山内 章
1.原著論文
1.Tanaka, S., A. Yamauchi and Y. Kono. 1995. Easily accessible method for root length measurement using an image analysis system. Japanese Journal of Crop Science. 64:144-147.  2.Tanaka, S., A. Yamauchi and Y. Kono. 1995. Root system morphology of four rice cultivars: response of different component roots to nitrogen application. Japanese Journal of Crop Science. 64:148-155. 3.Izumi, Y., Kono, Y., Aoshima, T., Yamauchi, A. and Iijima, M. 1995. Effects of physiological and morphological characteristics of root tips excised from rice seminal roots on subsequent growth in vitro. Japanese Journal of Crop Science. 64 : 622-628. 4.Izumi, Y., Kono, Y., Yamauchi, A. and Iijima, M. 1995. Analysis of timecourse changes in root system morphology of rice in excised root culture. Japanese Journal of Crop Science. 64 : 636-643. 5.Kwak. K.S., Iijima, M., Yamauchi, A. and Kono, Y. 1995. Carbon and nitrogen dynamics with aging in seminal root system of rice seedling. Japanese Journal of Crop Science. 64 : 629-635. 6.Yamauchi, A., Taylor, H.M., Upchurch, D.R. and McMichael, B.L. 1995. Axial resistance to water flow of intact cotton taproots. Agronomy Journal. 87 : 439-445. 7.Mia, M. W., Yamauchi, A. and Kono, Y. 1996. Root system structure of six food legume species: Inter- and intraspecific variations. Japanese Journal of Crop Science. 65:131-140. 8.Izumi, Y., Kono, Y., Yamauchi, A. and Iijima, M. 1996. Timecourse changes in two different topological indices with seminal root system development of rice. Japanese Journal of Crop Science. 65:303-308. 9.Kwak, K. S., Iijima, M. Yamauchi, A. and Kono Y. 1996. Changes with aging in the activities of succinic dehydrogenase and peroxidase in rice seminal root system. Japanese Journal of Crop Science. 65:309-314. 10.Yano, K., Yamauchi, A. and Kono, Y. 1996. Distribution of arbuscular mycorrhizas in peanut root system. Japanese Journal of Crop Science. 65:315-323. 11.Yano, K., Yamauchi, A. and Kono Y. 1996. Modification of root system morphology in a peanut seedling inoculated with arbuscular mycorrhizal fungus, Gigaspora margarita Becker & Hall. Japanese Journal of Crop Science. 65:361-367. 12.Mia, M. W., Yamauchi, A. and Kono, Y. 1996. Plasticity in taproot elongation of several food legume species. Japanese Journal of Crop Science. 65:368-378. 13.Kwak. K. S., Iijima, M., Yamauchi, A. and Kono, Y. 1996. Changes with aging of endogenous abscisic acid and zeatin riboside in the root system of rice. Japanese Journal of Crop Science. 65 : 686-692. 14.Yano, K., Yamauchi, A. and Kono, Y. 1996. Localized alteration in lateral root development in roots colonized by an arbuscular mycorrhizal fungus Mycorrhiza. 6:409-415. 15.Izumi, Y., Kono, Y., Yamauchi, A. and Iijima, M. 1997. Quantitative analysis of the architecture of seminal root system of rice (Oryza sativa L.) grown under different soil moisture conditions. Japanese Journal of Crop Science. 66 :418-426. 16.Izumi, Y., Kono, Y., Yamauchi, A. and Iijima, M. 1997. Genotypic variation in the development of seminal root system of rice under different culture condition in vitro. Japanese Journal of Crop Science. 66:427-435. 17.Grzesiak, S., Iijima, M., Kono, Y. and Yamauchi, A. 1997. Differences in drought tolerance between cultivars of field bean and field pea. Morphological characteristics, germination and seedling growth. Acta Physiologiae Plantarum. 19:339-348. 18.Grzesiak, S., Iijima, M., Kono, Y. and Yamauchi, A. 1997. Differences in drought tolerance between cultivars of field bean and field pea. A comparison of drought-resistant and drought-sensitive cultivars. Acta Physiologiae Plantarum. 