Effects of Light-Emitting Diode Illumination on Sediment Surface Biological Activities and Releases of Nutrients and Metals to Overlying Water in Eutrophic Lake Microcosms

The release of nutrients and metals from the sediment to the overlying water induced by oxygen depletion is an important issue in eutrophic aquatic systems. Effects of light-emitting diode (LED) illumination on oxygen conditions and release of nutrients and metals from the sediment were examined by...

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Veröffentlicht in:	Water (Basel) 2022-06, Vol.14 (12), p.1839
Hauptverfasser:	Hao, Aimin, Yu, Hong, Kobayashi, Sohei, Xia, Dong, Zhao, Min, Iseri, Yasushi
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Analysis Aquatic environment Benthic fauna Biofilms Bottom water Circuit components Depletion Dissolved oxygen Electrical conductivity Electrical resistivity Eutrophic environments Eutrophic lakes Eutrophic waters Eutrophication Experiments Freshwater resources Illumination Invertebrates Lake sediments Light Light effects Light emitting diodes Manganese Metal industry Metals Microcosms Nutrients Oxygen depletion Periphyton Photosynthesis Rivers Sediments Sediments (Geology) Solutes Water quality
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creator	Hao, Aimin Yu, Hong Kobayashi, Sohei Xia, Dong Zhao, Min Iseri, Yasushi
description	The release of nutrients and metals from the sediment to the overlying water induced by oxygen depletion is an important issue in eutrophic aquatic systems. Effects of light-emitting diode (LED) illumination on oxygen conditions and release of nutrients and metals from the sediment were examined by comparing with those effects of aeration in microcosms using water and sediment of Lake Taihu, China. Periphyton with filamentous algae developed on the sediment surface in the LED (blue wavelength) treatment. Dissolved oxygen became rapidly saturated and gradually supersaturated in the aeration and LED treatments, respectively, but remained low in the control. A thicker oxic layer developed on the sediment for the LED than aeration but was poorly developed with a blackened surface in the control. Invertebrate burrows were distributed deeper and the bacterial community was more dominated by aerobic species in the LED, indicating deeper penetration of oxygen into the sediment. Nutrients (e.g., N and P) and some metals (e.g., Hg, As, and Mn) in water were lower for the LED and aeration than in the control; nutrients and other solutes that increased electric conductivity (e.g., Ca, Mg) were lower for the LED than aeration. These results suggest that LED can effectively oxygenate the bottom water by stimulating algal photosynthesis and benthic invertebrate activity, resulting in greater retention of nutrients and metals in/on sediment compared to aeration.
doi_str_mv	10.3390/w14121839
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Effects of light-emitting diode (LED) illumination on oxygen conditions and release of nutrients and metals from the sediment were examined by comparing with those effects of aeration in microcosms using water and sediment of Lake Taihu, China. Periphyton with filamentous algae developed on the sediment surface in the LED (blue wavelength) treatment. Dissolved oxygen became rapidly saturated and gradually supersaturated in the aeration and LED treatments, respectively, but remained low in the control. A thicker oxic layer developed on the sediment for the LED than aeration but was poorly developed with a blackened surface in the control. Invertebrate burrows were distributed deeper and the bacterial community was more dominated by aerobic species in the LED, indicating deeper penetration of oxygen into the sediment. 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Effects of light-emitting diode (LED) illumination on oxygen conditions and release of nutrients and metals from the sediment were examined by comparing with those effects of aeration in microcosms using water and sediment of Lake Taihu, China. Periphyton with filamentous algae developed on the sediment surface in the LED (blue wavelength) treatment. Dissolved oxygen became rapidly saturated and gradually supersaturated in the aeration and LED treatments, respectively, but remained low in the control. A thicker oxic layer developed on the sediment for the LED than aeration but was poorly developed with a blackened surface in the control. Invertebrate burrows were distributed deeper and the bacterial community was more dominated by aerobic species in the LED, indicating deeper penetration of oxygen into the sediment. 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subjects	Algae Analysis Aquatic environment Benthic fauna Biofilms Bottom water Circuit components Depletion Dissolved oxygen Electrical conductivity Electrical resistivity Eutrophic environments Eutrophic lakes Eutrophic waters Eutrophication Experiments Freshwater resources Illumination Invertebrates Lake sediments Light Light effects Light emitting diodes Manganese Metal industry Metals Microcosms Nutrients Oxygen depletion Periphyton Photosynthesis Rivers Sediments Sediments (Geology) Solutes Water quality
title	Effects of Light-Emitting Diode Illumination on Sediment Surface Biological Activities and Releases of Nutrients and Metals to Overlying Water in Eutrophic Lake Microcosms
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