◯近藤始彦  Kondo, Motohiko

 

・Kondo M. and Yasuda M. (2003) Seasonal changes in N2 fixation activity and N enrichment in paddy soils as affected by soil management in the northern area of Japan. JARQ 37: 105-111.

・Ishimaru T., Hirabayashi H., Ida M., Takai T., Arai-Sanoh Y., Yoshinaga S., Ando I., Ogawa T. and Kondo M. (2010) A genetic resource for early-morning flowering trait of wild rice Oryza officinalis to mitigate high temperature-induced spikelet sterility at anthesis. Ann. Bot. 106: 515-520.

・Hasegawa T., Ishimaru T., Kondo M., Kuwagata T., Yoshimoto M. and Fukuoka M. (2011) Spikelet sterility of rice observed in the record hot summer of 2007 and the factors associated with its variation. J. Agric. Meterol. 67: 225-232.

・Ohsumi A., Takai T., Ida M., Yamamoto T., Arai-Sanoh Y., Yano M., Ando T. and Kondo M. (2011) Evaluation of yield performance in rice near-isogenic lines with increased spikelet number. Field Crop. Res. 120: 68-75.

・Yoshinaga S., Takai T., Arai-Sanoh Y., Ishimaru T. and Kondo M. (2013) Varietal differences in sink production and grain-filling ability inrecently developed high-yielding rice (Oryza sativa L.) varieties in Japan. Field Crop. Res. 150: 74-82.

・Arai-Sanoh Y., Takai T., Yoshinaga S., Nakano H., Kojima M., Sakakibara H., Kondo M. and Uga Y. (2014) Deep rooting conferred by DEEPER ROOTING 1 enhances rice yield in paddy fields. Sci. Rep. 4: 5563.

・Kondo M., Makino T., Eguchi T., Goto A., Nakano H., Takai T., Arai-Sanoh Y. and Kimura T. (2015) Comparative analysis on relationship between Cs and K in soil and plant parts toward control of Cs

accumulation in rice. Soil Sci. Plant Nutr. 61: 144-151.

 

◯矢野勝也  Yano, Katsuya

 

・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.

・Yano, K., Yamauchi, A., Iijima, M. and Kono, Y. (1998) Arbuscular mycorrhizal formation in undisturbed soil counteracts compacted soil stress for pigeon pea. Applied Soil Ecology 10: 95–102.

Shibata, R. and Yano, K. (2003) Phosphorus acquisition from non-labile sources in peanut and pigeonpea with mycorrhizal interaction. Applied Soil Ecology 24: 133–141.

・Sekiya, N. and Yano, K. (2004) Do pigeon pea and sesbania supply groundwater to intercropped maize through hydraulic lift? –Hydrogen stable isotope investigation of xylem waters. Field Crops Research 86: 167–173.

・Tanaka, Y. and Yano, K. (2005) Nitrogen delivery to maize via mycorrhizal hyphae depends on the form of N supplied. Plant, Cell & Environment 28: 1247–1254.

・Yano, K. and Takaki, M. (2005) Mycorrhizal alleviation of acid soil stress in the sweet potato (Ipomoea batatas). Soil Biology & Biochemistry 37: 1569–1572.

・Kume, T., Sekiya, N. and Yano, K. (2006) Heterogeneity in spatial P-distribution and foraging capability by Zea mays: Effects of patch size and barriers to restrict root proliferation within a patch. Annals of Botany 98: 1271–1277.

・Sekiya, N. and Yano, K. (2008) Stomatal density of cowpea correlates carbon isotope discrimination in different phosphorus, water and CO2 environments. New Phytologist 179: 799–807.

・Sekiya, N. and Yano, K. (2010) Seed P-enrichment as an effective P supply to wheat. Plant and Soil 327: 347-354.

・Sekiya, N., Araki, H. and Yano, K. (2011) Applying hydraulic lift in an agroecosystem: forage plants with shoots removed supply water to neighboring vegetable crops. Plant and Soil 341: 39-50.

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◯杉浦大輔  Sugiura, Daisuke

･Ozawa Y, Tanaka A, Suzuki T, Sugiura D. (2023) Sink–source imbalance triggers delayed photosynthetic induction: Transcriptomic and physiological evidence. Physiologia Plantarum 175 (5), e14000,

･Ozeki K, Miyazawa Y, Sugiura D. (2022) Rapid stomatal closure contributes to higher water use efficiency in C4 compared to C3 major Poaceae crops. Plant Physiology 189 (1), 188-203.

･Fukuda S, Koba K, Okamura M, Watanabe Y, Hosoi J, Nakagomi K, Maeda H, Kondo M,Sugiura D. (2021) Novel technique for non-destructive LAI estimation by continuous measurement of NIR and PAR in rice canopy. Field Crops Research 263,108070.

･Sugiura D, Terashima I, Evans JR. (2020) A decrease in mesophyll conductance by cell wall thickening contributes to photosynthetic down-regulation. Plant Physiology 183:1600-1611.

･Mizokami Y, Sugiura D, Betsuyaku E, Watanabe CKA, Inada N, Terashima I.(2019) Elevated CO2-induced changes in mesophyll conductance and anatomical traits in wild type and carbohydrate metabolism mutants of Arabidopsis thaliana. Journal of Experimental Botany 70: 4807-4818.

･Sugiura D, Betsuyaku E, Terashima I. (2018) Interspecific differences in how sink-source imbalance causes photosynthetic down-regulation among three legume species. Annals of Botany 123: 715-726.

･Sugiura D, Watanabe CK, Betsuyaku E, Terashima I. (2017) Sink-source balance and down-regulation of photosynthesis in Raphanus sativus: effects of grafting, N, and CO2. Plant and Cell Physiology 58 (12): 2043-2056.

･Sugiura D, Kojima M, Sakakibara H. (2016) Phytohormonal regulation of biomass allocation and morphological and physiological traits of leaves in response to environmental changes in Polygonum cuspidatum. Frontier in Plant Science 7: 1189.
･Sugiura D, Betsuyaku E, Terashima I. (2015) Manipulation of the hypocotyl sink activity by reciprocal grafting of two Raphanus sativus varieties: its effects on morphological and physiological traits of source leaves and whole-plant growth. Plant, Cell & Environment 38: 2629-2640.