JpGU-AGU Joint Meeting 2020

講演情報

[J] ポスター発表

セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS30] 地球科学としての海洋プラスチック

コンビーナ:磯辺 篤彦(九州大学応用力学研究所)、川村 喜一郎(山口大学)、岡崎 裕典(九州大学大学院理学研究院地球惑星科学部門)、土屋 正史(国立研究開発法人海洋研究開発機構 地球環境部門)

[MIS30-P07] Time-course analysis of gene expression of a benthic protist during exposure to titanium dioxide nanoscale particles.

*石谷 佳之1氏家 由利香2Caterina Ciacci3Frontalini Fabrizio3稲垣 祐司1 (1.筑波大学、2.高知大学海洋コア総合研究センター、3.ウルビーノ大学)

キーワード:有孔虫、二酸化チタン・ナノ粒子、発現遺伝子

The engineered nanomaterials have caused serious environmental pollution in the ocean. Marine environmental pollution represents nowadays an international issue, because they potentially destruct the marine ecosystem. Especially along the coast, the inflow and sedimentation from rivers and the convection by tides concentrate such pollutants, leading lethal exposure to the benthic organisms. The accumulation of artificial materials has been reported from many marine vertebrates (fish, turtles, whales, etc.), however few from benthic organisms. Moreover, we have still not known the effect of those materials to life in vitro. Benthic foraminifers, a group of benthic protists play important roles for supporting food web and carbon cycles. They have three unique features: (1) wide distribution in marine and transitional marine environments including polluted area, (2) large-sized cell (> 200 µm), and (3) uptake of external materials into the cell through the pseudopodia. These characters provide us an excellent condition for exposure experiments to test physiological reactions (i.e., stress) of foraminifera to the engineered nanoparticles additive sea-water (Ciacci et al., 2019). This study presents “in vitro” exposure experiments in time-series with foraminiferal culture in titanium dioxide nanoscale particle (TNP) additive sea-water to understand molecular metabolisms against the pollutant. At each of 1, 6, and 24 hours, we observed the time change in biological response with confocal laser scanning microscopy and inspected the expressed gene differences, among the foraminiferal cells. Cell observation indicates high productions of lipids and reactive oxygen species (ROS) in the foraminiferal cell. Our time-course analysis of gene expression also suggests high activity of the biosynthesis of unsaturated fatty acid and ROS quenching. Both experiments show these processes as the key to survive in the polluted area.
Ciacci, C., et al., 2019. Scientific Reports 19(9),19441.