19:349-357. 19.Yano, K., Yamauchi, A. and Kono, Y. 1998. Arbuscular mycorrizal formation in undisturbed soil counteracts compacted soil stress for pigeon pea. Applied Soil Ecology. 10:95-102. 20.Inukai, Y., Yamauchi, A., Satoh, H., Nagato Y. and Kitano H.1998. Genetic analysis of induced rice developmental mutants showing radicleless and crown rootless. Rice Genetics Newsletter 15: 88-90. 21.Pardales Jr., J. R., Banoc, D. M., Yamauchi, A., Iijima M. and Kono, Y. 1999. Root system development of cassava and sweetpotato during early growth stage as affected by high root zone temperature. Plant Production Science. 2 (4): 247-251. 22.Rao, T. P., Yano, K. Yamauchi, A. and Tatsumi, J. 2000. A simple method for quantitative estimation of rhizosphere pH along root axes through visualization. Plant Production Science 3 (2): 94-100. 23.Rao, T. P., Yano, K. Yamauchi, A. and Tatsumi, J. 2000. Rhizosphere pH changes induced by exposure of shoot to light. Plant Production Science 3 (2): 101-107. 24.Pardales Jr. J. R., Banoc, D. M., Yamauchi, A., Iijima M., and Esquibel, C. B. 2000. The Effect of Soil Moisture Fluctuation on Root Development During the Establishment Phase of Sweetpotato. Plant Production Science 3(2): 134-139. 25.Wade L. J., Kamoshita, A., Yamauchi, A. and Azhiri-Sigari, T. 2000. Genotypic Variation in Response of Rainfed Lowland Rice to Drought and Rewatering I. Growth and Water Use. Plant Production Science 3(2): 173-179. 26.Azhiri-Sigari, T., Yamauchi, A., Kamoshita, A. and Wade L. J. 2000. Genotypic Variation in Response of Rainfed Lowland Rice to Drought and Rewatering. II. Root growth. Plant Production Science 3(2): 180-188. 27.Kamoshita, A., Wade, L. J. and Yamauchi, A. 2000. Genotypic Variation in Response of Rainfed Lowland Rice to Drought and Rewatering. III. Water extraction during the drought period. Plant Production Science 3(2): 189-196. 28.Banoc, D. M., Yamauchi, A., Kamoshita, A., Wade, L. J. and Pardales, Jr. J. R. 2000. Dry matter production and root system development of rice cultivars under fluctuating soil moisture. Plant Production Science 3 (2): 197-207. 29.Banoc, D. M., Yamauchi, A., Kamoshita, A., Wade, L. J. and Pardales, Jr. J. R. 2000. Genotypic variations in response of lateral root development to fluctuating soil moisture in rice. Plant Production Science 3(3): 335-343. 30.中野明正・上原洋一・山内章. 2000.有機性液肥(コーン スティープ リカー)の施用がトマトの初期生育および根圏環境に与える影響 ー根箱法を用いた検討ー.生物環境調節. 38: 211-219. 31.田中佐知子・山内章・矢野勝也・飯嶋盛雄・巽二郎. 2000.トウモロコシ根系が発揮する可塑性の窒素獲得における意義.根の研究. 9: 167-171. 32.中野明正・上原洋一・山内章. 2001.施設土壌における塩類集積の現状と低硫酸根緩効性肥料による化学ストレスの改善.土壌肥料学会誌. 72: 237-244. 33.中野明正・上原洋一・山内章. 2001.養液土耕法による根圏ストレス軽減がトマトの尻腐れ果発生を抑制する.土壌肥料学会誌. 72: 385-393. 34.中野明正・上原洋一・内藤秀雄・山内章. 2001.有機養液土耕における有機物分解.土と微生物. 55: 21-27. 35.Inukai, Y., Miwa, M., Nagato, Y., Kitano H. and Yamauchi, A. 2001. Characterization of rice mutants deficient in the formation of crown roots. Breeding Science 51 (2): 123-129. 36.Inukai, Y., Miwa, M., Nagato, Y., Kitano H. and Yamauchi, A. 2001. RRL1, RRL2 and CRL2 loci regulating root elongation in rice. Breeding Science 51 (4): 231-239. 37.Rao, T. P., Yano, K., Iijima, M., Yamauchi, A. and Tatsumi, J. 2002. Regulation of rhizosphere acidification by photosynthetic activity in cowpea (Vigna unguiculata L. Walp.) seedlings. Annals of Botany 89: 213-220. 38.Pardales Jr., J. R. and A. Yamauchi 2003. Regulation of root development in sweetpotato and cassava by soil moisture during their establishment period. Plant and Soil. 255: 201-208. 