研究者情報 （国立研究開発法人農業環境技術研究所）

2015年4月現在

氏名

長谷川　利拡 （はせがわ　としひろ）　HASEGAWA, Toshihiro

所属・職名

大気環境研究領域　上席研究員

現在の研究内容

• 環境条件が作物の生育・収量に及ぼす影響の解明とモデル化に関する研究
• 作物の生育・収量に及ぼす遺伝的要因の影響の解明とその評価手法に関する研究

最近の業績（過去10年間）

（原著論文）

• Cheng W, Sakai H, Yagi K, Hasegawa T. 2009. Interactions of elevated [CO₂] and night temperature on rice growth and yield, Agricultural and Forest Meteorology, 149 : 51-58.
• Sawano S, Hasegawa T, Goto S, Konghakote P, Polthanee A, Ishigooka Y, Kuwagata T, Toritani H. 2008. Modeling the dependence of the crop calendar for rain-fed rice on precipitation in Northeast Thailand, Paddy and water environment, (6) : 83-90.
• Hasegawa T, Sawano S, Goto S, Konghakote P, Polthanee A, Ishigooka Y, Kuwagata T, Toritani H, Furuya J. 2008. A model driven by crop water use and nitrogen supply for simulating changes in the regional yield of rain-fed lowland rice in Northeast Thailand, Paddy and water environment, (6) : 73-82.
• Fumoto T, Kobayashi K, Li C, Yagi K, Hasegawa T. 2008. Revising a process-based biogeochemistry model (DNDC) to simulate methane emission from rice paddy fields under various residue management and fertilizer regimes, Global Change Biology, 14 : 382-402.
• Goto S, Kuwagata T, Konghakote P, Polthanee A, Ishigooka Y, Toritani H, Hasegawa T. 2008. Characteristics of water balance in a rainfed paddy field in Northeast Thailand, Paddy and water environment, (6) : 153-157.
• Hayano M, Tada M, Masumoto T, Horikawa N, Kuwagata T, Furuya J, Ishigooka Y, Hasegawa T, Taniguchi T, Shimizu A, Toritani H. 2008. Features of the AFFRC model for evaluating the relationship between the water cycle and rice production, Paddy and water environment, (6) : 15-23.
• Cheng W, Inubushi K, Hoque Md. M, Sasaki H, Kobayashi K, Yagi K, Okada M, Hasegawa T. 2008. Effect of Elevated [CO₂] on soil bubble and CH4 emission from a rice paddy: A test by 13C pulse-labeling under free-air CO₂ enrichment, Geomicrobiology Journal, 25 : 396-403.
• Cheng W, Sakai H, Hartley A, Yagi K, Hasegawa T. 2008. Increased night temperature reduces the stimulatory effect of elevated carbon dioxide concentration on methane emission from rice paddy soil, Global Change Biology, 14 : 644-656.
• Shimono H, Okada M, Yumakawa Y, Nakamura H, Kobayashi K, Hasegawa T. 2008. Genotypic variation in rice yield enhacement by elevated CO₂ relates to growth before heading, and not to maturity group, Journal of Experimental Botany, doi:10.1093/jxb/em288.
• Lou Y, Inubushi K, Mizuno T, Hasegawa T, Lin Y, Sakai H, Cheng W, Kobayashi K. 2008. CH₄ emission with differences in atmospheric CO₂ enrichment and rice cultivars in a Japanese paddy soil, Global Change Biology, 14 : 2678-2687.
• Hashidoko Y, Kitagawa E, Iwahashi H, Purnomo E, Hasegawa T, Tahara S. 2007. Design of sphingomonad-detecting probes for a DNA Array, and its application to investigate the behavior, distribution, and source of rhizospherous sphingomonas and other sphingomonads inhabiting an acid sulfate soil paddock in Kalimantan, Indonesia., Bioscience Biotechnology and Biochemistry （print), 71(2) : 343-351.
• Matsui T, Kobayasi K, Yoshimoto M, Hasegawa T . 2007. Stability of rice pollination in the field under hot and dry conditions in the Riverina region of New South Wales, Australia., Plant Production Science （print）, 10（1) : 57-63.
• Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. 2007. Lodging in rice can be alleviated by atmospheric CO₂ enrichment. , Agriculture Ecosystems & Environment, 118 : 223-230.
• Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. 2007. Rice yield enhancement by elevated CO₂ is reduced in cool weather, Global Change Biology, 14 : 1-9.
