育種部

育種部では、林木の品種改良及び増殖に関する調査及び研究を行っています。

また、林木育種事業に関する企画、立案及び調査並びに実施に関することを行っています。

研究員

研究内容

• 特定母樹の申請及び優良品種の開発による生産集団の拡充
• ゲノム情報を活用した高速育種等の育種技術の開発
• 適正かつ早期の普及に必要な原種増産およびトレーサビリティ技術の開発
• 気候変動適応品種開発のための選抜技術体系の確立
• 次世代育種集団の構築及びエリートツリーの開発
• 高精度・高効率な表現型評価技術の開発
• 特定母樹等の普及促進のための技術開発と原種の配布

主なプロジェクト

• 気候変動に対応するための農林水産業の温暖化適応技術の開発～農林業における気候変動対応技術～（農水省委託,プロR7~R11)
• 日本全国の林地の林業採算性マトリクス評価技術の開発（農水省委託プロ,R5～R9）
• エリートツリー等の原種増産技術の開発（ヒノキ原種苗木のさし木苗生産技術の開発及びヒノキ採穂木の管理方法等の開発）（林野庁補助事業,R7～R10）
• 採種園等における種子採取開始日の見直しに向けた調査（林野庁委託事業,R6～R10）
• 樹木成長の階層的な調節プロセスの解明による成長予測モデルの構築（科研費,R6～R8）
• 針葉樹に特徴的な地上部アブシシン酸による根の成長フェノロジー制御機構の解明（科研費,R7～R10）
• 鉱山跡地で根系が微生物に感染する自生樹木の成長モデル（科研費,R7～R8）
• 台木のストレス感受性を介した針葉樹における地上部形質への影響（科研費,R8～R10）

林木の新品種の開発

主な業績

• 大平峰子(2024) スギのさし穂長が発根および発根後当年のコンテナ苗の成長に与える影響、日本森林学会誌、106(8):245-250
• Fukatsu E., Kurahara Y., Kurita M., Matsunaga K. (2025) The relationship among stress-wave-based wood stiffness and growth traits revealed by planting density trial with multiple genotypes in Cryptomeria japonica. Journal of Wood Science, 71:47
• Nagano S., Nose M., Takashima Y., Matsushita M., Hiraoka Y., Hirao T. (2025) Drought-responsive transcriptional regulations and expressional marker genes of Japanese cedar, Cryptomeria japonica (L.f.) D. Don, Tree Physiology, 45(1), tpae164
• Nose M., Hiraoka Y., Miura M.（2025）Transcriptomic profiling reveals bud dormancy stage dynamics in Japanese cedar (Cryptomeria japonica) throughout the nongrowing period. Tree Physiology, 45(5), tpaf017
• Matsushita M (2025) Estimation of the optimal seed production management cycle of a miniature seed orchard, based on the crown recovery process and spatiotemporal light variation after pruning. Forests, 16(2):345
• Matsushita M (2025) Combining the optimal grafting methods, seasons and scion donors enhances the conifer grafting success and early supply of the next-generation seedlings. Canadian Journal of Forest Research, 55
• Matsushita M (2025) Advantages and disadvantages of planting seedlings and cuttings vary with environments: Japanese cedar seedlings achieve greater growth and survival rates but inferior stem forms than cuttings. Forest Ecology and Management 579:122495    
• Matsushita M (2026) Age-related trends in the growth performance of seedlings and cuttings of Chamaecyparis obtusa. Canadian Journal of Forest Research, 56
• Matsushita M., Takashima Y., Tamura A (2025) Topography and planting density affect understory plant diversity in conifer plantations through development of stand canopy closure. Canadian Journal of Forest Research, 55
• Matsushita M (2025) Effects of defoliation intensity on the growth and wood properties of Japanese cedar clones in a young plantation. European Journal of Forest Research 144, 1471-1481
• Matsushita M., Tsubomura M., Kimura M., Takahashi Y., Ogawa K.,  Ohira M., Tamura A (2025) The effects of light intensity on the shoot growth, survival, and reproductive traits of Chamaecyparis obtusa clones. New Forests, 56:50
• Matsushita M., Tamura A.,  Takashima Y., Kato K. (2025) Planting advanced-generation seedlings improves growth and survival by mitigating competitive vegetation pressure. Journal of Forestry Research, 36(1):90
• Takahashi Y., Matsushita M., Tamura A., Tsubomura M., Takahashi M (2025) The impact of climate differences between provenances and progeny test sites on growth traits and basic density in Chamaecyparis obtusa (Siebold et Zucc.) Endl. Journal of Forestry Research, 36:32
• Takahashi Y., Matsushita M., Nagano S., Hirao T., Fukatsu E. (2026) Evaluation of stem diameter, Pilodyn penetration, and stress-wave velocity of stem in almost 320 clones of the first-generation plus trees of Chamaecyparis obtusa selected from the Kanto breeding region. Journal of Wood Science, 72: 9
• Takahashi Y., Matsushita M., Tamura A., Tsubomura M., Takahashi M. (2026) Effects of genetics and environment on growth traits and survival rate of Chamaecyparis obtusa planted in four progeny test sites. European Journal of Forest Research, 145:9
• Takahashi Y., Ishiguri F., Takashima Y., Matsushita M., Hiraoka Y., Iki T., Ohshima J., Yokota S. (2025) Inheritance of radial variation of wood properties and bending properties in full-sib families of Japanese cedar (Cryptomeria japonica D. Don). Forestry: An International Journal of Forest Research, cpaf051
• Kamei H., Matsushita M., Yasuda Y., Takashima Y., Fukatsu E., Kusaka M., Rahman Hd. F., Onoda Y. (2025) Analyzing growth variation in 401 genotypes of mature Cryptomeria japonica: The role of crown structure and space use efficiency. Forest Ecology and Management, 595:122986
• Tsubomura M., Matsushita, M., Fukuda Y., Ohira M., Takahashi Y., Kimura M K., Tamura A. (2025) Efficient clonal characterization method for Chamaecyparis obtusa in male strobili production by analyzing various variance components. New Forests, 56:29