39.Inukai, Y., Miwa, M., Nagato, Y., Kitano H. and Yamauchi, A. 2003. Mechanical stimulus-sensitive mutation, rrl3, affects the cell production process in the root meristematic zone in rice. Plant Production Science. 6: 265-273. 40.Kamoshita. A., R. Rodriguez, A.Yamauchi and L.J. Wade. 2004. Genotypic Variation in Response of Rainfed Lowland Rice to Prolonged Drought and Rewatering. Plant Production Science 7 (4) : 406-420. 41.Bergantin, R. V., A. Yamauchi, J. R. Pardales Jr. and D. M. Bolatete 2004. Screening cassava for resistance to water deficit during crop establishment. Philippine Journal of Crop Science 29 (1): 29-39. 42.Ogawa, A., C. Kawashima and A. Yamauchi 2005. Sugar accumulation along the seminal root axis, as affected by osmotic stress in maize:a possible physiological basis for plastic lateral root development. Plant Production Science 8 (2): 173-180. 43.Siopongco, J. D. L. C., A. Yamauchi, H. Salekdeh, J. Bennett and L. J. Wade 2005. Root Growth and Water Extraction Response of Double-Haploid Rice Lines to Drought and Rewatering During the Vegetative Stage. Plant Production Science 8(5):497-508 44.Ogawa, A. and A. Yamauchi 2006. Root Osmotic Adjustment under Osmotic Stress Conditions in Maize Seedlings. 1. Transient response of growth and water relations in roots to osmotic stress. Plant Production Science 9 (1): 27-38. 45.Ogawa, A. and A. Yamauchi 2006. Root Osmotic Adjustment under Osmotic Stress Conditions in Maize Seedlings. 2. Comparison of time-course accumulation of several solutes for osmotic adjustment in root Plant Production Science 9 (1): 39-46. 46.Siopongco, J. D. L. C., A. Yamauchi, H. Salekdeh, J. Bennett and L. J. Wade. 2006. Growth and Water Use Response of Doubled-Haploid Rice Lines to Drought and Rewatering During the Vegetative Stage. Plant Production Science 9(2):141-151 47.Siopongco, J. D. L. C., K. Sekiya, A. Yamauchi, J. Egdane, A. M. Ismail and L. J. Wade. 2008. Stomatal Responses in Rainfed Lowland Rice to Partial Soil Drying; Evidence for Root Signals. Plant Production Science. 11: 28-41. 48.Suralta. R.R., Inukai, Y. and Yamauchi, A. 2008. Genotypic variations in responses of lateral root development to transient moisture stresses in rice cultivars. Plant Production Science. 11:324-335. 49.Suralta, R.R. and Yamauchi, A. 2008. Root growth, aerenchyma development, and oxygen transport in rice genotypes subjected to drought and waterlogging. Environmental and Experimental Botany 64:75-82. 50.Suralta, R. R., Inukai Y. and Yamauchi, A. 2008, Utilizing chromosome segment substitution lines (CSSLs) for evaluation of root responses under transient moisture stresses in rice. Plant Production Science 11:457-465 51.Siopongco, J. D. L. C., K. Sekiya, A. Yamauchi, J. Egdane, A. M. Ismail and L. J. Wade. 2009. Stomatal Responses in Rainfed Lowland Rice to Partial Soil Drying; Comparison of Two Lines. Plant Production Science 12(1):17-28 52.Wang, H., Siopongco, J. D. L. C, Wade, L. J. and Yamauchi, A. 2009. Fractal Analysis on Root Systems of Rice Plants in Response to Drought Stress. Environmental and Experimental Botany 65:338-344 53. Subere, J. O. Q., Bolatete, D, Bergantin, R., Pardales, A., Belmonte, J. J., Mariscal, A., Sebidos, R and Yamauchi, A. 2009. Genotypic Variation in Responses of Cassava (Manihot esculenta Crantz) to Drought and Rewatering. I. Root System Development. Plant Production Science 12(4):462-474 54. Suralta, R. R., Inukai, Y. and Yamauchi, A. 2010. Dry matter production in relation to root plastic development, oxygen transport and water uptake of rice under transient soil moisture stresses. Plant Soil DOI 10.1007/s11104-009-0275-8; 332:87-104. 