劉利雲LIYUNLIU

Last Updated :2019/10/11

所属・職名
大学院統合生命科学研究科生生・植物生産機能学(生生支援室)助教
メールアドレス
liulyhiroshima-u.ac.jp

基本情報

学位

  • 博士(農学)(広島大学)
  • 修士(農学)(広島大学)

教育活動

授業担当

  1. 2019年, 学部専門, 2ターム, 外書講読
  2. 2019年, 学部専門, 年度, 卒業論文
  3. 2019年, 学部専門, 3ターム, Physiology of Field Crop Production

研究活動

学術論文(★は代表的な論文)

  1. Comparative studies in salinity tolerance between New Zealand Spinach (Tetragonia tetragonioides) and Chard (Beta vulgaris) to salt stress, Agricultural Journal, 5巻, pp. 19-24, 2010
  2. Comparative studies on growth and physiological responses to saline and alkaline stresses of Foxtail millet (Setaria italica L.) and Proso millet (Panicum miliaceum L.), Australian Journal of Crop Science, 5巻, pp. 1269-1277, 2011
  3. Physiological responses of white Swiss chard (Beta vulgaris L. subsp. cicla) to saline and alkaline stresses, Australian Journal of Crop Science, 7巻, pp. 1046-1052, 2013
  4. Effects of 5-aminolevulinic acid on Swiss chard (Beta vulgaris L. subsp. cicla) seedling growth under saline conditions, Plant Growth Regulation, 74巻, pp. 219-228, 2014
  5. Effect of salt stress on Na accumulation, antioxidant enzyme activities and activity of cell wall Peroxidase of Huckleberry (Solanum scabrum) and Eggplant (Solanum melongena), International Journal of Agriculture and Biology, 17巻, pp. 1149-1156, 2015
  6. Effects of drought stress on growth, solute accumulation and membrane stability of leafy vegetable, huckleberry (Solanum scabrum Mill.), Journal of Environmental Biology, 37巻, pp. 107-114, 2016
  7. Growth, water relations, solutes accumulation, and oxidative damage of soybean (Glycine max L. Merrill) and maize (Zea Mays L.) under drought stress, Sylwan, 160巻, pp. 158-169, 2016
  8. Na+ retention in the roots is a key adaptive mechanism to low and high salinity in the glycophyte, Talinum paniculatum (Jacq.) gaertn. (Portulacaceae), Journal of Agronomy and Crop Science, 203巻, pp. 56-67, 2017
  9. Beneficial effects of potassium on growth, water relations, mineral accumulation, and oxidative damage of Beta vulgaris L. in sodic-alkaline condition, International Journal of Agricultural and Biology, 19巻, pp. 131-139, 2017
  10. ★, Effects of 5-aminolevulinic acid on water uptake, ionic toxicity, and antioxidant capacity of Swiss chard (Beta vulgaris L.) under sodic-alkaline conditions, Journal of Plant Nutrition and Soil Science, 180巻, pp. 535-543, 2017
  11. Comparative performance of two bread wheat (Triticum aestivum L.) genotypes under salinity stress, Applied Ecology and Environmental Research, 17巻, 2号, pp. 5029-5041, 2019
  12. Effects of NaHCO3 Acclimation on Rye (Secale Cereale) Growth Under Sodic-Alkaline Stress, Plants, 8巻, 9号, 2019

招待講演、口頭・ポスター発表等

  1. Growth, water relations, solute accumulation, and oxidative damage of two Chinese oat (Avena sativa L.) cultivars under salinity, Liu Liyun, Ahmad Mohammad M. Mekawy, Mohammad S. Noori, Akihiro Ueda, Hirofumi Saneoka, The 7th Japan-China-Korea Grassland Conference, 2018年07月10日, 通常, 英語
  2. Grass oat (Avena sativa L.) Caoyou 1 is more sodic-alkaline tolerance than edible oat Yanke 1, Liu Liyun, Petchphankul Nateetorn, 2019年03月26日, 通常, 英語
  3. Effects of 5-aminolevulinic acid on development and salt tolerance in white Swiss chard ((Beta vulgaris L. var. cicla)., Liu Liyun, Assaha DVM, Ueda A, Saneoka H, Soil Science and Plant Nutrition Conference, 2012年12月06日, 通常, 英語
  4. Effects of 5-aminolevulinic acid on alkalinity tolerance in Swiss chard (Beta vulgaris L. subsp. cicla) seedlings in alkaline conditions, Liu Liyun, Assaha DVM, Ueda A, Saneoka H, 2016 Spring World Congress on Engineering and Technology, 2016年04月19日, 通常, 英語

社会活動

学術会議等の主催

  1. 2019年度日本草地学会広島大会, 大会実行委員, 2019年03月

その他社会貢献活動(広大・部局主催含)

  1. タイにおけるイネ生産とストレス耐性向上のための育種, フダンソウの高塩および高塩アルカリストレス耐性, 次世代を救う広大発Green Revolutionを創出する植物研究拠点, 2018年/10月/24日, 東広島