教員紹介

助教 佐合 悠貴  Yuki Sago 農学部

研究成果(過去5年間の主な研究業績)

主な査読付き論文

  • 1. Yasutake D., Awata K., Kondo K., Yamane S., Matsuoka M., Maeda M., Nagare H., Nomiyama R., Sago Y., Kitano M. and Fujiwara T. Advantages of pre-harvest temporal flooding in a catch crop field in relation to soil moisture and nutrient salt removal by root uptake. Biologia, 69, 1577-1584, 2014
  • 2. Nomiyama R., Yasutake D., Sago Y. and Kitano M. Transpiration integrated model for root ion absorption under salinized condition. Biologia, 68, 1103-1117, 2013.
  • 3. Sago Y., Kitano M., Hidaka K. and Yasutake, D. Model of ion absorption of roots integrated with water absorption based on theory of enzyme kinetics. Acta Horticulturae, 932, 333-340, 2012.
  • 4. Nomiyama R., Sago Y., Yasutake D. and Kitano M. Application of a kinetic model for analysis of salt absorption of crop roots under the salinized condition. Environment Control in Biology, 50, 153-161, 2012.
  • 5. Sago Y., Yasutake D., Hidaka K., Yasunaga E., Eguchi T., Yoshida S. and Kitano M. Kinetics of root ion absorption affected by environmental factors and transpiration. III. A kinetic model integrated with transpiration. Environment Control in Biology, 49, 41-46, 2011.
  • 6. Sago Y., Yasutake D., Hidaka K., Yasunaga E., Eguchi T., Yoshida S. and Kitano M. Kinetics of root ion absorption affected by environmental factors and transpiration. II. Environmental effects and a concentration-dependent model. Environment Control in Biology, 49, 33-40, 2011.
  • 7. Sago Y., Yasutake D., Hidaka K., Yasunaga E., Eguchi T., Yoshida S. and Kitano M. Kinetics of root ion absorption affected by environmental factors and transpiration. I. Measurement system for intact roots. Environment Control in Biology, 49, 23-31, 2011.

主な学会発表

  • 1. Sago Y., and Yamamoto H. Effects of calcium concentration and temperature in root zone on tipburn development in leaf lettuce. International Symposium on Agricultural Meteorology 2015, Tsukuba, 16-19 March, 2015.
  • 2. 佐合悠貴,清水政仁,西澤美秋,山本晴彦,山内直樹,執行正義.LED赤青光の交互照射によるリーフレタスの生長促進に対する水耕栽培方式の影響.園芸学会平成26年度秋季大会,佐賀,2014年9月27-28日.
  • 3. 佐合悠貴,馬場雅之,野村和輝,山本晴彦.光環境がサラダナのチップバーン発生と葉中Ca濃度に与える影響,2014年生物環境工学会全国大会,東京,2014年9月8-11日.
  • 4. ○Sago Y., Baba M., Nomura K. and Yamamoto H. Effects of light conditions on tipburn development in leaf lettuce. Plant Factory Conference 2014, Kyoto, 10-12 November, 2014.
  • 5. ○Sago Y., Uchimura K., Kamahara H., Atsuta Y., Tokairin T., Saigusa M. and Daimon H.. Effective Use of Biomass Resources for Tomato Production in a Sewage Treatment Plant. 9th IWA International Symposium on Waste Management Problems in Agro–Industries, Kochi, 24-26 November, 2014.
  • 6. ○Sago Y., Baba M., Nomura K. and Yamamoto H. Effects of light conditions on calcium concentration and tipburn development in leaf lettuce. International Symposium on Agricultural Meteorology 2014, Sapporo, March, 2014.
  • 7. ○Sago Y., Kamahara H., Atsuta Y., Daimon H. A plant production system for the effective use of biomass resource in sewage treatment plants. 1. The concept and design of the system. The International Symposium on Growing Media and Soilless Cultivation GroSci 2013, Leiden, June, 2013.
  • 8. ○Sago Y., Kamahara H., Tokairin T., Saigusa M., Atsuta Y. and Daimon H. A proposal for new plant production system for effective use of waste CO2 in sewage treatment plant. Asia-Pacific Interdisciplinary Research Conference 2012, Tahara, November, 2012.
  • 9. ○Sago Y., Yasutake D., Hidaka K. and Kitano M. A Kinetic Model of Root Ion Absorption Integrated with Transpiration for Application to the Sustainable Agriculture. CIGR2011, Tokyo, September, 2011.
  • 10. ○Sago Y., Yasutake D., Hidaka K. and Kitano M. Model of ion absorption of roots integrated with water absorption based on theory of enzyme kinetics. 28th International Horticultural Congress, Lisbon, August, 2010.
  • 11. ○Sago Y., Kitano M., Yasutake D. and Hidaka K. Integration model of water and ion absorption of roots based on theory of enzyme kinetics. 2010, Nagoya, March, 2010.
  • 12. ○Sago Y., Kitano M., Yasutake D. and Hidaka K. Characteristics of ion absorption of intact roots can be explained by theory of enzyme kinetics. International Symposium on Agricultural Meteorology 2009, Koriyama, March, 2009.

受賞

    優秀ポスター賞(日本生物環境工学会2014年大会)