55. Kano, M., Inukai, Y., Kitano, H. and Yamauchi. A. 2011. Root plasticity as the key root trait for adaptation to various intensities of drought stress in rice. Plant and Soil. published online: January 15, 2011. doi:10.1007/s11104-010-0675-9. 56. Hayashi, M., Sugiura, K., Kuno,C., Endo, I., Tanaka, Y. and Yamauchi, A. 2011. Reduction of Rice Chalky Grain by Deep and Permanent Irrigation Method; Effect on Growth and Grain Quality of Rice. Plant Prod. Sci. 14(3):282-290. 57. Kano-Nakata, M., Inukai, Y., Wade, L. J., Siopongco, J, D. L. C. and Yamauchi, A. 2011. Root Development, Water Uptake, and Shoot Dry Matter Production under Water Deficit Conditions in Two CSSLs of Rice: Functional Roles of Root Plasticity. Plant Prod. Sci. 14:307-317. 58. Niones, J. M., Suralta, R. R., Inukai, Y. and Yamauchi, A. 2012. Field evaluation on functional roles of root plastic responses on dry matter production and grain yield of rice under cycles of transient soil moisture stresses using chromosome segment substitution lines. Plant and Soil 359:107-120. 59. Niones, J. M., Suralta, R. R., Inukai, Y. and Yamauchi, A. 2013. Roles of root aerenchyma development and its associated QTL in dry matter production under transient moisture stress in rice. Plant Prod. Sci. 16(3):205-216. 60. Kano-Nakata, M., Gowda, V. R. P., Henry, A., Serraj, R., Inukaia, Y., Fujita, D., Kobayashi, N., Suralta, R, R. and Yamauchi, A. 2013. Functional roles of the plasticity of root system development in biomass production and water uptake under rainfed lowland conditions. Field Crops Research. 144: 288-296. 61. Hayashi, M., Hayashi, T., Kuno, C., Tani, T., Endo, I., Higashino, A., Nakata-Kano, M. and Akira Yamauchi. 2013. Enhanced Nitrogen Uptake and Photosynthesis of Rice Grown with Deep and Permanent Irrigation Method: Possible Mechanism for Chalky Grain Reduction. Plant Production Science. 16(4):309-316. 62. Hayashi, T, Yoshida, T., Fujii, K., Mitsuya, S., Tsuji, T., Okada, Y., Hayashi, E., and Yamauchi, A. 2013. Maintained root length density contributes to the waterlogging tolerance in common wheat (Triticum aestivum L.). Field Crops Research. 152:27-35. DOI: 10.1016/j.fcr.2013.03.020. 63. Takuya Koyama, Mika Yoshinaga, Hideki Hayashi, Kei-ichiro Maeda, Akira Yamauchi. 2013.   Identification of key plant traits contributing to the cooling effects of green façades using freestanding walls. Building and Environment. 66:96-103. DOI: 10.1016/j.buildenv.2013.04.020 64. Takei, M., Nakamura, M., Hamada, Y., Ikeda, A., Mitsuya, S., Suralta R. R. and Yamauchi, A. 2014. Assessment of Damage Caused by Two-Striped Leaf Beetle (Medythia nigrobilineata Motschulsky) Larval Feeding of Root Nodules in Soybean and its Control during Furrow Cultivation at Seeding Time. Plant Prod. Sci. 17(3):276-283. 65. Takuya Koyama, Mika Yoshinaga, Kei-ichiro Maeda and Akira Yamauchi. 2014. Room temperature reductions in relation to growth traits of kudzu vine (Pueraria lobata): Experimental quantification. Ecological Engineering 70: 217–226. 66. Thiem Thi Tran, Mana Kano-Nakata, Moe Takeda, Daniel Menge, Shiro Mitsuya, Yoshiaki Inukai and Akira Yamauchi. 2014. Nitrogen application enhanced the expression of developmental plasticity of root system triggered by mild drought stress in rice. Plant Soil. 378: 139-152. 67. Mana Kano-Nakata, Jiro Tatsumi, Yoshiaki Inukai, Shuichi Asanuma and Akira Yamauchi. 2014. Effect of Various Intensities of Drought Stress on δ13C Variation among Plant Organs in Rice: Comparison of Two Cultivars. American Journal of Plant Sciences, 5, 1686-1693. 