 81: 259-266. |
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Leaf movement in leguminous crops |
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Effects of leaf movement on radiation interception in field grown leguminous crops 1. Peanut (Arachis hypogaea L.). 1992. Isoda, A., T. Yoshimura, T. Ishikawa, H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 62:300-305. |
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| Effects of leaf movement on radiation interception in field grown leguminous crops 2. Soybean (Glycin max Merr.). 1992. Isoda, A., T. Yoshimura, T. Ishikawa, P. Wang, H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 62:306-312. |
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| Effects of leaf movement on radiation interception in field grown leguminous crops 3. Relation to leaf temperature and transpiration among soybean cultivars. 1994. Isoda, A., T. Yoshimura, T. Ishikawa, H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 63:657-663. |
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| Effects of leaf movement on radiation interception in field grown leguminous crops 4. Relation to leaf temperature and transpiration among peanut cultivars. 1996. Isoda, A., L. M. Aboagye, H. Nojima and Y. Takasaki, Jpn. J. Crop Sci., 65:702-708. |
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| Effects of leaf movement on dry matter production and photoinhibition in field grown soybean. 2003. Isoda A. and T. Tomagae, Tech. Bull. Fac. Hort. Chiba Univ., 57: 1-5. |
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Improvement of yields in potato using related species |
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Some characteristics of two Andigena (S. tuberosum ssp. andigena) strains in terms of dry matter production and canopy structure.1984. Isoda, A., K. Nakaseko and K. Gotoh, Jpn. J. Crop Sci., 53: 416-422. |
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| Effects of planting density on growth of the Andigena strain (S. tuberosum ssp. andigena). 1985. Isoda, A., K. Nakaseko and K. Gotoh, Jpn. J. Crop Sci., 54: 311-317. |
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| Performances of hybrid populations between Andigena and Tuberosum in potato. 1985. Isoda, A., K. Nakaseko, K. Gotoh, K. Iwama and S. Nishibe, Jpn. J. Crop Sci., 54: 387-392. |
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| Productivity of some hybrid strains between Andigena and Tuberosum in potato. 1987. Isoda, A., K. Nakaseko, K. Gotoh and S. Nishibe, Jpn. J. Crop Sci., 56: 379-386. |
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| Production potential of two high-yielding hybrid strains between ssp. andigena x ssp. tuberosum in potato (Solanum tuberosum L.). 1988. Isoda, A., K. Nakaseko and K. Gotoh, Jpn. J. Crop Sci., 57: 790-791. |
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Phone : +81-47-308-8814 |
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| Graduate School of Horticulture, Chiba University |
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| E-mail : isoda@ |
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Akihiro Isoda |
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| Please attach 'faculty.chiba-u.jp' after '@' |
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