• Xie Z, Zhu J, Liu G, Cadisch G, Hasegawa T, Chen C, Tang H, Zeng Q. 2007. Soil organic carbon stocks in China and changes from 1980s to 2000s, Global Change Biology, 13 : 1989-2007.
• Kou T, Zhu J, Xie Z, Hasegawa T, Heiduk K. 2007. Effect of elevated atmospheric CO₂ concentration on soil and root respiration in winter wheat by using a respiration partitioning chamber, Plant and Soil, 299 : 237-249.
• Shimono H, Hasegawa T, Kuwagata T, Iwama K. 2007. Modeling the Effects of Water Temperature on Rice Growth and Yield under a Cool Climate: II. Model Application, Agronomy Journal, 99 : 1338-1344.
• Shimono H, Hasegawa T, Iwama K. 2007. Modeling the Effects of Water Temperature on Rice Growth and Yield under a Cool Climate: I. Model Development, Agronomy Journal, 99 : 1327-1337.
• Cheng W, Yagi K, Akiyama H, Nishimura S, Sudo S, Fumoto T, Hasegawa T, Hartley　 A E, Megonigal J P. 2007. An Empirical Model of Soil Chemical Properties that Regulate Methane Production in Japanese Rice Paddy Soils, Journal of Environmental Quality, 36 : 1920-1925.
• Lou Y, Mizuno T, Kobayashi K, Okada M, Hasegawa T, Hoque Md M, Inubushi K. 2006. CH₄ production potential in a paddy soil exposed to atmospheric CO₂ enrichment. Soil Science and Plant Nutrition, 52 : 769-773.(http://www.blackwell-synergy.com/doi/abs/10.1111/j.1747-0765.2006.00091.x)
• Kobayashi K, Okada M, Kim H Y, Lieffering M, Miura S, Hasegawa T. 2006. Paddy rice responses to free-air [CO₂] enrichment. In Nosberger J, Long S P, Norby R J, Stitt M, Hendrey G R, Blum H, eds. “Managed ecosystems and CO₂: Case studies, processes, and perspectives”, Ecological Studies, 187 : 87-104.
• Borjigidai A, Hikosaka K, Hirose T, Hasegawa T, Okada M, Kobayashi K. 2006. Seasonal changes in temperature dependence of photosynthetic rate in rice under a free-air CO₂ enrichment., Annals of Botany, 97 : 549-557.
• Shimono H, Okada M, Yamakawa Y, Nakamura H, Kobayashi K, Hasegawa T. 2006. Lodging in rice can be alleviated by atmospheric CO₂ enrichment. Agriculture, Ecosystems & Environment, in press.
• Sakai H, Hasegawa T, Kobayashi K. 2006. Enhancement of rice canopy carbon gain by elevated CO₂ is sensitive to growth stage and leaf nitrogen concentration. New Phytologist, 170(2):321-332.
• Almaz B, Hikosaka K, Hirose T, Hasegawa T, Okada M, Kobayashi K. 2006. Seasonal changes in temperature dependence of photosynthetic rate in rice under a free-air CO₂ enrichment. Annals of Botany, 97(4):549 - 557.
• Purnomo E, Mursyid A, Syarwani M, Jumberi A, Hashidoko Y, Hasegawa T, Honma S, Osaki M. 2005. Phosphorus solubilizing microorganisms in the rhizhosphere of local rice varieties grown without fertilizer on acid sulfate soils, Soil Science and Plant Nutrition 51:679-681.
• Shimono H, Hasegawa T, Moriyama M, Fujimura S, Nagata T 2005. Modeling spikelet sterility induced by low temperature in rice. Agronomy Journal, 1524-1536.
• Watanabe T, Hanan J S, Room P M, Hasegawa T, Nakagawa H, Takahashi W. 2005. Rice morphogenesis and plant architecture: Measurement, specification and the reconstruction of structural development by 3D architectural modeling. Annals of Botany, 95:1131-1143.
• Hashidoko Y, Hasegawa T, Purnomo E, Tada M, Limin S H, Osaki M, Tahara S. 2005. Neutral rhizoplane pH of loca rice and some predominant tree species in South and Central Kalimantans: A possible strategy of plant adaptation to acidic-soil. TROPICS, 14:139-148.
• Morita S, Sakagaichi T, Abe J, Kobayashi K, Okada M, Shimono H, Yamakawa Y, Kim HY, Hasegawa T. 2005. Structure and function of rice root system under FACE condition. Journal of Agricultural Meteorology 60:961-964.
