風化促進に伴う植物生育促進の鍵となる器官を同定～CO2削減技術 “風化促進” に適応する遺伝的特徴の同定に期待～

2026-02-06

2026-02-06 理化学研究所

理化学研究所の研究グループは、CO₂削減技術として注目される「風化促進」に伴う植物の生育促進において、トライコーム(植物体毛)形成が鍵となる器官であることを明らかにした。橄欖岩の岩粉を含む土壌でモデル植物シロイヌナズナを育成した結果、葉面積が増大し、生育が促進されることを確認。橄欖岩に多く含まれるマグネシウムがトライコームに高蓄積すること、さらにトライコーム欠損変異体では生育促進効果が消失することから、トライコーム形成が必須であると示された。加えて、遺伝子発現解析により、岩粉散布が病原菌応答などのストレス応答を抑制し、成長を促す可能性も示唆された。本成果は、風化促進に適応した植物の遺伝的特徴解明や、作物収量向上、食料安全保障への応用が期待される。成果はJournal of Plant Growth Regulationに掲載された。

橄欖岩の岩粉散布よる植物生育促進(左図)にトライコーム(右図)が関わる

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オリビンによるシロイヌナズナの耐候性促進効果には毛状突起形成が必要である Requirement of Trichome Formation for the Growth-promoting Effects of Olivine for Enhanced Weathering in Arabidopsis thaliana

Minoru Ueda,Daisuke Todaka,Satoshi Takahashi,Junko Ishida,Maho Tanaka,Tokihiro Ikeda,Keiko Suzuki,Misako Miwa,Takeshi Uchiyama,Yasuhiro Ishimaru,Kazuhiro Sayama,Nobuyuki Uozumi,Shigeo Matsuyama,Atsushi J. Nagano,Hidehiko Kikuno & Motoaki Seki
Journal of Plant Growth Regulation Published:06 February 2026
DOI:https://doi.org/10.1007/s00344-026-12048-8

Abstract

Enhanced rock weathering helps remove CO₂ from air and cools the Earth over geological time periods, while also promoting plant growth, but the molecular mechanism underlying enhanced plant growth is unclear. In this study, ionome and transcriptome analyses revealed the importance of trichome formation for the growth-promoting effects of olivine ground to enhance weathering. In Arabidopsis, the application of 10% (w/w) olivine improved plant growth (a 64.2% increase in leaf area) and caused a 24.7% increase in Mg accumulation determined by ICP-AES at 23 days after germination (DAG) under long-day (16 h light/8 h dark cycle) conditions. Elemental maps of olivine-treated plants at 10 DAG produced by micro-particle-induced x-ray emission showed that olivine significantly altered Mg, K, and S accumulation in trichomes on true leaves, suggesting that trichomes may be critical for olivine-induced growth. The growth of glabrous1 (gl1-1 and gl1-4) mutants defective in trichome initiation was not promoted by olivine. A transcriptome analysis of shoots by RNA-seq from wild-type plants at 16 DAG indicated olivine suppressed biotic stress-responsive gene expression. Additionally, Zn homeostasis was disrupted by olivine in gl1 mutants, implying that decreased Zn availability may inhibit the positive effect of olivine on growth. Collectively, our data uncovered the importance of trichomes to the adaptation of plants to soils containing rock-powders for crop improvement and agricultural sustainability and suggest the possibility that applying olivine might modulate the growth–defense trade-off governed by ion homeostasis mediated through trichome development, leading to improved plant growth.