68. Thiem Thi Tran, Mana Kano-Nakata, Roel Rodriguez Suralta, Daniel Menge, Shiro Mitsuya, Yoshiaki Inukai and Akira Yamauchi. 2015. Root plasticity and its functional roles were triggered by water deficit but not by the resulting changes in the forms of soil N in rice. Plant Soil. 386:65–76. DOI 10.1007/s11104-014-2240-4 69. Wade, L.J., Bartolome, V., Mauleon, R., Vasant, V.D., Prabakar, S.M., Chelliah, M., Kameoka, E., Nagendra, K., Reddy, K.R.K.,Varma, C.M.K, Patil, K.G., Shrestha, R., Al-Shugeairy, Z., Al-Ogaidi, F., Munasinghe, M., Gowda, V., Semon, M., Suralta, R.R., Shenoy V., Vadez,V., Serraj, R., Shashidhar, H.E., Yamauchi, A., ChandraBabu, R., Price, A., McNally, K.L., Henry, A. 2015. Environmental response and genomic regions correlated with rice root growth and yield under drought in the OryzaSNP panel across multiple study systems. PLoS ONE 10(4): 1-25. doi:10.1371/journal.pone.0124127 70. Emi Kameoka, Roel Suralta, Mitsuya Shiro and Akira Yamauchi. 2015. Matching the Expression of Root Plasticity with Soil Moisture Availability Maximizes Rice Productivity under Drought. Plant Production Science. 18(3): 267-276. 71. Jonathan M. Niones, Yoshiaki Inukai, Roel R. Suralta and Akira Yamauchi. 2015. QTL associated with lateral root plasticity in response to soil moisture fluctuation stress in rice. Plant and Soil. , 391, 63-75. DOI:10.1007/s11104-015-2404-x 72. Tani, T., Hayashi, M., Hiraiwa, K., Ochiai, I., Mitsuya, S., Suralta, R. R. and Yamauchi, A. Simultaneous Application of Controlled Availability Fertilizers to Seeding Furrows with Seeding Increases Grain Yield and Quality of No-till Cultivated Common Wheat in Japan. Agricultural Sciences. 6(3): 279-290. 73. 谷俊男・林元樹・遠藤征馬・三屋史朗・林智仁・山内章. コムギ湿害対策のための肥効調節型肥料の基肥時土壌表層施用ならびに速効性窒素追肥の効果. 日本作物学会紀事. 84(3): 256-263. 74. Takuya Koyama, T., Yoshinaga, M., Maeda, K., Yamauchi, A. Transpiration cooling effect of climber green wall with an air gap on indoor thermal environment. Ecological Engineering . 83: 343-353. 75. Wainaina, C. M., Inukai, Y., Masinde, P. W., Ateka, E. M., Murage, H., Kano-Nakata, M., Nakajima, Y., Terashima, T., Mizukami, Y., Nakamura, M., Nonoyama, T., Saka, N., Asanuma, S., Yamauchi, A., Kitano, H., Kimani, J. and Makihara, D. 2015. Evaluation of cold tolerance in NERICAS compared with Japanese standard rice varieties at the reproductive stage. J. Agron. Crop Sci., 201, 461–472, doi:10.1111/jac.12125. 76. Daniel Makori Menge, Emi Kameoka, Mana Kano-Nakata, Akira Yamauchi, Shuichi Asanuma, Hidetoshi Asai, Mayumi Kikuta, Roel Rodriguez Suralta, Takuya Koyama, Thiem Thi Tran, Joel D. L. C. Siopongco, Shiro Mitsuya, Yoshiaki Inukai and Daigo Makihara. 2016. Drought-induced root plasticity of two upland NERICA varieties under conditions with contrasting soil depth characteristics, Plant Production Science. 19: 389-400. DOI: 10.1080/1343943X.2016.1146908 77. Emi Kameoka, Roel Rodriguez Suralta, Shiro Mitsuya and Akira Yamauchi. Developmental Plasticity of Rice Root System Grown under Mild Drought Stress Condition with Shallow Soil Depth; Comparison between Nodal and Lateral roots. Plant Production Science. 19: 411-419.
2.著書
  78.河野恭広・山内 章. 1996.理想的根系と土壌. 植物根系の理想型(山内 章 編).pp. 149-172. 博友社、東京.
  79.山内 章. 1998.根の辞典(根の事典編集委員会 編). pp. 10-12, 33-35, 37-40, 374-375, 380-382.朝倉書店、東京.
  80.山内 章. 2003.理想型根系とは. 根のデザイン原論(森田茂紀 編). 養賢堂、東京pp. 10-17.
  81.山内 章. 2004.根系. 山崎耕宇・久保祐雄・西尾敏彦・石原邦監修. 新編農学大事典. 養賢堂. 668−675. 
  82.Wang, H. and A. Yamauchi. 2006. Growth and Function of Roots under Abiotic Stress in Soil. In Plant-Environment Interactions (3rd) (ed. Huang, B.). CRC Press, New York. pp. 271-320.