• Sakai H, Kim HY, Hasegawa T, Kobayashi K. 2004. Rice yield enhancement by elevated CO₂ negatively correlates with hastened occurrence of heading -Results form five years chamber studies- In Fischer T. et al eds. “New directions for a diverse planet”: Proceedings for the 4th International Crop Science Congress, Brisbane, Australia, 26 September - 1 October 2004. www.cropscience.org.au.
• Hasegawa, T., Okada, M., Inoue, M. and Shimono, H. 2004. Does elevated CO₂ concentration affect lamina length of rice cultivars? In Fischer T. et al eds. “New directions for a diverse planet”: Proceedings for the 4th International Crop Science Congress, Brisbane, Australia, 26 September - 1 October 2004. www.cropscience.org.au.
• Shimono, H., Hasegawa, T., Fujimura, S. and Iwama, K. 2004. Responses of leaf photosynthesis and plant water status in rice to low water temperature at different growth stages. Field Crops Research 89:71-83.
• Kubo, K., Jitsuyama, Y., Iwama, K., Hasegawa, T. and Watanabe, N. 2004. Genotypic difference in root penetration ability by durum wheat (Triticum turgidum L. var. durum) evaluated by a pot with paraffin-Vaseline discs. Plant and Soil 262:169-177.
• Kawakami J, Iwama K, Hasegawa T, Jitsuyama Y. 2003. Growth and yield of potato plants grown from microtubers in fields. American Journal of Potato Research, 80:371-378.
• 福岡峰彦・谷英雄・岩間和人・長谷川利拡・実山豊　2003． 日本の圃場条件下における葉気温較差を用いた作物かんばつ回避性の評価．日本作物学会紀事　72： 461-470.
• 角明夫・長谷川利拡・鈴木義則・箱山晋 2002. 1993年鹿児島市の水稲減収に関連した気象的要因の解析．自然災害科学　 21(3):233-244.
• Shimono H, Hasegawa T, Iwama K 2002. Response of growth and grain yield to cool water at different growth stages in paddy rice. Field Crops Research 73: 67-79.
• Shimono H, Hasegawa T, Iwama K. 2001. Response of growth and grain yield to cool water at different growth stages in paddy rice. ACIAR (Australian Centre for International Agricultural Research) Proceedings. 101:118-128
• 須藤弘嗣・長谷川利拡・岩間和人・林　憲二・茂木紀昭・市川伸次・程　偉東・鄭　虚　2001．　中国西南部におけるトウモロコシの気象潜在生産力評価のための簡易モデルの構築．北海道大学農学部附属農場研究報告　32： 35-45．
• 柏木純一・岩間和人・長谷川利拡　 2000. 　バレイショの実生世代における根長の表現型変異の環境条件に対する安定性．日本作物学会紀事　69： 332-336.
• Shimono H, Hasegawa T, Iwama K. 2000. Quantitative expression of developmental processes as a function of water temperature in rice (Oryza sativa L.). J. Fac.Agr. Hokkaido Univ. 70, 29-40.
• 柏木純一・岩間和人・長谷川利拡・中世古公男　1999. バレイショ交配分離集団の塊茎世代の根量に及ぼす実生世代の根量選抜の効果．北海道大学農学部農場研究報告　31: 1-12．
• Neera P, Katano M, Hasegawa T. 1999. Comparison of rice yield after various years of cultivation by natural farming. Plant Production Science 2:58-64.
• Hasegawa T. 1999. Changes in vertical distribution of leaf nitrogen with the growth stage and the influence on dry matter production in rice. Plant Production Science 2: 37-46.
• Kashiwagi J, Iwama K, Hasegawa T, Nakaseko K. 1999. Selection method for root mass in the first generation derived from true seed in potato. In T. Horie et al. eds., World food security and crop production technology for tomorrow. The Crop Science Society of Japan, Japan. 342-343.
• Hasegawa T, Shimono H, Iwama K, Nakaseko K.1999. Effects of low water temperature on growth and nitrogen uptake in paddy rice. In T. Horie et al. eds., World food security and crop production technology for tomorrow. The Crop Science Society of Japan, Japan. 199-202.
• Iwama K, Hasegawa T, Nakaseko K. 1999. New potato lines with high productivity and drought tolerance. In T. Horie et al. eds., World food security and crop production technology for tomorrow. The Crop Science Society of Japan, Japan. 189-193.

