フォトクロミズムを用いた光遮蔽による藻類過剰増殖抑制の可能性

Translated title of the contribution: A Possibility of Control and Prevention of Excessive Phytoplankton Growth by Photochromism

衣川 圭, 衛藤 学, 久場 隆広, 楠田 哲也

Research output: Contribution to journalArticle

Abstract

In the past few decades, eutrophication in closed water areas has been becoming a serious problem on the use of water for drinking, agriculture, recreation, and other purposes. Especially, excessive phytoplankton growth seriously degrades the environment and aquatic ecosystems; algal blooms, lose of oxygen, fish kills, loss of biodiversity, and other problems. This paper intends to investigate control and prevention of the excessive phytoplankton growth by reducing light levels below those necessary for photosynthesis. To shield sunlight, photochromic (PC) films, which show photochromism such as colorless forms turn to colored forms by ultraviolet irradiation, were prepared. The PC films containing Spironaphthoxazine as a photochromic compound showed excellent photocoloration (75 to 80% absorbance at 600nm) under sunlight irradiation, and they maintained the photocoloration ability, at least longer than a month. However the results of algal growth potential tests with the PC films were the oppsite to what we had expected. While the growth of mixed algal cultures was controlled with the PC films under sunlight irradiation, the application of the PC films was not successful for the prevention of pure cultures <i>M. aeruginosa</i> growth. It was probably attributable to the difference between the wavelength for the PC films' maximum absorbance (approximately 600nm) and the available wavelength for photosynthesis (approximately 680nm). The absorbance at 680nm by PC films was approximately 20%.
Translated title of the contributionA Possibility of Control and Prevention of Excessive Phytoplankton Growth by Photochromism
Original languageJapanese
Pages (from-to)932-937
Number of pages6
Journal水環境学会誌 = Journal of Japan Society on Water Environment
Volume22
Issue number11
DOIs
Publication statusPublished - Nov 10 1999

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