  83.山内 章. 2006.環境と共生の思想. 森田茂紀・大門弘幸・阿部 淳編著. 栽培学 −環境と持続的農業—. 朝倉書店. 東京. 192-194.
  84.山内 章.2008. 作物の成長と養水分吸収.大門弘幸 編著.作物学概論.朝倉書店.東京.51-63.
 
3.総説・その他
85.Yamauchi, A., Pardales Jr., J. R. and Kono, Y. 1996. Root system structure and its relation to stress tolerance. In Dynamics of roots and nitrogenin cropping systems of semi-arid tropics (eds. Ito, O. et al.). pp. 211-233. Japan International Research Center for Agricultural Sciences, Tsukuba. 86.山内 章. 1998. 水ストレスに対する植物根系の発育形態学的反応. 農業および園芸. 73:551-556  87.森田茂紀・山内 章. 2000. バーチャル根研究機構の構想. 農業および園芸. 75 (3): 411-416 88.中野明正・上原洋一・山内 章. 2001. 施設野菜生産における根へのストレス緩和技術.根の研究.10 (2): 59-63.  89.市川里紗・山内 章. 2003. 作物根系の水吸収・輸送構造. 農業および園芸. 78 (5): 610-615. 90.山内 章. 2003.水ストレスとバイオマス生産. 温故知新—日本作物学会創立25周年記念総説集(巽二郎・飯嶋盛雄・大門弘幸・宮川修一・三宅博・森田茂紀 編.)122-127. 91.Wang, H., Y. Inukai and A. Yamauchi. Root Development and Nutrient Uptake. Critical Reviews in Plant Sciences. 25: 279-301. 92.山内 章.2007. 作物根と土壌環境.グリーン・エージ.399: 9-13. 93.小川敦史・川島長治・北道欣士・豊福恭子・山内 章. 2007. 浸透圧ストレス条件下での作物根の生育における浸透圧調節,細胞分裂,糖の蓄積機能の生理学的意義. 根の研究. 16(2):47-58. 94.Gowda, V. R. P., Henry, A., Yamauchi, A., Shashidhar, H. E. and Serraj, R. 2011. Root biology and genetic improvement for drought avoidance in rice. Field Crops Res. 122: 1-13. 95.仲田(狩野)麻奈・犬飼義明・林智仁・山内章.2011. 作物生産における理想型根系. 農業および園芸.86 (5): 555-561 96. Mana Kano-Nakata, Roel R. Suralta, Jonathan M. Niones, and Akira Yamauchi. 2012. In Shashidhar HE, Henry A, Hardy B, editors. Methodologies for root drought studies in rice. Los Baños (Philippines): International Rice Research Institute. p. 3-8. 97. Suralta, R. R., Mana Kano-Nakata, Jonathan M. Niones, Yoshiaki Inukai, Emi Kameoka, Thiem Thi Trane, Daniel Menge, Shiro Mitsuya and Akira Yamauchi. 2016. Root plasticity for maintenance of productivity under abiotic stressed soil environments in rice: Progress and prospects. Field Crops Res. http://dx.doi.org/10.1016/j.fcr.2016.06.023
4.国際学会プロシーディングなど
  94.Pardales Jr., J. R., Yamauchi, A., Iijima, M., Banoc, A. M. and Kono, Y. 1996. The influence of high root zone temperature during plant establishment on the development of the root system of cassava and sweet potato. In Crop research in Asia: Achievements and perspective (eds. Ishii, R. and Horie, T.). pp.  612-613. The Crop Science Society of Japan, Tokyo.
  95.Mia, M. D., Yamauchi, A. and Kono, Y. 1996. Root system development of food legumes and their role in ecological adaptation. In Crop research in Asia:Achievements and perspective (eds. Ishii, R. and Horie, T.). pp. 634-635. Crop Science Society of Japan, Tokyo.
  96.Kamoshita, A., Wade, L. and Yamauchi, A. 1999. Prospect for crop-soil research for rainfed lowland rice improvement. In Proceedings of the CSSJ International Symposium"World food Security and Crop Production Technologies for Tomorrow". The Crop Science Society of Japan, Kyoto. 217-220.
  97.Pardales Jr., J. R. and Yamauchi, A. 1999. Factors affecting root crop establishment and productivities: An example of the need to consider a new approach in doing research.In Proceedings of the CSSJ International Symposium "World food Security and Crop Production Technologies for Tomorrow". The Crop Science Society of Japan, Kyoto. 241-246.
