Effects of Dissolved Organic Matter in Soil Extracts on the Growth of Microalgae

In this study, three soil extracts and seven species of microalgae were prepared and the growth enhancing/inhibiting effects of the addition of the soil extract on microalgae were investigated. The microplate technique was applied for incubation under various conditions, and the specific growth rate...

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Veröffentlicht in:	Journal of Japan Society on Water Environment 2019, Vol.42(6), pp.239-246
Hauptverfasser:	KOMATSU, Kazuhiro, ONOUCHI, Hidemi, IMAI, Akio, KAWASAKI, Nobuyuki, Hashim, Emi Fazlina, Rajuddin, Mohd Kushairi Mohd
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	Algae Dissolved organic matter Emission analysis Environmental studies Excitation emission matrix Fluorescence Forests Growth rate Incubation period Microalgae Microplate technique Molecular size distribution Organic matter Organic soils Phytoplankton Plates Soil Soil extracts Soil investigations Soils Tryptophan
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container_title	Journal of Japan Society on Water Environment
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creator	KOMATSU, Kazuhiro ONOUCHI, Hidemi IMAI, Akio KAWASAKI, Nobuyuki Hashim, Emi Fazlina Rajuddin, Mohd Kushairi Mohd
description	In this study, three soil extracts and seven species of microalgae were prepared and the growth enhancing/inhibiting effects of the addition of the soil extract on microalgae were investigated. The microplate technique was applied for incubation under various conditions, and the specific growth rate of the microalgae was compared between the control medium (the incubated microalgae without the addition of the soil extract) and the soil-added media. In addition, we focused on the characteristics of dissolved organic matter as major factors affecting the microalgal growth effect, and examined which organic characteristics affect the microalgal growth. It was suggested that the soil extract conventionally used in the National Institute for Environmental Studies (SE-N) showed the most marked growth-enhancing effect on microalgae at 25 °C. In addition, the soil extract made from the soil from the Rajamusa Forest Reserve, Malaysia, showed the most marked growth-enhancing effect on microalgae at 30 °C. The characteristics of SE-N on the excitation emission matrix (EEM) of fluorescence analysis were very different from the others because the soil extract had a clear tryptophan-like peak not observed in the others. SE-N also had organic matter of larger molecular size than the others. These characteristics might affect the microalgal growth.
doi_str_mv	10.2965/jswe.42.239
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The characteristics of SE-N on the excitation emission matrix (EEM) of fluorescence analysis were very different from the others because the soil extract had a clear tryptophan-like peak not observed in the others. SE-N also had organic matter of larger molecular size than the others. 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The characteristics of SE-N on the excitation emission matrix (EEM) of fluorescence analysis were very different from the others because the soil extract had a clear tryptophan-like peak not observed in the others. SE-N also had organic matter of larger molecular size than the others. 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The microplate technique was applied for incubation under various conditions, and the specific growth rate of the microalgae was compared between the control medium (the incubated microalgae without the addition of the soil extract) and the soil-added media. In addition, we focused on the characteristics of dissolved organic matter as major factors affecting the microalgal growth effect, and examined which organic characteristics affect the microalgal growth. It was suggested that the soil extract conventionally used in the National Institute for Environmental Studies (SE-N) showed the most marked growth-enhancing effect on microalgae at 25 °C. In addition, the soil extract made from the soil from the Rajamusa Forest Reserve, Malaysia, showed the most marked growth-enhancing effect on microalgae at 30 °C. The characteristics of SE-N on the excitation emission matrix (EEM) of fluorescence analysis were very different from the others because the soil extract had a clear tryptophan-like peak not observed in the others. SE-N also had organic matter of larger molecular size than the others. These characteristics might affect the microalgal growth.</abstract><cop>Tokyo</cop><pub>Japan Society on Water Environment</pub><doi>10.2965/jswe.42.239</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Algae Dissolved organic matter Emission analysis Environmental studies Excitation emission matrix Fluorescence Forests Growth rate Incubation period Microalgae Microplate technique Molecular size distribution Organic matter Organic soils Phytoplankton Plates Soil Soil extracts Soil investigations Soils Tryptophan
title	Effects of Dissolved Organic Matter in Soil Extracts on the Growth of Microalgae
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