作物増産に貢献する「プラズマ農学」の新展開~種子プライミング、バイオスティムラント技術の総説を発表~

2026-07-13 名古屋大学

名古屋大学と九州大学の研究グループは、非熱大気圧プラズマを利用した「プラズマ農学」の最新研究を総括し、種子プライミングとバイオスティムラント技術の体系的なレビューを発表した。プラズマは空気中で反応性酸素・窒素種(RONS)を生成し、これらが種子や植物に作用することで発芽率や発芽の均一性、初期生育、ストレス耐性、収量の向上を促進する。本総説では、プラズマを自然光を模倣する「人工太陽系」と位置付け、RONSによるシグナル伝達や遺伝子発現制御など植物成長促進の分子機構を整理するとともに、従来の肥料や農薬とは異なる新たなバイオスティムラント技術としての可能性を示した。また、「プラズマ種子科学」を基盤とする学際分野「プラズマ農学」の確立に向けた研究課題や今後の展望を提示している。本成果は、持続可能な農業や食料生産の向上に資する新技術の理論基盤を提供し、環境負荷を抑えた作物増産技術の発展に貢献すると期待される。

作物増産に貢献する「プラズマ農学」の新展開~種子プライミング、バイオスティムラント技術の総説を発表~
非熱プラズマ種子処理による植物成長促進・増収技術の最新動向を整理。

<関連情報>

太陽光からプラズマへ:自然の光を模倣し、よりスマートな農業と作物生産を実現する Sunlight to Plasma: Mimicking nature’s light for smarter agriculture and crop production

Pankaj Attri, Kenji Ishikawa, Kazunori Koga
Journal of Advanced Research  Available online: 17 June 2026
DOI:https://doi.org/10.1016/j.jare.2026.06.015

Highlights

  • Plasma tech for plant growth: transitioning from natural to artificial approaches.
  • Plasma-assisted seed stimulation improves plant growth.
  • Plasma technology generates functional nitrogen for use as a plant fertilizer.

Abstract

Background
Over Earth’s history, the Sun has continuously released coronal mass ejections of plasma that have flowed toward Earth, generating the need for reactive oxygen and nitrogen species (RONS) for plants. On the other hand, engineered plasma interacts with air, generating RONS. Thus, the natural process is simulated using engineered plasma (hereafter, plasma), which acts as an artificial Sun. Plasma agriculture offers a sustainable alternative by leveraging plasma-generated RONS to stimulate plant growth and generate nitrogen fertilizer through eco-friendly methods.

Aim of review
The aim of this review is to provide a comprehensive evaluation of the use of plasma in agriculture to address global food insecurity, exacerbated by climate change and the environmental impacts of chemical-intensive farming. To tackle this issue, two methods are explored: plasma-assisted seed treatment and plasma-assisted nitrogen fixation in soil and water, referred to as plasma fertilizer. Plasma-assisted seed treatment is a pre-sowing technique designed to enhance crop yield and stress tolerance in a variety of important plant species. Conversely, plasma fertilizer serves as an environmentally friendly alternative to conventional fertilizers. This review focuses on identifying the scientific and translational priorities necessary to advance the field toward practical agricultural applications.

Key scientific concepts of review
This review is based on two interconnected concepts. The first is the biology of plasma-generated RONS, which serve as dose-dependent biochemical primers for seeds. At optimal concentrations, RONS initiate a series of responses in seeds, including modifications to the seed coat, increased activity of antioxidant enzymes, rebalancing of the phytohormones that control dormancy release, upregulation of germination-related gene expression, and epigenetic reprogramming. The second concept involves plasma-assisted C–N–H–O chemistry, in which plasma discharges convert atmospheric N2 into forms that are accessible to plants, thereby promoting overall growth. Together, these two concepts illustrate plasma agriculture’s dual role in seed priming and sustainable fertilization.

1204農業及び蚕糸
ad
ad
Follow
ad
タイトルとURLをコピーしました