  98.Yamauchi, A. Crop-soil system management for sustainable production. In Proceedings of the CSSJ International Symposium "World food Security and Crop Production Technologies for Tomorrow". The Crop Science Society of Japan, Kyoto. 251-252.
  99.Pardales. J. R. Jr., A. Yamauchi, M. A. Quevedol and M. Kadohira. 2004. Rootcrops as Food, Feed and Industrial Materials: The Challenge to Address Their Production and Post-harvest Needs.  In Proceedings of a satellite forum of international forum 2002 The University-Architect of the New Century “Sustainable Agricultural System in Asia: strengthening human resource development program in universities” (eds. Takeya, H., T. Takabe, A. Yamauchi, K. Maeda and E. C. Cedicol). Nagoya University Graduate School of Bioagricultural Sciences, Nagoya University International Cooperation Center for Agricultural Education,Nagoya University Bioscience and Biotechnology Center, Nagoya. 17-28
  100.Yamauchi, A. 2004. Toward sustainable agricultural production system: major issues and needs in research. In Proceedings of a satellite forum of international forum 2002 The University-Architect of the New Century “Sustainable Agricultural System in Asia: strengthening human resource development program in universities” (eds. Takeya, H., T. Takabe, A. Yamauchi, K. Maeda and E. C. Cedicol). Nagoya University Graduate School of Bioagricultural Sciences, Nagoya University International Cooperation Center for Agricultural Education,Nagoya University Bioscience and Biotechnology Center, Nagoya. 53-54.
  101.Wang, H., Y. Inukai, A. Kamoshita, L. J. Wade, J. D. L. C. Siopongco, H. Nguyen and A. Yamauchi. 2005. QTL analysis on plasticity in lateral root development in response to water stress in the rice plant. In The Proceedings of the World Rice Research Conference. Tsukuba, Japan. Toriyama, K., K. L. Heong and B. Hardy (eds.) Rice is life: scientific perspectives for the 21st century. pp. 464-469.
  102.Kanou, M., Y. Inukai, H. Kitano and A. Yamauchi. 2007. Identification of key root traits for adaptation of rice genotypes to various intensities of water stress. In the Proceedings of The 2nd International Conference on Rice for the Future, 5-9 November 2007, Bangkok, Thailand. pp. 216-220.
  103.Akira Yamauchi, Yoshiaki Inukai, Mana Kano, Roel Suralta, Atsushi Ogawa, Nobuya Kobayashi and Rachid Serraj. 2008. Role of roots for stabilizing rice production under water stress conditions. In The Proceedings of the 5th International Crop Science Congress, April 13-18, 2008, Jeju, Korea.
  104.Roa, J., Kadohira, M., Bergantin, R. V., Bolatete, D. M. Jr., Yamauchi, A. 2008. Farmers’ decision making strategies on selecting rootcrop varieties in the Visayas Region, Philippines. Res. Bull. Obihiro Univ. 29: 1-12.
 105. 山内 章.2011. 河野先生を偲んで —作物根系の構造とその機能的意義—.根の研究.20: 19-23.
 
 三屋史朗
 
1.Mitsuya S., Kozaki K., Takabe T. (2013) Tissue localization of the glycine betaine biosynthetic enzymes in barley leaves.  Plant Prod. Sci. 16, 117-122.
2.Yamane K., Mitsuya S., Taniguchi M., Miyake H. (2012) Salt-induced chloroplast protrusion is the process of exclusion of ribulose-1,5-bisphosphate carboxylase/oxygenase from chloroplasts into
cytoplasm in leaves of rice. Plant Cell Environ. 35:1663-1671.
3.Ogawa S., Mitsuya S. (2012) S-methylmethionine is involved in the salinity tolerance of Arabidopsis thaliana plants at germination and early growth stages. Physiol. Plant. 144, 13-19.
4.Mitsuya S., Kuwahara J., Ozaki K., Saeki E., Fujiwara T., Takabe T. (2011) Isolation and characterization of a novel peroxisomal choline monooxygenase in barley. Planta 234, 1215-1226.