（総説）

• 長谷川利拡・吉本真由美・桑形恒男・石郷岡康史・近藤始彦・石丸努．2009．2007年夏季の水稲の高温不稔調査について．農業および園芸　84(1)：42-45．
• 長谷川利拡　2008． 温暖化環境における作物生産のあり方と展望．農林水産技術研究ジャーナル31(5)：5-8．
• 長谷川利拡　2008．高CO₂濃度環境における水稲生産．植調　42(7)：17-21．
• Kobayashi K, Okada M, Kim HY, Lieffering M, Miura S, Hasegawa T. 2006. Paddy Rice Responses to Free-Air [CO₂] Enrichment. Managed Ecosystems and CO₂. Case Studies, Processes, and PerspectivesSeries: Ecological Studies , Vol. 187, Nösberger, J.; Long, S.P.; Norby, R.J.; Stitt, M.; Hendrey, G.R.; Blum, H. (Eds.) ISBN: 3-540-31236-6.
• 長谷川利拡　2003. 　巽二郎ら編　温故知新（日本作物学会創立75周年記念総説集）　8−1　生育モデル　日本作物学会，東京　178−182．

（著書）

• 長谷川利拡　2009．気候変化がイネを中心とした作物栽培におよぼす影響と適応策．日本農学会編，地球温暖化問題への農学の挑戦　養賢堂，東京　27-47．
• Hasegawa　 T, Wang　Y, Zhu　J, Kobayashi　 K, Okada　 M, Shimono　 H, Yang　L, Kim　H Y, Kobayashi　 T, Sakai　 H, Yoshimoto　 M, Lieffering　 M, Ishiguro　 K. 2007. Response of rice to increasing CO₂ and temperature: Recent findings from large-scale free-air CO₂ enrichment (FACE) experiments, Science, technology, and trade for peace and prosperity, IRRI, 439-447.
• 長谷川利拡　2006． 収量予測とモデリング．森田茂紀・大門弘幸・阿部淳編，栽培学−環境と持続的農業−　朝倉書店，東京　108-112．
• Hasegawa T, Kobayashi K, Lieffering M, Kim HY, Sakai H, Shimono H, Yamakawa Y, Yoshimoto M, Okada M. 2005. Impact of increased source capacity on rice yield: Case study with CO₂ enrichment. In Toriyama K, Heong KL, Hardy B, eds. “Rice is life: scientific perspectives for the 21st century. Proceedings of the World Rice Research Conference held in Tokyo and Tsukuba, Japan, 4-7 November 2004”. Los Baños (Philippines): International Rice Research Institute, and Tsukuba (Japan): Japan International Research Center for Agricultural Sciences. CD. June, 2005.
• 長谷川利拡　2004． 収量予測．農業情報学会編，新農業情報工学．養賢堂，東京　106-107.
• 長谷川利拡　2004． 世界の作物生産と収量．山崎耕宇・久保祐雄・西尾敏彦・石原邦監修，新農学大事典. 　養賢堂，東京　835-837.
• 長谷川利拡　2004． 遺伝的要因と収量．久保祐雄・山崎耕宇・西尾敏彦・石原邦監修，新農学大事典. 　養賢堂，東京　837-845.
• Shimono H, Hasegawa T, Asaishi H, Nishimura T, Mikami M, Jitsuyama Y, Iwama K. 2003. Effects of root pruning and root zone restriction on spikelet fertility of paddy rice ( Oryza sativa L.) under cool water condition. In Abe, J. ed. “Roots: the Dynamic Interface between Plants and the Earth”, Deveopment in Plants and Soil Sciences 101:455-460. December, 2003.
• Hasegawa, T., K. Tanaka, W. Takahashi and R.L. Williams 2001. JAPONICA, a field-level rice growth model, and its use. Proceedings of the NIAES-STA International Workshop 2001 on Crop Monitoring and Prediction at Regional Scales. 85-94.