5.Fujiwara T., Mitsuya S., Miyake H., Hattori T., Takabe T. (2010) Characterization of a novel glycinebetaine/proline transporter gene expressed in the mestome sheath and lateral root cap cells in barley. Planta 232, 133-143.(6月)
6.Yamane K., Mitsuya S., Taniguchi M. and Miyake H. (2010) Transcription profiles of genes encoding catalase and ascorbate peroxidase in the rice leaf tissues under salinity. Plant Prod. Sci. 13, 164-168. (3月)
7.Mitsuya S., El-Shami M., Sparkes I., Charlton W., De Marcos Lousa C., Johnson B., Baker A. (2010) Salt stress causes peroxisome proliferation, but inducing peroxisome proliferation does not improve NaCl tolerance in Arabidopsis thaliana. PLoS ONE 5, e9408. (2月)
8.Mitsuya S., Yokota Y., Fujiwara T., Mori N. and Takabe T. (2009) OsBADH1 is possibly involved in acetaldehyde oxidation in rice plant peroxisomes. FEBS Lett. 583, 3625-3629.
9.Yamane K., Mitsuya S., Kawasaki M., Taniguchi M., Miyake H. (2009) Antioxidant capacity and damages caused by salinity stress in apical and basal regions of rice leaf. Plant Prod. Sci. 12(3), 319-326.
10.Hattori T., Mitsuya S., Fujiwara T., Jagendorf A. T., Takabe T. (2009) Tissue specificity of glycinebetaine synthesis in barley. Plant Sci. 176, 112-118.
11.Fujiwara T., Hori K., Ozaki K., Yokota Y., Mitsuya S., Ichiyanagi T., Hattori T., Takabe T. (2008) Enzymatic characterization of peroxisomal and cytosolic betaine aldehyde dehydrogenases in barley. Physiol. Plant. 134, 22-30.
12.Hibino T., Fujita M., Shimada T., Uchida A., Yamane K., Mitsuya S., Takabe T. and Takabe T. (2007) Co-expression of cytosolic-DnaK and chloroplastic-fibrillin from halotolerant organisms increased salt tolerance of tobacco plants. J. Research Institute of Meijo Univ. 6, 105-114
13.Mitsuya S., Taniguchi M., Miyake H. and Takabe T. (2006) Overexpression of RCI2A decreases Na+ uptake and mitigates salinity-induced damages in Arabidopsis thaliana plants.  Physiologia Plantarum. 128, 95-102.
14.Mitsuya S., Taniguchi M., Miyake H. and Takabe T. (2006) Disruption of RCI2A leads to over-accumulation of Na+ and increased salt sensitivity in Arabidopsis thaliana plants.  Planta. 222: 1001-1009.
15.Mitsuya S., Kawasaki M., Taniguchi M. and Miyake H. (2003) Light dependency of salinity-induced chloroplast degradation.  Plant Production Science. 6: 219-223.
16.Mitsuya S., Kawasaki M., Taniguchi M. and Miyake H. (2003) Relationship between salinity-induced damages and aging in rice leaf tissues.  Plant Production Science. 6: 213-218.
17.Mitsuya S., Yano K., Kawasaki M., Taniguchi M. and Miyake H. (2002) Relationship between the distribution of Na and the damages caused by salinity in the leaves of rice seedlings grown under a saline condition.  Plant Production Science. 5: 269-274.
18.Mitsuya S., Takeoka Y. and Miyake H. (2000) Effects of sodium chloride on foliar ultrastructure of sweet potato (Ipomoea batatas Lam.) plantlets grown under light and dark conditions in vitro.  Journal of Plant Physiology. 157: 661-667.
1.原著論文
19.Miyake H., Mitsuya S. and Rahman M S. (2006) Ultrastructural effects of salinity stress in higher plants.  In Rai A K. and Takabe T. (eds) Abiotic Stress Tolerance in Plants.  Springer, pp. 215-226.
20.Ueda A., Mitsuya S. and Takabe T. (2005) Identification of salt-responsive genes in monocotyledonous plants. – from transcriptome to functional analysis - In Rai A K. and Takabe T. (eds) Abiotic Stress Tolerance in Plants.  Springer, pp. 31-45.
2.著書
3.総説・その他
21.三屋史朗・藤原崇志・服部侑・高倍鉄子 (2010) イネ科植物オオムギの耐塩性機構における巧みな適合溶質グリシンベタイン利用戦略. 化学と生物 48, 478-484. (7月) 22.高倍鉄子・三屋史朗・内田明男・高倍知子. (2005) 植物の環境ストレス耐性機構とそのシグナル分子過酸化水素の農業への応用. 農林水産技術研究ジャーナル. 28: 5-9. 23.三屋史朗・三宅 博. (2004) 植物の塩ストレス障害はどのようにして起こるのか:光障害と抗酸化能力の秘密. 化学と生物. 42: 309-312.